PDS_VERSION_ID = PDS3 RECORD_TYPE = FIXED_LENGTH RECORD_BYTES = 80 FILE_RECORDS = 7463 DATA_SET_ID = "MEX-M-MRS-1/2/3-EXT6-3892-V1.0" PRODUCT_ID = "TNF_SIS" PRODUCT_CREATION_TIME = 2017-11-10T07:29:05.000 OBJECT = TEXT PUBLICATION_DATE = 2002-12-15 NOTE = "Deep Space Mission System External Interface Specification for TRK-2-34 radio metric tracking data delivered to navigation and radio science. Document converted to text-only for PDS archiving by R. Simpson 2003-04-21. Editorial corrections 2003-05-02." END_OBJECT = TEXT END 820-013 Deep Space Mission System (DSMS) External Interface Specification JPL D-16765 TRK-2-34 DSMS Tracking System Data Archival Format Original Release: April 30, 2000 Revision B: December 15, 2002 Document Owner: Signature on File in DSMS Library ______________________________ ________ Jeff B. Berner Date Service System Development Engineer, Telecommunications Services Signature on File in DSMS Library ______________________________ ________ Tomas J. Martin-Mur Date Service System Development Engineer, Tracking & Navigation Services Approved by: Signature on File in DSMS Library ______________________________ ________ L.A. Cangahuala Date Service System Manager, Tracking & Navigation Services Signature on File in DSMS Library ______________________________ ________ Susan Kurtik Date Service System Manager, Telecommunications Services Signature on File in DSMS Library ______________________________ ________ Wallace Tai Date Manager, DSMS Systems Engineering and Standards Office Signature on File in DSMS Library ______________________________ ________ J. Stipanuk Date Interface Engineer and Release Authority Prepared By: Signature on File in DSMS Library ______________________________ ________ Jeff B. Berner Date Service System Development Engineer, Telecommunications Services Reviewed By: Signature on File in DSMS Library ______________________________ ________ Dana Flora-Adams Date Tracking Data Delivery Service CDE Signature not available ______________________________ ________ Charles Ruggier Date DSMS System Engineering Signature on File in DSMS Library ______________________________ ________ V.I. Altunin Date Telecommunications & Mission Services Manager (RADIOASTRON, 70m CoObsI, HALCA) Signature not available ______________________________ ________ R.D. Benson Date Telecommunications & Mission Services Manager Signature not available ______________________________ ________ P.E. Beyer Date Telecommunications & Mission Services Manager Signature not available ______________________________ ________ A.F. Chang Date Telecommunications & Mission Services Manager Signature not available ______________________________ ________ R.L. Gillette Date Telecommunications & Mission Services Manager Signature on File in DSMS Library ______________________________ ________ D.P. Holmes Date Telecommunications & Mission Services Manager Signature not available ______________________________ ________ K. Moyd Date Telecommunications & Mission Services Manager Signature not available ______________________________ ________ P.T. Poon Date Telecommunications & Mission Services Manager Signature not available ______________________________ ________ S. Waldherr Date Telecommunications & Mission Services Manager Signature not available ______________________________ ________ B.G. Yetter Date Telecommunications & Mission Services Manager Signature not available ______________________________ ________ David Reece Date DSMS Chief Operations Engineer Signature on file in DSMS Library ______________________________ ________ Michael Levesque Date Service System Development Engineer, Telecommunications Services Signature not available ______________________________ ________ Jeremy Jones Date Cassini Navigation Signature not available ______________________________ ________ Pat Esposito Date MSOP Navigation Signature not available ______________________________ ________ Jordan Ellis Date Multimission Navigation Signature not available ______________________________ ________ Steve Flanagan Date Project Element Manager (PEM), Next Generation Navigation Software Signature not available ______________________________ ________ Bobby Williams Date NEAR Navigation Signature on file in DSMS Library ______________________________ ________ Sami Asmar Date Radio Science Systems Group Signature not available ______________________________ ________ Michael Connally Date DSN Science Advisor |===========================================================================| | CHANGE LOG | |===========================================================================| | Revision|Issue Date| Pages/ | Change Summary | | | | Sections | | | | | Affected | | |=========+==========+============+=========================================| |New issue|04/30/2000| All | | |---------+----------+------------+-----------------------------------------| | A |05/31/2002| All |Updated data blocks, added/corrected text| | | | | descriptions | |---------+----------+------------+-----------------------------------------| | B |12/15/2002|Sections 1, |Corrected typos; added file header | | | |2 and 3; | description (Appendix B) | | | |Appendices | | | | |A and B | | |---------+----------+------------+-----------------------------------------| | | | | | |---------+----------+------------+-----------------------------------------| | | | | | |---------+----------+------------+-----------------------------------------| | | | | | |===========================================================================| CONTENTS Section Page 1 Introduction 1- 1 1.1 Purpose and Scope 1- 1 1.1.1 Applicability of This Release 1- 1 1.2 Revision and Control 1- 1 1.3 Relationship to Other DSMS Documents 1- 1 1.4 Applicable Documents 1- 2 1.5 Notation and Conventions 1- 2 1.5.1 Terminology 1- 2 1.5.2 Conventions 1- 4 1.6 Abbreviations 1- 5 2 Functional Overview 2- 1 2.1 General Description 2- 1 2.2 Operational Concept 2- 1 2.3 Equipment 2- 2 3 Detailed Interface Description 3- 1 3.1 Data Definition 3- 1 3.1.1 Tracking Data SFDU Label 3- 2 3.1.2 Aggregation CHDO Label 3- 3 3.1.3 Primary CHDO 3- 4 3.1.4 Secondary CHDOs 3- 5 3.1.4.1 Secondary CHDO 134 (Derived Data Types) 3- 6 3.1.4.2 Secondary CHDO 132 (Uplink Data Types) 3-10 3.1.4.3 Secondary CHDO 133 (Downlink Data Types) 3-13 3.1.4.4 Secondary CHDO 135 (Interferometric Data Types) 3-17 3.1.4.5 Secondary CHDO 136 (Filtered Data Types) 3-20 3.1.5 Tracking Data CHDOs 3-23 3.1.5.1 Uplink Data CHDOs 3-24 3.1.5.1.1 Uplink Carrier Phase CHDO (Data Type 0) 3-25 3.1.5.1.2 Uplink Sequential Ranging Phase CHDO (Data Type 2) 3-26 3.1.5.1.3 Uplink PN Ranging Phase CHDO (Data Type 4) 3-29 3.1.5.1.4 Ramp CHDO (Data Type 9) 3-32 3.1.5.2 Downlink Data CHDOs 3-34 3.1.5.2.1 Downlink Carrier Phase CHDO (Data Type 1) 3-34 3.1.5.2.2 Downlink Sequential Ranging Phase CHDO (Data Type 3) 3-39 3.1.5.2.3 Downlink PN Ranging Phase CHDO (Data Type 5) 3-44 3.1.5.3 Derived Data CHDOs 3-50 3.1.5.3.1 Doppler Count CHDO (Data Type 6) 3-50 3.1.5.3.2 Sequential Range CHDO (Data Type 7) 3-55 3.1.5.3.3 Angle CHDO (Data Type 8) 3-59 3.1.5.3.4 DRVID CHDO (Data Type 11) 3-61 3.1.5.3.5 PN Range CHDO (Data Type 14) 3-62 3.1.5.3.6 Tone Range CHDO (Data Type 15) 3-66 3.1.5.3.7 Carrier Frequency Observable CHDO (Data Type 16) 3-67 3.1.5.3.8 Total Count Phase Observable CHDO (Data Type 17) 3-69 3.1.5.4 Interferometric Data CHDOs 3-71 3.1.5.4.1 VLBI CHDO (Data Type 10) 3-71 3.1.5.5 Filtered Data CHDOs 3-72 3.1.5.5.1 Smoothed Noise CHDO (Data Type 12) 3-72 3.1.5.5.2 Allan Deviation CHDO (Data Type 13) 3-74 3.2 Dependencies 3-75 Appendix A Notes A- 1 Appendix B File Format B- 1 B.1 LVO Structure of Files B- 1 B.2 Physical Layout of Files B- 1 B.2.1 Primary SFDU Label B- 3 B.2.2 K-Header (or K-Object) B- 4 B.2.2.1 K-Header SFDU Label B- 4 B.2.3 I-Object SFDU Label B- 7 B.2.4 Binary Data Object B- 8 B.2.5 End of File (EOF) B- 8 Figure Page Figure 3-1 LVO Structure of the Tracking Data SFDU 3- 1 Figure 3-2 Physical Layout of the Tracking Data SFDU 3- 2 Figure B-1 LVO Structure of Files B- 1 Figure B-2 File Layout B- 2 Figure B-3 Sample Header of File B- 3 Table Page Table 3- 1 Tracking SFDU Label Definitions 3- 2 Table 3- 2 Aggregation CHDO Label Definitions 3- 4 Table 3- 3 Primary CHDO Definitions 3- 4 Table 3- 4 Secondary CHDO 134 Definitions 3- 6 Table 3- 5 Secondary CHDO 132 Definitions 3-10 Table 3- 6 Secondary CHDO 133 Definitions 3-13 Table 3- 7 Secondary CHDO 135 Definitions 3-17 Table 3- 8 Secondary CHDO 136 Definitions 3-20 Table 3- 9 Uplink Carrier Phase CHDO (Data Type 0) Definitions 3-25 Table 3-10 Uplink Sequential Ranging Phase CHDO (Data Type 2) Definitions 3-27 Table 3-11 Uplink PN Ranging Phase CHDO (Data Type 4) Definitions 3-29 Table 3-12 Ramp CHDO (Data Type 9) Definitions 3-33 Table 3-13 Downlink Carrier Phase CHDO (Data Type 1) Definitions 3-34 Table 3-14 Downlink Sequential Ranging Phase CHDO (Data Type 3) Definitions 3-40 Table 3-15 Downlink PN Ranging Phase CHDO (Data Type 5) Definitions 3-44 Table 3-16 Doppler Count CHDO (Data Type 6) Definitions 3-50 Table 3-17 Sequential Range CHDO (Data Type 7) Definitions 3-55 Table 3-18 Angle CHDO (Data Type 8) Definitions 3-60 Table 3-19 DRVID CHDO (Data Type 11) Definitions 3-61 Table 3-20 PN Range CHDO (Data Type 14) Definitions 3-62 Table 3-21 Tone Range CHDO (Data Type 15) Definitions 3-66 Table 3-22 Carrier Frequency Observables CHDO (Data Type 16) Definitions 3-67 Table 3-23 Total Count Phase Observable CHDO (Data Type 17) Definitions 3-69 Table 3-24 VLBI CHDO (Data Type 10) Definitions 3-71 Table 3-25 Smoothed Noise CHDO (Data Type 12) Definitions 3-72 Table 3-26 Allan Deviation CHDO (Data Type 13) Definitions 3-74 Table B- 1 Primary SFDU Label B- 3 Table B- 2 K-Header (or K-Object) SFDU Label B- 4 Table B- 3 Catalog Information (Value Field of the K-Object) B- 5 Table B- 4 I-Object SFDU Label B- 7 Section 1 Introduction 1.1 Purpose and Scope This module specifies the format and content of radio metric tracking data delivered to navigation and radio science customers from the Telecommunications Services. The method of delivery of the data is outside the scope of this document. TRK-2-34 is essentially a consolidation of the data that are currently contained in the TRK-2-15A, TRK-2-18, TRK-2-20, TRK-2-25, and TRK-2-30 products delivered to customers. 1.1.1 Applicability of This Release This module will supersede the TRK-2-15A module, as the MDAs are retired, and the TRK-2-25 module as the Radio Metric Data Conditioning (RMDC) process is retired. This release corrects typos and adds description of the file header format. Certain parameters may not be available in initial TRK-2-34 output. These parameters will be marked as invalid (using validity flags) in the data or not delivered (in the case of certain data types, such as Allan deviation and smoothed noise). 1.2 Revision and Control Revisions or changes to the information herein presented may be initiated according to the procedure specified in the Introduction to Document 820-013. 1.3 Relationship to Other DSMS Documents Currently, TRK-2-15A is generated by the Metric Data Assembly (MDA) of the DSCC Tracking Subsystem (DTK). In the Network Simplification Project (NSP) era, the MDAs will be replaced by the Uplink Tracking and Command Subsystem (UPL) and the Downlink Telemetry and Tracking Subsystem (DTT). As a result, TRK-2-15A will not be available. TRK-2-34 replaces TRK-2-25 as the archival format. TRK-2-20 and TRK-2-30 will continue to be available to the customers. 1.4 Applicable Documents [1] 820-062 DSMS Terms and Abbreviations (DSMS internal document, for reference only.) [2] 813-109, D-17818 Preparation Guidelines and Procedures for Deep Space Mission System (DSMS) Interface Specifications (DSMS internal document, for reference only.) [3] 820-013, D-16765 DSMS External Interface Specification (http://jaguar.jpl.nasa.gov) [3a] OPS-6-21A Standard Code Assignments [3b] 0171-Telecomm-NJPL SFDU Global Definitions [3c] 0180-Data_Manage DSMS DOM Electronic Access for External Users [3d] 0183-Telecomm-TDS TDS Query Protocol Specification [4] SFOC-5-SYS-*DU-NJPL NJPL SFDU Global Definitions (DSMS internal document, for reference only; to be replaced by Reference [3b].) [5] 820-013, Module DSMS External Interface Specification-DSMS Created 0172-Telecomm-CHDO CHDO Structures [6] CCSDS 620.0-B-2 CCSDS Recommendation for Space Data System Standards-Standard Formatted Data Units-Structure and Construction Rules (Issue 2, May 1992) [7] ANSI T-49-12 ANSI/IEEE STD 754-1985-IEEE Standard for Binary Floating-Point Arithmetic [8] ANSI X3.4-1986 Information Systems - Coded Character Sets - 1 Bit (R1997) American National Standard Code for Information Interchange (7-Bit ASCII) [9] ISO/IEC 646-1991 Information Technology - ISO 7-bit Coded Character Set for Information Interchange [10] 810-047 DSN Antenna and Facility Identifiers (DSMS internal document, for reference only.) 1.5 Notation and Conventions 1.5.1 Terminology Many of the terms used in this module are taken from the literature describing the Standard Formatted Data Unit (SFDU) concept (e.g., Reference [5] and Reference [6]). The SFDU concept was developed by the Consultative Committee for Space Data Systems (CCSDS) to provide a standardized and internationally recognized methodology for information interchange. Because the SFDU concept evolved over time, the meaning of some terms has evolved. The definitions provided herein are intended to clarify the use of certain terms as they apply to this module: a) The term ASCII refers to the American Standard Code for Information Interchange, a seven-bit code for representing letters, digits, and symbols which has been standardized by the American National Standards Institute (Reference [8]). This code has been incorporated into the ISO code of the same nature (Reference [9]) which includes other symbols and alphabets. Since the ISO code is an eight-bit code, the ASCII code is embedded in an eight-bit field in which the most significant bit is set to zero. In this module, ASCII always refers to the seven-bit ASCII code embedded, as described, in an eight- bit field. When applied to a multi-byte field, it implies that each byte in the field contains an ASCII code. b) The term restricted ASCII (RA) refers to the subset of ASCII consisting of the codes for the twenty-six upper-case letters ('A'-'Z') and the ten decimal digits ('0'-'9'). When applied to a multi-byte field, it implies that each byte in the field contains an RA code. c) A label-value-object (LVO) is a data structure that is comprised of a label field and a value field. The label field provides for the data structure to be self-identifying and self-delimiting. The value field contains user-defined data in any format. The LVOs themselves are made up of a sequence of bytes. In this module, LVO is used in a generic sense to refer to any data structure with these attributes. d) An LVO may be a simple LVO or a compound LVO. If the value field of the LVO contains purely user data, it is a simple LVO. If the value field of the LVO contains purely LVOs, it is a compound LVO. The value field of a compound LVO consists of a sequence of one or more LVOs, each of which can be a simple or compound LVO itself. e) A standard formatted data unit (SFDU) is an LVO that conforms to a defined set of structure and construction rules, namely the specification in Reference [5] or the specification in Reference [6]. Unfortunately, the two specifications are slightly different, leading to two different definitions of what an SFDU is. The term DSN tracking SFDU (or, more simply, tracking SFDU) refers to the SFDU defined and controlled by this module. The DSN tracking SFDU conforms to the structure and construction rules specified in Reference [5]. It does not strictly conform to the internationally recognized SFDU structure and construction rules recommended by CCSDS in Reference [6]. f) A compressed header data object (CHDO), as defined in Reference [5], is an LVO. Its design is modeled on the SFDU concept, but a CHDO is not an SFDU. The CHDO derives its name from the fact that the label field of a CHDO is considerably shorter than the label field of an SFDU (four bytes instead of twenty). The CHDO provides a means of structuring user data with less overhead than would be required if an SFDU were used. However, with respect to SFDU structure and construction rules, a CHDO (or a sequence of CHDOs) is merely user data contained in the value field of an SFDU. g) The term type attribute is used to refer to the subfield(s) of an LVO label field that affect the self-identifying property of the LVO. Within the applicable domain, the type attribute is a unique reference to a description of the format and meaning of the data contained in the value field of the LVO. h) All of the LVOs described in this module contain a length attribute in their label field. The length attribute is a subfield of the LVO label field; it contains the length, in bytes, of the value field of the LVO. When interpreted in the context of the structure and construction rules specified in Reference [5], the length attribute affects the self-delimiting property of the LVO. The use of a length attribute is not the only means by which an LVO can be self-delimiting; Reference [6], for example, provides several mechanisms that do not rely on an explicit length. i) The term data type refers to the SFDU format code. This term is used when distinguishing between different data blocks. 1.5.2 Conventions The following conventions are used in this module: a) LVOs are defined as being made up of a sequence of eight-bit bytes, so data structures in this module are illustrated as a sequence of bytes. All data structures defined in this module must be an even number of bytes in length. Given a data structure that is N bytes in length, the first byte in the structure is drawn in the most top justified position and is identified as "byte 0." The following byte is identified as "byte 1" and so on, to "byte N-1" which is drawn in the most bottom justified position. Within each byte, the most significant bit is drawn in the most left justified position and is identified as "bit 1." The next most significant bit is identified as "bit 2" and so on, to "bit 8" which is drawn in the most right justified position. Any bit in a data structure is uniquely identified by specifying the byte within which it occurs and its position within that byte (e.g., "byte 5, bit 8"). b) Data structures are divided into fields, where a field is a sequence of bits. Fields are identified by specifying the starting and ending bits of the field. For fields that cross byte boundaries, bit 8 of byte M is more significant than, and is immediately followed by, bit 1 of byte M+1. A field may be divided into subfields in a similar manner. c) Several conventions for expressing the length of a data structure, or a part of a data structure, are used in this module. The length attribute of an LVO is always given in bytes and always refers to the length of the value field of the LVO (i.e., excluding the label field). d) In the data structure descriptions in this module, many fields are defined to contain a numerical value. Several different formats for expressing numbers are used, as follows: 1) Unsigned integer. An integer number is expressed in binary, using all bits of the field as necessary. Negative quantities cannot be expressed. For an n-bit field, the range of values that can be represented is from 0 to 2n-1. The number of bytes in the unsigned integer (m) is represented by a "-m" after the format statement. 2) Integer. An integer number is expressed in binary, using two's complement notation. For an n-bit field, the range of values that can be represented is from -2n-1 to 2n-1-1. The number of bytes in the integer (m) is represented by a "-m" after the format statement. 3) Restricted ASCII. Each decimal digit of an integer number is expressed by its corresponding RA code. The field must be an integral number of bytes in length. For multi-digit fields, the first byte of the field contains the most significant digit, the second byte contains the next most significant digit, and so on. If the number of digits is less than the number of bytes in the field, leading zeroes are used to fill the field. Negative quantities cannot be expressed. In an n-byte field, the range of values that can be represented is from 0 to 10n-1. The number of bytes in the Restricted ASCII string (m) is represented by a "-m" after the format statement. 4) IEEE Single. A 32-bit, single precision, IEEE floating point- format is used to express real numbers. Single precision floating-point numbers are expressed in the ANSI/IEEE standard (Reference [7]) single precision format with a sign bit, 8-bit exponent, and 23-bit mantissa. 5) IEEE Double. A 64-bit, double precision, IEEE floating-point format is used to express real numbers. Double precision floating-point numbers are expressed in the ANSI/IEEE (Reference [7]) standard double precision format with a sign bit, 11-bit exponent, and 52-bit mantissa. e) For fields defined to contain a constant value, the constant value will be enclosed in single quotes (e.g., '2') if the information is expressed in RA, and not so enclosed (e.g., 2) if the information is expressed in binary. f) Unless explicitly stated otherwise, fields defined as "reserved" are to be set to binary zero by the originator, and are to be ignored by the recipient. g) Time tags are in UTC, as received from the Frequency and Timing Subsystem (FTS) of the DSN: * 00:00:00 is second 0.0. * 23:59:59 is second 86399.0. * Leap second is 86400.0. h) The term "UPL-DTT antenna" refers to antennas that have UPL and DTT equipment (currently 34m HEF, 34m BWG, and 70m antennas). The term "non-UPL- DTT antenna" refers to antennas that do not have this equipment (currently 26m antennas and DSS-27). 1.6 Abbreviations Abbreviations used in this document are defined with the first textual use of the term. Abbreviations and acronyms approved for use are listed in Document 820-062. Abbreviations appearing in this module are: ADID Authority and Description Identifier AMMOS Advanced Multimission Operations System ASCII American Standard Code for Information Exchange ANSI American Nation Standards Institute CHDO Compressed Header Data Object CCSDS Consultative Committee for Space Data Systems dB decibel dBm decibels above the reference level of 1 milliWatt deg degrees DOD Differential One-way Doppler DOR Differential One-way Ranging DRVID Differenced Range Versus Integrated Doppler DSCC Deep Space Communications Complex DSMS Deep Space Mission System DSN Deep Space Network DSS Deep Space Station DTK DSCC Tracking Subsystem DTT Downlink Telemetry and Tracking Subsystem EOF End of File FFT Fast Fourier Transform FOM Figure of Merit FSP Full Spectrum Processing Subsystem FTS Frequency and Timing Subsystem Hz Hertz ID Identifier IEEE Institute of Electrical and Electronics Engineers IF Intermediate Frequency JPL Jet Propulsion Laboratory K Kelvin LCP Left Hand Circular Polarization LNA Low Noise Amplifier LVO Label Value Object MDA Metric Data Assembly MFR MultiFunction Receiver MPA Metric Pointing Assembly MTA Metric Tracking Assembly N/A Not Applicable NASA National Aeronautics and Space Administration NOCC Network Operations Control Center NSP Network Simplification Project NVP NOCC VLBI Processor Subsystem PN Pseudo-Noise RA Restricted ASCII RCP Right Hand Circular Polarization RF Radio Frequency RMDC Radio Metric Data Conditioning RTLT Round-Trip Light Time RU Range Unit sec seconds SFDU Standard Formatted Data Unit SNT System Noise Temperature UPL Uplink Tracking and Command Subsystem UTC Universal Time Coordinated VLBI Very Long Baseline Interferometry W Watts Section 2 Functional Overview 2.1 General Description Radio metric data received from the DSCCs will be processed, validated, and corrected. The resulting data will be placed into the TRK-2-34 and TRK-2-18 products. Validated/corrected data are available to (a) remote customers as TRK-2-34 files, and (b) JPL AMMOS customers as files, stream-type queries, or broadcast streams. The file format is described in Appendix B. This interface does not describe the transfer mechanisms for the delivery of the data to the customers; they are described, respectively, in References [3c] and [3d]. This processing is done in the AMMOS system. It includes the software tools that are used to perform radio metric data processing, validation, correction, and visualization, and to generate the tracking data file products. The function of the processing is to process, generate, and deliver radio metric data to projects and end users to support spacecraft navigation and scientific study. Listed below are the documents and 820-013 interface modules that define specific fields in the TRK-2-34 headers: Reference [3a]: DSN spacecraft ID, AMMOS mission ID Reference [10]: station ID Reference [4]: originator ID, last modifier ID 2.2 Operational Concept Users provide spacecraft configuration data (such as transponder number, spacecraft oscillator frequency values, etc.) and light time data. The user also specifies data delivery options (such as data decimation rate). This data, along with the DSN physical data maintained in internal tables, are combined with the raw measurements from the DSN to generate the radiometric data described by this document. TRK-2-15A data will continue to be produced by DSSs until the Metric Data Assembly (MDA) has been completely retired. The existing Radio Metric Data Conditioning (RMDC) software will continue to be used until the TRK-2-15A data are no longer produced. Parameters and data types that require predicted values, such as prefit residuals and Allan deviation, will not be available if the trajectory data for generating the predicted values is not available. If this happens, the parameter status will be marked as invalid (using validity flags) and the data types will not be generated. 2.3 Equipment All equipment used in the measurement or generation of tracking data get their frequency and timing references from the Frequency and Timing Subsystem (FTS) of the DSN. The non-UPL-DTT antennas have a mixture of tracking equipment. The 26m subnet uses the Metric Pointing Assembly (MPA). DSS-27, a 34m antenna, uses the Metric Tracking Assembly (MTA). Arraying at a complex is done with the Full Spectrum Processing Subsytem (FSP). Section 3 Detailed Interface Description 3.1 Data Definition Viewed as a compound LVO, the value field of the tracking data SFDU contains two LVOs, an aggregation CHDO and a tracking data CHDO. The aggregation CHDO is a compound LVO; its value field contains two simple LVOs, a primary CHDO and a secondary CHDO. The aggregation CHDO exists solely for the purpose of allowing the primary and secondary CHDOs to be grouped together and treated as a single LVO. The value fields of the primary and secondary CHDOs contain annotation data (identification, configuration, status, and performance parameters) that pertain to the data in the tracking data SFDU. The tracking data CHDO is a simple LVO; its value field contains the actual tracking data. +---------------------------------------------+ L| Tracking Data SFDU | +-+ +---------------------------------------+| | L| Aggregation CHDO || | +-+ +---------------------------------+|| | | L| Primary CHDO ||| | | +-+ ||| | | V| ||| | V| +---------------------------------||| | | L| Secondary CHDO ||| | | +-+ ||| V| | V| ||| | +---------------------------------------|| | L| Tracking Data CHDO || | +-+ || | | || | | || | | || | V| || | | || | | || | | || +-------------------------------------------+ L = label field V = value field Figure 3-1. LVO Structure of the Tracking Data SFDU Figure 3-2 shows the physical layout of the tracking data SFDU. It is divided into the following sections: the tracking SFDU label, the aggregation CHDO label, the primary CHDO, the secondary CHDOs, and the tracking data CHDOs. There are five different types of secondary CHDOs, and 18 types of tracking data CHDOs. The following sections present the detailed definition of the tracking data SFDU. BIT +-----------------------------------------------+ |1 |2 |3 |4 |5 |6 |7 |8 |1 |2 |3 |4 |5 |6 |7 |8 | +-----------------------------------------------| BYTE 0| | +- -| ... SFDU LABEL ... ... ... +- -| 18| | +--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+--| 20| | +- AGGREGATION CHDO LABEL -| 22| | +--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+--| 24| | +- -| ... PRIMARY CHDO ... ... ... +- -| 30| | +--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+--| 32| | +- -| ... SECONDARY CHDO ... ... ... +- -| xx| | +--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+--| xx| | +- -| ... TRACKING DATA CHDO ... ... ... +- -| N-2| | +--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+--| |1 |2 |3 |4 |5 |6 |7 |8 |1 |2 |3 |4 |5 |6 |7 |8 | +-----------------------------------------------+ N Depends on Data Type Figure 3-2. Physical Layout of the Tracking Data SFDU 3.1.1 Tracking Data SFDU Label Bytes 0 through 19 of the tracking SFDU contain the SFDU label field. The format and content of the SFDU label are defined in Table 3-1. The concatenation of Bytes 0 through 3, and 8 through 11, constitutes the type attribute of the SFDU; in CCSDS parlance, this concatenated field is known as the Authority and Description Identifier (ADID). Bytes 12 to 19 constitute the length attribute. |===========================================================================| | Table 3-1. Tracking SFDU Label Definitions | |===========================================================================| | Identifier | Byte | Item Name and Description |Format|U/P| Range|Notes| | |Offset| | (1) |(2)| (3) | | |==============+======+=============================+======+===+======+=====| |control_auth_ | 0 |Control authority identifier.| RA-4 |N/A|'NJPL'| | | id| |'NJPL' indicates that the | | | | | | | |data description information | | | | | | | |for this SFDU is maintained | | | | | | | |and disseminated by NASA/JPL.| | | | | |--------------+------+-----------------------------+------+---+------+-----| |sfdu_version_ | 4 |SFDU label version ID. '2' | RA-1 |N/A| '2' | | | id| |indicates that the length | | | | | | | |attribute field in bytes 12 | | | | | | | |to 19 is formatted as a | | | | | | | |binary unsigned integer. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |sfdu_class_id | 5 |SFDU class ID. 'I' indicates | RA-1 |N/A| 'I' | | | | |that this SFDU contains data | | | | | | | |to be used by an application | | | | | | | |process. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |reserve2 | 6 |Reserved. Two bytes. | RA-2 |N/A| '00' | | |--------------+------+-----------------------------+------+---+------+-----| |data_ | 8 |Data description identifier. | RA-4 |N/A|'C123'| | |description_id| |Uniquely identifies the data | | |'C124'| | | | |description information held | | |'C125'| | | | |by the control authority | | |'C126'| | | | |identified in the 'Control | | |'C127'| | | | |authority identifier' item | | | | | | | |for this type of SFDU. | | | | | | | |C123 => Uplink types | | | | | | | |C124 => Downlink types | | | | | | | |C125 => Derived types | | | | | | | |C126 => Interferometric types| | | | | | | |C127 => Filtered types | | | | | |--------------+------+-----------------------------+------+---+------+-----| |sfdu_length | 12 |Length attribute of the | UI-8 | B | 124 | | | | |tracking data SFDU. | | | 160 | | | | |Indicates the length of the | | | 162 | | | | |data following this element. | | | 164 | | | | | DT0 => 162 | | | 178 | | | | | DT1 => 358 | | | 182 | | | | | DT2 => 194 | | | 194 | | | | | DT3 => 304 | | | 204 | | | | | DT4 => 218 | | | 218 | | | | | DT5 => 332 | | | 304 | | | | | DT6 => 320 | | | 320 | | | | | DT7 => 330 | | | 330 | | | | | DT8 => 178 | | | 332 | | | | | DT9 => 124 | | | 358 | | | | | DT10 => 204 | | |182+ | | | | | DT11 => 182 | | | 18*N| | | | | DT12 => 164 | | |194+ | | | | | DT13 => 160 | | | 22*N| | | | | DT14 => 304 | | | | | | | | DT15 => 194 | | | N<100| | | | | DT16 => 182 + 18 * num_obs | | | | | | | | DT17 => 194 + 22 * num_obs | | | | | |===========================================================================| (1) Abbreviated values in the Format column are: A-8: ASCII string, 8 bytes A-12: ASCII string, 12 bytes I-4: Integer, 4 bytes UI-1: Unsigned integer, 1 byte UI-2: Unsigned integer, 2 bytes UI-4: Unsigned integer, 4 bytes UI-8: Unsigned integer, 8 bytes RE-4: IEEE single precision (4 bytes) RE-8: IEEE double precision (8 bytes) (2) The 'U' column contains values of 'units/precision'. Abbreviated values include: B: Bytes dBH: dB-Hz K: (degrees) kelvin ms: milliseconds N&D: See Item Name and Description column for details N/A: Not applicable ns: nanoseconds Pct: Percentage/percent ps: picoseconds s: seconds S6: seconds at precision 1 microsecond U: unitless (none) W: watts Y: years (3) The 'Range' column includes possible values. ds1* 0.01 to 86400.99 ds2* 0 to 2^16 - 1 ds3* 0 to 86400999 ds4* 0.00 to 86400.9999 ds5* -31,536,000.0 to 31,536,000.0 ds6* 0.000000 to 86400.999999 ds7* 4.0 to 504,536.0 ds8* -32.3e9 to -2.0e9 ds9* 0.00 to 86400.99 N num_obs 3.1.2 Aggregation CHDO Label Bytes 20 through 23 of the tracking data SFDU contain the aggregation CHDO label field, which is defined in Table 3-2. The value field of the aggregation CHDO is composed of the primary CHDO and a secondary CHDO. The primary CHDO is described in Section 3.1.3. The secondary CHDOs, of which there are five types, are described in Section 3.1.4. |===========================================================================| | Table 3-2. Aggregation CHDO Label Definitions | |===========================================================================| | Identifier | Byte | Item Name and Description |Format|U/P| Range|Notes| | |Offset| | (1) |(2)| (3) | | |==============+======+=============================+======+===+======+=====| |chdo_type | 0 |Type attribute of the | UI-2 |N/A| 1 | | | | |aggregation CHDO. A value of| | | | | | | |1 indicates that this CHDO is| | | | | | | |an aggregation of CHDOs | | | | | |--------------+------+-----------------------------+------+---+------+-----| |chdo_length | 2 |Length attribute of the | UI-2 | B | 72 | | | | |aggregation CHDO. Indicates | | | 100 | | | | |the length of the sum of the | | | 110 | | | | |primary and secondary CHDOs. | | | 122 | | | | | CHDO 132 => 78 | | | 136 | | | | | CHDO 133 => 122 | | | | | | | | CHDO 134 => 136 | | | | | | | | CHDO 135 => 100 | | | | | | | | CHDO 136 => 110 | | | | | |===========================================================================| (1) Abbreviated values in the Format column are: A-8: ASCII string, 8 bytes A-12: ASCII string, 12 bytes I-4: Integer, 4 bytes UI-1: Unsigned integer, 1 byte UI-2: Unsigned integer, 2 bytes UI-4: Unsigned integer, 4 bytes UI-8: Unsigned integer, 8 bytes RE-4: IEEE single precision (4 bytes) RE-8: IEEE double precision (8 bytes) (2) The 'U' column contains values of 'units/precision'. Abbreviated values include: B: Bytes dBH: dB-Hz K: (degrees) kelvin ms: milliseconds N&D: See Item Name and Description column for details N/A: Not applicable ns: nanoseconds Pct: Percentage/percent ps: picoseconds s: seconds S6: seconds at precision 1 microsecond U: unitless (none) W: watts Y: years (3) The 'Range' column includes possible values. ds1* 0.01 to 86400.99 ds2* 0 to 2^16 - 1 ds3* 0 to 86400999 ds4* 0.00 to 86400.9999 ds5* -31,536,000.0 to 31,536,000.0 ds6* 0.000000 to 86400.999999 ds7* 4.0 to 504,536.0 ds8* -32.3e9 to -2.0e9 ds9* 0.00 to 86400.99 N num_obs 3.1.3 Primary CHDO Bytes 24 through 31 of the tracking SFDU contain the primary CHDO, which is defined in Table 3-3. Bytes 0 through 3 are the label field. Bytes 4 through 7 are the value field. The primary specifies the mission and the data type of the tracking data contained in the SFDU. |===========================================================================| | Table 3-3. Primary CHDO Definitions | |===========================================================================| | Identifier | Byte | Item Name and Description |Format|U/P| Range|Notes| | |Offset| | (1) |(2)| (3) | | |==============+======+=============================+======+===+======+=====| |chdo_type | 0 |Type attribute of the primary| UI-2 |N/A| 2 | | | | |CHDO. A value of 2 indicates| | | | | | | |that this CHDO is a primary | | | | | | | |CHDO. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |chdo_length | 2 |Length attribute of the | UI-2 | B | 4 | | | | |primary CHDO. Indicates the | | | | | | | |length, in bytes, of the | | | | | | | |value field (bytes after this| | | | | | | |item) of the primary CHDO. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |mjr_data_class| 4 |Major data class. A value of| UI-1 |N/A| 6 | | | | |6 indicates that the data in | | | | | | | |this SFDU is ground station | | | | | | | |monitor data. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |mnr_data_class| 5 |Minor data class. Indicates | UI-1 |N/A| 14 | | | | |data is processed tracking | | | | | | | |data. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |mission_id | 6 |Mission ID. Per Reference | UI-1 |N/A| 0- | | | | |[3a], Table 3-4. | | | 255 | | |--------------+------+-----------------------------+------+---+------+-----| |format_code | 7 |Format code. Also referred | UI-1 |N/A| 0-17 | | | | |to as the data type. | | | | | | | | 0 => Uplink Carrier Phase | | | | | | | | 1 => Downlink Carrier Phase | | | | | | | | 2 => Uplink Sequential | | | | | | | | Ranging Phase | | | | | | | | 3 => Downlink Sequential | | | | | | | | Ranging Phase | | | | | | | | 4 => Uplink PN | | | | | | | | Ranging Phase | | | | | | | | 5 => Downlink PN | | | | | | | | Ranging Phase | | | | | | | | 6 => Doppler | | | | | | | | 7 => Sequential Ranging | | | | | | | | 8 => Angles | | | | | | | | 9 => Ramps | | | | | | | |10 => VLBI | | | | | | | |11 => DRVID | | | | | | | |12 => Smoothed Noise | | | | | | | |13 => Allan Deviation | | | | | | | |14 => PN Ranging | | | | | | | |15 => Tone Ranging | | | | | | | |16 => Carrier Observable | | | | | | | |17 => Total Phase Observable | | | | | |===========================================================================| (1) Abbreviated values in the Format column are: A-8: ASCII string, 8 bytes A-12: ASCII string, 12 bytes I-4: Integer, 4 bytes UI-1: Unsigned integer, 1 byte UI-2: Unsigned integer, 2 bytes UI-4: Unsigned integer, 4 bytes UI-8: Unsigned integer, 8 bytes RE-4: IEEE single precision (4 bytes) RE-8: IEEE double precision (8 bytes) (2) The 'U' column contains values of 'units/precision'. Abbreviated values include: B: Bytes dBH: dB-Hz K: (degrees) kelvin ms: milliseconds N&D: See Item Name and Description column for details N/A: Not applicable ns: nanoseconds Pct: Percentage/percent ps: picoseconds s: seconds S6: seconds at precision 1 microsecond U: unitless (none) W: watts Y: years (3) The 'Range' column includes possible values. ds1* 0.01 to 86400.99 ds2* 0 to 2^16 - 1 ds3* 0 to 86400999 ds4* 0.00 to 86400.9999 ds5* -31,536,000.0 to 31,536,000.0 ds6* 0.000000 to 86400.999999 ds7* 4.0 to 504,536.0 ds8* -32.3e9 to -2.0e9 ds9* 0.00 to 86400.99 N num_obs 3.1.4 Secondary CHDOs There are five types of secondary CHDOs, all of which start at Byte 32 of the tracking data SFDU. The five types are organized as follows (data type is equivalent to format code): * CHDO 134: Derived data types - Doppler Count (data type 6), Sequential Range (data type 7), Angles (data type 8), DRVID (data type 11), PN Range (data type 14), Tone Range (data type 15), Carrier Frequency Observable (data type 16), and Total Count Phase Observable (data type 17). * CHDO 132: Uplink data types - Uplink Carrier Phase (data type 0), Uplink Sequential Ranging Phase (data type 2), Uplink PN Ranging Phase (data type 4), and Ramps (data type 9). * CHDO 133: Downlink data types - Downlink Carrier Phase (data type 1), Downlink Sequential Ranging Phase (data type 3), and Downlink PN Ranging Phase (data type 5). * CHDO 135: Interferometric data types - VLBI (data type 10). * CHDO 136: Filtered data types - Smoothed Noise (data type 12) and Allan Deviation (data type 13). The secondary CHDOs are defined in Tables 3-4 through 3-8. Bytes 0 through 3 are the label field. Bytes 4 through M-1 (M being the length of the secondary CHDO) comprise the value field. The secondary CHDO contains parameters that a user might want to sort or filter on. 3.1.4.1 Secondary CHDO 134 (Derived Data Types) Secondary CHDO 134 is used for the following derived data types (format codes): Doppler Count (data type 6), Sequential Range (data type 7), Angle (data type 8), DRVID (data type 11), PN Range (data type 14), Tone Range (data type 15), Carrier Frequency Observable (data type 16), and Total Count Phase Observable (data type 17). Secondary CHDO 134 is defined in Table 3-4. |===========================================================================| | Table 3-4. Secondary CHDO 134 Definitions | |===========================================================================| | Identifier | Byte | Item Name and Description |Format|U/P| Range|Notes| | |Offset| | (1) |(2)| (3) | | |==============+======+=============================+======+===+======+=====| |chdo_type | 0 |Type attribute of the | UI-2 |N/A| 134 | | | | |secondary CHDO. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |chdo_length | 2 |Length attribute of the | UI-2 |N/A| 124 | | | | |secondary CHDO. Indicates | | | | | | | |the length, in bytes, of the | | | | | | | |value field (bytes after this| | | | | | | |item) of the secondary CHDO. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |orig_id | 4 |Originator ID. Indicates | UI-1 |N/A| 0- | | | | |where this SFDU was | | | 255 | | | | |originated. Per Reference[4].| | | | | |--------------+------+-----------------------------+------+---+------+-----| |last_modifier_| 5 |Last modifier ID. Indicates | UI-1 |N/A| 0- | | | id| |where this SFDU was last | | | 255 | | | | |modified. Per Reference [4].| | | | | |--------------+------+-----------------------------+------+---+------+-----| |reserve1 | 6 |Reserved. For future | UI-1 |N/A| 0 | | | | |expansion of scft_id. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |scft_id | 7 |Spacecraft number. Per | UI-1 |N/A| 1- | | | | |Reference [3a]. | | | 255 | | |--------------+------+-----------------------------+------+---+------+-----| |rec_seq_num | 8 |Record sequence number (RSN).| UI-4 |N/A| 0 to | | | | |Begins with zero; increments | | |2^32-1| | | | |by one for each successive | | | | | | | |tracking SFDU of the same | | | | | | | |type; wraps around from | | | | | | | |2^32-1 to zero. Value is | | | | | | | |reset to zero when software | | | | | | | |is restarted. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |year | 12 |Time tag year. | UI-2 |N/A| 1958-| | | | | | | | 3000| | |--------------+------+-----------------------------+------+---+------+-----| |doy | 14 |Time tag day of year. | UI-2 |N/A| 1- | | | | | | | | 366 | | |--------------+------+-----------------------------+------+---+------+-----| |sec | 16 |Time tag seconds of day. | RE-8 | s/| ds1* | 1 | | | | | |.01| | | |--------------+------+-----------------------------+------+---+------+-----| |rct_day | 24 |Record creation time days. | UI-2 |day| ds2* | 74 | | | |Days since 1/1/1958. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |rct_msec | 26 |Record creation time | UI-4 | ms| ds3* | 74 | | | |milliseconds of day. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |stn_stream_src| 30 |Station stream source. | UI-1 |N/A| 1-3 | | | | | 1 => UPL/DTT | | | | | | | | 2 => non-UPL-DTT: TRK-2-30 | | | | | | | | 3 => non-UPL-DTT: TRK-2-20 | | | | | |--------------+------+-----------------------------+------+---+------+-----| |ul_band | 31 |Uplink frequency band. | UI-1 |N/A| 0-5 | 79 | | | | 0 => unknown or N/A | | | | | | | | 1 => S-band | | | | | | | | 2 => X-band | | | | | | | | 3 => Ka-band | | | | | | | | 4 => Ku-band | | | | | | | | 5 => L-band | | | | | |--------------+------+-----------------------------+------+---+------+-----| |ul_assembly_ | 32 |Uplink Assembly Number. | UI-1 |N/A| 0-2 | 79 | | num| |Note that this is to allow | | | | | | | |for potential future cases | | | | | | | |where there might be more | | | | | | | |than one uplink of the same | | | | | | | |band at the same antenna. | | | | | | | | 0 => Unknown/Not applicable | | | | | | | | 1 => S-/X-band uplink | | | | | | | | 2 => Ka-band uplink | | | | | |--------------+------+-----------------------------+------+---+------+-----| |transmit_num | 33 |Transmitter number. Value | UI-1 |N/A| 0-3 | 79 | | | |depends on transmitter used. | | | | | | | |A value of 0 means that the | | | | | | | |number is unknown or not | | | | | | | |applicable. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |transmit_stat | 34 |Transmit Status. | UI-1 |N/A| 0-2 | 79 | | | | 0 => not transmitting out | | | | | | | | the horn | | | | | | | | 1 => transmitting out | | | | | | | | the horn | | | | | | | | 2 => invalid or unknown | | | | | |--------------+------+-----------------------------+------+---+------+-----| |transmit_mode | 35 |Transmitter mode. | UI-1 |N/A| 0-2 | 79 | | | | 0 => low power | | | | | | | | 1 => high power | | | | | | | | 2 => invalid or unknown | | | | | |--------------+------+-----------------------------+------+---+------+-----| |cmd_modul_stat| 36 |Command modulation status. | UI-1 |N/A| 0-2 | 79 | | | | 0 => OFF | | | | | | | | 1 => ON | | | | | | | | 2 => invalid or unknown | | | | | |--------------+------+-----------------------------+------+---+------+-----| |rng_modul_stat| 37 |Ranging modulation status. | UI-1 |N/A| 0-2 | 79 | | | | 0 => OFF | | | | | | | | 1 => ON | | | | | | | | 2 => invalid or unknown | | | | | |--------------+------+-----------------------------+------+---+------+-----| |transmit_time_| 38 |Transmit time tag delay. | RE-8 | s | -1.0,| 2 | | tag_delay| |Value used to offset uplink | | / | 0.0- | 79 | | | |time tag (e.g., for Goldstone| |100| 1.0| | | | |Beam Waveguide antennas). | | ps| | | | | |A value of -1.0 indicates | | | | | | | |invalid (or not provided). | | | | | |--------------+------+-----------------------------+------+---+------+-----| |ul_zheight_ | 46 |Uplink Z-height correction. | RE-4 | s/|-99.0 | 60 | | corr| |Value of -99.0 indicates | |100|-1. to| 72 | | | |invalid. | | ps| +1. | 79 | |--------------+------+-----------------------------+------+---+------+-----| |dl_dss_id | 50 |Downlink antenna number. | UI-1 |N/A| 0-255| | | | |Per Reference [10]. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |reserve1a | 51 |Reserved. One byte. | UI-1 |N/A| 0 | | |--------------+------+-----------------------------+------+---+------+-----| |dl_chan_num | 52 |Downlink channel number. | UI-1 |N/A| 0-24 | | | | |Value of 0 implies unknown. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |prdx_mode | 53 |Predicts mode. Predicts | UI-1 |N/A| 0-4 | | | | |subset used by downlink | | | | | | | |channel. | | | | | | | | 0 => No Predicts | | | | | | | | 1 => One-way | | | | | | | | 2 => Two-way | | | | | | | | 3 => Three-way | | | | | | | | 4 => Unknown | | | | | |--------------+------+-----------------------------+------+---+------+-----| |ul_prdx_stn | 54 |Uplink station used for | UI-1 |N/A| 0-255| | | | |predicts. Valid only if | | | | | | | |prdx_mode is 2 or 3. Per | | | | | | | |Reference [10]. A value of 0 | | | | | | | |means that the number is | | | | | | | |unknown or not valid (e.g., | | | | | | | |no uplink). | | | | | |--------------+------+-----------------------------+------+---+------+-----| |ul_band_dl | 55 |Uplink frequency band | UI-1 |N/A| 0-5 | | | | |assumed by downlink. | | | | | | | |Uplink band value used by | | | | | | | |downlink for turn around | | | | | | | |computations. | | | | | | | | 0 => Unknown or not | | | | | | | | applicable | | | | | | | | 1 => S-band | | | | | | | | 2 => X-band | | | | | | | | 3 => Ka-band | | | | | | | | 4 => Ku-band | | | | | | | | 5 => L-band | | | | | |--------------+------+-----------------------------+------+---+------+-----| |array_delay | 56 |Array delay value. Time | RE-8 | s |0. to | 4 | | | |delay added to path by | | / | 1. | | | | |arraying equipment. Obtained| |100| | | | | | from arraying equipment. Any| | ps| | | | | | measurements include this | | | | | | | |delay. Valid only if Array | | | | | | | |Flag (array_flag) is | | | | | | | |non-zero. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |fts_vld_flag | 64 |Frequency and Timing (FTS) | UI-1 |N/A| 0,1 | | | | |validity. | | | | | | | |0 => Equipment is not synced | | | | | | | | with FTS | | | | | | | |1 => Equipment is synced | | | | | | | | with FTS | | | | | |--------------+------+-----------------------------+------+---+------+-----| |carr_lock_stat| 65 |Carrier lock status. | UI-1 |N/A| 0-5 | 83 | | | | 0 => Off | | | | | | | | 1 => Open (using only | | | | | | | | predicts) | | | | | | | | 2 => Acquiring, FFT Search | | | | | | | | 3 => Acquiring, Waiting for | | | | | | | | Lock Decision | | | | | | | | 4 => In Lock | | | | | | | | 5 => Out of Lock | | | | | |--------------+------+-----------------------------+------+---+------+-----| |array_flag | 66 |Array flag. | UI-1 |N/A| 0-2 | 87 | | | | 0 => Non-arrayed | | | | | | | | 1 => Arrayed with FSP #1 | | | | | | | | 2 => Arrayed with FSP #2 | | | | | |--------------+------+-----------------------------+------+---+------+-----| |lna_num | 67 |LNA Number. Value of 0 | UI-1 |N/A| 0-4 | | | | |indicates unknown. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |rcv_time_tag_ | 68 |Receive time tag delay. | RE-8 | s | -1.0,| 3 | | delay| |Value used to offset | | / | 0.0- | | | | |downlink time tag (e.g., for | |100| 1.0| | | | |Goldstone Beam Waveguide | | ps| | | | | |antennas). A value of -1.0 | | | | | | | |indicates invalid (or not | | | | | | | |provided). | | | | | |--------------+------+-----------------------------+------+---+------+-----| |dl_zheight_ | 76 |Downlink Z-height correction.| RE-4 | s/|-99.0,| 60 | | corr| |Value of -99.0 indicates | |100|-1.0- | 72 | | | |invalid. | | ps| 1.0| | |--------------+------+-----------------------------+------+---+------+-----| |vld_ul_stn | 80 |Validated uplink station. | UI-1 |N/A| 0-255| 61 | | | |Per Reference [10]. The | | | | 79 | | | |uplink station per the | | | | | | | |validation process. A value | | | | | | | |of 0 means that the antenna | | | | | | | |is unknown or not valid. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |vld_dop_mode | 81 |Validated doppler mode. | UI-1 |N/A| 0-3 | 61 | | | | 0 => Unknown or not | | | | 79 | | | | applicable | | | | | | | | 1 => One-way | | | | | | | | 2 => Two-way | | | | | | | | 3 => Three-way | | | | | |--------------+------+-----------------------------+------+---+------+-----| |vld_scft_coh | 82 |Validated spacecraft | UI-1 |N/A| 0-3 | 79 | | | | coherency. | | | | | | | | 0 => Unknown or not | | | | | | | | applicable | | | | | | | | 1 => Coherent | | | | | | | | 2 => Non-coherent | | | | | | | | 3 => Transponded, | | | | | | | | non-coherent | | | | | |--------------+------+-----------------------------+------+---+------+-----| |vld_dl_band | 83 |Validated downlink frequency | UI-1 |N/A| 0-6 | 82 | | | |band. | | | | | | | | 0 => unknown | | | | | | | | 1 => S-band | | | | | | | | 2 => X-band | | | | | | | | 3 => Ka-band | | | | | | | | 4 => Ku-band | | | | | | | | 5 => L-band | | | | | | | | 6 => S or X band | | | | | | | | (26m stations) | | | | | |--------------+------+-----------------------------+------+---+------+-----| |scft_transpd_ | 84 |Spacecraft transponder lock. | UI-1 |N/A| 0-2 | 5 | | lock| | 0 => Unknown | | | | | | | | 1 => Out-of-lock | | | | | | | | 2 => In Lock | | | | | |--------------+------+-----------------------------+------+---+------+-----| |scft_transpd_ | 85 |Spacecraft transponder | UI-1 |N/A| 0-5 | 5 | | num| |number. 0 if unknown, | | | | | | | |transponder number otherwise.| | | | | |--------------+------+-----------------------------+------+---+------+-----| |Reserve2 | 86 |Reserved. Two bytes. | UI-2 |N/A| 0 | | |--------------+------+-----------------------------+------+---+------+-----| |scft_osc_freq | 88 |Spacecraft oscillator | RE-8 |Hz/|0.0, | 6 | | | |frequency. Spacecraft one-way| |1.0|2.0E9-| | | | |frequency. 0.0 if unknown. | |mHz|32.3E9| | |--------------+------+-----------------------------+------+---+------+-----| |scft_transpd_ | 96 |Spacecraft transponder delay.| RE-8 | s/| -1.0,| 7 | | delay| |Coherent ranging delay. Value| |100| 0.0- | | | | |of -1.0 indicates invalid. | | ps| 1.0| | |--------------+------+-----------------------------+------+---+------+-----| |scft_transpd_ | 104 |Spacecraft transponder turn | UI-4 |N/A| 0 to | | | turn_num| |around ratio numerator. | | |2^32-1| | | | |A value of 0 indicates | | | | | | | |unknown. | | | | | |--------------+------+-----------------------------+------+---+------+-----| scft_transpd_ | 108 |Spacecraft transponder turn | UI-4 |N/A| 0 to | | | turn_den| |around ratio denominator. | | |2^32-1| | | | |A value of 0 indicates | | | | | | | |unknown. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |scft_twnc_stat| 112 |Spacecraft two-way | UI-1 |N/A| 0-2 | 5 | | | |non-coherent (TWNC) status. | | | | | | | | 0 => Unknown | | | | | | | | 1 => OFF | | | | | | | | 2 => ON | | | | | |--------------+------+-----------------------------+------+---+------+-----| |scft_osc_type | 113 |Spacecraft oscillator type. | UI-1 |N/A| 0-2 | 5 | | | | 0 => Unknown | | | | | | | | 1 => AUX OSC (auxiliary | | | | | | | | oscillator) | | | | | | | | 2 => USO (ultra-stable | | | | | | | | oscillator) | | | | | |--------------+------+-----------------------------+------+---+------+-----| |mod_day | 114 |Modification time days. Days| UI-2 |Day| 0 to | 73 | | | |since 1/1/1958. Last | |/1 |2^16-1| | | | |modification time. | |day| | | |--------------+------+-----------------------------+------+---+------+-----| |mod_msec | 116 |Modification time | UI-4 |ms/| ds3* | 73 | | | |milliseconds of day. | | 1 | | | | | |Last modification time. | | ms| | | |--------------+------+-----------------------------+------+---+------+-----| |cnt_time | 120 |Count time. Integration time | RE-4 | s/|0.0- | 88 | | | |of the counts. Value of 0 | |100|3600.0| | | | |indicates Not Applicable | | ms| | | |--------------+------+-----------------------------+------+---+------+-----| |Reserve4 | 124 |Reserved. Four bytes. | UI-4 |N/A| 0 | | |===========================================================================| (1) Abbreviated values in the Format column are: A-8: ASCII string, 8 bytes A-12: ASCII string, 12 bytes I-4: Integer, 4 bytes UI-1: Unsigned integer, 1 byte UI-2: Unsigned integer, 2 bytes UI-4: Unsigned integer, 4 bytes UI-8: Unsigned integer, 8 bytes RE-4: IEEE single precision (4 bytes) RE-8: IEEE double precision (8 bytes) (2) The 'U' column contains values of 'units/precision'. Abbreviated values include: B: Bytes dBH: dB-Hz K: (degrees) kelvin ms: milliseconds N&D: See Item Name and Description column for details N/A: Not applicable ns: nanoseconds Pct: Percentage/percent ps: picoseconds s: seconds S6: seconds at precision 1 microsecond U: unitless (none) W: watts Y: years (3) The 'Range' column includes possible values. ds1* 0.01 to 86400.99 ds2* 0 to 2^16 - 1 ds3* 0 to 86400999 ds4* 0.00 to 86400.9999 ds5* -31,536,000.0 to 31,536,000.0 ds6* 0.000000 to 86400.999999 ds7* 4.0 to 504,536.0 ds8* -32.3e9 to -2.0e9 ds9* 0.00 to 86400.99 N num_obs 3.1.4.2 Secondary CHDO 132 (Uplink Data Types) Secondary CHDO 132 is used for the following Uplink data types (format codes): Uplink Carrier Phase (data type 0), Uplink Sequential Ranging Phase (data type 2), Uplink PN Ranging Phase (data type 4), and Ramps (data type 9). Secondary CHDO 132 is defined in Table 3-5. |===========================================================================| | Table 3-5. Secondary CHDO 132 Definitions | |===========================================================================| | Identifier | Byte | Item Name and Description |Format|U/P| Range|Notes| | |Offset| | (1) |(2)| (3) | | |==============+======+=============================+======+===+======+=====| |chdo_type | 0 |Type attribute of the | UI-2 |N/A| 132 | | | | |secondary CHDO. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |chdo_length | 2 |Length attribute of the | UI-2 | B | 66 | | | | |secondary CHDO. Indicates | | | | | | | |the length, in bytes, of the | | | | | | | |value field (bytes after this| | | | | | | |item) of the secondary CHDO. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |orig_id | 4 |Originator ID. Indicates | UI-1 |N/A| 0- | | | | |where this SFDU was | | | 255 | | | | |originated. Per Reference[4].| | | | | |--------------+------+-----------------------------+------+---+------+-----| |last_modifier | 5 |Last modifier ID. Indicates | UI-1 |N/A| 0- | | | _id | |where this SFDU was last | | | 255 | | | | |modified. Per Reference [4].| | | | | |--------------+------+-----------------------------+------+---+------+-----| |reserve1 | 6 |Reserved. For future | UI-1 |N/A| 0 | | | | |expansion of scft_id. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |scft_id | 7 |Spacecraft number. Per | UI-1 |N/A| 1- | | | | |Reference [3a]. | | | 255 | | |--------------+------+-----------------------------+------+---+------+-----| |upl_rec_seq_ | 8 |Uplink record sequence number| UI-4 |N/A| 0 to | | | num| |(UPL RSN). This is the record| | |2^32-1| | | | |sequence number reported by | | | | | | | |the uplink subsystem (UPL) | | | | | | | |equipment. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |rec_seq_num | 12 |Record sequence number (RSN).| UI-4 |N/A| 0 to | | | | |Begins with zero; increments | | |2^32-1| | | | |by one for each successive | | | | | | | |uplink tracking SFDU of the | | | | | | | |same data type; wraps around | | | | | | | |from 2^32-1 to zero. Value is| | | | | | | |reset to zero when the data | | | | | | | |processing system software is| | | | | | | |restarted. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |year | 16 |Time tag year. | UI-2 |N/A|1958- | | | | | | | | 3000| | |--------------+------+-----------------------------+------+---+------+-----| |doy | 18 |Time tag day of year. | UI-2 |N/A| 1-366| | |--------------+------+-----------------------------+------+---+------+-----| |sec | 20 |Time tag seconds of day. | RE-8 | s/| ds1* | 1 | | | | | |10 | | | | | | | | ms| | | |--------------+------+-----------------------------+------+---+------+-----| |rct_day | 28 |Record creation time days. | UI-2 |day| 0 to | 74 | | | |Days since 1/1/1958. | |/1 |2^16-1| | | | | | |day| | | |--------------+------+-----------------------------+------+---+------+-----| |rct_msec | 30 |Record creation time | UI-4 |ms/| ds3* | 74 | | | |milliseconds of day. | | 1 | | | | | | | | ms| | | |--------------+------+-----------------------------+------+---+------+-----| |ul_dss_id | 34 |Uplink antenna number. Per | UI-1 |N/A| 0-255| | | | |Reference [10]. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |ul_band | 35 |Uplink frequency band. | UI-1 |N/A| 0-5 | | | | | 0 => unknown | | | | | | | | 1 => S-band | | | | | | | | 2 => X-band | | | | | | | | 3 => Ka-band | | | | | | | | 4 => Ku-band | | | | | | | | 5 => L-band | | | | | |--------------+------+-----------------------------+------+---+------+-----| |ul_assembly_ | 36 |Uplink Assembly Number. Note| UI-1 |N/A| 1-2 | | | num| |that this is to allow for | | | | | | | |potential future cases where | | | | | | | |there might be more than one | | | | | | | |uplink of the same band at | | | | | | | |the same antenna. | | | | | | | | 1 => S-/X-band uplink | | | | | | | | 2 => Ka-band uplink | | | | | |--------------+------+-----------------------------+------+---+------+-----| |transmit_num | 37 |Transmitter number. Value | UI-1 |N/A| 0-3 | | | | |depends on transmitter used. | | | | | | | |A value of 0 indicates | | | | | | | |unknown. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |transmit_stat | 38 |Transmit status. | UI-1 |N/A| 0-2 | | | | | 0 => not transmitting out | | | | | | | | the horn | | | | | | | | 1 => transmitting out | | | | | | | | the horn | | | | | | | | 2 => invalid/unknown | | | | | |--------------+------+-----------------------------+------+---+------+-----| |transmit_mode | 39 |Transmitter mode. | UI-1 |N/A| 0-2 | | | | | 0 => low power | | | | | | | | 1 => high power | | | | | | | | 2 => invalid/unknown | | | | | |--------------+------+-----------------------------+------+---+------+-----| |cmd_modul_stat| 40 |Command modulation status. | UI-1 |N/A| 0-2 | | | | | 0 => OFF | | | | | | | | 1 => ON | | | | | | | | 2 => invalid/unknown | | | | | |--------------+------+-----------------------------+------+---+------+-----| |rng_modul_stat| 41 |Ranging modulation status. | UI-1 |N/A| 0-2 | | | | | 0 => OFF | | | | | | | | 1 => ON | | | | | | | | 2 => invalid/unknown | | | | | |--------------+------+-----------------------------+------+---+------+-----| |fts_vld_flag | 42 |Frequency and Timing (FTS) | UI-1 |N/A| 0-1 | | | | |validity. | | | | | | | | 0 => Equipment is not synced| | | | | | | | with FTS | | | | | | | | 1 => Equipment is synced | | | | | | | | with FTS | | | | | |--------------+------+-----------------------------+------+---+------+-----| |reserve1a | 43 |Reserved. One byte. | UI-1 |N/A| 0 | | |--------------+------+-----------------------------+------+---+------+-----| |transmit_time_| 44 |Transmit time tag delay. | RE-8 | s/| -1.0,| 2 | | tag_delay| |Value used to offset uplink | |100| 0.0- | | | | |time tag (e.g., for Goldstone| | ps| 1.0| | | | |Beam Waveguide antennas). | | | | | | | |Value of -1.0 indicates | | | | | | | |invalid (or not provided). | | | | | |--------------+------+-----------------------------+------+---+------+-----| |ul_zheight_ | 52 |Uplink Z-height correction. | RE-4 | s/|-99.0,| 60 | | corr| |Value of -99.0 indicates | |100|-1.00-| | | | |invalid. | | ps| 1.00| | |--------------+------+-----------------------------+------+---+------+-----| |mod_day | 56 |Modification time days. Days| UI-2 |day| 0 to | 73 | | | |since 1/1/1958. Last | |/ 1|2^16-1| | | | |modification time. | |day| | | |--------------+------+-----------------------------+------+---+------+-----| |mod_msec | 58 |Modification time | UI-4 | ms| ds3* | 73 | | | |milliseconds of day. | |/ 1| | | | | |Last modification time. | | ms| | | |--------------+------+-----------------------------+------+---+------+-----| |reserve8 | 62 |Reserved. Eight bytes. | UI-8 |N/A| 0 | | |===========================================================================| (1) Abbreviated values in the Format column are: A-8: ASCII string, 8 bytes A-12: ASCII string, 12 bytes I-4: Integer, 4 bytes UI-1: Unsigned integer, 1 byte UI-2: Unsigned integer, 2 bytes UI-4: Unsigned integer, 4 bytes UI-8: Unsigned integer, 8 bytes RE-4: IEEE single precision (4 bytes) RE-8: IEEE double precision (8 bytes) (2) The 'U' column contains values of 'units/precision'. Abbreviated values include: B: Bytes dBH: dB-Hz K: (degrees) kelvin ms: milliseconds N&D: See Item Name and Description column for details N/A: Not applicable ns: nanoseconds Pct: Percentage/percent ps: picoseconds s: seconds S6: seconds at precision 1 microsecond U: unitless (none) W: watts Y: years (3) The 'Range' column includes possible values. ds1* 0.01 to 86400.99 ds2* 0 to 2^16 - 1 ds3* 0 to 86400999 ds4* 0.00 to 86400.9999 ds5* -31,536,000.0 to 31,536,000.0 ds6* 0.000000 to 86400.999999 ds7* 4.0 to 504,536.0 ds8* -32.3e9 to -2.0e9 ds9* 0.00 to 86400.99 N num_obs 3.1.4.3 Secondary CHDO 133 (Downlink Data Types) Secondary CHDO 133 is used for the following Downlink data types (format codes): Downlink Carrier Phase (data type 1), Downlink Sequential Ranging Phase (data type 3), and Downlink PN Ranging Phase (data type 5). Secondary CHDO 133 is defined in Table 3-6. |===========================================================================| | Table 3-6. Secondary CHDO 133 Definitions | |===========================================================================| | Identifier | Byte | Item Name and Description |Format|U/P| Range|Notes| | |Offset| | (1) |(2)| (3) | | |==============+======+=============================+======+===+======+=====| |chdo_type | 0 |Type attribute of the | UI-2 |N/A| 133 | | | | |secondary CHDO. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |chdo_length | 2 |Length attribute of the | UI-2 | B | 110 | | | | |secondary CHDO. Indicates | | | | | | | |the length, in bytes, of the | | | | | | | |value field (bytes after this| | | | | | | |item) of the secondary CHDO. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |orig_id | 4 |Originator ID. Indicates | UI-1 |N/A| 0- | | | | |where this SFDU was | | | 255 | | | | |originated. Per Reference[4].| | | | | |--------------+------+-----------------------------+------+---+------+-----| |last_modifier | 5 |Last modifier ID. Indicates | UI-1 |N/A| 0- | | | _id | |where this SFDU was last | | | 255 | | | | |modified. Per Reference [4].| | | | | |--------------+------+-----------------------------+------+---+------+-----| |reserve1 | 6 |Reserved. For future | UI-1 |N/A| 0 | | | | |expansion of scft_id. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |scft_id | 7 |Spacecraft number. Per | UI-1 |N/A| 1- | | | | |Reference [3a]. | | | 255 | | |--------------+------+-----------------------------+------+---+------+-----| |dtt_rec_seq_ | 8 |Downlink Record sequence | UI-4 |N/A| 0 to | | | num| |number (DTT RSN). This is the| | |2^32-1| | | | |record sequence number | | | | | | | |reported by the downlink | | | | | | | |subsystem (DTT) equipment. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |rec_seq_num | 12 |Record sequence number (RSN).| UI-4 |N/A| 0 to | | | | |Begins with zero; increments | | |2^32-1| | | | |by one for each successive | | | | | | | |downlink tracking SFDU of the| | | | | | | |same data type; wraps around | | | | | | | |from 2^32-1 to zero. Value is| | | | | | | |reset to zero when the data | | | | | | | |processing system software is| | | | | | | |restarted. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |year | 16 |Time tag year. | UI-2 |N/A|1958- | | | | | | | | 3000| | |--------------+------+-----------------------------+------+---+------+-----| |doy | 18 |Time tag day of year. | UI-2 |N/A| 1-366| | |--------------+------+-----------------------------+------+---+------+-----| |sec | 20 |Time tag seconds of day. | RE-8 | s/| ds1* | 1 | | | | | |10 | | | | | | | | ms| | | |--------------+------+-----------------------------+------+---+------+-----| |rct_day | 28 |Record creation time days. | UI-2 |day| 0 to | 74 | | | |Days since 1/1/1958. | |/1 |2^16-1| | | | | | |day| | | |--------------+------+-----------------------------+------+---+------+-----| |rct_msec | 30 |Record creation time | UI-4 |ms/| ds3* | 74 | | | |milliseconds of day. | | 1 | | | | | | | | ms| | | |--------------+------+-----------------------------+------+---+------+-----| |dl_dss_id | 34 |Downlink antenna number. Per | UI-1 |N/A| 0-255| | | | |Reference [10]. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |dl_band | 35 |Downlink frequency band. | UI-1 |N/A| 0-5 | | | | | 0 => Unknown | | | | | | | | 1 => S-band | | | | | | | | 2 => X-band | | | | | | | | 3 => Ka-band | | | | | | | | 4 => Ku-band | | | | | | | | 5 => L-band | | | | | |--------------+------+-----------------------------+------+---+------+-----| |dl_chan_num | 36 |Downlink channel number. | UI-1 |N/A| 1-24 | | |--------------+------+-----------------------------+------+---+------+-----| |prdx_mode | 37 |Predicts mode. Predicts | UI-1 |N/A| 0-3 | | | | |subset used by downlink | | | | | | | |channel. | | | | | | | | 0 => No Predicts | | | | | | | | 1 => One-way | | | | | | | | 2 => Two-way | | | | | | | | 3 => Three-way | | | | | |--------------+------+-----------------------------+------+---+------+-----| |ul_prdx_stn | 38 |Uplink station used for | UI-1 |N/A| 0-255| | | | |predicts. Valid only if | | | | | | | |prdx_mode is 2 or 3. Per | | | | | | | |Reference [10]. A value of 0 | | | | | | | |means that the number is | | | | | | | |unknown or not valid (e.g., | | | | | | | |no uplink). | | | | | |--------------+------+-----------------------------+------+---+------+-----| |ul_band_dl | 39 |Uplink frequency band assumed| UI-1 |N/A| 0-5 | | | | |by downlink. | | | | | | | | 0 => Unknown | | | | | | | | 1 => S-band | | | | | | | | 2 => X-band | | | | | | | | 3 => Ka-band | | | | | | | | 4 => Ku-band | | | | | | | | 5 => L-band | | | | | |--------------+------+-----------------------------+------+---+------+-----| |array_delay | 40 |Array delay value. Time delay| RE-8 | s | 0.0- | 4 | | | |added to path by arraying | | / | 1.0 | | | | |equipment. Obtained from | |100| | | | | |arraying equipment. Any | | ps| | | | | |measurements include this | | | | | | | |delay. Valid only if Array | | | | | | | |Flag (array_flag) is | | | | | | | |non-zero. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |fts_vld_flag | 48 |Frequency and Timing (FTS) | UI-1 |N/A| 0-1 | | | | |validity. | | | | | | | | 0 => Equipment is not synced| | | | | | | | with FTS | | | | | | | | 1 => Equipment is synced | | | | | | | | with FTS | | | | | |--------------+------+-----------------------------+------+---+------+-----| |carr_lock_stat| 49 |Carrier lock status. | UI-1 |N/A| 0-5 | | | | | 0 => Off | | | | | | | | 1 => Open (only using | | | | | | | | predicts) | | | | | | | | 2 => Acquiring, FFT Search | | | | | | | | 3 => Acquiring, Waiting | | | | | | | | for Lock Decision | | | | | | | | 4 => In Lock | | | | | | | | 5 => Out of Lock | | | | | |--------------+------+-----------------------------+------+---+------+-----| |array_flag | 50 |Array flag. | UI-1 |N/A| 0-2 | 87 | | | | 0 => Not arrayed | | | | | | | | 1 => Arrayed with FSP #1 | | | | | | | | 2 => Arrayed with FSP #2 | | | | | |--------------+------+-----------------------------+------+---+------+-----| |polarization | 51 |Polarization. | UI-1 |N/A| 0-1 | | | | | 0 => RCP | | | | | | | | 1 => LCP | | | | | |--------------+------+-----------------------------+------+---+------+-----| |diplxr_stat | 52 |Diplexer status. | UI-1 |N/A| 0-1 | | | | | 0 => Low noise | | | | | | | | 1 => Diplexed | | | | | |--------------+------+-----------------------------+------+---+------+-----| |lna_num | 53 |LNA Number. | UI-1 |N/A| 1-4 | | |--------------+------+-----------------------------+------+---+------+-----| |rf_if_chan_num| 54 |RF-to-IF Downconverter | UI-1 |N/A| 1-2 | | | | |Channel number. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |if_num | 55 |IF input number. Defines path| UI-1 |N/A| 1-3 | | | | |into downlink channel. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |rcv_time_tag_ | 56 |Receive time tag delay. Value| RE-8 | s | -1.0,| 3 | | delay| |used to offset downlink time | | / | 0.0- | | | | |tag (e.g., for Goldstone Beam| |100| 1.0| | | | |Waveguide antennas). A value| | ps| | | | | |of -1.0 indicates invalid (or| | | | | | | |not provided). | | | | | |--------------+------+-----------------------------+------+---+------+-----| |dl_zheight_ | 64 |Downlink Z-height correction.| RE-4 | s/|-99.0,| 60 | | corr| |Value of -99.0 indicates | |100|-1.0- | | | | |invalid. | | ps| 1.0| | |--------------+------+-----------------------------+------+---+------+-----| |vld_ul_stn | 68 |Validated uplink station. | UI-1 |N/A| 0-255| 61 | | | |Per Reference [10]. The | | | | 79 | | | |uplink station per the | | | | | | | |validation process. A value | | | | | | | |of 0 means that the antenna | | | | | | | |is unknown or not valid. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |vld_dop_mode | 69 |Validated doppler mode. | UI-1 |N/A| 0-3 | 61 | | | | 0 => Unknown or not | | | | 79 | | | | applicable | | | | | | | | 1 => One-way | | | | | | | | 2 => Two-way | | | | | | | | 3 => Three-way | | | | | |--------------+------+-----------------------------+------+---+------+-----| |vld_scft_coh | 70 |Validated spacecraft | UI-1 |N/A| 0-3 | 79 | | | |coherency. | | | | | | | | 0 => Unknown or not | | | | | | | | applicable | | | | | | | | 1 => Coherent | | | | | | | | 2 => Non-coherent | | | | | | | | 3 => Transponded, | | | | | | | | non-coherent | | | | | |--------------+------+-----------------------------+------+---+------+-----| |scft_transpd_ | 71 |Spacecraft transponder lock. | UI-1 |N/A| 0-2 | 5 | | lock| | 0 => Unknown | | | | | | | | 1 => Out-of-lock | | | | | | | | 2 => In Lock | | | | | |--------------+------+-----------------------------+------+---+------+-----| |scft_transpd_ | 72 |Spacecraft transponder | UI-1 |N/A| 0-5 | 5 | | num| |number. 0 if unknown, | | | | | | | |transponder number otherwise.| | | | | |--------------+------+-----------------------------+------+---+------+-----| |reserve1a | 73 |Reserved. One byte. | UI-1 |N/A| 0 | | |--------------+------+-----------------------------+------+---+------+-----| |scft_osc_freq | 74 |Spacecraft oscillator | RE-8 |Hz/| 0.0, | 6 | | | |frequency. Spacecraft one-way| | 1 |2.0E9-| | | | |frequency. 0.0 if unknown. | |mHz|32.3E9| | |--------------+------+-----------------------------+------+---+------+-----| |scft_transpd_ | 82 |Spacecraft transponder delay.| RE-8 | s/| -1.0-| 7 | | delay| |Coherent ranging delay. Value| |100| 0.0- | | | | |of -1.0 indicates invalid. | | ps| 1.0| | |--------------+------+-----------------------------+------+---+------+-----| |scft_transpd_ | 90 |Spacecraft transponder turn | UI-4 |N/A| 0 to | | | turn_num| |around ratio numerator. A | | |2^32-1| | | | |value of 0 indicates unknown.| | | | | |--------------+------+-----------------------------+------+---+------+-----| |scft_transpd_ | 94 |Spacecraft transponder turn | UI-4 |N/A| 0 to | | | turn_den| |around ratio denominator. A | | |2^32-1| | | | |value of 0 indicates unknown.| | | | | |--------------+------+-----------------------------+------+---+------+-----| |scft_twnc_stat| 98 |Spacecraft two-way | UI-1 |N/A| 0-2 | 5 | | | |non-coherent (TWNC) status. | | | | | | | | 0 => Unknown | | | | | | | | 1 => OFF | | | | | | | | 2 => ON | | | | | |--------------+------+-----------------------------+------+---+------+-----| |scft_osc_type | 99 |Spacecraft oscillator type. | UI-1 |N/A| 0-2 | 5 | | | | 0 => Unknown | | | | | | | | 1 => AUX OSC (auxiliary | | | | | | | | oscillator) | | | | | | | | 2 => USO (ultra-stable | | | | | | | | oscillator) | | | | | |--------------+------+-----------------------------+------+---+------+-----| |mod_day | 100 |Modification time days. Days| UI-2 |day| 0 to | 73 | | | |since 1/1/1958. Last | |/ 1|2^16-1| | | | |modification time. | |day| | | |--------------+------+-----------------------------+------+---+------+-----| |mod_msec | 102 |Modification time | UI-4 |ms/| ds3* | 73 | | | |milliseconds of day. Last | | 1 | | | | | |modification time. | | ms| | | |--------------+------+-----------------------------+------+---+------+-----| |reserve8 | 106 |Reserved. Eight bytes. | UI-8 |N/A| 0 | | |===========================================================================| (1) Abbreviated values in the Format column are: A-8: ASCII string, 8 bytes A-12: ASCII string, 12 bytes I-4: Integer, 4 bytes UI-1: Unsigned integer, 1 byte UI-2: Unsigned integer, 2 bytes UI-4: Unsigned integer, 4 bytes UI-8: Unsigned integer, 8 bytes RE-4: IEEE single precision (4 bytes) RE-8: IEEE double precision (8 bytes) (2) The 'U' column contains values of 'units/precision'. Abbreviated values include: B: Bytes dBH: dB-Hz K: (degrees) kelvin ms: milliseconds N&D: See Item Name and Description column for details N/A: Not applicable ns: nanoseconds Pct: Percentage/percent ps: picoseconds s: seconds S6: seconds at precision 1 microsecond U: unitless (none) W: watts Y: years (3) The 'Range' column includes possible values. ds1* 0.01 to 86400.99 ds2* 0 to 2^16 - 1 ds3* 0 to 86400999 ds4* 0.00 to 86400.9999 ds5* -31,536,000.0 to 31,536,000.0 ds6* 0.000000 to 86400.999999 ds7* 4.0 to 504,536.0 ds8* -32.3e9 to -2.0e9 ds9* 0.00 to 86400.99 N num_obs 3.1.4.4 Secondary CHDO 135 (Interferometric Data Types) Secondary CHDO 135 is used for the following Interferometric data type (format code): VLBI (data type 10). Secondary CHDO 135 is defined in Table 3-7. |===========================================================================| | Table 3-7. Secondary CHDO 135 Definitions | |===========================================================================| | Identifier | Byte | Item Name and Description |Format|U/P| Range|Notes| | |Offset| | (1) |(2)| (3) | | |==============+======+=============================+======+===+======+=====| |chdo_type | 0 |Type attribute of the | UI-2 |N/A| 135 | | | | |secondary CHDO. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |chdo_length | 2 |Length attribute of the | UI-2 | B | 88 | | | | |secondary CHDO. Indicates | | | | | | | |the length, in bytes, of the | | | | | | | |value field (bytes after this| | | | | | | |item) of the secondary CHDO. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |orig_id | 4 |Originator ID. Indicates | UI-1 |N/A| 0- | | | | |where this SFDU was | | | 255 | | | | |originated. Per Reference[4].| | | | | |--------------+------+-----------------------------+------+---+------+-----| |last_modifier_| 5 |Last modifier ID. Indicates | UI-1 |N/A| 0- | | | id| |where this SFDU was last | | | 255 | | | | |modified. Per Reference [4].| | | | | |--------------+------+-----------------------------+------+---+------+-----| |reserve1 | 6 |Reserved. For future | UI-1 |N/A| 0 | | | | |expansion of scft_id. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |scft_id | 7 |Spacecraft number. Per | UI-1 |N/A| 1- | | | | |Reference [3a] (set to 0 if | | | 255 | | | | |quasar sample). | | | | | |--------------+------+-----------------------------+------+---+------+-----| |rec_seq_num | 8 |Record sequence number (RSN).| UI-4 |N/A| 0 to | | | | |Begins with zero; increments | | |2^32-1| | | | |by one for each successive | | | | | | | |VLBI tracking SFDU of the | | | | | | | |same data type; wraps around | | | | | | | |from 2^32-1 to zero. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |year | 12 |Time tag year. | UI-2 |N/A|1958- | | | | | | | | 3000| | |--------------+------+-----------------------------+------+---+------+-----| |doy | 14 |Time tag day of year. | UI-2 |N/A| 1-366| | |--------------+------+-----------------------------+------+---+------+-----| |sec | 16 |Time tag seconds of day. | RE-8 | s/| ds4* | 1 | | | | | |0.1| | | | | | | | ms| | | |--------------+------+-----------------------------+------+---+------+-----| |rct_day | 24 |Record creation time days. | UI-2 |day| 0 to | 74 | | | |Days since 1/1/1958. | | /1|2^16-1| | | | | | |day| | | |--------------+------+-----------------------------+------+---+------+-----| |rct_msec | 26 |Record creation time | UI-4 | ms| ds3* | 74 | | | |milliseconds of day. | | /1| | | | | | | | ms| | | |--------------+------+-----------------------------+------+---+------+-----| |ul_dss_id | 30 |Primary uplink antenna | UI-1 |N/A| 0-255| | | | |number. Per Reference [10]. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |dl_dss_id | 31 |Primary downlink antenna | UI-1 |N/A| 0-255| | | | |number. Per Reference [10]. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |dl_band | 32 |Downlink frequency band. | UI-1 |N/A| 0-5 | | | | | 0 => unknown | | | | | | | | 1 => S-band | | | | | | | | 2 => X-band | | | | | | | | 3 => Ka-band | | | | | | | | 4 => Ku-band | | | | | | | | 5 => L-band | | | | | |--------------+------+-----------------------------+------+---+------+-----| |dl_chan_num | 33 |Downlink channel number. | UI-1 |N/A| 1-24 | | |--------------+------+-----------------------------+------+---+------+-----| |prdx_mode | 34 |Predicts mode. Predicts | UI-1 |N/A| 0-3 | | | | |subset used by downlink | | | | | | | |channel. | | | | | | | | 0 => No Predicts | | | | | | | | 1 => One-way | | | | | | | | 2 => Two-way | | | | | | | | 3 => Three-way | | | | | |--------------+------+-----------------------------+------+---+------+-----| |ul_prdx_stn | 35 |Uplink station used for | UI-1 |N/A| 0-255| | | | |predicts. Valid only if | | | | | | | |prdx_mode is 2 or 3. Per | | | | | | | |Reference [10]. A value of 0 | | | | | | | |means that the number is | | | | | | | |unknown or not valid (e.g., | | | | | | | |no uplink). | | | | | |--------------+------+-----------------------------+------+---+------+-----| |ul_band_dl | 36 |Uplink frequency band | UI-1 |N/A| 0-5 | | | | |assumed by downlink. | | | | | | | | 0 => Unknown | | | | | | | | 1 => S-band | | | | | | | | 2 => X-band | | | | | | | | 3 => Ka-band | | | | | | | | 4 => Ku-band | | | | | | | | 5 => L-band | | | | | |--------------+------+-----------------------------+------+---+------+-----| |rec_type | 37 |Record type. | UI-1 |N/A| 71-74| | | | | 71 => spacecraft DOD | | | | | | | | 72 => quasar DOD | | | | | | | | 73 => spacecraft DOR | | | | | | | | 74 => quasar DOR | | | | | |--------------+------+-----------------------------+------+---+------+-----| |rcv_time_tag_ | 38 |Receive time tag delay at | RE-8 | s | -1.0,| | | delay| |primary antenna. Value used | | / | 0.0- | | | | |to offset downlink time tag | |100| 1.0| | | | |(e.g, for Goldstone Beam | | ps| | | | | |Waveguide antennas). A value| | | | | | | |of -1.0 indicates invalid (or| | | | | | | |not provided). | | | | | |--------------+------+-----------------------------+------+---+------+-----| |array_delay | 46 |Array delay value at primary | RE-8 | s | 0.0- | 4 | | | |antenna. Time delay added to| | / | 1.0| | | | |path by arraying equipment. | |100| | | | | |Obtained from arraying | | ps| | | | | |equipment. Any measurements | | | | | | | |include this delay. Valid | | | | | | | |only if Array Flag | | | | | | | |(array_flag) is non-zero. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |dl_dss_id_2 | 54 |Secondary downlink antenna | UI-1 |N/A| 0-255| | | | |number. Per Reference [10]. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |reserve1a | 55 |Reserved. One byte. | UI-1 |N/A| 0 | | |--------------+------+-----------------------------+------+---+------+-----| |rcv_time_tag_ | 56 |Receive time tag delay at | RE-8 | s | -1.0,| | | delay_2| |secondary antenna. Value used| | / | 0.0- | | | | |to offset downlink time tag | |100| 1.0| | | | |(e.g., for Goldstone Beam | | ps| | | | | |Waveguide antennas). A value| | | | | | | |of -1.0 indicates invalid (or| | | | | | | |not provided). | | | | | |--------------+------+-----------------------------+------+---+------+-----| |array_delay_2 | 64 |Array delay value at | RE-8 | s | 0.0- | 4 | | | |secondary antenna. Time delay| | / | 1.0| | | | |added to path by arraying | |100| | | | | |equipment. Obtained from | | ps| | | | | |arraying equipment. Any | | | | | | | |measurements include this | | | | | | | |delay. Valid only if | | | | | | | |Secondary Antenna Array Flag | | | | | | | |(array_flag_2) is non-zero. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |fts_vld_flag | 72 |Frequency and Timing (FTS) | UI-1 |N/A| 0-1 | | | | |validity. | | | | | | | | 0 => Equipment is not synced| | | | | | | | with FTS | | | | | | | | 1 => Equipment is synced | | | | | | | | with FTS | | | | | |--------------+------+-----------------------------+------+---+------+-----| |carr_lock_stat| 73 |Carrier lock status. | UI-1 |N/A| 0-5 | | | | | 0 => Off | | | | | | | | 1 => Open | | | | | | | | 2 => Acquiring, FFT Search | | | | | | | | 3 => Acquiring, Waiting for | | | | | | | | Lock Decision | | | | | | | | 4 => In Lock | | | | | | | | 5 => Out-of-Lock | | | | | |--------------+------+-----------------------------+------+---+------+-----| |array_flag | 74 |Array flag for primary | UI-1 |N/A| 0-2 | 87 | | | |antenna. | | | | | | | | 0 => Not arrayed | | | | | | | | 1 => Arrayed with FSP #1 | | | | | | | | 2 => Arrayed with FSP #2 | | | | | |--------------+------+-----------------------------+------+---+------+-----| |source_type | 75 |VLBI source. | UI-1 |N/A| 0-1 | | | | | 0 => quasar | | | | | | | | 1 => spacecraft | | | | | |--------------+------+-----------------------------+------+---+------+-----| |lna_num | 76 |LNA Number. | UI-1 |N/A| 1-4 | | |--------------+------+-----------------------------+------+---+------+-----| |array_flag_2 | 77 |Array flag for secondary | UI-1 |N/A| 0-2 | 87 | | | |antenna. | | | | | | | | 0 => Not arrayed | | | | | | | | 1 => Arrayed with FSP #1 | | | | | | | | 2 => Arrayed with FSP #2 | | | | | |--------------+------+-----------------------------+------+---+------+-----| |mod_day | 78 |Modification time days. Days| UI-2 |day| 0 to | 73 | | | |since 1/1/1958. Last | | /1|2^16-1| | | | |modification time. | |day| | | |--------------+------+-----------------------------+------+---+------+-----| |mod_msec | 80 |Modification time | UI-4 | ms| ds3* | 73 | | | |milliseconds of day. Last | | /1| | | | | |modification time. | | ms| | | |--------------+------+-----------------------------+------+---+------+-----| |reserve8 | 84 |Reserved. Eight bytes. | UI-8 |N/A| 0 | | |===========================================================================| (1) Abbreviated values in the Format column are: A-8: ASCII string, 8 bytes A-12: ASCII string, 12 bytes I-4: Integer, 4 bytes UI-1: Unsigned integer, 1 byte UI-2: Unsigned integer, 2 bytes UI-4: Unsigned integer, 4 bytes UI-8: Unsigned integer, 8 bytes RE-4: IEEE single precision (4 bytes) RE-8: IEEE double precision (8 bytes) (2) The 'U' column contains values of 'units/precision'. Abbreviated values include: B: Bytes dBH: dB-Hz K: (degrees) kelvin ms: milliseconds N&D: See Item Name and Description column for details N/A: Not applicable ns: nanoseconds Pct: Percentage/percent ps: picoseconds s: seconds S6: seconds at precision 1 microsecond U: unitless (none) W: watts Y: years (3) The 'Range' column includes possible values. ds1* 0.01 to 86400.99 ds2* 0 to 2^16 - 1 ds3* 0 to 86400999 ds4* 0.00 to 86400.9999 ds5* -31,536,000.0 to 31,536,000.0 ds6* 0.000000 to 86400.999999 ds7* 4.0 to 504,536.0 ds8* -32.3e9 to -2.0e9 ds9* 0.00 to 86400.99 N num_obs 3.1.4.5 Secondary CHDO 136 (Filtered Data Types) Secondary CHDO 136 is used for the following Filtered data types (format codes): Smoothed Noise (data type 12) and Allan Deviation (data type 13). These data types are only generated for DTT-type antennas. Secondary CHDO 136 is defined in Table 3-8. |===========================================================================| | Table 3-8. Secondary CHDO 136 Definitions | |===========================================================================| | Identifier | Byte | Item Name and Description |Format|U/P| Range|Notes| | |Offset| | (1) |(2)| (3) | | |==============+======+=============================+======+===+======+=====| |chdo_type | 0 |Type attribute of the | UI-2 |N/A| 136 | | | | |secondary CHDO. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |chdo_length | 2 |Length attribute of the | UI-2 | B | 98 | | | | |secondary CHDO. Indicates | | | | | | | |the length, in bytes, of the | | | | | | | |value field (bytes after this| | | | | | | |item) of the secondary CHDO. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |orig_id | 4 |Originator ID. Indicates | UI-1 |N/A| 0- | | | | |where this SFDU was | | | 255 | | | | |originated. Per Reference[4].| | | | | |--------------+------+-----------------------------+------+---+------+-----| |last_modifier_| 5 |Last modifier ID. Indicates | UI-1 |N/A| 0- | | | id| |where this SFDU was last | | | 255 | | | | |modified. Per Reference [4].| | | | | |--------------+------+-----------------------------+------+---+------+-----| |reserve1 | 6 |Reserved. For future | UI-1 |N/A| 0 | | | | |expansion of scft_id. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |scft_id | 7 |Spacecraft number. Per | UI-1 |N/A| 1- | | | | |Reference [3a] | | | 255 | | |--------------+------+-----------------------------+------+---+------+-----| |rec_seq_num | 8 |Record sequence number (RSN).| UI-4 |N/A| 0 to | | | | |Begins with zero; increments | | |2^32-1| | | | |by one for each successive | | | | | | | |filtered SFDU of the same | | | | | | | |data type; wraps around from | | | | | | | |2^32-1 to zero. Value is | | | | | | | |reset to zero when the data | | | | | | | |processing system software is| | | | | | | |restarted. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |year | 12 |Time tag year. | UI-2 |N/A|1958- | | | | | | | | 3000| | |--------------+------+-----------------------------+------+---+------+-----| |doy | 14 |Time tag day of year. | UI-2 |N/A| 1-366| | |--------------+------+-----------------------------+------+---+------+-----| |sec | 16 |Time tag seconds of day. | RE-8 | s/| ds1* | 1 | | | | | | 10| | | | | | | | ms| | | |--------------+------+-----------------------------+------+---+------+-----| |rct_day | 24 |Record creation time days. | UI-2 |day| 0 to | 74 | | | |Days since 1/1/1958. | | /1|2^16-1| | | | | | |day| | | |--------------+------+-----------------------------+------+---+------+-----| |rct_msec | 26 |Record creation time | UI-4 | ms| ds3* | 74 | | | |milliseconds of day. | | /1| | | | | | | | ms| | | |--------------+------+-----------------------------+------+---+------+-----| |dl_dss_id | 30 |Downlink antenna number. | UI-1 |N/A| 0-255| | | | |Per Reference [10]. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |dl_band | 31 |Downlink frequency band. | UI-1 |N/A| 0-5 | | | | | 0 => unknown | | | | | | | | 1 => S-band | | | | | | | | 2 => X-band | | | | | | | | 3 => Ka-band | | | | | | | | 4 => Ku-band | | | | | | | | 5 => L-band | | | | | |--------------+------+-----------------------------+------+---+------+-----| |dl_chan_num | 32 |Downlink channel number. | UI-1 |N/A| 1-24 | | |--------------+------+-----------------------------+------+---+------+-----| |prdx_mode | 33 |Predicts mode. | UI-1 |N/A| 0-3 | | | | | 0 => No Predicts | | | | | | | | 1 => One-way | | | | | | | | 2 => Two-way | | | | | | | | 3 => Three-way | | | | | |--------------+------+-----------------------------+------+---+------+-----| |ul_prdx_stn | 34 |Uplink station used for | UI-1 |N/A| 0-255| | | | |predicts. Valid only if | | | | | | | |prdx_mode is 2 or 3. Per | | | | | | | |Reference [10]. A value of 0 | | | | | | | |means that the number is | | | | | | | |unknown or not valid (e.g., | | | | | | | |no uplink). | | | | | |--------------+------+-----------------------------+------+---+------+-----| |ul_band_dl | 35 |Uplink frequency band | UI-1 |N/A| 0-5 | | | | |assumed by downlink. | | | | | | | | 0 => Unknown or not | | | | | | | | applicable | | | | | | | | 1 => S-band | | | | | | | | 2 => X-band | | | | | | | | 3 => Ka-band | | | | | | | | 4 => Ku-band | | | | | | | | 5 => L-band | | | | | |--------------+------+-----------------------------+------+---+------+-----| |rcv_time_tag_ | 36 |Receive time tag delay. | RE-8 | s | -1.0,| 3 | | delay| |Value used | | / | 0.0- | | | | |to offset downlink time tag | |100| 1.0| | | | |(e.g, for Goldstone Beam | | ps| | | | | |Waveguide antennas). A value| | | | | | | |of -1.0 indicates invalid (or| | | | | | | |not provided). | | | | | |--------------+------+-----------------------------+------+---+------+-----| |array_delay | 44 |Array delay value. | RE-8 | s | 0.0- | 4 | | | |Time delay added to | | / | 1.0| | | | |path by arraying equipment. | |100| | | | | |Obtained from arraying | | ps| | | | | |equipment. Any measurements | | | | | | | |include this delay. Valid | | | | | | | |only if Array Flag | | | | | | | |(array_flag) is non-zero. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |fts_vld_flag | 52 |Frequency and Timing (FTS) | UI-1 |N/A| 0-1 | | | | |validity. | | | | | | | | 0 => Equipment is not synced| | | | | | | | with FTS | | | | | | | | 1 => Equipment is synced | | | | | | | | with FTS | | | | | |--------------+------+-----------------------------+------+---+------+-----| |carr_lock_stat| 53 |Carrier lock status. | UI-1 |N/A| 0-5 | | | | | 0 => Off | | | | | | | | 1 => Open (using only | | | | | | | | predicts) | | | | | | | | 2 => Acquiring, FFT Search | | | | | | | | 3 => Acquiring, Waiting for | | | | | | | | Lock Decision | | | | | | | | 4 => In Lock | | | | | | | | 5 => Out-of-Lock | | | | | |--------------+------+-----------------------------+------+---+------+-----| |array_flag | 54 |Array flag. | UI-1 |N/A| 0-2 | 87 | | | | 0 => Not arrayed | | | | | | | | 1 => Arrayed with FSP #1 | | | | | | | | 2 => Arrayed with FSP #2 | | | | | |--------------+------+-----------------------------+------+---+------+-----| |lna_num | 55 |LNA Number. | UI-1 |N/A| 1-4 | | |--------------+------+-----------------------------+------+---+------+-----| |vld_ul_stn | 56 |Validated uplink station. | UI-1 |N/A| 0-255| 61 | | | |Per Reference [10]. The | | | | 79 | | | |uplink station per the | | | | | | | |validation process. A value | | | | | | | |of 0 means that the antenna | | | | | | | |is unknown or not valid. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |vld_dop_mode | 57 |Validated doppler mode. | UI-1 |N/A| 0-3 | 61 | | | | 0 => Unknown or not | | | | 79 | | | | applicable | | | | | | | | 1 => One-way | | | | | | | | 2 => Two-way | | | | | | | | 3 => Three-way | | | | | |--------------+------+-----------------------------+------+---+------+-----| |vld_scft_coh | 58 |Validated spacecraft | UI-1 |N/A| 0-3 | 79 | | | | coherency. | | | | | | | | 0 => Unknown or not | | | | | | | | applicable | | | | | | | | 1 => Coherent | | | | | | | | 2 => Non-coherent | | | | | | | | 3 => Transponded, | | | | | | | | non-coherent | | | | | |--------------+------+-----------------------------+------+---+------+-----| |scft_transpd_ | 59 |Spacecraft transponder lock. | UI-1 |N/A| 0-2 | 5 | | lock| | 0 => Unknown | | | | | | | | 1 => Out-of-lock | | | | | | | | 2 => In Lock | | | | | |--------------+------+-----------------------------+------+---+------+-----| |scft_transpd_ | 60 |Spacecraft transponder | UI-1 |N/A| 0-5 | 5 | | num| |number. 0 if unknown, | | | | | | | |transponder number otherwise.| | | | | |--------------+------+-----------------------------+------+---+------+-----| |reserve1a | 61 |Reserved. One byte. | UI-1 |N/A| 0 | | |--------------+------+-----------------------------+------+---+------+-----| |scft_osc_freq | 62 |Spacecraft oscillator | RE-8 |Hz/|0.0, | 6 | | | |frequency. Spacecraft one-way| |1.0|2.0E9-| | | | |frequency. 0.0 if unknown. | |mHz|32.3E9| | |--------------+------+-----------------------------+------+---+------+-----| |scft_transpd_ | 70 |Spacecraft transponder delay.| RE-8 | s/| -1.0,| 7 | | delay| |Coherent ranging delay. Value| |100| 0.0- | | | | |of -1.0 indicates invalid. | | ps| 1.0| | |--------------+------+-----------------------------+------+---+------+-----| |scft_transpd_ | 78 |Spacecraft transponder turn | UI-4 |N/A| 0 to | | | turn_num| |around ratio numerator. | | |2^32-1| | | | |A value of 0 indicates | | | | | | | |unknown. | | | | | |--------------+------+-----------------------------+------+---+------+-----| scft_transpd_ | 82 |Spacecraft transponder turn | UI-4 |N/A| 0 to | | | turn_den| |around ratio denominator. | | |2^32-1| | | | |A value of 0 indicates | | | | | | | |unknown. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |scft_twnc_stat| 86 |Spacecraft two-way | UI-1 |N/A| 0-2 | 5 | | | |non-coherent (TWNC) status. | | | | | | | | 0 => Unknown | | | | | | | | 1 => OFF | | | | | | | | 2 => ON | | | | | |--------------+------+-----------------------------+------+---+------+-----| |scft_osc_type | 87 |Spacecraft oscillator type. | UI-1 |N/A| 0-2 | 5 | | | | 0 => Unknown | | | | | | | | 1 => AUX OSC (auxiliary | | | | | | | | oscillator) | | | | | | | | 2 => USO (ultra-stable | | | | | | | | oscillator) | | | | | |--------------+------+-----------------------------+------+---+------+-----| |mod_day | 88 |Modification time days. Days| UI-2 |Day| 0 to | 73 | | | |since 1/1/1958. Last | |/1 |2^16-1| | | | |modification time. | |day| | | |--------------+------+-----------------------------+------+---+------+-----| |mod_msec | 90 |Modification time | UI-4 |ms/| ds3* | 73 | | | |milliseconds of day. | | 1 | | | | | |Last modification time. | | ms| | | |--------------+------+-----------------------------+------+---+------+-----| |Reserve8 | 94 |Reserved. Eight bytes. | UI-8 |N/A| 0 | | |===========================================================================| (1) Abbreviated values in the Format column are: A-8: ASCII string, 8 bytes A-12: ASCII string, 12 bytes I-4: Integer, 4 bytes UI-1: Unsigned integer, 1 byte UI-2: Unsigned integer, 2 bytes UI-4: Unsigned integer, 4 bytes UI-8: Unsigned integer, 8 bytes RE-4: IEEE single precision (4 bytes) RE-8: IEEE double precision (8 bytes) (2) The 'U' column contains values of 'units/precision'. Abbreviated values include: B: Bytes dBH: dB-Hz K: (degrees) kelvin ms: milliseconds N&D: See Item Name and Description column for details N/A: Not applicable ns: nanoseconds Pct: Percentage/percent ps: picoseconds s: seconds S6: seconds at precision 1 microsecond U: unitless (none) W: watts Y: years (3) The 'Range' column includes possible values. ds1* 0.01 to 86400.99 ds2* 0 to 2^16 - 1 ds3* 0 to 86400999 ds4* 0.00 to 86400.9999 ds5* -31,536,000.0 to 31,536,000.0 ds6* 0.000000 to 86400.999999 ds7* 4.0 to 504,536.0 ds8* -32.3e9 to -2.0e9 ds9* 0.00 to 86400.99 N num_obs 3.1.5 Tracking Data CHDOs There are 18 types of Tracking Data CHDOs, split into five categories: uplink data, downlink data, derived data, interferometric data, and filtered data. Uplink data are the validated uplink phases from the UPL-DTT antennas and the uplink ramps. Downlink data are the validated downlink phases from the UPL-DTT antennas. Derived data are the data from the non-UPL-DTT antennas, and the processed doppler, range and DRVID data from the UPL-DTT antennas. Interferometric data are the VLBI data. Filtered data are the measurements derived from the accumulated downlink carrier phase data (smoothed noise and Allan Deviation) and are only available for UPL-DTT antennas. The data types are as follows: * Uplink Data * Uplink Carrier Phase (data type 0) * Uplink Sequential Ranging Phase (data type 2) * Uplink PN Ranging Phase (data type 4) * Ramp (data type 9) * Downlink Data * Downlink Carrier Phase (data type 1) * Downlink Sequential Ranging Phase (data type 3) * Downlink PN Ranging Phase (data type 5) * Derived Data * Doppler Count (data type 6) * Sequential Range (data type 7) * Angle (data type 8) * DRVID (data type 11) * PN Range (data type 14) * Tone Range (data type 15) * Carrier Frequency Observable (data type 16) * Total Count Phase Observable (data type 17) * Interferometric Data * VLBI (data type 10) * Filtered Data * Smoothed Noise (data type 12) * Allan Deviation (data type 13) 3.1.5.1 Uplink Data CHDOs There are four Uplink Data CHDOs: Uplink Carrier Phase (data type 0), Uplink Sequential Ranging Phase (data type 2), Uplink PN Ranging Phase (data type 4), and Ramp (data type 9). Their formats and contents are specified in sections 3.1.5.1.1 to 3.1.5.1.4. 3.1.5.1.1 Uplink Carrier Phase CHDO (Data Type 0) The Uplink Carrier Phase CHDO is defined in Table 3-9. |===========================================================================| | Table 3-9. Uplink Carrier Phase CHDO (Data Type 0) Definitions | |===========================================================================| | Identifier | Byte | Item Name and Description |Format|U/P| Range|Notes| | |Offset| | (1) |(2)| (3) | | |==============+======+=============================+======+===+======+=====| |chdo_type | 0 |Type attribute of the uplink | UI-2 |N/A| 10 | | | | |carrier phase data CHDO. CHDO| | | | | | | |contains binary data. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |chdo_length | 2 |Length attribute of the | UI-2 | B | 76 | | | | |uplink carrier phase data | | | | | | | |CHDO value field. Number of | | | | | | | |bytes after this item. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |ul_hi_phs_ | 4 |High part phase data whole | UI-4 |N&D| 0 to | 8 | | cycles| |cycles. Total integer phase | | |2^32-1| | | | |cycles divided by 2^32. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |ul_lo_phs_ | 8 |Low part phase data whole | UI-4 |N&D| 0 to | 8 | | cycles| |cycles. Total integer phase | | | | | | | |cycles modulo 2^32. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |ul_frac_phs_ | 12 |Fractional part phase data | UI-4 |N&D| 0 to | 8 | | cycles| |cycles. Fractional phase | | |2^32-1| | | | |cycles multiplied by 2^32 | | | | | |--------------+------+-----------------------------+------+---+------+-----| |ramp_freq | 16 |Ramp frequency. Precision | RE-8 |N&D| 0.0, | | | | |varies with band (phase data | | |2.0E9-| | | | |gives higher precision). A | | |34.7E9| | | | |value of 0.0 indicates an | | | | | | | |invalid or unknown value. | | | | | | | | S-band => 0.5 microHz | | | | | | | | X-band => 1.6 microHz | | | | | | | | Ka-band => 7.7 microHz | | | | | | | |Sky level Hz, at least 7.7 | | | | | | | |microHz precision (band | | | | | | | |dependent) | | | | | |--------------+------+-----------------------------+------+---+------+-----| |ramp_rate | 24 |Ramp rate. | RE-8 |N&D|-3.2E5| | | | |Sky level Hz/sec, microHz/sec| | | to | | | | |precision | | | 3.2E5| | |--------------+------+-----------------------------+------+---+------+-----| |transmit_ | 32 |Transmitter switch status. | UI-1 |N/A| 0-2 | | | switch_stat| | 0 => antenna | | | | | | | | 1 => water load | | | | | | | | 2 => invalid/unknown | | | | | |--------------+------+-----------------------------+------+---+------+-----| |ramp_type | 33 |Ramp type. | UI-1 |N/A| 0-6 | | | | | 0 => snap | | | | | | | | 1 => start of new ramp | | | | | | | | 2 => medial report | | | | | | | | 3 => periodic report | | | | | | | | 4 => end of ramps | | | | | | | | 5 => ramping terminated by | | | | | | | | operator | | | | | | | | 6 => invalid/unknown | | | | | |--------------+------+-----------------------------+------+---+------+-----| |transmit_op_ | 34 |Transmitter output power. | RE-4 | W/| 0.0- | | | pwr| | | |0.1| 500K| | | | | | | W | | | |--------------+------+-----------------------------+------+---+------+-----| |sup_data_id | 38 |Support data ID. Name of the| A-8 |N/A| ASCII| | | | |frequency predicts set used. | | |string| | |--------------+------+-----------------------------+------+---+------+-----| |sup_data_rev | 46 |Support data revision. | A-8 |N/A| ASCII| | | | |Revision of the frequency | | |string| | | | |predicts set used. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |prdx_time_ | 54 |Predicts time offset. | RE-8 | s/| ds5* | 54 | | offset| |Seconds added to current | |0.1| | | | | |time. | | s | | | |--------------+------+-----------------------------+------+---+------+-----| |prdx_freq_ | 62 |Predicts frequency offset. | RE-8 | Hz|-4.8E6| 55 | | offset| |Hz added to predicted value. | | /1| to | | | | | | |mHz| 4.8E6| | |--------------+------+-----------------------------+------+---+------+-----| |time_tag_corr_| 70 |Time tag correction flag. | UI-1 |N/A| 0-2 | | | flag| |Indicates results of | | | | | | | |validation of the block time | | | | | | | |tag. | | | | | | | | 0 => no validation attempted| | | | | | | | 1 => validated, no change | | | | | | | | 2 => validated, changed | | | | | |--------------+------+-----------------------------+------+---+------+-----| |type_time_ | 71 |Type of time tag | UI-1 |N/A| 0-3 | | | corr_flag| |correction flag. Indicates | | | | | | | |what type of time tag | | | | | | | |correction was made. | | | | | | | | 0 => no correction | | | | | | | | 1 => Year correction | | | | | | | | 2 => DOY correction | | | | | | | | 3 => Both Year and DOY | | | | | | | | correction | | | | | |--------------+------+-----------------------------+------+---+------+-----| |reserve8 | 72 |Reserved. Eight bytes. | UI-8 |N/A| 0 | | |===========================================================================| (1) Abbreviated values in the Format column are: A-8: ASCII string, 8 bytes A-12: ASCII string, 12 bytes I-4: Integer, 4 bytes UI-1: Unsigned integer, 1 byte UI-2: Unsigned integer, 2 bytes UI-4: Unsigned integer, 4 bytes UI-8: Unsigned integer, 8 bytes RE-4: IEEE single precision (4 bytes) RE-8: IEEE double precision (8 bytes) (2) The 'U' column contains values of 'units/precision'. Abbreviated values include: B: Bytes dBH: dB-Hz K: (degrees) kelvin ms: milliseconds N&D: See Item Name and Description column for details N/A: Not applicable ns: nanoseconds Pct: Percentage/percent ps: picoseconds s: seconds S6: seconds at precision 1 microsecond U: unitless (none) W: watts Y: years (3) The 'Range' column includes possible values. ds1* 0.01 to 86400.99 ds2* 0 to 2^16 - 1 ds3* 0 to 86400999 ds4* 0.00 to 86400.9999 ds5* -31,536,000.0 to 31,536,000.0 ds6* 0.000000 to 86400.999999 ds7* 4.0 to 504,536.0 ds8* -32.3e9 to -2.0e9 ds9* 0.00 to 86400.99 N num_obs 3.1.5.1.2 Uplink Sequential Ranging Phase CHDO (Data Type 2) The Uplink Sequential Ranging Phase CHDO is defined in Table 3-10. |===========================================================================| |Table 3-10. Uplink Sequential Ranging Phase CHDO (Data Type 2) Definitions | |===========================================================================| | Identifier | Byte | Item Name and Description |Format|U/P| Range|Notes| | |Offset| | (1) |(2)| (3) | | |==============+======+=============================+======+===+======+=====| |chdo_type | 0 |Type attribute of the uplink | UI-2 |N/A| 10 | | | | |sequential range phase data | | | | | | | |CHDO. CHDO contains binary | | | | | | | |data. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |chdo_length | 2 |Length attribute of the | UI-2 | B | 108 | | | | |uplink sequential ranging | | | | | | | |phase data CHDO value field. | | | | | | | |Number of bytes after this | | | | | | | |item. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |stn_cal | 4 |Station calibration value. | RE-8 | RU| 0.0 | 24 | | | |(Two-way). Value includes the| | / | to | | | | |equipment in the path, but | |.01| 1.8E5| | | | |not the Z-height correction. | | RU| | | | | |(0.0 if not measured.) | | | | | |--------------+------+-----------------------------+------+---+------+-----| |ul_stn_cal | 12 |Uplink station calibration | RE-8 | RU| 0.0 | 10 | | | |value. Value includes the | | / | to | 24 | | | |uplink equipment in the path,| |.01| 1.8E5| | | | |but not the Z-height | | RU| | | | | |correction. (0.0 if not | | | | | | | |measured.) | | | | | |--------------+------+-----------------------------+------+---+------+-----| |ul_cal_freq | 20 |Uplink calibration frequency.| RE-8 |N&D|2.0E9 | | | | |Frequency the calibration was| | | to | | | | |done at. Sky level Hz at | | |34.4E9| | | | |1 mHz precision. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |cal_std_dev | 28 |Standard deviation of station| RE-4 |RU/| 0.0 | 24 | | | |calibration value. For | |.01| to | | | | |stn_cal and ul_stn_cal. | | RU| 1.8E5| | |--------------+------+-----------------------------+------+---+------+-----| |cal_pts | 32 |Calibration points. Number of| UI-2 |N/A| 0- | | | | |measurements made in | | | 65535| | | | |computing station calibration| | | | | | | |values (stn_cal, ul_stn_cal, | | | | | | | |cal_std_dev). | | | | | |--------------+------+-----------------------------+------+---+------+-----| |ul_rng_phs | 34 |Measured range phase. Range | RE-8 |RU/| 0.0 | 11 | | | |phase. | |.01| to | 24 | | | | | | RU| 230| | |--------------+------+-----------------------------+------+---+------+-----| |transmit_ | 42 |Transmitter switch status. | UI-1 |N/A| 0-2 | | | switch_stat| | 0 => antenna | | | | | | | | 1 => water load | | | | | | | | 2 => invalid/unknown | | | | | |--------------+------+-----------------------------+------+---+------+-----| |invert | 43 |Invert. Polarity of | UI-1 |N/A| 0-1 | 52 | | | |modulation. | | | | | | | | 0 => not inverted | | | | | | | | 1 => inverted | | | | | |--------------+------+-----------------------------+------+---+------+-----| |transmit_op_ | 44 |Transmitter output power. | RE-4 |W/ | 0.0 | | | pwr| | | |0.1| to | | | | | | | W | 500K| | |--------------+------+-----------------------------+------+---+------+-----| |template_id | 48 |Template ID. Value is the | A-8 |N/A| ASCII| | | | |file name of the ranging | | |string| | | | |parameter file. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |t1 | 56 |T1 setting. | UI-2 | s/|1-3600| 12 | | | | | |1 s| | | |--------------+------+-----------------------------+------+---+------+-----| |t2 | 58 |T2 setting. | UI-2 | s/|1-1800| 13 | | | | | |1 s| | | |--------------+------+-----------------------------+------+---+------+-----| |t3 | 60 |T3 setting. | UI-2 | s/|1-1800| 14 | | | | | |1 s| | | |--------------+------+-----------------------------+------+---+------+-----| |first_comp_num| 62 |First component number. | UI-1 |N/A| 1-24 | 15 | |--------------+------+-----------------------------+------+---+------+-----| |last_comp_num | 63 |Last component number. | UI-1 |N/A| 1-24 | 15 | |--------------+------+-----------------------------+------+---+------+-----| |chop_comp_num | 64 |Chop component number. This | UI-1 |N/A| 0-10 | 15 | | | |is the component used to chop| | | | 16 | | | |the other components. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |num_drvid | 65 |Number of DRVID measurements.| UI-1 |N/A| 0-255| | |--------------+------+-----------------------------+------+---+------+-----| |transmit_ | 66 |Transmit In-phase time- year.| UI-2 |N/A|1958- | 75 | | inphs_ | |Year of the time of zero | | | 3000| | | time_year| |phase on uplink range | | | | | | | |generation. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |transmit_ | 68 |Transmit In-phase time - day | UI-2 |N/A| 1-366| 75 | | inphs_ | |of year. Day of year of the | | | | | | time_doy| |time of zero phase on uplink | | | | | | | |range generation. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |transmit_ | 70 |Transmit In-phase time - | RE-8 | S6| ds6* | 75 | | inphs_ | |seconds of day. Seconds of | | | | | | time_sec| |day of the time of zero phase| | | | | | | |on uplink range generation. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |carr_sup_rng_ | 78 |Carrier Suppression by | RE-4 | dB| 0.0 | | | modul| |ranging modulation. Reduction| | / | to | | | | |in carrier power due to | |0.1| -15.0| | | | |ranging modulation. | | dB| | | |--------------+------+-----------------------------+------+---+------+-----| |rng_modul_amp | 82 |Ranging modulation amplitude.| UI-2 |N/A| 0-212| | | | |Actual digital modulation | | | | | | | |amplitude used by the ranging| | | | | | | |hardware. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |exc_scalar_num| 84 |Exciter Scalar Numerator. | UI-4 |N/A| 1 to | 17 | | | |Numerator of multiplier that | | |2^32-1| | | | |is used to generate ranging | | | | | | | |reference signal from uplink | | | | | | | |sky frequency. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |exc_scalar_den| 88 |Exciter Scalar Denominator. | UI-4 |N/A| 1 to | 17 | | | |Denominator of multiplier | | |2^32-1| | | | |that is used to generate | | | | | | | |ranging reference signal | | | | | | | |from uplink sky frequency. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |rng_cycle_time| 92 |Ranging cycle time. Time to | RE-8 |s/ | ds7* | 18 | | | |complete one cycle of the | |0.1| | | | | |ranging code. | | s | | | |--------------+------+-----------------------------+------+---+------+-----| |time_tag_corr_| 100 |Time tag correction flag. | UI-1 |N/A| 0-2 | | | flag| |Indicates results of | | | | | | | |validation of the block time | | | | | | | |tag. | | | | | | | | 0 => no validation attempted| | | | | | | | 1 => validated, no change | | | | | | | | 2 => validated, changed | | | | | |--------------+------+-----------------------------+------+---+------+-----| |type_time_ | 101 |Type of time tag | UI-1 |N/A| 0-3 | | | corr_flag| |correction flag. Indicates | | | | | | | |what type of time tag | | | | | | | |correction was made. | | | | | | | | 0 => no correction | | | | | | | | 1 => Year correction | | | | | | | | 2 => DOY correction | | | | | | | | 3 => Both Year and DOY | | | | | | | | correction | | | | | |--------------+------+-----------------------------+------+---+------+-----| |clock_waveform| 102 |Clock waveform type. | UI-1 |N/A| 0-1 | | | | | 0 => squarewave | | | | | | | | 1 => sinewave | | | | | |--------------+------+-----------------------------+------+---+------+-----| |chop_start_num| 103 |Chop Start. The first | UI-1 |N/A| 0-25 | 16 | | | |component chopped. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |reserve8 | 104 |Reserved. Eight bytes. | UI-8 |N/A| 0 | | |===========================================================================| (1) Abbreviated values in the Format column are: A-8: ASCII string, 8 bytes A-12: ASCII string, 12 bytes I-4: Integer, 4 bytes UI-1: Unsigned integer, 1 byte UI-2: Unsigned integer, 2 bytes UI-4: Unsigned integer, 4 bytes UI-8: Unsigned integer, 8 bytes RE-4: IEEE single precision (4 bytes) RE-8: IEEE double precision (8 bytes) (2) The 'U' column contains values of 'units/precision'. Abbreviated values include: B: Bytes dBH: dB-Hz K: (degrees) kelvin ms: milliseconds N&D: See Item Name and Description column for details N/A: Not applicable ns: nanoseconds Pct: Percentage/percent ps: picoseconds s: seconds S6: seconds at precision 1 microsecond U: unitless (none) W: watts Y: years (3) The 'Range' column includes possible values. ds1* 0.01 to 86400.99 ds2* 0 to 2^16 - 1 ds3* 0 to 86400999 ds4* 0.00 to 86400.9999 ds5* -31,536,000.0 to 31,536,000.0 ds6* 0.000000 to 86400.999999 ds7* 4.0 to 504,536.0 ds8* -32.3e9 to -2.0e9 ds9* 0.00 to 86400.99 N num_obs 3.1.5.1.3 Uplink PN Ranging Phase CHDO (Data Type 4) The Uplink PN Ranging Phase CHDO is defined in Table 3-11. |===========================================================================| | Table 3-11. Uplink PN Ranging Phase CHDO (Data Type 4) Definitions | |===========================================================================| | Identifier | Byte | Item Name and Description |Format|U/P| Range|Notes| | |Offset| | (1) |(2)| (3) | | |==============+======+=============================+======+===+======+=====| |chdo_type | 0 |Type attribute of the uplink | UI-2 |N/A| 10 | | | | |PN ranging phase data CHDO. | | | | | | | |CHDO contains binary data. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |chdo_length | 2 |Length attribute of the | UI-2 | B | 132 | | | | |uplink PN ranging phase data | | | | | | | |CHDO value field. Number of | | | | | | | |bytes after this item. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |stn_cal | 4 |Station calibration value | RE-8 |RU/| 0.0 | 24 | | | |(two-way). Value includes the| |.01| to | | | | |equipment in the path, but | | RU| 1.8E5| | | | |not the Z-height correction. | | | | | | | |(0.0 if not measured.) | | | | | |--------------+------+-----------------------------+------+---+------+-----| |ul_stn_cal | 12 |Uplink station calibration | RE-8 |RU/| 0.0 | 10 | | | |value. Value includes the | |.01| to | 24 | | | |uplink equipment in the path,| | RU| 1.8E5| | | | |but not the Z-height | | | | | | | |correction. (0.0 if not | | | | | | | |measured.) | | | | | |--------------+------+-----------------------------+------+---+------+-----| |ul_cal_freq | 20 |Uplink calibration frequency.| RE-8 |N&D|2.0E9 | | | | |Frequency the calibration was| | | to | | | | |done at. Sky level Hz at | | |34.4E9| | | | |1 mHz precision. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |cal_std_dev | 28 |Standard deviation of station| RE-4 |RU/| 0.0 | 24 | | | |calibration value. For | |.01| to | | | | |stn_cal and ul_stn_cal. | | RU| 1.8E5| | |--------------+------+-----------------------------+------+---+------+-----| |cal_pts | 32 |Calibration points. Number of| UI-2 |N/A| 0 to | | | | |measurements made in | | | 65535| | | | |computing station calibration| | | | | | | |values (stn_cal, ul_stn_cal, | | | | | | | |and cal_std_dev). | | | | | |--------------+------+-----------------------------+------+---+------+-----| |ul_rng_phs | 34 |Measured range phase. Range | RE-8 |RU/| 0 to | 11 | | | |phase. | |.01| 230 | 24 | |--------------+------+-----------------------------+------+---+------+-----| |state_seq1 | 42 |Sequence #1 code state. | UI-1 |N/A| 0-7 | 19 | | | |Position in the sequence at | | | | | | | |the time tag. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |state_seq2 | 43 |Sequence #2 code state. | UI-1 |N/A| 0-15 | 19 | | | |Position in the sequence at | | | | | | | |the time tag. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |state_seq3 | 44 |Sequence #3 code state. | UI-1 |N/A| 0-15 | 19 | | | |Position in the sequence at | | | | | | | |the time tag. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |state_seq4 | 45 |Sequence #4 code state. | UI-1 |N/A| 0-31 | 19 | | | |Position in the sequence at | | | | | | | |the time tag. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |state_seq5 | 46 |Sequence #5 code state. | UI-1 |N/A| 0-31 | 19 | | | |Position in the sequence at | | | | | | | |the time tag. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |state_seq6 | 47 |Sequence #6 code state. | UI-1 |N/A| 0-31 | 19 | | | |Position in the sequence at | | | | | | | |the time tag. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |pn_clk_phs | 48 |PN chip clock phase. Position| RE-8 |N&D| 0.0 | 19 | | | |in the chip at the time tag. | | | to | | | | |Cycles at 1 microcycle | | | 1.0| | | | |precision. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |transmit_ | 56 |Transmitter switch status. | UI-1 |N/A| 0-2 | | | switch_stat| | 0 => antenna | | | | | | | | 1 => water load | | | | | | | | 2 => invalid/unknown | | | | | |--------------+------+-----------------------------+------+---+------+-----| |invert | 57 |Invert. Polarity of | UI-1 |N/A| 0-1 | 52 | | | |modulation signal. | | | | | | | | 0 => not inverted | | | | | | | | 1 => inverted | | | | | |--------------+------+-----------------------------+------+---+------+-----| |transmit_op_ | 58 |Transmitter output power. | RE-4 |W/ | 0 to | | | pwr| | | |0.1| 500K| | | | | | | W | | | |--------------+------+-----------------------------+------+---+------+-----| |template_id | 62 |Template ID. Value is the | A-8 |N/A| ASCII| | | | |file name of the ranging | | |string| | | | |parameter file. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |clk_divider | 70 |Clock divider. Value that | UI-1 |N/A| 1-64 | 20 | | | |exciter ranging reference | | | | | | | |frequency is divided by to | | | | | | | |get PN chip rate. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |len_seq1 | 71 |Sequence #1 length. A value | UI-1 |N&D| 0-8 | 21 | | | |of 0 implies no sequence. | | | | | | | |Chips at precision 1 chip. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |len_seq2 | 72 |Sequence #2 length. A value | UI-1 |N&D| 0-16 | 21 | | | |of 0 implies no sequence. | | | | | | | |Chips at precision 1 chip. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |len_seq3 | 73 |Sequence #3 length. A value | UI-1 |N&D| 0-16 | 21 | | | |of 0 implies no sequence. | | | | | | | |Chips at precision 1 chip. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |len_seq4 | 74 |Sequence #4 length. A value | UI-1 |N&D| 0-32 | 21 | | | |of 0 implies no sequence. | | | | | | | |Chips at precision 1 chip. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |len_seq5 | 75 |Sequence #5 length. A value | UI-1 |N&D| 0-32 | 21 | | | |of 0 implies no sequence. | | | | | | | |Chips at precision 1 chip. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |len_seq6 | 76 |Sequence #6 length. A value | UI-1 |N&D| 0-32 | 21 | | | |of 0 implies no sequence. | | | | | | | |Chips at precision 1 chip. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |def_seq1 | 77 |Sequence #1 component value. | UI-1 |N/A| 0 to | 21 | | | |Definition of the sequence. | | | 2^8-1| | |--------------+------+-----------------------------+------+---+------+-----| |def_seq2 | 78 |Sequence #2 component value. | UI-2 |N/A| 0 to | 21 | | | |Definition of the sequence. | | |2^16-1| | |--------------+------+-----------------------------+------+---+------+-----| |def_seq3 | 80 |Sequence #3 component value. | UI-2 |N/A| 0 to | 21 | | | |Definition of the sequence. | | |2^16-1| | |--------------+------+-----------------------------+------+---+------+-----| |def_seq4 | 82 |Sequence #4 component value. | UI-4 |N/A| 0 to | 21 | | | |Definition of the sequence. | | |2^32-1| | |--------------+------+-----------------------------+------+---+------+-----| |def_seq5 | 86 |Sequence #5 component value. | UI-4 |N/A| 0 to | 21 | | | |Definition of the sequence. | | |2^32-1| | |--------------+------+-----------------------------+------+---+------+-----| |def_seq6 | 90 |Sequence #6 component value. | UI-4 |N/A| 0 to | 21 | | | |Definition of the sequence. | | |2^32-1| | |--------------+------+-----------------------------+------+---+------+-----| |pn_code_length| 94 |Code Length. | UI-4 |N&D| 2 to | 22 | | | | | | | 1.1E7| | |--------------+------+-----------------------------+------+---+------+-----| |transmit_ | 98 |Transmit In-phase time- year.| UI-2 |N/A|1958- | 75 | | inphs_ | |Year of the time of zero | | | 3000| | | time_year| |phase on uplink range | | | | | | | |generation. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |transmit_ | 100 |Transmit In-phase time - day | UI-2 |N/A| 1-366| 75 | | inphs_ | |of year. Day of year of the | | | | | | time_doy| |time of zero phase on uplink | | | | | | | |range generation. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |transmit_ | 102 |Transmit In-phase time - | RE-8 | S6| ds6* | 75 | | inphs_ | |seconds of day. Seconds of | | | | | | time_sec| |day of the time of zero phase| | | | | | | |on uplink range generation. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |carr_sup_rng_ | 110 |Carrier Suppression by | RE-4 | dB|-15.0 | | | modul| |ranging modulation. Reduction| | / | to | | | | |in carrier power due to | |0.1| 0.0| | | | |ranging modulation. | | dB| | | |--------------+------+-----------------------------+------+---+------+-----| |rng_modul_amp | 114 |Ranging modulation amplitude.| UI-2 |N/A| 0-212| | | | |Actual digital modulation | | | | | | | |amplitude used by the ranging| | | | | | | |hardware. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |exc_scalar_num| 116 |Exciter Scalar Numerator. | UI-4 |N/A| 1 to | 17 | | | |Numerator of multiplier that | | |2^32-1| | | | |is used to generate ranging | | | | | | | |reference signal from uplink | | | | | | | |sky frequency. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |exc_scalar_den| 120 |Exciter Scalar Denominator. | UI-4 |N/A| 1 to | 17 | | | |Denominator of multiplier | | |2^32-1| | | | |that is used to generate | | | | | | | |ranging reference signal | | | | | | | |from uplink sky frequency. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |rng_cycle_time| 124 |Ranging cycle time. Time to | RE-8 |RU/| 0.0 | 23 | | | |complete one cycle of the | |.01| to | 24 | | | |ranging code. | | RU| 1.0E9| | |--------------+------+-----------------------------+------+---+------+-----| |time_tag_corr_| 132 |Time tag correction flag. | UI-1 |N/A| 0-2 | | | flag| |Indicates results of | | | | | | | |validation of the block time | | | | | | | |tag. | | | | | | | | 0 => no validation attempte | | | | | | | | 1 => validated, no change | | | | | | | | 2 => validated, changed | | | | | |--------------+------+-----------------------------+------+---+------+-----| |type_time_ | 133 |Type of time tag | UI-1 |N/A| 0-3 | | | corr_flag| |correction flag. Indicates | | | | | | | |what type of time tag | | | | | | | |correction was made. | | | | | | | | 0 => no correction | | | | | | | | 1 => Year correction | | | | | | | | 2 => DOY correction | | | | | | | | 3 => Both Year and DOY | | | | | | | | correction | | | | | |--------------+------+-----------------------------+------+---+------+-----| |clock_waveform| 134 |Clock waveform type. | UI-1 |N/A| 0-1 | | | | | 0 => squarewave | | | | | | | | 1 => sinewave | | | | | |--------------+------+-----------------------------+------+---+------+-----| |reserve1 | 135 |Reserved. One byte. | UI-1 |N/A| 0 | | |===========================================================================| (1) Abbreviated values in the Format column are: A-8: ASCII string, 8 bytes A-12: ASCII string, 12 bytes I-4: Integer, 4 bytes UI-1: Unsigned integer, 1 byte UI-2: Unsigned integer, 2 bytes UI-4: Unsigned integer, 4 bytes UI-8: Unsigned integer, 8 bytes RE-4: IEEE single precision (4 bytes) RE-8: IEEE double precision (8 bytes) (2) The 'U' column contains values of 'units/precision'. Abbreviated values include: B: Bytes dBH: dB-Hz K: (degrees) kelvin ms: milliseconds N&D: See Item Name and Description column for details N/A: Not applicable ns: nanoseconds Pct: Percentage/percent ps: picoseconds s: seconds S6: seconds at precision 1 microsecond U: unitless (none) W: watts Y: years (3) The 'Range' column includes possible values. ds1* 0.01 to 86400.99 ds2* 0 to 2^16 - 1 ds3* 0 to 86400999 ds4* 0.00 to 86400.9999 ds5* -31,536,000.0 to 31,536,000.0 ds6* 0.000000 to 86400.999999 ds7* 4.0 to 504,536.0 ds8* -32.3e9 to -2.0e9 ds9* 0.00 to 86400.99 N num_obs 3.1.5.1.4 Ramp CHDO (Data Type 9) The Ramp CHDO is generated only when ramp_type equals 0, 1, 4, or 5, and is defined in Table 3-12. |===========================================================================| | Table 3-12. Ramp CHDO (Data Type 9) Definitions | |===========================================================================| | Identifier | Byte | Item Name and Description |Format|U/P| Range|Notes| | |Offset| | (1) |(2)| (3) | | |==============+======+=============================+======+===+======+=====| |chdo_type | 0 |Type attribute of the ramp | UI-2 |N/A| 10 | | | | |data CHDO. | | | | | | | |CHDO contains binary data. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |chdo_length | 2 |Length attribute of the ramp | UI-2 | B | 38 | | | | |data CHDO value field. Number| | | | | | | |of bytes after this item. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |ul_hi_phs_ | 4 |High part uplink phase data | UI-4 |N&D| 0 to | 8 | | cycles| |whole cycles. Phase at time | | |2^32-1| | | | |tag. Total integer phase | | | | | | | |cycles divided by 2^32. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |ul_lo_phs_ | 8 |Low part uplink phase data | UI-4 |N&D| 0 to | 8 | | cycles| |whole cycles. Phase at time | | |2^32-1| | | | |tag. Total integer phase | | | | | | | |cycles modulo 2^32. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |ul_frac_phs_ | 12 |Fractional part uplink phase | UI-4 |N&D| 0 to | 8 | | cycles| |data cycles. Phase at time | | |2^32-1| | | | |tag. Fractional phase cycles | | | | | | | |multiplied by 2^32. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |ramp_freq | 16 |Ramp frequency. Precision | RE-8 |N&D| 0.0, | | | | |varies with band (phase data | | |2.0E9-| | | | |gives higher precision). | | |34.7E9| | | | |A value of 0.0 indicates an | | | | | | | |invalid or unknown value. | | | | | | | | S-band => 0.5 microHz | | | | | | | | X-band => 1.6 microHz | | | | | | | | Ka-band => 7.7 microHz | | | | | | | |Sky level Hz, at least 7.7 | | | | | | | |microHz precision (band | | | | | | | |dependent) | | | | | |--------------+------+-----------------------------+------+---+------+-----| |ramp_rate | 24 |Ramp rate. Sky level Hz/sec, | RE-8 |N&D|-3.2E5| | | | |microHz/sec precision. | | | to | | | | | | | | 3.2E5| | |--------------+------+-----------------------------+------+---+------+-----| |ramp_type | 32 |Ramp type. | UI-1 |N/A| 0-5 | | | | | 0 => snap | | | | | | | | 1 => start of new ramp | | | | | | | | 4 => end of ramps | | | | | | | | 5 => ramping terminated by | | | | | | | | operator | | | | | |--------------+------+-----------------------------+------+---+------+-----| |reserve1 | 33 |Reserved. One byte. | UI-1 |N/A| 0 | | |--------------+------+-----------------------------+------+---+------+-----| |reserve8 | 34 |Reserved. Eight bytes. | UI-8 |N/A| 0 | | |===========================================================================| (1) Abbreviated values in the Format column are: A-8: ASCII string, 8 bytes A-12: ASCII string, 12 bytes I-4: Integer, 4 bytes UI-1: Unsigned integer, 1 byte UI-2: Unsigned integer, 2 bytes UI-4: Unsigned integer, 4 bytes UI-8: Unsigned integer, 8 bytes RE-4: IEEE single precision (4 bytes) RE-8: IEEE double precision (8 bytes) (2) The 'U' column contains values of 'units/precision'. Abbreviated values include: B: Bytes dBH: dB-Hz K: (degrees) kelvin ms: milliseconds N&D: See Item Name and Description column for details N/A: Not applicable ns: nanoseconds Pct: Percentage/percent ps: picoseconds s: seconds S6: seconds at precision 1 microsecond U: unitless (none) W: watts Y: years (3) The 'Range' column includes possible values. ds1* 0.01 to 86400.99 ds2* 0 to 2^16 - 1 ds3* 0 to 86400999 ds4* 0.00 to 86400.9999 ds5* -31,536,000.0 to 31,536,000.0 ds6* 0.000000 to 86400.999999 ds7* 4.0 to 504,536.0 ds8* -32.3e9 to -2.0e9 ds9* 0.00 to 86400.99 N num_obs 3.1.5.2 Downlink Data CHDOs There are three Downlink Data CHDOs: Downlink Carrier Phase (data type 1), Downlink Sequential Ranging Phase (data type 3), and Downlink PN Ranging Phase (data type 5). Their formats and contents are specified in sections 3.1.5.2.1 to 3.1.5.2.3. 3.1.5.2.1 Downlink Carrier Phase CHDO (Data Type 1) The Downlink Carrier Phase CHDO is defined in Table 3-13. |===========================================================================| | Table 3-13. Downlink Carrier Phase CHDO (Data Type 1) Definitions | |===========================================================================| | Identifier | Byte | Item Name and Description |Format|U/P| Range|Notes| | |Offset| | (1) |(2)| (3) | | |==============+======+=============================+======+===+======+=====| |chdo_type | 0 |Type attribute of the | UI-2 |N/A| 10 | | | | |downlink carrier phase data | | | | | | | |CHDO. CHDO contains binary | | | | | | | |data. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |chdo_length | 2 |Length attribute of the | UI-2 | B | 228 | | | | |downlink carrier phase data | | | | | | | |CHDO value field. Number of | | | | | | | |bytes after this item. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |carr_loop_bw | 4 |Carrier tracking loop | RE-4 |Hz/| 0.1- | | | | |bandwidth. | | 1 | 50.0| | | | | | |mHz| | | |--------------+------+-----------------------------+------+---+------+-----| |pcn0 | 8 |Pc/N0. Carrier power to noise| RE-4 |dBH| 0.0 | | | | |spectral density ratio. Has a| | / | to | | | | |value of -300.0 if no signal.| |0.1| 90.0,| | | | | | |dBH|-300.0| | |--------------+------+-----------------------------+------+---+------+-----| |pcn0_resid | 12 |Pc/N0 residual. Actual value| RE-4 |dBH|-90.0 | | | | |minus predicted value. | | / | to | | | | | | |0.1| 90.0| | | | | | |dBH| | | |--------------+------+-----------------------------+------+---+------+-----| |pdn0 | 16 |Pd/N0. Data power to noise | RE-4 |dBH| 0.0 | 25 | | | |spectral density ratio. Has a| | / | to | | | | |value of -300.0 if no signal.| |0.1| 90.0,| | | | | | |dBH|-300.0| | |--------------+------+-----------------------------+------+---+------+-----| |pdn0_resid | 20 |Pd/N0 residual. Actual value| RE-4 |dBH|-90.0 | | | | |minus predicted value. | | / | to | | | | | | |0.1| 90.0| | | | | | |dBH| | | |--------------+------+-----------------------------+------+---+------+-----| |system_noise_ | 24 |System Noise Temperature. | RE-4 | K/| 0.1 | | | temp| | | |0.1| to | | | | | | | K |2000.0| | |--------------+------+-----------------------------+------+---+------+-----| |phs_hi_0 | 28 |Raw phase sample 0 - High | UI-4 |N&D| 0 to | 8 | | | |part phase data whole cycles.| | |2^32-1| | | | |(time tag + 0.0 sec) | | | | | | | |Total integer phase cycles | | | | | | | |divided by 2^32. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |phs_lo_0 | 32 |Raw phase sample 0 - Low part| UI-4 |N&D| 0 to | 8 | | | |phase data whole cycles (time| | |2^32-1| | | | |tag + 0.0 sec). Total integer| | | | | | | |phase cycles modulo 2^32. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |phs_frac_0 | 36 |Raw phase sample 0 - | UI-4 |N&D| 0 to | 8 | | | |Fractional part phase data | | |2^32-1| | | | |cycles (time tag + 0.0 sec). | | | | | | | |Fractional phase cycles | | | | | | | |multiplied by 2^32. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |phs_hi_1 | 40 |Raw phase sample 1 - High | UI-4 |N&D| 0 to | 8 | | | |part phase data whole cycles.| | |2^32-1| | | | |(time tag + 0.1 sec) | | | | | | | |Total integer phase cycles | | | | | | | |divided by 2^32. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |phs_lo_1 | 44 |Raw phase sample 1 - Low part| UI-4 |N&D| 0 to | 8 | | | |phase data whole cycles (time| | |2^32-1| | | | |tag + 0.1 sec). Total integer| | | | | | | |phase cycles modulo 2^32. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |phs_frac_1 | 48 |Raw phase sample 1 - | UI-4 |N&D| 0 to | 8 | | | |Fractional part phase data | | |2^32-1| | | | |cycles (time tag + 0.1 sec). | | | | | | | |Fractional phase cycles | | | | | | | |multiplied by 2^32. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |phs_hi_2 | 52 |Raw phase sample 2 - High | UI-4 |N&D| 0 to | 8 | | | |part phase data whole cycles.| | |2^32-1| | | | |(time tag + 0.2 sec) | | | | | | | |Total integer phase cycles | | | | | | | |divided by 2^32. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |phs_lo_2 | 56 |Raw phase sample 2 - Low part| UI-4 |N&D| 0 to | 8 | | | |phase data whole cycles (time| | |2^32-1| | | | |tag + 0.2 sec). Total integer| | | | | | | |phase cycles modulo 2^32. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |phs_frac_2 | 60 |Raw phase sample 2 - | UI-4 |N&D| 0 to | 8 | | | |Fractional part phase data | | |2^32-1| | | | |cycles (time tag + 0.2 sec). | | | | | | | |Fractional phase cycles | | | | | | | |multiplied by 2^32. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |phs_hi_3 | 64 |Raw phase sample 3 - High | UI-4 |N&D| 0 to | 8 | | | |part phase data whole cycles.| | |2^32-1| | | | |(time tag + 0.3 sec) | | | | | | | |Total integer phase cycles | | | | | | | |divided by 2^32. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |phs_lo_3 | 68 |Raw phase sample 3 - Low part| UI-4 |N&D| 0 to | 8 | | | |phase data whole cycles (time| | |2^32-1| | | | |tag + 0.3 sec). Total integer| | | | | | | |phase cycles modulo 2^32. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |phs_frac_3 | 72 |Raw phase sample 3 - | UI-4 |N&D| 0 to | 8 | | | |Fractional part phase data | | |2^32-1| | | | |cycles (time tag + 0.3 sec). | | | | | | | |Fractional phase cycles | | | | | | | |multiplied by 2^32. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |phs_hi_4 | 76 |Raw phase sample 4 - High | UI-4 |N&D| 0 to | 8 | | | |part phase data whole cycles.| | |2^32-1| | | | |(time tag + 0.4 sec) | | | | | | | |Total integer phase cycles | | | | | | | |divided by 2^32. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |phs_lo_4 | 80 |Raw phase sample 4 - Low part| UI-4 |N&D| 0 to | 8 | | | |phase data whole cycles (time| | |2^32-1| | | | |tag + 0.4 sec). Total integer| | | | | | | |phase cycles modulo 2^32. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |phs_frac_4 | 84 |Raw phase sample 4 - | UI-4 |N&D| 0 to | 8 | | | |Fractional part phase data | | |2^32-1| | | | |cycles (time tag + 0.4 sec). | | | | | | | |Fractional phase cycles | | | | | | | |multiplied by 2^32. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |phs_hi_5 | 88 |Raw phase sample 5 - High | UI-4 |N&D| 0 to | 8 | | | |part phase data whole cycles.| | |2^32-1| | | | |(time tag + 0.5 sec) | | | | | | | |Total integer phase cycles | | | | | | | |divided by 2^32. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |phs_lo_5 | 92 |Raw phase sample 5 - Low part| UI-4 |N&D| 0 to | 8 | | | |phase data whole cycles (time| | |2^32-1| | | | |tag + 0.5 sec). Total integer| | | | | | | |phase cycles modulo 2^32. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |phs_frac_5 | 96 |Raw phase sample 5 - | UI-4 |N&D| 0 to | 8 | | | |Fractional part phase data | | |2^32-1| | | | |cycles (time tag + 0.5 sec). | | | | | | | |Fractional phase cycles | | | | | | | |multiplied by 2^32. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |phs_hi_6 | 100 |Raw phase sample 6 - High | UI-4 |N&D| 0 to | 8 | | | |part phase data whole cycles.| | |2^32-1| | | | |(time tag + 0.6 sec) | | | | | | | |Total integer phase cycles | | | | | | | |divided by 2^32. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |phs_lo_6 | 104 |Raw phase sample 6 - Low part| UI-4 |N&D| 0 to | 8 | | | |phase data whole cycles (time| | |2^32-1| | | | |tag + 0.6 sec). Total integer| | | | | | | |phase cycles modulo 2^32. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |phs_frac_6 | 108 |Raw phase sample 6 - | UI-4 |N&D| 0 to | 8 | | | |Fractional part phase data | | |2^32-1| | | | |cycles (time tag + 0.6 sec). | | | | | | | |Fractional phase cycles | | | | | | | |multiplied by 2^32. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |phs_hi_7 | 112 |Raw phase sample 7 - High | UI-4 |N&D| 0 to | 8 | | | |part phase data whole cycles.| | |2^32-1| | | | |(time tag + 0.7 sec) | | | | | | | |Total integer phase cycles | | | | | | | |divided by 2^32. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |phs_lo_7 | 116 |Raw phase sample 7 - Low part| UI-4 |N&D| 0 to | 8 | | | |phase data whole cycles (time| | |2^32-1| | | | |tag + 0.7 sec). Total integer| | | | | | | |phase cycles modulo 2^32. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |phs_frac_6 | 120 |Raw phase sample 7 - | UI-4 |N&D| 0 to | 8 | | | |Fractional part phase data | | |2^32-1| | | | |cycles (time tag + 0.7 sec). | | | | | | | |Fractional phase cycles | | | | | | | |multiplied by 2^32. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |phs_hi_8 | 124 |Raw phase sample 8 - High | UI-4 |N&D| 0 to | 8 | | | |part phase data whole cycles.| | |2^32-1| | | | |(time tag + 0.8 sec) | | | | | | | |Total integer phase cycles | | | | | | | |divided by 2^32. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |phs_lo_8 | 128 |Raw phase sample 8 - Low part| UI-4 |N&D| 0 to | 8 | | | |phase data whole cycles (time| | |2^32-1| | | | |tag + 0.8 sec). Total integer| | | | | | | |phase cycles modulo 2^32. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |phs_frac_8 | 132 |Raw phase sample 8 - | UI-4 |N&D| 0 to | 8 | | | |Fractional part phase data | | |2^32-1| | | | |cycles (time tag + 0.8 sec). | | | | | | | |Fractional phase cycles | | | | | | | |multiplied by 2^32. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |phs_hi_9 | 136 |Raw phase sample 9 - High | UI-4 |N&D| 0 to | 8 | | | |part phase data whole cycles.| | |2^32-1| | | | |(time tag + 0.9 sec) | | | | | | | |Total integer phase cycles | | | | | | | |divided by 2^32. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |phs_lo_9 | 140 |Raw phase sample 9 - Low part| UI-4 |N&D| 0 to | 8 | | | |phase data whole cycles (time| | |2^32-1| | | | |tag + 0.9 sec). Total integer| | | | | | | |phase cycles modulo 2^32. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |phs_frac_9 | 144 |Raw phase sample 9 - | UI-4 |N&D| 0 to | 8 | | | |Fractional part phase data | | |2^32-1| | | | |cycles (time tag + 0.9 sec). | | | | | | | |Fractional phase cycles | | | | | | | |multiplied by 2^32. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |phs_hi_avg | 148 |Averaged phase sample - High | UI-4 |N&D| 0 to | 8 | | | |part phase data whole cycles.| | |2^32-1| | | | |One-second average, centered | | | | | | | |around time tag. Total | | | | | | | |integer phase cycles divided | | | | | | | |by 2^32. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |phs_lo_avg | 152 |Averaged phase sample - Low | UI-4 |N&D| 0 to | 8 | | | |part phase data whole cycles.| | |2^32-1| | | | |One-second average, centered | | | | | | | |around time tag. Total | | | | | | | |integer phase cycles modulo | | | | | | | |2^32. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |phs_frac_avg | 156 |Averaged phase sample - | UI-4 |N&D| 0 to | 8 | | | |Fractional part phase data | | |2^32-1| | | | |cycles. One-second average, | | | | | | | |centered around time tag. | | | | | | | |Fractional phase cycles | | | | | | | |multiplied by 2^32. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |dl_freq | 160 |Downlink frequency. Frequency| RE-8 |N&D|2.2E9 | | | | |at the time tag. Sky level Hz| | | to | | | | |at 1 mHz precision. | | |32.3E9| | |--------------+------+-----------------------------+------+---+------+-----| |dop_resid | 168 |Doppler residual. Negative of| RE-4 |N&D|-1.0E6| | | | |frequency residual. Sky level| | | to | | | | |Hz at 1 mHz precision. | | | 1.0E6| | |--------------+------+-----------------------------+------+---+------+-----| |dop_noise | 172 |Doppler noise. Averaged over| RE-4 |Hz/| 0.0 | 26 | | | |10 points in record. | | 1 | to | | | | | | |mHz|1000.0| | |--------------+------+-----------------------------+------+---+------+-----| |slipped_cycles| 176 |Slipped cycles. | I-4 |N/A| -10 | 31 | | | | | | |to 10| | |--------------+------+-----------------------------+------+---+------+-----| |carr_loop_type| 180 |Carrier loop type. | UI-1 |N/A| 1-3 | 53 | |--------------+------+-----------------------------+------+---+------+-----| |snt_flag | 181 |SNT measurement flag. | UI-1 |N/A| 0-1 | | | | | 0 => SNT value is the | | | | | | | | predicted value | | | | | | | | 1 => SNT value is the | | | | | | | | measured value | | | | | |--------------+------+-----------------------------+------+---+------+-----| |carr_resid_wt | 182 |Carrier residual weight. | RE-4 |N/A| 0.0 | 27 | | | |(Weight value applied to | | | to | | | | |residual phase error in | | | 1.0 | | | | |carrier tracking; suppressed | | | | | | | |carrier weight is 1.0 minus | | | | | | | |this value.) | | | | | |--------------+------+-----------------------------+------+---+------+-----| |sup_data_id | 186 |Support data ID. Name of the| A-8 |N/A| ASCII| | | | |frequency predicts set used. | | |string| | |--------------+------+-----------------------------+------+---+------+-----| |sup_data_rev | 194 |Support data revision. | A-8 |N/A| ASCII| | | | |Revision of the frequency | | |string| | | | |predicts set used. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |prdx_time_ | 202 |Predicts time offset. | RE-8 | s/|-86400| 54 | | offset| |Seconds added to current | | 1 | to | | | | |time. | | ms| 86400| | |--------------+------+-----------------------------+------+---+------+-----| |prdx_freq_ | 210 |Predicts frequency offset. | RE-8 |Hz/|-1.0E6| 55 | | offset| |Hz added to predicted value. | | 1 | to | | | | | | |mHz| 1.0E6| | |--------------+------+-----------------------------+------+---+------+-----| |carr_resid_ | 218 |Carrier residual tolerance | UI-1 |N/A| 0-1 | 62 | | tol_flag| |flag. | | | | | | | | 0 => Out of tolerance | | | | | | | | 1 => In tolerance | | | | | |--------------+------+-----------------------------+------+---+------+-----| |time_tag_corr_| 219 |Time tag correction flag. | UI-1 |N/A| 0-2 | | | flag| |Indicates results of | | | | | | | |validation of the block time | | | | | | | |tag. | | | | | | | | 0 => no validation | | | | | | | | attempted | | | | | | | | 1 => validated, no change | | | | | | | | 2 => validated, changed | | | | | |--------------+------+-----------------------------+------+---+------+-----| |type_time_ | 220 |Type of time tag correction | UI-1 |N/A| 0-3 | | | corr_flag| |flag. Indicates what type of| | | | | | | |time tag correction was made.| | | | | | | | 0 => no correction | | | | | | | | 1 => Year correction | | | | | | | | 2 => DOY correction | | | | | | | | 3 => Both Year and DOY | | | | | | | | correction | | | | | |--------------+------+-----------------------------+------+---+------+-----| |dop_mode_corr_| 221 |Doppler mode correction flag.| UI-1 |N/A| 0-2 | | | flag| |Indicates the results of the | | | | | | | |validation of the doppler | | | | | | | |mode. | | | | | | | | 0 => not applicable or no | | | | | | | | validation attempted | | | | | | | | 1 => validated, no change | | | | | | | | 2 => validated, changed | | | | | |--------------+------+-----------------------------+------+---+------+-----| |ul_stn_corr_ | 222 |Uplink station correction | UI-1 |N/A| 0-2 | | | flag| |flag. Indicates the results | | | | | | | |of the validation of the | | | | | | | | uplink station. | | | | | | | | 0 => not applicable or no | | | | | | | | validation attempted | | | | | | | | 1 => validated, no change | | | | | | | | 2 => validated, changed | | | | | |--------------+------+-----------------------------+------+---+------+-----| |reserve1 | 223 |Reserved. One byte. | UI-1 |N/A| 0 | | |--------------+------+-----------------------------+------+---+------+-----| |reserve8 | 224 |Reserved. Eight bytes. | UI-8 |N/A| 0 | | |===========================================================================| (1) Abbreviated values in the Format column are: A-8: ASCII string, 8 bytes A-12: ASCII string, 12 bytes I-4: Integer, 4 bytes UI-1: Unsigned integer, 1 byte UI-2: Unsigned integer, 2 bytes UI-4: Unsigned integer, 4 bytes UI-8: Unsigned integer, 8 bytes RE-4: IEEE single precision (4 bytes) RE-8: IEEE double precision (8 bytes) (2) The 'U' column contains values of 'units/precision'. Abbreviated values include: B: Bytes dBH: dB-Hz K: (degrees) kelvin ms: milliseconds N&D: See Item Name and Description column for details N/A: Not applicable ns: nanoseconds Pct: Percentage/percent ps: picoseconds s: seconds S6: seconds at precision 1 microsecond U: unitless (none) W: watts Y: years (3) The 'Range' column includes possible values. ds1* 0.01 to 86400.99 ds2* 0 to 2^16 - 1 ds3* 0 to 86400999 ds4* 0.00 to 86400.9999 ds5* -31,536,000.0 to 31,536,000.0 ds6* 0.000000 to 86400.999999 ds7* 4.0 to 504,536.0 ds8* -32.3e9 to -2.0e9 ds9* 0.00 to 86400.99 N num_obs 3.1.5.2.2 Downlink Sequential Ranging Phase CHDO (Data Type 3) The Downlink Sequential Ranging Phase CHDO is defined in Table 3-14. |===========================================================================| | Table 3-14. | | Downlink Sequential Ranging Phase CHDO (Data Type 3) Definitions | |===========================================================================| | Identifier | Byte | Item Name and Description |Format|U/P| Range|Notes| | |Offset| | (1) |(2)| (3) | | |==============+======+=============================+======+===+======+=====| |chdo_type | 0 |Type attribute of the | UI-2 |N/A| 10 | | | | |downlink sequential ranging | | | | | | | |phase data CHDO. CHDO | | | | | | | |contains binary data. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |chdo_length | 2 |Length attribute of the | UI-2 | B | 174 | | | | |downlink sequential ranging | | | | | | | |phase data CHDO value field. | | | | | | | |Number of bytes after this | | | | | | | |item. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |stn_cal | 4 |Station calibration value | RE-8 |RU/| 0.0 | 24 | | | |(two-way). Value includes the| |.01| to | | | | |equipment in the path, but | | RU| 1.8E5| | | | |not the Z-height correction. | | | | | | | |(0.0 if not measured.) | | | | | |--------------+------+-----------------------------+------+---+------+-----| |dl_stn_cal | 12 |Downlink station calibration | RE-8 |RU/| 0.0 | 10 | | | |value. Value includes the | |.01| to | 24 | | | |downlink equipment in the | | RU| 1.8E5| | | | |path, but not the Z-height | | | | | | | |correction. (0.0 if not | | | | | | | |measured.) | | | | | |--------------+------+-----------------------------+------+---+------+-----| |dl_cal_freq | 20 |Downlink calibration | RE-8 |N&D|2.2E9 | | | | |frequency. Frequency the | | | to | | | | |calibration was done at. Sky| | |32.3E9| | | | |level Hz at 1 mHz precision. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |cal_std_dev | 28 |Standard deviation of station| RE-4 |RU/| 0.0 | 24 | | | |calibration value. For | |.01| to | | | | |stn_cal and dl_stn_cal. | | RU| 1.8E5| | |--------------+------+-----------------------------+------+---+------+-----| |cal_pts | 32 |Calibration points. Number of| UI-2 |N/A| 0 to | | | | |measurements made in | | | 65535| | | | |computing station calibration| | | | | | | |values (stn_cal, dl_stn_cal, | | | | | | | |and cal_std_dev). | | | | | |--------------+------+-----------------------------+------+---+------+-----| |dl_rng_phs | 34 |Measured range phase. Range | RE-8 |RU/| 0.0 | 11 | | | |phase. | |.01| to | 24 | | | | | | RU| 230 | | |--------------+------+-----------------------------+------+---+------+-----| |figure_merit | 42 |Figure of Merit. Rating of | RE-4 |Pct| 0.0 | 28 | | | |the measured range value. | | / | to | | | | | | |0.1| 100.0| | | | | | |Pct| | | |--------------+------+-----------------------------+------+---+------+-----| |rng_resid | 46 |Range residual. Measured | RE-8 |RU/|-230 | 29 | | | |range minus predicted range. | |.01| to | | | | | | | RU| 230| | |--------------+------+-----------------------------+------+---+------+-----| |drvid | 54 |DRVID. DRVID measured using | RE-8 |RU/|-230 | 30 | | | |phase data from carrier. | |.01| to | 81 | | | | | | RU| 230| | |--------------+------+-----------------------------+------+---+------+-----| |rtlt | 62 |Round trip light time. | RE-4 | s/| 0.0 | | | | |Predicted value. | |0.1| to | | | | | | | s |86400.| | |--------------+------+-----------------------------+------+---+------+-----| |pcn0 | 66 |Pc/N0. Carrier power to noise| RE-4 |dBH| 0.0 | | | | |spectral density ratio. Has a| | / | to | | | | |value of -300.0 if no signal.| |0.1| 90.0,| | | | | | |dBH|-300.0| | |--------------+------+-----------------------------+------+---+------+-----| |pcn0_resid | 70 |Pc/N0 residual. Actual value| RE-4 |dBH|-90.0 | | | | |minus predicted value. | | / | to | | | | | | |0.1| 90.0| | | | | | |dBH| | | |--------------+------+-----------------------------+------+---+------+-----| |pdn0 | 74 |Pd/N0. Data power to noise | RE-4 |dBH| 0.0 | 25 | | | |spectral density ratio. Has a| | / | to | | | | |value of -300.0 if no signal.| |0.1| 90.0,| | | | | | |dBH|-300.0| | |--------------+------+-----------------------------+------+---+------+-----| |pdn0_resid | 78 |Pd/N0 residual. Actual value| RE-4 |dBH|-90.0 | | | | |minus predicted value. | | / | to | | | | | | |0.1| 90.0| | | | | | |dBH| | | |--------------+------+-----------------------------+------+---+------+-----| |prn0 | 82 |Pr/N0. Ranging power to noise| RE-4 |dBH|-10.0 | | | | |spectral density ratio. Has a| | / | to | | | | |value of -300.0 if no signal.| |0.1| 90.0,| | | | | | |dBH|-300.0| | |--------------+------+-----------------------------+------+---+------+-----| |prn0_resid | 86 |Pr/N0 residual. Actual value| RE-4 |dBH|-90.0 | | | | |minus predicted value. | | / | to | | | | | | |0.1| 90.0| | | | | | |dBH| | | |--------------+------+-----------------------------+------+---+------+-----| |system_noise_ | 90 |System Noise Temperature. | RE-4 | K/| 0.1 | | | temp| | | |0.1| to | | | | | | | K |2000.0| | |--------------+------+-----------------------------+------+---+------+-----| |carr_loop_type| 94 |Carrier loop type. | UI-1 |N/A| 1-3 | 53 | |--------------+------+-----------------------------+------+---+------+-----| |snt_flag | 95 |SNT measurement flag. | UI-1 |N/A| 0-1 | | | | | 0 => SNT value is the | | | | | | | | predicted value | | | | | | | | 1 => SNT value is the | | | | | | | | measured value | | | | | |--------------+------+-----------------------------+------+---+------+-----| |carr_resid_wt | 96 |Carrier residual weight. | RE-4 |N/A| 0.0 | 27 | | | |(Weight value applied to | | | to | | | | |residual phase error in | | | 1.0 | | | | |carrier tracking; suppressed | | | | | | | |carrier weight is 1.0 minus | | | | | | | |this value.) | | | | | |--------------+------+-----------------------------+------+---+------+-----| |template_id | 100 |Template ID. Value is the | A-8 |N/A| ASCII| | | | |file name of the ranging | | |string| | | | |parameter file. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |invert | 108 |Invert. Inverted implies that| UI-1 |N/A| 0-1 | 52 | | | |the polarity of the | | | | | | | |correlation reference is the | | | | | | | |invert of what was | | | | | | | |transmitted. | | | | | | | | 0 => not inverted | | | | | | | | 1 => inverted | | | | | |--------------+------+-----------------------------+------+---+------+-----| |correl_type | 109 |Correlation type. | UI-1 |N/A| 0-1 | | | | | 0 => squarewave | | | | | | | | 1 => sinewave | | | | | |--------------+------+-----------------------------+------+---+------+-----| |t1 | 110 |T1 setting. | UI-2 | s/|1-3600| 12 | | | | | |1 s| | | |--------------+------+-----------------------------+------+---+------+-----| |t2 | 112 |T2 setting. | UI-2 | s/|1-1800| 13 | | | | | |1 s| | | |--------------+------+-----------------------------+------+---+------+-----| |t3 | 114 |T3 setting. | UI-2 | s/|1-1800| 14 | | | | | |1 s| | | |--------------+------+-----------------------------+------+---+------+-----| |first_comp_num| 116 |First component number. | UI-1 |N/A| 1-24 | 15 | |--------------+------+-----------------------------+------+---+------+-----| |last_comp_num | 117 |Last component number. | UI-1 |N/A| 1-24 | 15 | |--------------+------+-----------------------------+------+---+------+-----| |chop_comp_num | 118 |Chop component number. This | UI-1 |N/A| 0-10 | 15 | | | |is the component used to chop| | | | 16 | | | |the other components. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |num_drvid | 119 |Number of DRVID measurements.| UI-1 |N/A| 0-255| | |--------------+------+-----------------------------+------+---+------+-----| |rcv_inphs_ | 120 |Receive In-phase time - year.| UI-2 |N/A|1958- | 75 | | time_year| |Year of the time of zero | | | 3000| | | | |phase on downlink range | | | | | | | |signal correlation. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |rcv_inphs_ | 122 |Receive In-phase time - day | UI-2 |N/A| 1-366| 75 | | time_doy| |of year. Day of year of the | | | | | | | |time of zero phase on | | | | | | | |downlink range signal | | | | | | | |correlation. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |rcv_inphs_ | 124 |Receive In-phase time - | RE-8 | S6| ds6* | 75 | | time_sec| |seconds of day. | | | | | | | |Seconds of day of the time of| | | | | | | |zero phase on downlink range | | | | | | | |signal correlation. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |exc_scalar_num| 132 |Exciter Scalar Numerator. | UI-4 |N/A| 1 to | 17 | | | |Numerator of multiplier that | | |2^32-1| | | | |is used to generate ranging | | | | | | | |reference signal from uplink | | | | | | | |sky frequency. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |exc_scalar_den| 136 |Exciter Scalar Denominator. | UA-4 |N/A| 1 to | 17 | | | |Denominator of multiplier | | |2^32-1| | | | |that is used to generate | | | | | | | |ranging reference signal from| | | | | | | |uplink sky frequency. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |rng_cycle_time| 140 |Ranging cycle time. Time to | RE-8 | s/| ds7* | 18 | | | |complete one cycle of the | |0.1| | | | | |ranging code. | | s | | | |--------------+------+-----------------------------+------+---+------+-----| |inphs_correl | 148 |In phase correlation value. | RE-4 |N/A|-1.0 | | | | |The in phase value of the | | | to | | | | |clock component correlation. | | | 1.0| | |--------------+------+-----------------------------+------+---+------+-----| |quad_phs_ | 152 |Quadrature phase correlation | RE-4 |N/A|-1.0 | | | correl| |value. The quadrature phase | | | to | | | | |value of the clock component | | | 1.0| | | | |correlation. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |metrics_vld_ | 156 |Metrics validity flag. | UI-1 |N/A| 0-2 | 70 | | flag| |Validity of the Range | | | | | | | |Residual (rng_resid) and | | | | | | | |DRVID (drvid) measurements. | | | | | | | | 0 => Invalid (No uplink data| | | | | | | | available) | | | | | | | | 1 => Invalid (Other reasons)| | | | | | | | 2 => Valid | | | | | |--------------+------+-----------------------------+------+---+------+-----| |correl_vld_ | 157 |Correlation validity flag. | UI-1 |N/A| 0-1 | 56 | | flag| | 0 => Invalid | | | | | | | | 1 => Valid | | | | | |--------------+------+-----------------------------+------+---+------+-----| |rng_resid_tol_| 158 |Range residual tolerance flag| UI-1 |N/A| 0-1 | 63 | | flag| | 0 => Out of tolerance | | | | | | | | 1 => In tolerance | | | | | |--------------+------+-----------------------------+------+---+------+-----| |drvid_tol_flag| 159 |DRVID tolerance flag. | UI-1 |N/A| 0-1 | 64 | | | | 0 => Out of tolerance | | | | | | | | 1 => In tolerance | | | | | |--------------+------+-----------------------------+------+---+------+-----| |prn0_resid_ | 160 |Pr/N0 residual tolerance flag| UI-1 |N/A| 0-1 | 65 | | tol_flag| | 0 => Out of tolerance | | | | | | | | 1 => In tolerance | | | | | |--------------+------+-----------------------------+------+---+------+-----| |rng_sigma_tol_| 161 |Range sigma tolerance flag. | UI-1 |N/A| 0-1 | 66 | | flag| | 0 => Out of tolerance | | | | | | | | 1 => In tolerance | | | | | |--------------+------+-----------------------------+------+---+------+-----| |rng_vld_flag | 162 |Range validity flag. | UI-1 |N/A| 0-1 | 67 | | | | 0 => Invalid | | | | | | | | 1 => Valid | | | | | |--------------+------+-----------------------------+------+---+------+-----| |rng_config_ | 163 |Range configuration change | UI-1 |N/A| 0-1 | 68 | | flag| |flag. | | | | | | | | 0 => Changed | | | | | | | | 1 => Unchanged | | | | | |--------------+------+-----------------------------+------+---+------+-----| |rng_hw_flag | 164 |Ranging hardware status flag.| UI-1 |N/A| 0-1 | | | | | 0 => Bad | | | | | | | | 1 => Good | | | | | |--------------+------+-----------------------------+------+---+------+-----| |time_tag_corr_| 165 |Time tag correction flag. | UI-1 |N/A| 0-2 | | | flag| |Indicates results of | | | | | | | |validation of the block time | | | | | | | |tag. | | | | | | | | 0 => no validation attempted| | | | | | | | 1 => validated, no change | | | | | | | | 2 => validated, changed | | | | | |--------------+------+-----------------------------+------+---+------+-----| |type_time_ | 166 |Type of time tag correction | UI-1 |N/A| 0-3 | | | corr_flag| |flag. Indicates what type of| | | | | | | |time tag correction was made.| | | | | | | | 0 => no correction | | | | | | | | 1 => Year correction | | | | | | | | 2 => DOY correction | | | | | | | | 3 => Both Year and DOY | | | | | | | | correction | | | | | |--------------+------+-----------------------------+------+---+------+-----| |dop_mode_corr_| 167 |Doppler mode correction flag.| UI-1 |N/A| 0-2 | | | flag| |Indicates the results of the | | | | | | | |validation of the doppler | | | | | | | |mode. | | | | | | | | 0 => not applicable or no | | | | | | | | validation attempted | | | | | | | | 1 => validated, no change | | | | | | | | 2 => validated, changed | | | | | |--------------+------+-----------------------------+------+---+------+-----| |ul_stn_corr_ | 168 |Uplink station correction | UI-1 |N/A| 0-2 | | | flag| |flag. Indicates the results | | | | | | | |of the validation of the | | | | | | | |uplink station. | | | | | | | | 0 => not applicable or no | | | | | | | | validation attempted| | | | | | | | 1 => validated, no change | | | | | | | | 2 => validated, changed | | | | | |--------------+------+-----------------------------+------+---+------+-----| |chop_start_num| 169 |Chop Start. The first | UI-1 |N/A| 0-25 | 16 | | | |component chopped. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |reserve8 | 170 |Reserved. Eight bytes. | UI-1 |N/A| 0 | | |===========================================================================| (1) Abbreviated values in the Format column are: A-8: ASCII string, 8 bytes A-12: ASCII string, 12 bytes I-4: Integer, 4 bytes UI-1: Unsigned integer, 1 byte UI-2: Unsigned integer, 2 bytes UI-4: Unsigned integer, 4 bytes UI-8: Unsigned integer, 8 bytes RE-4: IEEE single precision (4 bytes) RE-8: IEEE double precision (8 bytes) (2) The 'U' column contains values of 'units/precision'. Abbreviated values include: B: Bytes dBH: dB-Hz K: (degrees) kelvin ms: milliseconds N&D: See Item Name and Description column for details N/A: Not applicable ns: nanoseconds Pct: Percentage/percent ps: picoseconds s: seconds S6: seconds at precision 1 microsecond U: unitless (none) W: watts Y: years (3) The 'Range' column includes possible values. ds1* 0.01 to 86400.99 ds2* 0 to 2^16 - 1 ds3* 0 to 86400999 ds4* 0.00 to 86400.9999 ds5* -31,536,000.0 to 31,536,000.0 ds6* 0.000000 to 86400.999999 ds7* 4.0 to 504,536.0 ds8* -32.3e9 to -2.0e9 ds9* 0.00 to 86400.99 N num_obs 3.1.5.2.3 Downlink PN Ranging Phase CHDO (Data Type 5) The Downlink PN Ranging Phase CHDO is defined in Table 3-15. |===========================================================================| | Table 3-15. Downlink PN Ranging Phase CHDO (Data Type 5) Definitions | |===========================================================================| | Identifier | Byte | Item Name and Description |Format|U/P| Range|Notes| | |Offset| | (1) |(2)| (3) | | |==============+======+=============================+======+===+======+=====| |chdo_type | 0 |Type attribute of the | UI-2 |N/A| 10 | | | | |downlink PN ranging | | | | | | | |phase data CHDO. CHDO | | | | | | | |contains binary data. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |chdo_length | 2 |Length attribute of the | UI-2 | B | 202 | | | | |downlink PN ranging phase | | | | | | | |data CHDO value field. Number| | | | | | | |of bytes after this item. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |stn_cal | 4 |Station calibration value | RE-8 |RU/| 0.0 | 24 | | | |(Two-way). Value includes the| |.01| to | | | | |equipment in the path, but | | RU| 1.8E5| | | | |not the Z-height correction. | | | | | | | |(0.0 if not measured.) | | | | | |--------------+------+-----------------------------+------+---+------+-----| |dl_stn_cal | 12 |Downlink station calibration | RE-8 |RU/| 0.0 | 10 | | | |value. Value includes the | |.01| to | 24 | | | |downlink equipment in the | | RU| 1.8E5| | | | |path, but not the Z-height | | | | | | | |correction. (0.0 if not | | | | | | | |measured.) | | | | | |--------------+------+-----------------------------+------+---+------+-----| |dl_cal_freq | 20 |Downlink calibration | RE-8 |N&D|2.2E9 | | | | |frequency. Frequency the | | | to | | | | |calibration was done at. Sky| | |32.3E9| | | | |level Hz at 1 mHz precision. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |cal_std_dev | 28 |Standard deviation of station| RE-4 |RU/| 0.0 | 24 | | | |calibration value. For | |.01| to | | | | |stn_cal and dl_stn_cal. | | RU| 1.8E5| | |--------------+------+-----------------------------+------+---+------+-----| |cal_pts | 32 |Calibration points. Number of| UI-2 |N/A| 0 to | | | | |measurements made in | | | 65535| | | | |computing station calibration| | | | | | | |values (stn_cal, dl_stn_cal, | | | | | | | |and cal_std_dev). | | | | | |--------------+------+-----------------------------+------+---+------+-----| |dl_rng_phs | 34 |Measured range phase. Range | RE-8 |RU/| 0.0 | 11 | | | |phase. | |.01| to | 24 | | | | | | RU| 230| | |--------------+------+-----------------------------+------+---+------+-----| |figure_merit | 42 |Figure of Merit. Rating of | RE-4 |Pct| 0.0 | 28 | | | |the measured range value. | | / | to | | | | | | |0.1| 100.0| | | | | | |Pct| | | |--------------+------+-----------------------------+------+---+------+-----| |rng_resid | 46 |Range residual. Measured | RE-8 |RU/|-230 | 29 | | | |range minus predicted range. | |.01| to | | | | | | | RU| 230| | |--------------+------+-----------------------------+------+---+------+-----| |drvid | 54 |DRVID. DRVID measured using | RE-8 |RU/|-230 | 30 | | | |phase data from carrier. | |.01| to | 81 | | | | | | RU| 230| | |--------------+------+-----------------------------+------+---+------+-----| |rtlt | 62 |Round trip light time. | RE-4 | s/| 0.0 | | | | |Predicted value. | |0.1| to | | | | | | | s |86400.| | |--------------+------+-----------------------------+------+---+------+-----| |pcn0 | 66 |Pc/N0. Carrier power to noise| RE-4 |dBH| 0.0 | | | | |spectral density ratio. Has a| | / | to | | | | |value of -300.0 if no signal.| |0.1| 90.0,| | | | | | |dBH|-300.0| | |--------------+------+-----------------------------+------+---+------+-----| |pcn0_resid | 70 |Pc/N0 residual. Actual value| RE-4 |dBH|-90.0 | | | | |minus predicted value. | | / | to | | | | | | |0.1| 90.0| | | | | | |dBH| | | |--------------+------+-----------------------------+------+---+------+-----| |pdn0 | 74 |Pd/N0. Data power to noise | RE-4 |dBH| 0.0 | 25 | | | |spectral density ratio. Has a| | / | to | | | | |value of -300.0 if no signal.| |0.1| 90.0,| | | | | | |dBH|-300.0| | |--------------+------+-----------------------------+------+---+------+-----| |pdn0_resid | 78 |Pd/N0 residual. Actual value| RE-4 |dBH|-90.0 | | | | |minus predicted value. | | / | to | | | | | | |0.1| 90.0| | | | | | |dBH| | | |--------------+------+-----------------------------+------+---+------+-----| |prn0 | 82 |Pr/N0. Ranging power to noise| RE-4 |dBH|-10.0 | | | | |spectral density ratio. Has a| | / | to | | | | |value of -300.0 if no signal.| |0.1| 90.0,| | | | | | |dBH|-300.0| | |--------------+------+-----------------------------+------+---+------+-----| |prn0_resid | 86 |Pr/N0 residual. Actual value| RE-4 |dBH|-90.0 | | | | |minus predicted value. | | / | to | | | | | | |0.1| 90.0| | | | | | |dBH| | | |--------------+------+-----------------------------+------+---+------+-----| |system_noise_ | 90 |System Noise Temperature. | RE-4 | K/| 0.1 | | | temp| | | |0.1| to | | | | | | | K |2000.0| | |--------------+------+-----------------------------+------+---+------+-----| |state_seq1 | 94 |Sequence #1 code state. | UI-1 |N/A| 0-7 | 19 | | | |Position in the sequence at | | | | | | | |the time tag. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |state_seq2 | 95 |Sequence #2 code state. | UI-1 |N/A| 0-15 | 19 | | | |Position in the sequence at | | | | | | | |the time tag. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |state_seq3 | 96 |Sequence #3 code state. | UI-1 |N/A| 0-15 | 19 | | | |Position in the sequence at | | | | | | | |the time tag. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |state_seq4 | 97 |Sequence #4 code state. | UI-1 |N/A| 0-31 | 19 | | | |Position in the sequence at | | | | | | | |the time tag. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |state_seq5 | 98 |Sequence #5 code state. | UI-1 |N/A| 0-31 | 19 | | | |Position in the sequence at | | | | | | | |the time tag. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |state_seq6 | 99 |Sequence #6 code state. | UI-1 |N/A| 0-31 | 19 | | | |Position in the sequence at | | | | | | | |the time tag. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |pn_clk_phs | 100 |PN chip clock phase. Position| RE-8 |N&D| 0.0 | 19 | | | |in the chip at the time tag. | | | to | | | | |Cycles at 1 microcycle | | | 1.0 | | | | |precision. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |carr_loop_type| 108 |Carrier loop type. | UI-1 |N/A| 1-3 | 53 | |--------------+------+-----------------------------+------+---+------+-----| |snt_flag | 109 |SNT measurement flag. | UI-1 |N/A| 0-1 | | | | | 0 => SNT value is the | | | | | | | | predicted value | | | | | | | | 1 => SNT value is the | | | | | | | | measured value | | | | | |--------------+------+-----------------------------+------+---+------+-----| |carr_resid_wt | 110 |Carrier residual weight. | RE-4 |N/A| 0.0 | 27 | | | |(Weight value applied to | | | to | | | | |residual phase error in | | | 1.0 | | | | |carrier tracking; suppressed | | | | | | | |carrier weight is 1.0 minus | | | | | | | |this value.) | | | | | |--------------+------+-----------------------------+------+---+------+-----| |template_id | 114 |Template ID. Value is the | A-8 |N/A| ASCII| | | | |file name of the ranging | | |string| | | | |parameter file. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |invert | 122 |Invert. Inverted implies that| UI-1 |N/A| 0-1 | 52 | | | |the polarity of the | | | | | | | |correlation reference is the | | | | | | | |invert of what was | | | | | | | |transmitted. | | | | | | | | 0 => not inverted | | | | | | | | 1 => inverted | | | | | |--------------+------+-----------------------------+------+---+------+-----| |correl_type | 123 |Correlation type. | UI-1 |N/A| 0-1 | | | | | 0 => squarewave | | | | | | | | 1 => sinewave | | | | | |--------------+------+-----------------------------+------+---+------+-----| |int_time | 124 |Integration time. Time, in PN| UI-4 |N&D| 1 to | | | | |cycle periods, that the | | |2^32-1| | | | |signal was integrated over. | | | | | | | |Number of PN cycle periods at| | | | | | | |1 period resolution. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |clk_divider | 128 |Clock divider. Value that | UI-1 |N/A| 1-64 | 20 | | | |ranging reference frequency | | | | | | | |is divided by to get chip | | | | | | | |rate. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |len_seq1 | 129 |Sequence #1 length. A value | UI-1 |N&D| 0-8 | 21 | | | |of 0 implies no sequence. | | | | | | | |Chips at 1 chip precision. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |len_seq2 | 130 |Sequence #2 length. A value | UI-1 |N&D| 0-16 | 21 | | | |of 0 implies no sequence. | | | | | | | |Chips at 1 chip precision. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |len_seq3 | 131 |Sequence #3 length. A value | UI-1 |N&D| 0-16 | 21 | | | |of 0 implies no sequence. | | | | | | | |Chips at 1 chip precision. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |len_seq4 | 132 |Sequence #4 length. A value | UI-1 |N&D| 0-32 | 21 | | | |of 0 implies no sequence. | | | | | | | |Chips at 1 chip precision. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |len_seq5 | 133 |Sequence #5 length. A value | UI-1 |N&D| 0-32 | 21 | | | |of 0 implies no sequence. | | | | | | | |Chips at 1 chip precision. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |len_seq6 | 134 |Sequence #6 length. A value | UI-1 |N&D| 0-32 | 21 | | | |of 0 implies no sequence. | | | | | | | |Chips at 1 chip precision. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |def_seq1 | 135 |Sequence #1 component value. | UI-1 |N/A| 0 to | 21 | | | |Definition of the sequence. | | | 2^8-1| | |--------------+------+-----------------------------+------+---+------+-----| |def_seq2 | 136 |Sequence #2 component value. | UI-2 |N/A| 0 to | 21 | | | |Definition of the sequence. | | |2^16-1| | |--------------+------+-----------------------------+------+---+------+-----| |def_seq3 | 138 |Sequence #3 component value. | UI-2 |N/A| 0 to | 21 | | | |Definition of the sequence. | | |2^16-1| | |--------------+------+-----------------------------+------+---+------+-----| |def_seq4 | 140 |Sequence #4 component value. | UI-4 |N/A| 0 to | 21 | | | |Definition of the sequence. | | |2^32-1| | |--------------+------+-----------------------------+------+---+------+-----| |def_seq5 | 144 |Sequence #5 component value. | UI-4 |N/A| 0 to | 21 | | | |Definition of the sequence. | | |2^32-1| | |--------------+------+-----------------------------+------+---+------+-----| |def_seq6 | 148 |Sequence #6 component value. | UI-4 |N/A| 0 to | 21 | | | |Definition of the sequence. | | |2^32-1| | |--------------+------+-----------------------------+------+---+------+-----| |pn_code_length| 152 |PN Code Length. PN chips at | UI-4 |N&D| 2 to | 22 | | | |1 chip precision. | | | 11M | | |--------------+------+-----------------------------+------+---+------+-----| |rcv_inphs_ | 156 |Receive In-phase time - year.| UI-2 |N/A|1958- | 75 | | time_year| |Year of the time of zero | | | 3000| | | | |phase on downlink range | | | | | | | |signal correlation. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |rcv_inphs_ | 158 |Receive In-phase time - day | UI-2 |N/A| 1-366| 75 | | time_doy| |of year. Day of year of the | | | | | | | |time of zero phase on | | | | | | | |downlink range signal | | | | | | | |correlation. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |rcv_inphs_ | 160 |Receive In-phase time - | RE-8 | S6| ds6* | 75 | | time_sec| |seconds of day. | | | | | | | |Seconds of day of the time of| | | | | | | |zero phase on downlink range | | | | | | | |generation. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |exc_scalar_num| 168 |Exciter Scalar Numerator. | UI-4 |N/A| 1 to | 17 | | | |Numerator of multiplier that | | |2^32-1| | | | |is used to generate ranging | | | | | | | |reference signal from uplink | | | | | | | |sky frequency. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |exc_scalar_den| 174 |Exciter Scalar Denominator. | UI-4 |N/A| 1 to | 17 | | | |Denominator of multiplier | | |2^32-1| | | | |that is used to generate | | | | | | | |ranging reference signal | | | | | | | |from uplink sky frequency. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |rng_cycle_time| 176 |Ranging cycle time. Time to | RE-8 |RU/| 0.0 | 23 | | | |complete one cycle of | |.01| to | 24 | | | |ranging code. | | RU| 1.0E9| | |--------------+------+-----------------------------+------+---+------+-----| |inphs_correl | 184 |In phase correlation value. | RE-4 |N/A| -1.0 | | | | |The in phase value of the | | | to | | | | |clock component correlation. | | | 1.0| | |--------------+------+-----------------------------+------+---+------+-----| |quad_phs_ | 188 |Quadrature phase correlation | RE-4 |N/A| -1.0 | | | correl| |value. The quadrature phase | | | to | | | | |value of the clock component | | | 1.0| | | | |correlation. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |metrics_vld_ | 192 |Metrics validity flag. | UI-1 |N/A| 0-2 | 70 | | flag| |Validity of the Range | | | | | | | |Residual (rng_resid) and | | | | | | | |DRVID (drvid) measurements. | | | | | | | | 0 => Invalid (No uplink data| | | | | | | | available)| | | | | | | | 1 => Invalid (Other reasons)| | | | | | | | 2 => Valid | | | | | |--------------+------+-----------------------------+------+---+------+-----| |correl_vld_ | 193 |Correlation validity flag. | UI-1 |N/A| 0-1 | 56 | | flag| | 0 => Invalid | | | | | | | | 1 => Valid | | | | | |--------------+------+-----------------------------+------+---+------+-----| |rng_resid_tol_| 194 |Range residual tolerance flag| UI-1 |N/A| 0-1 | 63 | | flag| | 0 => Out of tolerance | | | | | | | | 1 => In tolerance | | | | | |--------------+------+-----------------------------+------+---+------+-----| |drvid_tol_flag| 195 |DRVID tolerance flag. | UI-1 |N/A| 0-1 | 64 | | | | 0 => Out of tolerance | | | | | | | | 1 => In tolerance | | | | | |--------------+------+-----------------------------+------+---+------+-----| |prn0_resid_ | 196 |Pr/N0 residual tolerance flag| UI-1 |N/A| 0-1 | 65 | | tol_flag| | 0 => Out of tolerance | | | | | | | | 1 => In tolerance | | | | | |--------------+------+-----------------------------+------+---+------+-----| |rng_sigma_ | 197 |Range sigma tolerance flag. | UI-1 |N/A| 0-1 | 66 | | tol_flag| | 0 => Out of tolerance | | | | | | | | 1 => In tolerance | | | | | |--------------+------+-----------------------------+------+---+------+-----| |rng_vld_flag | 198 |Range validity flag. | UI-1 |N/A| 0-1 | 67 | | | | 0 => Invalid | | | | | | | | 1 => Valid | | | | | |--------------+------+-----------------------------+------+---+------+-----| |rng_config_ | 199 |Range configuration change | UI-1 |N/A| 0-1 | 68 | | flag| |flag. | | | | | | | | 0 => Changed | | | | | | | | 1 => Unchanged | | | | | |--------------+------+-----------------------------+------+---+------+-----| |rng_hw_flag | 200 |Ranging hardware status flag.| UI-1 |N/A| 0-1 | | | | | 0 => Bad | | | | | | | | 1 => Good | | | | | |--------------+------+-----------------------------+------+---+------+-----| |time_tag_corr_| 201 |Time tag correction flag. | UI-1 |N/A| 0-2 | | | flag| |Indicates results of | | | | | | | |validation of the block time | | | | | | | |tag. | | | | | | | | 0 => no validation attempted| | | | | | | | 1 => validated, no change | | | | | | | | 2 => validated, changed | | | | | |--------------+------+-----------------------------+------+---+------+-----| |type_time_ | 202 |Type of time tag correction | UI-1 |N/A| 0-3 | | | corr_flag| |flag. Indicates what type of| | | | | | | |time tag correction was made.| | | | | | | | 0 => no correction | | | | | | | | 1 => Year correction | | | | | | | | 2 => DOY correction | | | | | | | | 3 => Both Year and DOY | | | | | | | | correction | | | | | |--------------+------+-----------------------------+------+---+------+-----| |dop_mode_ | 203 |Doppler mode correction flag.| UI-1 |N/A| 0-2 | | | corr_flag| |Indicates the results of the | | | | | | | |validation of the doppler | | | | | | | |mode. | | | | | | | | 0 => not applicable or no | | | | | | | | validation attempted | | | | | | | | 1 => validated, no change | | | | | | | | 2 => validated, changed | | | | | |--------------+------+-----------------------------+------+---+------+-----| |ul_stn_corr_ | 204 |Uplink station correction | UI-1 |N/A| 0-2 | | | flag| |flag. Indicates the results | | | | | | | |of the validation of the | | | | | | | |uplink station. | | | | | | | | 0 => not applicable or no | | | | | | | | validation attempted | | | | | | | | 1 => validated, no change | | | | | | | | 2 => validated, changed | | | | | |--------------+------+-----------------------------+------+---+------+-----| |reserve1a | 205 |Reserved. One byte. | UI-1 |N/A| 0 | | |===========================================================================| (1) Abbreviated values in the Format column are: A-8: ASCII string, 8 bytes A-12: ASCII string, 12 bytes I-4: Integer, 4 bytes UI-1: Unsigned integer, 1 byte UI-2: Unsigned integer, 2 bytes UI-4: Unsigned integer, 4 bytes UI-8: Unsigned integer, 8 bytes RE-4: IEEE single precision (4 bytes) RE-8: IEEE double precision (8 bytes) (2) The 'U' column contains values of 'units/precision'. Abbreviated values include: B: Bytes dBH: dB-Hz K: (degrees) kelvin ms: milliseconds N&D: See Item Name and Description column for details N/A: Not applicable ns: nanoseconds Pct: Percentage/percent ps: picoseconds s: seconds S6: seconds at precision 1 microsecond U: unitless (none) W: watts Y: years (3) The 'Range' column includes possible values. ds1* 0.01 to 86400.99 ds2* 0 to 2^16 - 1 ds3* 0 to 86400999 ds4* 0.00 to 86400.9999 ds5* -31,536,000.0 to 31,536,000.0 ds6* 0.000000 to 86400.999999 ds7* 4.0 to 504,536.0 ds8* -32.3e9 to -2.0e9 ds9* 0.00 to 86400.99 N num_obs 3.1.5.3 Derived Data CHDOs There are seven derived data CHDOs: Doppler Count (data type 6), Sequential Range (data type 7), Angle (data type 8), DRVID (data type 11), PN Range (data type 14), Tone Range (data type 15), Carrier Frequency Observable (data type 16), and Total Count Phase Observable (data type 17). Their formats and contents are specified in sections 3.1.5.3.1 to 3.1.5.3.7. 3.1.5.3.1 Doppler Count CHDO (Data Type 6) The Doppler Count CHDO is defined in Table 3-16. |===========================================================================| | Table 3-16. Doppler Count CHDO (Data Type 6) Definitions | |===========================================================================| | Identifier | Byte | Item Name and Description |Format|U/P| Range|Notes| | |Offset| | (1) |(2)| (3) | | |==============+======+=============================+======+===+======+=====| |chdo_type | 0 |Type attribute of the Doppler| UI-2 |N/A| 10 | | | | |count data CHDO. CHDO | | | | | | | |contains binary data. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |chdo_length | 2 |Length attribute of the | UI-2 | B | 176 | | | | |Doppler Count data CHDO value| | | | | | | |field. Number of bytes after | | | | | | | |this item. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |ref_rcv_type | 4 |Reference receiver type. | UI-1 |N/A| 0-2 | | | | | 0 => Unknown | | | | | | | | 1 => DTT | | | | | | | | 2 => MFR | | | | | |--------------+------+-----------------------------+------+---+------+-----| |sampl_interval| 5 |Sample interval. | UI-1 |N/A| 1-4 | 84 | | | | 1 => 0.1 second | | | | | | | | 2 => 1 second (non-UPL-DTT) | | | | | | | | 3 => 10 seconds | | | | | | | | (non-UPL-DTT) | | | | | | | | 4 => 60 seconds | | | | | | | | (non-UPL-DTT) | | | | | |--------------+------+-----------------------------+------+---+------+-----| |reserve1a | 6 |Reserved. One byte. | UI-1 |N/A| 0 | | |--------------+------+-----------------------------+------+---+------+-----| |carr_vld_flag | 7 |Received carrier validity | UI-1 |N/A| 0-1 | 69 | | | |indicator. | | | | | | | | 0 => Invalid Doppler | | | | | | | | 1 => Valid Doppler | | | | | |--------------+------+-----------------------------+------+---+------+-----| |dop_noise | 8 |Doppler noise. Invalid for | RE-4 |Hz/| -1.0,| 26 | | | |non-DTT antennas; indicated | | 1 |0.0- | | | | |by value of -1.0. | |mHz| 1000.| | |--------------+------+-----------------------------+------+---+------+-----| |slipped_ | 12 |Slipped cycles validity flag.| UI-1 |N/A| 0-1 | | | cycles_ | | 0 => Invalid | | | | | | vld_flag| | 1 => Valid | | | | | |--------------+------+-----------------------------+------+---+------+-----| |delta_ff_vld_ | 13 |Delta-f/f validity flag. | UI-1 |N/A| 0-1 | | | flag| | 0 => Invalid | | | | | | | | 1 => Valid | | | | | |--------------+------+-----------------------------+------+---+------+-----| |delta_ff | 14 |Delta-f/f. Valid only for | RE-8 |N/A| -1.0 | 32 | | | |UPL-DTT antennas. | | | to | | | | | | | | 1.0| | |--------------+------+-----------------------------+------+---+------+-----| |slipped_cycles| 22 |Slipped cycles. Number of | I-4 |N&D|-10000| 31 | | | |detected slipped cycles at | | | to | | | | |time tag. Valid only for | | | 10000| | | | |UPL-DTT antennas. Number of | | | | | | | |cycles at 1 cycle precision. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |rcv_sig_lvl | 26 |Received signal level. | RE-4 |dBm|-300.,| 58 | | | |Carrier power or data power | | / |-190.0| | | | |(if suppressed carrier | |0.1| to | | | | |tracking). (-300.0 if not | |dBm| -45.0| | | | |valid.) | | | | | |--------------+------+-----------------------------+------+---+------+-----| |ul_freq | 30 |Uplink frequency. Uplink | RE-8 |Hz/|2.0E9 | 34 | | | |frequency value used in the | | 1 | to | | | | |Doppler computation at time | |mHz|34.7E9| | | | |tag. For UPL-DTT antennas, | | | | | | | |it is determined by the | | | | | | | |downlink frequency. | | | | | | | |Otherwise, depends on antenna| | | | | | | |configuration. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |dop_cnt_bias_ | 38 |Doppler count bias frequency.| RE-8 |Hz/|-2.4E5| 34 | | freq| | | | 1 | to | | | | | | |mHz| 1.0E7| | |--------------+------+-----------------------------+------+---+------+-----| |dop_cnt_hi_0 | 46 |Doppler Count 0 - High part | UI-4 |N&D| 0 to | 8 | | | |phase data whole cycles. | | |2^32-1| 34 | | | |Total integer phase cycles | | | | 85 | | | |divided by 2^32. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |dop_cnt_lo_0 | 50 |Doppler Count 0 - Low part | UI-4 |N&D| 0 to | 8 | | | |phase data whole cycles. | | |2^32-1| 34 | | | |Total integer phase cycles | | | | 85 | | | |modulo 2^32. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |dop_cnt_frac_0| 54 |Doppler Count 0 - Fractional | UI-4 |N&D| 0 to | 8 | | | |part phase data cycles. | | |2^32-1| 34 | | | |Fractional phase cycles | | | | 85 | | | |multiplied by 2^32. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |dop_cnt _hi_1 | 58 |Doppler Count 1 - High part | UI-4 |N&D| 0 to | 8 | | | |phase data whole cycles. | | |2^32-1| 34 | | | |(time tag + 0.1 sec) | | | | 85 | | | |Zero if non-UPL-DTT antenna. | | | | | | | |Total integer phase cycles | | | | | | | |divided by 2^32. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |dop_cnt _lo_1 | 62 |Doppler Count 1 - Low part | UI-4 |N&D| 0 to | 8 | | | |phase data whole cycles. | | |2^32-1| 34 | | | |(time tag + 0.1 sec) | | | | 85 | | | |Zero if non-UPL-DTT antenna. | | | | | | | |Total integer phase cycles | | | | | | | |modulo 2^32. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |dop_cnt_ | 66 |Doppler Count 1 - Fractional | UI-4 |N&D| 0 to | 8 | | frac_1| |part phase data cycles. | | |2^32-1| 34 | | | |(time tag + 0.1 sec) | | | | 85 | | | |Zero if non-UPL-DTT antenna. | | | | | | | |Fractional phase cycles | | | | | | | |multiplied by 2^32. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |dop_cnt_hi_2 | 70 |Doppler Count 2 - High part | UI-4 |N&D| 0 to | 8 | | | |phase data whole cycles. | | |2^32-1| 34 | | | |(time tag + 0.2 sec) | | | | 85 | | | |Zero if non-UPL-DTT antenna. | | | | | | | |Total integer phase cycles | | | | | | | |divided by 2^32. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |dop_cnt_lo_2 | 74 |Doppler Count 2 - Low part | UI-4 |N&D| 0 to | 8 | | | |phase data whole cycles. | | |2^32-1| 34 | | | |(time tag + 0.2 sec) | | | | 85 | | | |Zero if non-UPL-DTT antenna. | | | | | | | |Total integer phase cycles | | | | | | | |modulo 2^32. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |dop_cnt_frac_2| 78 |Doppler Count 2 - Fractional | UI-4 |N&D| 0 to | 8 | | | |part phase data cycles. | | |2^32-1| 34 | | | |(time tag + 0.2 sec) | | | | 85 | | | |Zero if non-UPL-DTT antenna. | | | | | | | |Fractional phase cycles | | | | | | | |multiplied by 2^32. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |dop_cnt_hi_3 | 82 |Doppler Count 3 - High part | UI-4 |N&D| 0 to | 8 | | | |phase data whole cycles. | | |2^32-1| 34 | | | |(time tag + 0.3 sec) | | | | 85 | | | |Zero if non-UPL-DTT antenna. | | | | | | | |Total integer phase cycles | | | | | | | |divided by 2^32. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |dop_cnt_lo_3 | 86 |Doppler Count 3 - Low part | UI-4 |N&D| 0 to | 8 | | | |phase data whole cycles. | | |2^32-1| 34 | | | |(time tag + 0.3 sec) | | | | 85 | | | |Zero if non-UPL-DTT antenna. | | | | | | | |Total integer phase cycles | | | | | | | |modulo 2^32. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |dop_cnt_frac_3| 90 |Doppler Count 3 - Fractional | UI-4 |N&D| 0 to | 8 | | | |part phase data cycles. | | |2^32-1| 34 | | | |(time tag + 0.3 sec) | | | | 85 | | | |Zero if non-UPL-DTT antenna. | | | | | | | |Fractional phase cycles | | | | | | | |multiplied by 2^32. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |dop_cnt_hi_4 | 94 |Doppler Count 4 - High part | UI-4 |N&D| 0 to | 8 | | | |phase data whole cycles. | | |2^32-1| 34 | | | |(time tag + 0.4 sec) | | | | 85 | | | |Zero if non-UPL-DTT antenna. | | | | | | | |Total integer phase cycles | | | | | | | |divided by 2^32. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |dop_cnt_lo_4 | 98 |Doppler Count 4 - Low part | UI-4 |N&D| 0 to | 8 | | | |phase data whole cycles. | | |2^32-1| 34 | | | |(time tag + 0.4 sec) | | | | 85 | | | |Zero if non-UPL-DTT antenna. | | | | | | | |Total integer phase cycles | | | | | | | |modulo 2^32. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |dop_cnt_frac_4| 102 |Doppler Count 4 - Fractional | UI-4 |N&D| 0 to | 8 | | | |part phase data cycles. | | |2^32-1| 34 | | | |(time tag + 0.4 sec) | | | | 85 | | | |Zero if non-UPL-DTT antenna. | | | | | | | |Fractional phase cycles | | | | | | | |multiplied by 2^32. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |dop_cnt_hi_5 | 106 |Doppler Count 5 - High part | UI-4 |N&D| 0 to | 8 | | | |phase data whole cycles. | | |2^32-1| 34 | | | |(time tag + 0.5 sec) | | | | 85 | | | |Zero if non-UPL-DTT antenna. | | | | | | | |Total integer phase cycles | | | | | | | |divided by 2^32. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |dop_cnt_lo_5 | 110 |Doppler Count 5 - Low part | UI-4 |N&D| 0 to | 8 | | | |phase data whole cycles. | | |2^32-1| 34 | | | |(time tag + 0.5 sec) | | | | 85 | | | |Zero if non-UPL-DTT antenna. | | | | | | | |Total integer phase cycles | | | | | | | |modulo 2^32. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |dop_cnt_frac_5| 114 |Doppler Count 5 - Fractional | UI-4 |N&D| 0 to | 8 | | | |part phase data cycles. | | |2^32-1| 34 | | | |(time tag + 0.5 sec) | | | | 85 | | | |Zero if non-UPL-DTT antenna. | | | | | | | |Fractional phase cycles | | | | | | | |multiplied by 2^32. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |dop_cnt_hi_6 | 118 |Doppler Count 6 - High part | UI-4 |N&D| 0 to | 8 | | | |phase data whole cycles. | | |2^32-1| 34 | | | |(time tag + 0.6 sec) | | | | 85 | | | |Zero if non-UPL-DTT antenna. | | | | | | | |Total integer phase cycles | | | | | | | |divided by 2^32. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |dop_cnt_lo_6 | 122 |Doppler Count 6 - Low part | UI-4 |N&D| 0 to | 8 | | | |phase data whole cycles. | | |2^32-1| 34 | | | |(time tag + 0.6 sec) | | | | 85 | | | |Zero if non-UPL-DTT antenna. | | | | | | | |Total integer phase cycles | | | | | | | |modulo 2^32. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |dop_cnt_frac_6| 126 |Doppler Count 6 - Fractional | UI-4 |N&D| 0 to | 8 | | | |part phase data cycles. | | |2^32-1| 34 | | | |(time tag + 0.6 sec) | | | | 85 | | | |Zero if non-UPL-DTT antenna. | | | | | | | |Fractional phase cycles | | | | | | | |multiplied by 2^32. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |dop_cnt_hi_7 | 130 |Doppler Count 7 - High part | UI-4 |N&D| 0 to | 8 | | | |phase data whole cycles. | | |2^32-1| 34 | | | |(time tag + 0.7 sec) | | | | 85 | | | |Zero if non-UPL-DTT antenna. | | | | | | | |Total integer phase cycles | | | | | | | |divided by 2^32. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |dop_cnt_lo_7 | 134 |Doppler Count 7 - Low part | UI-4 |N&D| 0 to | 8 | | | |phase data whole cycles. | | |2^32-1| 34 | | | |(time tag + 0.7 sec) | | | | 85 | | | |Zero if non-UPL-DTT antenna. | | | | | | | |Total integer phase cycles | | | | | | | |modulo 2^32. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |dop_cnt_frac_7| 138 |Doppler Count 7 - Fractional | UI-4 |N&D| 0 to | 8 | | | |part phase data cycles. | | |2^32-1| 34 | | | |(time tag + 0.7 sec) | | | | 85 | | | |Zero if non-UPL-DTT antenna. | | | | | | | |Fractional phase cycles | | | | | | | |multiplied by 2^32. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |dop_cnt_hi_8 | 142 |Doppler Count 8 - High part | UI-4 |N&D| 0 to | 8 | | | |phase data whole cycles. | | |2^32-1| 34 | | | |(time tag + 0.8 sec) | | | | 85 | | | |Zero if non-UPL-DTT antenna. | | | | | | | |Total integer phase cycles | | | | | | | |divided by 2^32. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |dop_cnt_lo_8 | 146 |Doppler Count 8 - Low part | UI-4 |N&D| 0 to | 8 | | | |phase data whole cycles. | | |2^32-1| 34 | | | |(time tag + 0.8 sec) | | | | 85 | | | |Zero if non-UPL-DTT antenna. | | | | | | | |Total integer phase cycles | | | | | | | |modulo 2^32. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |dop_cnt_frac_8| 150 |Doppler Count 8 - Fractional | UI-4 |N&D| 0 to | 8 | | | |part phase data cycles. | | |2^32-1| 34 | | | |(time tag + 0.8 sec) | | | | 85 | | | |Zero if non-UPL-DTT antenna. | | | | | | | |Fractional phase cycles | | | | | | | |multiplied by 2^32. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |dop_cnt_hi_9 | 154 |Doppler Count 9 - High part | UI-4 |N&D| 0 to | 8 | | | |phase data whole cycles. | | |2^32-1| 34 | | | |(time tag + 0.9 sec) | | | | 85 | | | |Zero if non-UPL-DTT antenna. | | | | | | | |Total integer phase cycles | | | | | | | |divided by 2^32. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |dop_cnt_lo_9 | 158 |Doppler Count 9 - Low part | UI-4 |N&D| 0 to | 8 | | | |phase data whole cycles. | | |2^32-1| 34 | | | |(time tag + 0.9 sec) | | | | 85 | | | |Zero if non-UPL-DTT antenna. | | | | | | | |Total integer phase cycles | | | | | | | |modulo 2^32. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |dop_cnt_frac_9| 162 |Doppler Count 9 - Fractional | UI-4 |N&D| 0 to | 8 | | | |part phase data cycles. | | |2^32-1| 34 | | | |(time tag + 0.9 sec) | | | | 85 | | | |Zero if non-UPL-DTT antenna. | | | | | | | |Fractional phase cycles | | | | | | | |multiplied by 2^32. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |time_tag_corr_| 166 |Time tag correction flag. | UI-1 |N/A| 0-2 | | | flag| |Indicates results of | | | | | | | |validation of the block time | | | | | | | |tag. | | | | | | | | 0 => no validation attempted| | | | | | | | 1 => validated, no change | | | | | | | | 2 => validated, changed | | | | | |--------------+------+-----------------------------+------+---+------+-----| |type_time_ | 167 |Type of time tag | UI-1 |N/A| 0-3 | | | corr_flag| |correction flag. Indicates | | | | | | | |what type of time tag | | | | | | | |correction was made. | | | | | | | | 0 => no correction | | | | | | | | 1 => Year correction | | | | | | | | 2 => DOY correction | | | | | | | | 3 => Both Year and DOY | | | | | | | | correction | | | | | |--------------+------+-----------------------------+------+---+------+-----| |dop_mode_corr_| 168 |Doppler mode correction flag.| UI-1 |N/A| 0-2 | | | flag| |Indicates the results of the | | | | | | | |validation of the doppler | | | | | | | |mode. | | | | | | | | 0 => not applicable or no | | | | | | | | validation attempted | | | | | | | | 1 => validated, no change | | | | | | | | 2 => validated, changed | | | | | |--------------+------+-----------------------------+------+---+------+-----| |ul_stn_corr_ | 169 |Uplink station correction | UI-1 |N/A| 0-2 | | | flag| |flag. Indicates the results | | | | | | | |of the validation of the | | | | | | | | uplink station. | | | | | | | | 0 => not applicable or no | | | | | | | | validation attempted | | | | | | | | 1 => validated, no change | | | | | | | | 2 => validated, changed | | | | | |--------------+------+-----------------------------+------+---+------+-----| |dl_band_corr_ | 170 |Downlink frequency band | UI-1 |N/A| 0-2 | | | flag| |correction flag. Indicates | | | | | | | |the results of validation of | | | | | | | |downlink band for the 26m | | | | | | | |stations only. | | | | | | | | 0 => not applicable or no | | | | | | | | validation attempted | | | | | | | | 1 => validated, no change | | | | | | | | 2 => validated, changed | | | | | |--------------+------+-----------------------------+------+---+------+-----| |reserve1 | 171 |Reserved. One byte. | UI-1 |N/A| 0 | | |--------------+------+-----------------------------+------+---+------+-----| |reserve8 | 172 |Reserved. Eight bytes. | UI-8 |N/A| 0 | | |===========================================================================| (1) Abbreviated values in the Format column are: A-8: ASCII string, 8 bytes A-12: ASCII string, 12 bytes I-4: Integer, 4 bytes UI-1: Unsigned integer, 1 byte UI-2: Unsigned integer, 2 bytes UI-4: Unsigned integer, 4 bytes UI-8: Unsigned integer, 8 bytes RE-4: IEEE single precision (4 bytes) RE-8: IEEE double precision (8 bytes) (2) The 'U' column contains values of 'units/precision'. Abbreviated values include: B: Bytes dBH: dB-Hz K: (degrees) kelvin ms: milliseconds N&D: See Item Name and Description column for details N/A: Not applicable ns: nanoseconds Pct: Percentage/percent ps: picoseconds s: seconds S6: seconds at precision 1 microsecond U: unitless (none) W: watts Y: years (3) The 'Range' column includes possible values. ds1* 0.01 to 86400.99 ds2* 0 to 2^16 - 1 ds3* 0 to 86400999 ds4* 0.00 to 86400.9999 ds5* -31,536,000.0 to 31,536,000.0 ds6* 0.000000 to 86400.999999 ds7* 4.0 to 504,536.0 ds8* -32.3e9 to -2.0e9 ds9* 0.00 to 86400.99 N num_obs 3.1.5.3.2 Sequential Range CHDO (Data Type 7) The Sequential Range CHDO is defined in Table 3-17. |===========================================================================| | Table 3-17. Sequential Range CHDO (Data Type 7) Definitions | |===========================================================================| | Identifier | Byte | Item Name and Description |Format|U/P| Range|Notes| | |Offset| | (1) |(2)| (3) | | |==============+======+=============================+======+===+======+=====| |chdo_type | 0 |Type attribute of the range | UI-2 |N/A| 10 | | | | |data CHDO. CHDO contains | | | | | | | |binary data. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |chdo_length | 2 |Length attribute of the range| UI-2 | B | 186 | | | | |data CHDO value field. Number| | | | | | | |of bytes after this item. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |ul_stn_cal | 4 |Uplink station calibration | RE-8 | RU|-1.0, | 24 | | | |value. Invalid indicated by | | / | 0.0 | 40 | | | |value of -1.0. | |.01| to | | | | | | | RU| 1.8E5| | |--------------+------+-----------------------------+------+---+------+-----| |dl_stn_cal | 12 |Downlink station calibration | RE-8 |RU/| -1.0,| 24 | | | |value. Invalid indicated by | |.01| 0.0 | 41 | | | |value of -1.0. | | RU| to | | | | | | | | 1.8E5| | |--------------+------+-----------------------------+------+---+------+-----| |meas_rng | 20 |Measured range value. Does | RE-8 |RU/|-1.0, | 24 | | | |not include compensation for | |.01| 0.0 | 38 | | | |station calibration and other| | RU| to | | | | |adjustments. Invalid is | | | 230| | | | |indicated by value of -1.0. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |rng_obs | 28 |Range observable. Includes | RE-8 |RU/|-1.0, | 24 | | | |all measurement adjustments | |.01| 0.0 | 39 | | | |(station calibration, | | RU| to | | | | |spacecraft delay, and | | | 230| | | | |Z-height). Invalid is | | | | | | | |indicated by value of -1.0. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |rng_obs_dl | 36 |Downlink range observable. | RE-8 |RU/|-1.0, | 24 | | | |Includes all measurement | |.01| 0.0 | 76 | | | |adjustments (station | | RU| to | | | | |calibration, spacecraft | | | 230| | | | |delay, and Z-height). A value| | | | | | | |of -1.0 indicates invalid. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |clock_waveform| 44 |Uplink clock waveform type. | UI-1 |N/A| 0-1 | | | | | 0 => square wave | | | | | | | | 1 => sine wave | | | | | |--------------+------+-----------------------------+------+---+------+-----| |chop_start_num| 45 |Chop Start. The first | UI-1 |N/A| 0-25 | 16 | | | |component chopped. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |figure_merit | 46 |Figure of Merit. Rating of | RE-4 |Pct| 0.0 | 28 | | | |the measured range value. | |/.1| to | | | | | | |Pct| 100.0| | |--------------+------+-----------------------------+------+---+------+-----| |drvid | 50 |DRVID. DRVID measured using | RE-8 |RU/|-230 | 24 | | | |phase data from carrier. | |.01| to | 30 | | | | | | RU| 230| 80 | |--------------+------+-----------------------------+------+---+------+-----| |rtlt | 58 |Round trip light time. | RE-4 | s/| 0 to | | | | |Predicted value. | |.1s| 86400| | |--------------+------+-----------------------------+------+---+------+-----| |prn0 | 62 |Pr/N0. Ranging power to noise| RE-4 |dBH|-10.0 | | | | |spectral density ratio. | |/.1| to | | | | | | |dBH| 90.0| | |--------------+------+-----------------------------+------+---+------+-----| |transmit_pwr | 66 |Transmitter power. | RE-4 | W/| 0 to | | | | | | |.1W| 500K| | |--------------+------+-----------------------------+------+---+------+-----| |invert | 70 |Invert. Inverted implies that| UI-1 |N/A| 0-1 | | | | |the polarity of the | | | | | | | |correlation reference is the | | | | | | | |invert of what was | | | | | | | |transmitted. | | | | | | | | 0 => not inverted | | | | | | | | 1 => inverted | | | | | |--------------+------+-----------------------------+------+---+------+-----| |correl_type | 71 |Correlation type. | UI-1 |N/A| 0-1 | | | | | 0 => squarewave | | | | | | | | 1 => sinewave | | | | | |--------------+------+-----------------------------+------+---+------+-----| |t1 | 72 |T1 setting. | UI-2 | s/|1-3600| 12 | | | | | |1 s| | | |--------------+------+-----------------------------+------+---+------+-----| |t2 | 74 |T2 setting. | UI-2 | s/|1-1800| 13 | | | | | |1 s| | | |--------------+------+-----------------------------+------+---+------+-----| |t3 | 76 |T3 setting. | UI-2 | s/|1-1800| 14 | | | | | |1 s| | | |--------------+------+-----------------------------+------+---+------+-----| |first_comp_num| 78 |First component number. | UI-1 |N/A| 1-24 | 15 | |--------------+------+-----------------------------+------+---+------+-----| |last_comp_num | 79 |Last component number. | UI-1 |N/A| 1-24 | 15 | |--------------+------+-----------------------------+------+---+------+-----| |chop_comp_num | 80 |Chop component number. This | UI-1 |N/A| 0-10 | 15 | | | |is the component used to chop| | | | 16 | | | |the other components. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |num_drvid | 81 |Number of DRVID measurements.| UI-1 |N/A| 0-255| | |--------------+------+-----------------------------+------+---+------+-----| |transmit_ | 82 |Transmit In-phase time. | RE-4 | s/|-86400| 59 | | inphs_time| |Offset from time tag of time | |1 s| to | | | | |of zero phase on uplink range| | | 86400| | | | |signal generation. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |rcv_inphs_time| 86 |Receive In-phase time. Offset| RE-4 | s/|-86400| 59 | | | |from time tag of time of zero| |1 s| to | | | | |phase on downlink range | | | 86400| | | | |signal correlation. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |carr_sup_rng | 90 |Carrier suppression by | RE-4 |dB/|-15.0 | | | _modul| |ranging modulation. Amount | |0.1| to | | | | |carrier power is reduced by | | dB| 0.0| | | | |ranging modulation. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |exc_scalar_num| 94 |Exciter Scalar Numerator. | UI-4 |N/A| 1 to | 17 | | | |Numerator of multiplier that | | |2^32-1| | | | |is used to generate ranging | | | | | | | |reference signal from uplink | | | | | | | |sky frequency. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |exc_scalar_den| 98 |Exciter Scalar Denominator. | UI-4 |N/A| 1 to | 17 | | | |Denominator of multiplier | | |2^32-1| | | | |that is used to generate | | | | | | | |ranging reference signal from| | | | | | | |uplink sky frequency. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |rng_cycle_time| 102 |Range cycle time. Time, in | RE-8 | s/| ds7* | 18 | | | |seconds, of one complete | |.1s| | | | | |cycle of the ranging signal. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |rng_modulo | 110 |Range modulo value. Range | UI-4 |RU/| 1 to | 37 | | | |measurement modulo | | 1 | 230| | | | |(ambiguity). | | RU| | | |--------------+------+-----------------------------+------+---+------+-----| |inphs_correl | 114 |In phase correlation value. | RE-4 |N/A|-1.0 | | | | |The in phase value of the | | | to | | | | |clock component correlation. | | | 1.0| | |--------------+------+-----------------------------+------+---+------+-----| |quad_phs_ | 118 |Quadrature phase correlation | RE-4 |N/A|-1.0 | | | correl| |value. The quadrature phase | | | to | | | | |value of the clock component | | | 1.0| | | | |correlation. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |ul_freq | 122 |Uplink frequency. Uplink | RE-8 |Hz/| 0.0, | 42 | | | |frequency at time tag. Set to| | 1 |2.0E9 | | | | |0.0 if unavailable. | |mHz| to | | | | | | | |34.4E9| | |--------------+------+-----------------------------+------+---+------+-----| |rng_type | 130 |Range measurement type. Type| UI-1 |N/A| 0-1 | | | | |of sequential measurement. | | | | | | | | 0 => Ranging measurement | | | | | | | | 1 => Calibration | | | | | |--------------+------+-----------------------------+------+---+------+-----| |reserve1a | 131 |Reserved. One byte. | UI-1 |N/A| 0 | | |--------------+------+-----------------------------+------+---+------+-----| |rng_noise | 132 |Range noise. Invalid | RE-4 |RU/|-1.0, | 43 | | | |indicated by value of -1.0. | |.01|0.0 to| | | | | | | RU| 230| | |--------------+------+-----------------------------+------+---+------+-----| |rng_prefit_ | 136 |Range pre-fit residual. | RE-8 |RU/|-230 | 24 | | resid| |Observed range minus | |.01| to | 29 | | | |predicted range. | | RU| 230| 86 | |--------------+------+-----------------------------+------+---+------+-----| |rng_dl_prefit_| 144 |Downlink range pre-fit | RE-8 |RU/|-230 | 24 | | resid| |residual. Observed range | |.01| to | 29 | | | |minus predicted range. | | RU| 230| 86 | |--------------+------+-----------------------------+------+---+------+-----| |rng_prefit_ | 152 |Range pre-fit residual | UI-1 |N/A| 0-1 | 86 | |resid_vld_flag| |validity indicator. | | | | | | | | 0 => Invalid pre-fit | | | | | | | | residual data | | | | | | | | 1 => Valid pre-fit | | | | | | | | residual data | | | | | |--------------+------+-----------------------------+------+---+------+-----| |rng_dl_prefit_| 153 |Downlink range pre-fit | UI-1 |N/A| 0-1 | 86 | |resid_vld_flag| |residual validity indicator. | | | | | | | | 0 => Invalid pre-fit | | | | | | | | residual data | | | | | | | | 1 => Valid pre-fit | | | | | | | | residual data | | | | | |--------------+------+-----------------------------+------+---+------+-----| |rng_resid_tol_| 154 |Range residual tolerance | RE-4 |RU/|-230 | 24 | | value| |value. Value used for setting| |.01| to | 63 | | | |Range residual tolerance | | RU| 230| | | | |flag. Provided by customer. | | | | | | | |Applies to both | | | | | | | |rng_prefit_resid and | | | | | | | |rng_dl_prefit_resid; not | | | | | | | |applicable if | | | | | | | |rng_prefit_resid_vld_flag and| | | | | | | |rng_dl_prefit_resid_vld_flag | | | | | | | |are 0. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |drvid_tol_ | 158 |DRVID tolerance value. Value| RE-4 |RU/|-230 | 24 | | value| |used for setting DRVID | |.01| to | 64 | | | |tolerance flag. Provided by | | RU| 230| | | | |customer. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |prn0_resid_ | 162 |Pr/N0 residual tolerance | RE-4 |dBH|-10.0 | 65 | | tol_value| |value. Value used for setting| | / | to | | | | |Pr/N0 residual tolerance | |0.1| 90.0| | | | |flag. Provided by customer. | |dBH| | | |--------------+------+-----------------------------+------+---+------+-----| |rng_sigma_tol_| 166 |Range sigma tolerance value. | RE-4 |RU/| 0 to | 43 | | value| |Value used for setting Range | |.01| 230 | 66 | | | |sigma tolerance flag. | | RU| | | | | |Provided by customer. Not | | | | | | | |applicable if rng_noise is | | | | | | | |-1.0. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |fom_tol_value | 170 |Figure of Merit tolerance | RE-4 |Pct|0.0 | 28 | | | |value. Value used in setting | | / | to | | | | |of Range Validity flag. | |0.1| 100.| | | | |Provided by customer. | |Pct| | | |--------------+------+-----------------------------+------+---+------+-----| |rng_resid_tol_| 174 |Range residual tolerance | UI-1 |N/A| 0-1 | 63 | | flag| |flag. Not applicable if | | | | | | | |rng_prefit_resid_vld_flag and| | | | | | | |rng_dl_prefit_resid_vld_flag | | | | | | | |are 0. | | | | | | | | 0 => Out of tolerance | | | | | | | | 1 => In tolerance | | | | | |--------------+------+-----------------------------+------+---+------+-----| |drvid_tol_flag| 175 |DRVID tolerance flag. | UI-1 |N/A| 0-1 | 64 | | | | 0 => Out of tolerance | | | | | | | | 1 => In tolerance | | | | | |--------------+------+-----------------------------+------+---+------+-----| |prn0_resid_ | 176 |Pr/N0 residual tolerance flag| UI-1 |N/A| 0-1 | 65 | | tol_flag| | 0 => Out of tolerance | | | | | | | | 1 => In tolerance | | | | | |--------------+------+-----------------------------+------+---+------+-----| |rng_sigma_tol_| 177 |Range sigma tolerance flag. | UI-1 |N/A| 0-1 | 66 | | flag| |Not applicable if rng_noise | | | | | | | |is set to -1.0. | | | | | | | | 0 => Out of tolerance | | | | | | | | 1 => In tolerance | | | | | |--------------+------+-----------------------------+------+---+------+-----| |rng_vld_flag | 178 |Range validity flag. | UI-1 |N/A| 0-1 | 67 | | | | 0 => Invalid | | | | | | | | 1 => Valid | | | | | |--------------+------+-----------------------------+------+---+------+-----| |rng_config_ | 179 |Range configuration change | UI-1 |N/A| 0-1 | 68 | | flag| |flag. | | | | | | | | 0 => Changed | | | | | | | | 1 => Unchanged | | | | | |--------------+------+-----------------------------+------+---+------+-----| |stn_cal_corr_ | 180 |Station calibration | UI-1 |N/A| 0-4 | | | flag| |correction flag. | | | | | | | |Indicates results of | | | | | | | |validation of the station | | | | | | | |calibration value. | | | | | | | | 0 => unable to correct | | | | | | | | 1 => validated, no change | | | | | | | | 2 => validated, changed | | | | | | | | uplink | | | | | | | | 3 => validated, changed | | | | | | | | downlink | | | | | | | | 4 => validated, changed both| | | | | | | | uplink and downlink | | | | | |--------------+------+-----------------------------+------+---+------+-----| |rng_chan_num | 181 |Ranging channel number. Only| UI-1 |N/A| 1-2 | | | | |provided by 26m antennas. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |reserve8 | 182 |Reserved. Eight bytes. | UI-8 |N/A| 0 | | |============================================================================| (1) Abbreviated values in the Format column are: A-8: ASCII string, 8 bytes A-12: ASCII string, 12 bytes I-4: Integer, 4 bytes UI-1: Unsigned integer, 1 byte UI-2: Unsigned integer, 2 bytes UI-4: Unsigned integer, 4 bytes UI-8: Unsigned integer, 8 bytes RE-4: IEEE single precision (4 bytes) RE-8: IEEE double precision (8 bytes) (2) The 'U' column contains values of 'units/precision'. Abbreviated values include: B: Bytes dBH: dB-Hz K: (degrees) kelvin ms: milliseconds N&D: See Item Name and Description column for details N/A: Not applicable ns: nanoseconds Pct: Percentage/percent ps: picoseconds s: seconds S6: seconds at precision 1 microsecond U: unitless (none) W: watts Y: years (3) The 'Range' column includes possible values. ds1* 0.01 to 86400.99 ds2* 0 to 2^16 - 1 ds3* 0 to 86400999 ds4* 0.00 to 86400.9999 ds5* -31,536,000.0 to 31,536,000.0 ds6* 0.000000 to 86400.999999 ds7* 4.0 to 504,536.0 ds8* -32.3e9 to -2.0e9 ds9* 0.00 to 86400.99 N num_obs 3.1.5.3.3 Angle CHDO (Data Type 8) The Angle CHDO is defined in Table 3-18. The Angle CHDO applies only to the 26m antennas. |===========================================================================| | Table 3-18. Angle CHDO (Data Type 8) Definitions | |===========================================================================| | Identifier | Byte | Item Name and Description |Format|U/P| Range|Notes| | |Offset| | (1) |(2)| (3) | | |==============+======+=============================+======+===+======+=====| |chdo_type | 0 |Type attribute of the angle | UI-2 |N/A| 10 | | | | |data CHDO. CHDO contains | | | | | | | |binary data. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |chdo_length | 2 |Length attribute of the angle| UI-2 | B | 34 | | | | |data CHDO value field. Number| | | | | | | |of bytes after this item. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |source_type | 4 |Source type. | UI-1 |N/A| 0,2 | | | | | 0 => unknown | | | | | | | | 2 => MPA (26m), or MTA | | | | | |--------------+------+-----------------------------+------+---+------+-----| |ang_type | 5 |Angles Type. | UI-1 |N/A| 0-1 | | | | | 0 => Unknown | | | | | | | | 1 => Azimuth/Elevation | | | | | | | | 2 => Hour angle/Declination | | | | | | | | 3 => X/Y (where +X is East) | | | | | | | | 4 => X/Y (where +X is South)| | | | | |--------------+------+-----------------------------+------+---+------+-----| |ang_vld_flag | 6 |Angles validity flag. | UI-1 |N/A| 0-1 | 57 | | | | 0 => Invalid | | | | | | | | 1 => Valid | | | | | |--------------+------+-----------------------------+------+---+------+-----| |ang_mode | 7 |Angle Mode. | UI-1 |N/A| 0-4 | | | | | 0 => Auto Track | | | | | | | | 1 => Manual Aided | | | | | | | | 2 => Computer | | | | | | | | 3 => Sidereal | | | | | | | | 4 => Brake | | | | | |--------------+------+-----------------------------+------+---+------+-----| |conscan_mode | 8 |Conscan Mode. | UI-1 |N/A| 0-2 | | | | | 0 => Conscan off | | | | | | | | 1 => Closed loop | | | | | | | | 2 => Open loop | | | | | |--------------+------+-----------------------------+------+---+------+-----| |reserve1 | 9 |Reserved. One byte. | UI-1 |N/A| 0 | | |--------------+------+-----------------------------+------+---+------+-----| |ang1 | 10 |Angle 1. Azimuth, hour angle,| RE-4 |Deg|-90.0 | | | | |or X. | |/.1| to | | | | | | |Deg| 90.0| | |--------------+------+-----------------------------+------+---+------+-----| |ang2 | 14 |Angle 2. Elevation, | RE-4 |Deg|-90.0 | | | | |declination, or Y. | |/.1| to | | | | | | |Deg| 90.0| | |--------------+------+-----------------------------+------+---+------+-----| |ang1_pseudo_ | 18 |Angle 1 pseudo-residual. | RE-4 |Deg|-90.0 | | | resid| |Actual minus predicted. | |/.1| to | | | | | | |Deg| 90.0| | |--------------+------+-----------------------------+------+---+------+-----| |ang2_pseudo_ | 22 |Angle 2 pseudo-residual. | RE-4 |Deg|-90.0 | | | resid| |Actual minus predicted. | |/.1| to | | | | | | |Deg| 90.0| | |--------------+------+-----------------------------+------+---+------+-----| |reserve4 | 26 |Reserved. Four bytes. | RE-4 |N/A| 0 | | |--------------+------+-----------------------------+------+---+------+-----| |reserve8 | 30 |Reserved. Eight bytes. | UI-8 |N/A| 0 | | |===========================================================================| (1) Abbreviated values in the Format column are: A-8: ASCII string, 8 bytes A-12: ASCII string, 12 bytes I-4: Integer, 4 bytes UI-1: Unsigned integer, 1 byte UI-2: Unsigned integer, 2 bytes UI-4: Unsigned integer, 4 bytes UI-8: Unsigned integer, 8 bytes RE-4: IEEE single precision (4 bytes) RE-8: IEEE double precision (8 bytes) (2) The 'U' column contains values of 'units/precision'. Abbreviated values include: B: Bytes dBH: dB-Hz K: (degrees) kelvin ms: milliseconds N&D: See Item Name and Description column for details N/A: Not applicable ns: nanoseconds Pct: Percentage/percent ps: picoseconds s: seconds S6: seconds at precision 1 microsecond U: unitless (none) W: watts Y: years (3) The 'Range' column includes possible values. ds1* 0.01 to 86400.99 ds2* 0 to 2^16 - 1 ds3* 0 to 86400999 ds4* 0.00 to 86400.9999 ds5* -31,536,000.0 to 31,536,000.0 ds6* 0.000000 to 86400.999999 ds7* 4.0 to 504,536.0 ds8* -32.3e9 to -2.0e9 ds9* 0.00 to 86400.99 N num_obs 3.1.5.3.4 DRVID CHDO (Data Type 11) The DRVID CHDO is generated for sequential and PN ranging (not tone ranging) from UPL-DTT antennas and is defined in Table 3-19. |===========================================================================| | Table 3-19. DRVID CHDO (Data Type 11) Definitions | |===========================================================================| | Identifier | Byte | Item Name and Description |Format|U/P| Range|Notes| | |Offset| | (1) |(2)| (3) | | |==============+======+=============================+======+===+======+=====| |chdo_type | 0 |Type attribute of the DRVID | UI-2 |N/A| 10 | | | | |data CHDO. CHDO contains | | | | | | | |binary data. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |chdo_length | 2 |Length attribute of the DRVID| UI-2 | B | 38 | | | | |data CHDO value field. Number| | | | | | | |of bytes after this item. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |drvid_type | 4 |DRVID type. | UI-1 |N/A| 0-2 | | | | | 0 => Unknown | | | | | | | | 1 => Sequential | | | | | | | | 2 => PN | | | | | |--------------+------+-----------------------------+------+---+------+-----| |drvid_pts | 5 |DRVID points. | UI-1 |N/A| 0-255| | |--------------+------+-----------------------------+------+---+------+-----| |drvid | 6 |DRVID measurement. | RE-8 |RU/|-230 | 24 | | | | | |.01| to | 30 | | | | | | RU| 230| 79 | |--------------+------+-----------------------------+------+---+------+-----| |prn0 | 14 |Pr/N0. | RE-4 |dBH|-10.0 | | | | | | |/.1| to | | | | | | |dBH| 90.0| | |--------------+------+-----------------------------+------+---+------+-----| |drvid_noise | 18 |DRVID noise. Invalid | RE-4 |RU/|-1.0, | 24 | | | |indicated by value of -1.0. | |.01| 0 to | 44 | | | | | | RU| 230| | |--------------+------+-----------------------------+------+---+------+-----| |drvid_tol_ | 22 |DRVID tolerance value. Value| RE-4 |RU/|-230 | 24 | | value| |used for setting DRVID | |.01| to | 64 | | | |tolerance flag. Provided by | | RU| 230| | | | |customer. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |prn0_resid_ | 26 |Pr/N0 residual tolerance | RE-4 |dBH|-10.0 | 65 | | tol_value| |value. Value used for setting| |/.1| to | | | | |Pr/N0 residual tolerance | |dBH| 90.0| | | | |flag. Provided by customer. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |reserve1 | 30 |Reserved. One byte. | UI-1 |N/A| 0 | | |--------------+------+-----------------------------+------+---+------+-----| |drvid_tol_flag| 31 |DRVID tolerance flag. | UI-1 |N/A| 0-1 | 64 | | | | 0 => Out of Tolerance | | | | | | | | 1 => In tolerance | | | | | |--------------+------+-----------------------------+------+---+------+-----| |prn0_resid_ | 32 |Pr/N0 residual tolerance flag| UI-1 |N/A| 0-1 | 65 | | tol_flag| | 0 => Out of tolerance | | | | | | | | 1 => In tolerance | | | | | |--------------+------+-----------------------------+------+---+------+-----| |drvid_noise_ | 33 |DRVID noise points. Number of| UI-1 |N/A| 0-200| | | pts| |points used in DRVID noise | | | | | | | |computation. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |reserve8 | 34 |Reserved. Eight bytes. | UI-8 |N/A| 0 | | |===========================================================================| (1) Abbreviated values in the Format column are: A-8: ASCII string, 8 bytes A-12: ASCII string, 12 bytes I-4: Integer, 4 bytes UI-1: Unsigned integer, 1 byte UI-2: Unsigned integer, 2 bytes UI-4: Unsigned integer, 4 bytes UI-8: Unsigned integer, 8 bytes RE-4: IEEE single precision (4 bytes) RE-8: IEEE double precision (8 bytes) (2) The 'U' column contains values of 'units/precision'. Abbreviated values include: B: Bytes dBH: dB-Hz K: (degrees) kelvin ms: milliseconds N&D: See Item Name and Description column for details N/A: Not applicable ns: nanoseconds Pct: Percentage/percent ps: picoseconds s: seconds S6: seconds at precision 1 microsecond U: unitless (none) W: watts Y: years (3) The 'Range' column includes possible values. ds1* 0.01 to 86400.99 ds2* 0 to 2^16 - 1 ds3* 0 to 86400999 ds4* 0.00 to 86400.9999 ds5* -31,536,000.0 to 31,536,000.0 ds6* 0.000000 to 86400.999999 ds7* 4.0 to 504,536.0 ds8* -32.3e9 to -2.0e9 ds9* 0.00 to 86400.99 N num_obs 3.1.5.3.5 PN Range CHDO (Data Type 14) The PN Range CHDO is defined in Table 3-20. |===========================================================================| | Table 3-19. PN Range CHDO (Data Type 14) Definitions | |===========================================================================| | Identifier | Byte | Item Name and Description |Format|U/P| Range|Notes| | |Offset| | (1) |(2)| (3) | | |==============+======+=============================+======+===+======+=====| |chdo_type | 0 |Type attribute of the PN | UI-2 |N/A| 10 | | | | |range data CHDO. CHDO | | | | | | | |contains binary data. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |chdo_length | 2 |Length attribute of the PN | UI-2 | B | 160 | | | | |range data CHDO value field. | | | | | | | |Number of bytes after this | | | | | | | |item. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |ul_stn_cal | 4 |Uplink station calibration | RE-8 |RU/|-1.0, | 24 | | | |value. Invalid indicated by | |.01| 0 to | 40 | | | |value of -1.0. | | RU| 1.8E5| | |--------------+------+-----------------------------+------+---+------+-----| |dl_stn_cal | 12 |Downlink station calibration | RE-8 |RU/|-1.0, | 24 | | | |value. Invalid indicated by | |.01| 0 to | 41 | | | |value of -1.0. | | RU| 1.8E5| | |--------------+------+-----------------------------+------+---+------+-----| |meas_rng | 20 |Measured range value. Does | RE-8 |RU/|-1.0, | 24 | | | |not include compensation for | |.01| 0 to | 45 | | | |station calibration and other| | RU| 230| 46 | | | |adjustments. Invalid is | | | | | | | |indicated by value of -1.0. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |rng_obs_dl | 28 |Downlink range observable. | RE-8 |RU/|-1.0, | 24 | | | |Includes measurement | |.01| 0 to | 76 | | | |adjustments (station | | RU| 230| | | | |calibration, spacecraft | | | | | | | |delay, and Z-height). Invalid| | | | | | | |is indicated by value of -1.0| | | | | |--------------+------+-----------------------------+------+---+------+-----| |figure_merit | 36 |Figure of Merit. Rating of | RE-4 |Pct| 0.0 | 28 | | | |the measured range value. | |/.1| to | | | | | | |Pct| 100. | | |--------------+------+-----------------------------+------+---+------+-----| |drvid | 40 |DRVID. DRVID measured using | RE-8 |RU/|-230 | 30 | | | |doppler data from carrier | |.01| to | 24 | | | | | | RU| 230| 79 | |--------------+------+-----------------------------+------+---+------+-----| |rtlt | 48 |Round trip light time. | RE-4 | s/| 0 to | | | | |Predicted value. | |.1s| 86400| | |--------------+------+-----------------------------+------+---+------+-----| |prn0 | 52 |Pr/N0. Ranging power to noise| RE-4 |dBH|-10.0 | | | | |spectral density ratio. | |/.1| to | | | | | | |dBH| 90.0| | |--------------+------+-----------------------------+------+---+------+-----| |transmit_pwr | 56 |Transmitter power. | RE-4 | W/| 0 to | | | | | | |.1W| 500K| | |--------------+------+-----------------------------+------+---+------+-----| |invert | 60 |Invert. Inverted implies that| UI-1 |N/A| 0-1 | 52 | | | |the polarity of the | | | | | | | |correlation reference is the | | | | | | | |invert of what was | | | | | | | |transmitted. | | | | | | | | 0 => not inverted | | | | | | | | 1 => inverted | | | | | |--------------+------+-----------------------------+------+---+------+-----| |correl_type | 61 |Correlation type. | UI-1 |N/A| 0-1 | | | | | 0 => squarewave | | | | | | | | 1 => sinewave | | | | | |--------------+------+-----------------------------+------+---+------+-----| |clk_divider | 62 |Clock divider. Value that | UI-1 |N/A| 1-64 | 20 | | | |ranging reference frequency | | | | | | | |is divided by to get chip | | | | | | | |rate. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |len_seq1 | 63 |Sequence #1 length. A value | UI-1 |N&D| 0-8 | 21 | | | |of 0 implies no sequence. | | | | | | | |Chips at 1 chip precision. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |len_seq2 | 64 |Sequence #2 length. A value | UI-1 |N&D| 0-16 | 21 | | | |of 0 implies no sequence. | | | | | | | |Chips at 1 chip precision. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |len_seq3 | 65 |Sequence #3 length. A value | UI-1 |N&D| 0-16 | 21 | | | |of 0 implies no sequence. | | | | | | | |Chips at 1 chip precision. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |len_seq4 | 66 |Sequence #4 length. A value | UI-1 |N&D| 0-32 | 21 | | | |of 0 implies no sequence. | | | | | | | |Chips at 1 chip precision. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |len_seq5 | 67 |Sequence #5 length. A value | UI-1 |N&D| 0-32 | 21 | | | |of 0 implies no sequence. | | | | | | | |Chips at 1 chip precision. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |len_seq6 | 68 |Sequence #6 length. A value | UI-1 |N&D| 0-32 | 21 | | | |of 0 implies no sequence. | | | | | | | |Chips at 1 chip precision. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |def_seq1 | 69 |Sequence #1 component value. | UI-1 |N/A| 0 to | 21 | | | |Definition of the sequence. | | | 2^8-1| | |--------------+------+-----------------------------+------+---+------+-----| |def_seq2 | 70 |Sequence #2 component value. | UI-2 |N/A| 0 to | 21 | | | |Definition of the sequence. | | |2^16-1| | |--------------+------+-----------------------------+------+---+------+-----| |def_seq3 | 72 |Sequence #3 component value. | UI-2 |N/A| 0 to | 21 | | | |Definition of the sequence. | | |2^16-1| | |--------------+------+-----------------------------+------+---+------+-----| |def_seq4 | 74 |Sequence #4 component value. | UI-4 |N/A| 0 to | 21 | | | |Definition of the sequence. | | |2^32-1| | |--------------+------+-----------------------------+------+---+------+-----| |def_seq5 | 78 |Sequence #5 component value. | UI-4 |N/A| 0 to | 21 | | | |Definition of the sequence. | | |2^32-1| | |--------------+------+-----------------------------+------+---+------+-----| |def_seq6 | 82 |Sequence #6 component value. | UI-4 |N/A| 0 to | 21 | | | |Definition of the sequence. | | |2^32-1| | |--------------+------+-----------------------------+------+---+------+-----| |pn_code_length| 86 |PN Code Length. PN chips. | UI-4 |N&D| 2 to | 22 | | | | | | | 11M| | |--------------+------+-----------------------------+------+---+------+-----| |transmit_ | 90 |Transmit In-phase time. | RE-4 | s |-86400| 59 | | inphs_time| |Offset from time tag of time | | / | to | | | | |of zero phase on uplink range| | 1 | 86400| | | | |signal generation. | | s | | | |--------------+------+-----------------------------+------+---+------+-----| |rcv_inphs_time| 94 |Receive In-phase time. Offset| RE-4 | s |-86400| 59 | | | |from time tag of time of zero| | / | to | | | | |phase on downlink range | | 1 | 86400| | | | |signal correlation. | | s | | | |--------------+------+-----------------------------+------+---+------+-----| |carr_sup_rng_ | 98 |Carrier suppression by | RE-4 |dB/|-15.0 | | | modul| |ranging modulation. | |0.1| to | | | | |Reduction in carrier power | | dB| 0.0 | | | | |due to ranging modulation. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |exc_scalar_num| 102 |Exciter Scalar Numerator. | UI-1 |N/A| 1 to | 17 | | | |Numerator of multiplier that | | |2^32-1| | | | |is used to generate ranging | | | | | | | |reference signal from uplink | | | | | | | |sky frequency. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |exc_scalar_den| 106 |Exciter Scalar Denominator. | UI-4 |N/A| 1 to | 17 | | | |Denominator of multiplier | | |2^32-1| | | | |that is used to generate | | | | | | | |ranging reference signal from| | | | | | | |uplink sky frequency. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |rng_cycle_time| 110 |Range cycle time. Time, in | RE-8 |RU/| 0 to | 23 | | | |Range Units, of one complete | |.01| 1.0E9| 24 | | | |cycle of the ranging signal. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |rng_modulo | 118 |Range modulo value. Range | UI-4 |RU/| 0 to | 45 | | | |measurement modulo | | 1 | 230| | | | |(ambiguity). | | RU| | | |--------------+------+-----------------------------+------+---+------+-----| |rng_noise | 122 |Range noise. Invalid | RE-4 |RU/|-1.0, | 43 | | | |indicated by value of -1.0. | |.01| 0 to | | | | | | | RU| 230| | |--------------+------+-----------------------------+------+---+------+-----| |rng_dl_prefit_| 126 |Downlink range pre-fit | RE-8 |RU/|-230 | 24 | | resid| |residual. Observed range | |.01| to | 29 | | | |minus predicted range. | | RU| 230| 86 | |--------------+------+-----------------------------+------+---+------+-----| |rng_dl_prefit_| 134 |Downlink range pre-fit | UI-1 |N/A| 0-1 | 86 | |resid_vld_flag| |residual validity indicator. | | | | | | | | 0 => Invalid pre-fit | | | | | | | | residual data | | | | | | | | 1 => Valid pre-fit | | | | | | | | residual data | | | | | |--------------+------+-----------------------------+------+---+------+-----| |clock_waveform| 135 |Uplink clock waveform type. | UI-1 |N/A| 0-1 | | | | | 0 => squarewave | | | | | | | | 1 => sinewave | | | | | |--------------+------+-----------------------------+------+---+------+-----| |rng_resid_tol_| 136 |Range residual tolerance | RE-4 |RU/|-230 | 24 | | value| |value. Value used for setting| |.01| to | 63 | | | |Range residual tolerance | | RU| 230| | | | |flag. Provided by customer. | | | | | | | |Applies to | | | | | | | |rng_dl_prefit_resid; not | | | | | | | |applicable if | | | | | | | |rng_dl_prefit_resid_vld_flag | | | | | | | |is 0. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |drvid_tol_ | 140 |DRVID tolerance value. Value| RE-4 |RU/|-230 | 24 | | value| |used for setting DRVID | |.01| to | 64 | | | |tolerance flag. Provided by | | RU| 230| | | | |customer. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |prn0_resid_ | 144 |Pr/N0 residual tolerance | RE-4 |dBH|-10.0 | 65 | | tol_value| |value. Value used for setting| |0.1| to | | | | |Pr/N0 residual tolerance | |dBH| 90.0| | | | |flag. Provided by customer. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |rng_sigma_tol_| 148 |Range sigma tolerance value. | RE-4 |RU/| 0 to | 43 | | value| |Value used for setting Range | |.01| 230| 66 | | | |sigma tolerance flag. | | RU| | | | | |Provided by customer. Not | | | | | | | |applicable if rng_noise is | | | | | | | |set to -1.0. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |fom_tol_value | 152 |Figure of Merit tolerance | RE-4 |Pct| 0. | 28 | | | |value. Value used in setting | | / | to | | | | |of Range Validity flag. | |0.1| 100. | | | | |Provided by customer. | |Pct| | | |--------------+------+-----------------------------+------+---+------+-----| |rng_resid_tol_| 156 |Range residual tolerance | UI-1 |N/A| 0-1 | 63 | | flag| |flag. Not applicable if | | | | | | | |rng_dl_prefit_resid_vld_flag | | | | | | | |is 0. | | | | | | | | 0 => Out of tolerance | | | | | | | | 1 => In tolerance | | | | | |--------------+------+-----------------------------+------+---+------+-----| |drvid_tol_flag| 157 |DRVID tolerance flag. | UI-1 |N/A| 0-1 | 64 | | | | 0 => Out of tolerance | | | | | | | | 1 => In tolerance | | | | | |--------------+------+-----------------------------+------+---+------+-----| |prn0_resid_ | 158 |Pr/N0 residual tolerance flag| UI-1 |N/A| 0-1 | 65 | | tol_flag| | 0 => Out of tolerance | | | | | | | | 1 => In tolerance | | | | | |--------------+------+-----------------------------+------+---+------+-----| |rng_sigma_tol_| 159 |Range sigma tolerance flag. | UI-1 |N/A| 0-1 | 66 | | flag| |Not applicable if rng_noise | | | | | | | |is set to -1.0. | | | | | | | | 0 => Out of tolerance | | | | | | | | 1 => In tolerance | | | | | |--------------+------+-----------------------------+------+---+------+-----| |rng_vld_flag | 160 |Range validity flag. | UI-1 |N/A| 0-1 | 67 | | | | 0 => Invalid | | | | | | | | 1 => Valid | | | | | |--------------+------+-----------------------------+------+---+------+-----| |rng_config_ | 161 |Range configuration change | UI-1 |N/A| 0-1 | 68 | | flag| |flag. | | | | | | | | 0 => Changed | | | | | | | | 1 => Unchanged | | | | | |--------------+------+-----------------------------+------+---+------+-----| |stn_cal_corr_ | 162 |Station calibration | UI-1 |N/A| 0-4 | | | flag| |correction flag. Indicates | | | | | | | |results of validation of the | | | | | | | | station calibration value. | | | | | | | | 0 => unable to correct | | | | | | | | 1 => validated, no change | | | | | | | | 2 => validated, changed | | | | | | | | uplink | | | | | | | | 3 => validated, changed | | | | | | | | downlink | | | | | | | | 4 => validated, changed | | | | | | | | both uplink and downlink| | | | | |--------------+------+-----------------------------+------+---+------+-----| |reserve1b | 163 |Reserved. One byte. | UI-1 |N/A| 0 | | |===========================================================================| (1) Abbreviated values in the Format column are: A-8: ASCII string, 8 bytes A-12: ASCII string, 12 bytes I-4: Integer, 4 bytes UI-1: Unsigned integer, 1 byte UI-2: Unsigned integer, 2 bytes UI-4: Unsigned integer, 4 bytes UI-8: Unsigned integer, 8 bytes RE-4: IEEE single precision (4 bytes) RE-8: IEEE double precision (8 bytes) (2) The 'U' column contains values of 'units/precision'. Abbreviated values include: B: Bytes dBH: dB-Hz K: (degrees) kelvin ms: milliseconds N&D: See Item Name and Description column for details N/A: Not applicable ns: nanoseconds Pct: Percentage/percent ps: picoseconds s: seconds S6: seconds at precision 1 microsecond U: unitless (none) W: watts Y: years (3) The 'Range' column includes possible values. ds1* 0.01 to 86400.99 ds2* 0 to 2^16 - 1 ds3* 0 to 86400999 ds4* 0.00 to 86400.9999 ds5* -31,536,000.0 to 31,536,000.0 ds6* 0.000000 to 86400.999999 ds7* 4.0 to 504,536.0 ds8* -32.3e9 to -2.0e9 ds9* 0.00 to 86400.99 N num_obs 3.1.5.3.6 Tone Range CHDO (Data Type 15) The Tone Range CHDO is defined in Table 3-21. The Tone Range CHDO applies only to the non-UPL-DTT antennas. |===========================================================================| | Table 3-21. Tone Range CHDO (Data Type 15) Definitions | |===========================================================================| | Identifier | Byte | Item Name and Description |Format|U/P| Range|Notes| | |Offset| | (1) |(2)| (3) | | |==============+======+=============================+======+===+======+=====| |chdo_type | 0 |Type attribute of the tone | UI-2 |N/A| 10 | | | | |range data CHDO. CHDO | | | | | | | |contains binary data. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |chdo_length | 2 |Length attribute of the tone | UI-2 | B | 50 | | | | |range data CHDO value field. | | | | | | | |Number of bytes after this | | | | | | | |item. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |source_type | 4 |Source type. | UI-1 |N/A| 0,2 | | | | | 0 => Unknown | | | | | | | | 2 => MPA (26m), MTA | | | | | |--------------+------+-----------------------------+------+---+------+-----| |mjr_tone_freq | 5 |Major tone frequency. | UI-1 |N/A| 0-3 | | | | | 0 => Not used | | | | | | | | 1 => 20 kHz | | | | | | | | 2 => 100 kHz | | | | | | | | 3 => 500 kHz | | | | | |--------------+------+-----------------------------+------+---+------+-----| |mnr_tone_freq | 6 |Minor tone frequency. | UI-1 |N/A| 0-1 | | | | | 0 => not used | | | | | | | | 1 => 10 Hz | | | | | |--------------+------+-----------------------------+------+---+------+-----| |reserve1 | 7 |Reserved. One byte. | UI-1 |N/A| 0 | | |--------------+------+-----------------------------+------+---+------+-----| |meas_rng | 8 |Measured range value. Range | RE-8 |N&D| 0 to | 72 | | | |as reported by the station; | | |2^32-1| | | | |includes corrections for | | | | | | | |Z-height and station | | | | | | | |calibration. Given in nsec, | | | | | | | |modulo 2^32 at a precision of| | | | | | | |0.1 nsec. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |rng_obs | 16 |Range observable. Includes | RE-8 |N&D| 0 to | 72 | | | |measurement adjustments | | |2^32-1| | | | |(station calibration, | | | | | | | |spacecraft delay, and | | | | | | | |Z-height). Given in nsec, | | | | | | | |modulo 2^32 at a precision of| | | | | | | |0.1 nsec. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |stn_cal | 24 |Station calibration. Not | RE-8 |ns/| 0 to | 72 | | | |currently reported by | |0.1| 1.8E5| | | | |station; value set to 0.0. | | ns| | | |--------------+------+-----------------------------+------+---+------+-----| |carr_pwr | 32 |Carrier power. | RE-4 |dBm|-185.0| | | | | | |/.1| to | | | | | | |dBm| -85.0| | |--------------+------+-----------------------------+------+---+------+-----| |rng_prefit_ | 36 |Tone Range pre-fit residual. | RE-8 |ns/|-227 | 86 | | resid| |Observed range minus | |/.1| to | | | | |predicted range. | | ns| 227| | |--------------+------+-----------------------------+------+---+------+-----| |rng_prefit_ | 44 |Tone range pre-fit residual | UI-1 |N/A| 0-1 | 86 | |resid_vld_flag| |validity indicator. | | | | | | | | 0 => Invalid pre-fit | | | | | | | | residual data | | | | | | | | 1 => Valid pre-fit | | | | | | | | residual data | | | | | |--------------+------+-----------------------------+------+---+------+-----| |reserve1a | 45 |Reserved. One byte. | UI-1 |N/A| 0 | | |--------------+------+-----------------------------+------+---+------+-----| |reserve8 | 46 |Reserved. Eight bytes. | UI-8 |N/A| 0 | | |===========================================================================| (1) Abbreviated values in the Format column are: A-8: ASCII string, 8 bytes A-12: ASCII string, 12 bytes I-4: Integer, 4 bytes UI-1: Unsigned integer, 1 byte UI-2: Unsigned integer, 2 bytes UI-4: Unsigned integer, 4 bytes UI-8: Unsigned integer, 8 bytes RE-4: IEEE single precision (4 bytes) RE-8: IEEE double precision (8 bytes) (2) The 'U' column contains values of 'units/precision'. Abbreviated values include: B: Bytes dBH: dB-Hz K: (degrees) kelvin ms: milliseconds N&D: See Item Name and Description column for details N/A: Not applicable ns: nanoseconds Pct: Percentage/percent ps: picoseconds s: seconds S6: seconds at precision 1 microsecond U: unitless (none) W: watts Y: years (3) The 'Range' column includes possible values. ds1* 0.01 to 86400.99 ds2* 0 to 2^16 - 1 ds3* 0 to 86400999 ds4* 0.00 to 86400.9999 ds5* -31,536,000.0 to 31,536,000.0 ds6* 0.000000 to 86400.999999 ds7* 4.0 to 504,536.0 ds8* -32.3e9 to -2.0e9 ds9* 0.00 to 86400.99 N num_obs 3.1.5.3.7 Carrier Frequency Observable CHDO (Data Type 16) The Carrier Frequency Observable CHDO is defined in Table 3-22. |===========================================================================| | Table 3-22. Carrier Frequency Observables CHDO (Data Type 16) Definitions | |===========================================================================| | Identifier | Byte | Item Name and Description |Format|U/P| Range|Notes| | |Offset| | (1) |(2)| (3) | | |==============+======+=============================+======+===+======+=====| |chdo_type | 0 |Type attribute of the Carrier| UI-2 |N/A| 10 | | | | |Frequency Observables data | | | | | | | |CHDO. CHDO contains binary | | | | | | | |data. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |chdo_length | 2 |Length attribute of the | UI-2 | B | 38 + | | | | |Carrier Frequency Observables| | | 18*N| | | | |data CHDO value field. Number| | | | | | | |of bytes after this item. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |ref_rcv_type | 4 |Reference receiver type. | UI-1 |N/A| 0-2 | | | | | 0 => Unknown | | | | | | | | 1 => DTT | | | | | | | | 2 => MFR | | | | | |--------------+------+-----------------------------+------+---+------+-----| |reserve1 | 5 |Reserved. One byte. | UI-1 |N/A| 0 | | |--------------+------+-----------------------------+------+---+------+-----| |carr_prefit_ | 6 |Received carrier pre-fit | RE-4 |Hz/|-1.0E6| 62 | | resid_tol_ | |residual tolerance value. | | 1 | to | | | value| |Value used for setting | |mHz| 1.0E6| | | | |received carrier pre-fit | | | | | | | |residual tolerance flag. | | | | | | | |Provided by customer. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |reserve2 | 10 |Reserved. Two bytes. | UI-2 |N/A| 0 | | |--------------+------+-----------------------------+------+---+------+-----| |dop_noise | 12 |Doppler noise. Invalid | RE-4 |Hz/|-1.0, | 26 | | | |indicated by value of -1.0. | | 1 | 0 to | | | | | | |mHz| 1000| | |--------------+------+-----------------------------+------+---+------+-----| |delta_ff | 16 |Delta-f/f. | RE-8 |N/A|-1.0 | 32 | | | | | | |to 1.0| | |--------------+------+-----------------------------+------+---+------+-----| |rcv_sig_lvl | 24 |Received signal level. | RE-4 |dBm|-300.,| 58 | | | |Carrier power or data power | | / |-190. | | | | |(if suppressed carrier | |0.1| to | | | | |tracking). (-300.0 if not | |dBm| -45.0| | | | |valid.) | | | | | |--------------+------+-----------------------------+------+---+------+-----| |num_obs | 28 |Number of Observable | UI-2 |N/A| 1 to | 33 | | | |measurements. | | | 100 | | |--------------+------+-----------------------------+------+---+------+-----| |obs_cnt_time | 30 |Observable count time. | RE-4 | s/| 0.1 | 33 | | | |Integration time of the | |0.1| to | | | | |observables. | | s | 3600.| | |--------------+------+-----------------------------+------+---+------+-----| |rcv_carr_obs |34, |Received Carrier observable. | RE-8 |N&D| ds8* | 35 | | | 52, .|This measurement is part of a| | | | | | | .., |set of measurements that are | | | | | | | 16 + |repeated N=num_obs times. Sky| | | | | | | 18*N|level Hz at 1 mHz precision. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |carr_prefit_ |42, |Received carrier pre-fit | RE-4 | Hz|-1.0E6| 86 | | resid| 60, |residual. Observed minus | | / | to | | | | ...,|predicted. | | 1 | 1.0E6| | | | 24 + | | |mHz| | | | | 18*N| | | | | | |--------------+------+-----------------------------+------+---+------+-----| |carr_prefit_ |46, |Received carrier pre-fit | UI-1 |N/A| 0-1 | 86 | |resid_vld_flag| 64, |residual validity indicator. | | | | | | | ...,| 0 => Invalid pre-fit | | | | | | | 28 + | residual data | | | | | | | 18*N| 1 => Valid pre-fit | | | | | | | | residual data | | | | | |--------------+------+-----------------------------+------+---+------+-----| |carr_prefit_ |47, |Received carrier pre-fit | UI-1 |N/A| 0-2 | 62 | |resid_tol_flag| 65, |residual tolerance flag. | | | | 86 | | | ...,| 0 => Out of tolerance | | | | | | | 29 +| 1 => In tolerance | | | | | | | 18*N| 2 => Not applicable | | | | | |--------------+------+-----------------------------+------+---+------+-----| |reserve4 |48, |Reserved. Four bytes. | UI-4 |N/A| 0 | | | | 66, | | | | | | | | ...,| | | | | | | | 30 +| | | | | | | | 18*N| | | | | | |--------------+------+-----------------------------+------+---+------+-----| |reserve8 |34 + |Reserved. Eight bytes. | UI-8 |N/A| 0 | | | | 18*N| | | | | | |===========================================================================| (1) Abbreviated values in the Format column are: A-8: ASCII string, 8 bytes A-12: ASCII string, 12 bytes I-4: Integer, 4 bytes UI-1: Unsigned integer, 1 byte UI-2: Unsigned integer, 2 bytes UI-4: Unsigned integer, 4 bytes UI-8: Unsigned integer, 8 bytes RE-4: IEEE single precision (4 bytes) RE-8: IEEE double precision (8 bytes) (2) The 'U' column contains values of 'units/precision'. Abbreviated values include: B: Bytes dBH: dB-Hz K: (degrees) kelvin ms: milliseconds N&D: See Item Name and Description column for details N/A: Not applicable ns: nanoseconds Pct: Percentage/percent ps: picoseconds s: seconds S6: seconds at precision 1 microsecond U: unitless (none) W: watts Y: years (3) The 'Range' column includes possible values. ds1* 0.01 to 86400.99 ds2* 0 to 2^16 - 1 ds3* 0 to 86400999 ds4* 0.00 to 86400.9999 ds5* -31,536,000.0 to 31,536,000.0 ds6* 0.000000 to 86400.999999 ds7* 4.0 to 504,536.0 ds8* -32.3e9 to -2.0e9 ds9* 0.00 to 86400.99 N num_obs 3.1.5.3.8 Total Count Phase Observable CHDO (Data Type 17) The Total Count Phase Observable CHDO is defined in Table 3-23. |===========================================================================| | Table 3-23. Total Count Phase Observable CHDO (Data Type 17) Definitions | |===========================================================================| | Identifier | Byte | Item Name and Description |Format|U/P| Range|Notes| | |Offset| | (1) |(2)| (3) | | |==============+======+=============================+======+===+======+=====| |chdo_type | 0 |Type attribute of the Total | UI-2 |N/A| 10 | | | | |Count Phase Observables data | | | | | | | |CHDO. CHDO contains binary | | | | | | | |data. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |chdo_length | 2 |Length attribute of the Total| UI-2 | B |50 + | | | | |Count Phase Observables data | | | 22*N| | | | |CHDO value field. Number of | | | | | | | |bytes after this item. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |ref_rcv_type | 4 |Reference receiver type. | UI-1 |N/A| 0-2 | | | | | 0 => Unknown | | | | | | | | 1 => DTT | | | | | | | | 2 => MFR | | | | | |--------------+------+-----------------------------+------+---+------+-----| |reserve1 | 5 |Reserved. One byte. | UI-1 |N/A| 0 | | |--------------+------+-----------------------------+------+---+------+-----| |total_cnt_phs_| 6 |Total Count Phase pre-fit | RE-4 | Hz|-1.0E6| 62 | | prefit_resid_| |residual tolerance value. | | / | to | | | tol_value| |Value used for setting total | |mHz| 1.0E6| | | | |count phase pre-fit residual | | | | | | | |tolerance flag. Provided by | | | | | | | |customer. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |reserve2 | 10 |Reserved. Two bytes. | UI-2 |N/A| 0 | | |--------------+------+-----------------------------+------+---+------+-----| |dop_noise | 12 |Doppler noise. Invalid | RE-4 |Hz/|-1.0, | 26 | | | |indicated by value of -1.0. | | 1 | 0 to | | | | | | |mHz| 1000| | |--------------+------+-----------------------------+------+---+------+-----| |delta_ff | 16 |Delta-f/f. | RE-8 |N/A| -1.0 | 32 | | | | | | | to | | | | | | | | 1.0| | |--------------+------+-----------------------------+------+---+------+-----| |rcv_sig_lvl | 24 |Received signal level. | RE-4 |dBm|-300.,| 58 | | | |Carrier power or data power | | / |-190. | | | | |(if suppressed carrier | |0.1| to | | | | |tracking). (-300.0 if not | |dBm| -45.| | | | |valid.) | | | | | |--------------+------+-----------------------------+------+---+------+-----| |num_obs | 28 |Number of Observable | UI-2 |N/A| 1 to | 33 | | | |measurements. | | | 100| | |--------------+------+-----------------------------+------+---+------+-----| |obs_cnt_time | 30 |Observable count time. | RE-4 | s/|0.1 | 33 | | | |Integration time of the | |0.1| to | | | | |observables. | | s | 3600.| | |--------------+------+-----------------------------+------+---+------+-----| |total_cnt_phs_| 34 |Total Count Phase observable | UI-2 |N/A| 1900-| 36 | | st_year| |start time year. | | | 3000| | |--------------+------+-----------------------------+------+---+------+-----| |total_cnt_phs_| 36 |Total Count Phase observable | UI-2 |N/A| 1-366| 36 | | st_doy| |start time day of year. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |total_cnt_phs_| 38 |Total Count Phase observable | RE-8 | s/| ds9* | 1 | | st_sec| |start time seconds. | |.01| | 36 | | | | | | s | | | |--------------+------+-----------------------------+------+---+------+-----| |total_cnt_phs_|46, |Negative of Total Count Phase| UI-4 |N&D| 0 to | 8 | | obs_hi| 68, |observable - High part phase | | |2^32-1| 36 | | | ...,|data whole cycles. This | | | | | | | 24 + |measurement is part of a set | | | | | | | 22*N|of measurements that are | | | | | | | |repeated N=num_obs times. | | | | | | | |Total integer phase cycles | | | | | | | |divided by 2^32. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |total_cnt_phs_|50, |Negative of Total Count Phase| UI-4 |N&D| 0 to | 8 | | obs_lo| 72, |observable - Low part phase | | |2^32-1| 36 | | | ...,|data whole cycles. This | | | | | | | 28 + |measurement is part of a set | | | | | | | 22*N|of measurements that are | | | | | | | |repeated N=num_obs times. | | | | | | | |Total integer phase cycles | | | | | | | |modulo 2^32. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |total_cnt_phs_|54, |Negative of Total Count Phase| UI-4 |N&D| 0 to | 8 | | obs_frac| 76, |observable - Fractional part | | |2^32-1| 36 | | | ...,|phase data cycles. This | | | | | | | 32 + |measurement is part of a set | | | | | | | 22*N|of measurements that are | | | | | | | |repeated N=num_obs times. | | | | | | | |Fractional phase cycles | | | | | | | |multiplied by 2^32. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |total_cnt_phs_|58, |Total Count Phase pre-fit | RE-4 | Hz|-1.0E6| 86 | | prefit_resid| 80, |residual. Observed minus | | / | to | | | | ...,|predicted. | |mHz| 1.0E6| | | | 36 + | | | | | | | | 22*N| | | | | | |--------------+------+-----------------------------+------+---+------+-----| |total_cnt_phs_|62, |Total Count Phase pre-fit | UI-1 |N/A| 0-1 | 86 | | prefit_resid_| 84, |residual validity indicator. | | | | | | vld_flag| ...,| 0 => Invalid pre-fit | | | | | | | 40 + | residual data | | | | | | | 22*N| 1 => Valid pre-fit | | | | | | | | residual data | | | | | |--------------+------+-----------------------------+------+---+------+-----| |total_cnt_phs_|63, |Total Count Phase pre-fit | UI-1 |N/A| 0-2 | 62 | | prefit_resid_| 85, |residual tolerance flag. | | | | 86 | | tol_flag| ...,| 0 => Out of tolerance | | | | | | | 41 + | 1 => In tolerance | | | | | | | 22*N| 2 => Not applicable | | | | | |--------------+------+-----------------------------+------+---+------+-----| |reserve4 |64, |Reserved. Four bytes. | UI-4 |N/A| 0 | | | | 86, | | | | | | | | ...,| | | | | | | | 64 + | | | | | | | | 22*N| | | | | | |--------------+------+-----------------------------+------+---+------+-----| |reserve8 |46 + |Reserved. Eight bytes. | UI-8 |N/A| 0 | | | | 22*N| | | | | | |===========================================================================| (1) Abbreviated values in the Format column are: A-8: ASCII string, 8 bytes A-12: ASCII string, 12 bytes I-4: Integer, 4 bytes UI-1: Unsigned integer, 1 byte UI-2: Unsigned integer, 2 bytes UI-4: Unsigned integer, 4 bytes UI-8: Unsigned integer, 8 bytes RE-4: IEEE single precision (4 bytes) RE-8: IEEE double precision (8 bytes) (2) The 'U' column contains values of 'units/precision'. Abbreviated values include: B: Bytes dBH: dB-Hz K: (degrees) kelvin ms: milliseconds N&D: See Item Name and Description column for details N/A: Not applicable ns: nanoseconds Pct: Percentage/percent ps: picoseconds s: seconds S6: seconds at precision 1 microsecond U: unitless (none) W: watts Y: years (3) The 'Range' column includes possible values. ds1* 0.01 to 86400.99 ds2* 0 to 2^16 - 1 ds3* 0 to 86400999 ds4* 0.00 to 86400.9999 ds5* -31,536,000.0 to 31,536,000.0 ds6* 0.000000 to 86400.999999 ds7* 4.0 to 504,536.0 ds8* -32.3e9 to -2.0e9 ds9* 0.00 to 86400.99 N num_obs 3.1.5.4 Interferometric Data CHDOs There is one interferometric data CHDO: VLBI (data type 10). Its format and contents are specified in section 3.1.5.4.1. 3.1.5.4.1 VLBI CHDO (Data Type 10) The VLBI CHDO is defined in Table 3-24. |===========================================================================| | Table 3-24. VLBI CHDO (Data Type 10) Definitions | |===========================================================================| | Identifier | Byte | Item Name and Description |Format|U/P| Range|Notes| | |Offset| | (1) |(2)| (3) | | |==============+======+=============================+======+===+======+=====| |chdo_type | 0 |Type attribute of the VLBI | UI-2 |N/A| 10 | | | | |data CHDO. CHDO contains | | | | | | | |binary data. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |chdo_length | 2 |Length attribute of the VLBI | UI-2 | B | 96 | | | | |data CHDO value field. Number| | | | | | | |of bytes after this item. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |clk_off_epoch_| 4 |Clock offset epoch year. | UI-2 | Y | 1958-| 78 | | year| | | | | 3000| | |--------------+------+-----------------------------+------+---+------+-----| |clk_off_epoch_| 6 |Clock offset epoch DOY. | UI-2 |Day| 1-366| 78 | | doy| | | | | | | |--------------+------+-----------------------------+------+---+------+-----| |clk_off_epoch_| 8 |Clock offset epoch seconds. | RE-8 | s/| ds4* | 1 | | sec| | | |0.1| | 78 | | | | | | ms| | | |--------------+------+-----------------------------+------+---+------+-----| |clk_off_1 | 16 |Clock offset at first | I-4 |ns/|-2^31 | | | | |receiving antenna for scan. | | 1 | to | | | | |(UTC-station time) | | ns|2^31-1| | |--------------+------+-----------------------------+------+---+------+-----| |clk_off_2 | 20 |Clock offset at second | I-4 |ns/|-2^31 | | | | |receiving antenna for scan. | | 1 | to | | | | |(UTC-station time) | | ns|2^31-1| | |--------------+------+-----------------------------+------+---+------+-----| |phs_cal_flag | 24 |Phase calibration flag. | UI-1 |N/A| 0-5 | | | | | 0 => unknown | | | | | | | | 1 => no calibration | | | | | | | | 2 => default calibration | | | | | | | | 3 => quasar calibration only| | | | | | | | 4 => spacecraft calibration | | | | | | | | only | | | | | | | | 5 => spacecraft and quasar | | | | | | | | calibration | | | | | |--------------+------+-----------------------------+------+---+------+-----| |chan_sampl_ | 25 |Channel sampling flag. | UI-1 |N/A| 1-3 | | | flag| | 1 => multiplexed | | | | | | | | 2 => dual-frequency combined| | | | | | | | 3 => 4 parallel channels | | | | | |--------------+------+-----------------------------+------+---+------+-----| |quasar_id | 26 |Quasar ID. Name of quasar | A-12 |N/A| ASCII| | | | |used. | | |string| | |--------------+------+-----------------------------+------+---+------+-----| |quasar_id_num | 38 |Quasar ID numeric. Number | UI-2 |N/A|0-1024| | | | |assigned to the quasar used. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |data_qual_flag| 40 |Data quality flag. | UI-1 |N/A| 0-1 | | | | | 0 => good | | | | | | | | 1 => poor | | | | | |--------------+------+-----------------------------+------+---+------+-----| |chan_num | 41 |Channel number. Valid only if| UI-1 |N/A| 0-255| | | | |rec_type is 71 or 72. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |mode_id | 42 |Mode identifier. Valid only | UI-1 |N/A| 0-1 | | | | |if rec_type is 73; equals 0 | | | | | | | |otherwise. | | | | | | | | 0 => one-way | | | | | | | | 1 => two-way | | | | | |--------------+------+-----------------------------+------+---+------+-----| |modulo_flag | 43 |Modulo flag. Valid only if | UI-1 |N/A| 0-1 | | | | |rec_type is 73 or 74. | | | | | | | | 0 => modded | | | | | | | | 1 => unmodded | | | | | |--------------+------+-----------------------------+------+---+------+-----| |ref_freq | 44 |Reference frequency. | RE-8 |Hz/|2.0E9 | | | | | | | 1 | to | | | | | | |mHz|34.7E9| | |--------------+------+-----------------------------+------+---+------+-----| |modulus | 52 |Modulus. Valid only if | RE-8 |ns/| 0 to | | | | |rec_type is 73 or 74. | |100| 100K| | | | | | | ps| | | |--------------+------+-----------------------------+------+---+------+-----| |cnt_time_nar_ | 60 |Count time for narrow-band | RE-4 | s/| 1 to | | | band_phs| |phase mode observable. | |1 s| 100K| | |--------------+------+-----------------------------+------+---+------+-----| |nar_band_phs | 64 |Narrow-band phase mode | RE-8 |N&D|-4E12 | | | | |observable. Cycles at 1 | | | to | | | | |millicycle precision. | | | 4E12| | |--------------+------+-----------------------------+------+---+------+-----| |cnt_time_nar_ | 72 |Count time for narrow-band | RE-4 | s/| 1 to | | | band_dop| |Doppler mode observable. | |1 s| 100K| | |--------------+------+-----------------------------+------+---+------+-----| |nar_band_dop | 76 |Narrow-band Doppler mode | RE-8 |Hz/|-1E6 | | | | |observable. | | 1 | to | | | | | | |mHz| 1E6| | |--------------+------+-----------------------------+------+---+------+-----| |wide_band_obs | 84 |Wide-band observable. | RE-8 |ns/|-4E12 | | | | | | |0.1| to | | | | | | | ns| 4E12| | |--------------+------+-----------------------------+------+---+------+-----| |reserve8 | 92 |Reserved. Eight bytes. | UI-8 |N/A| 0 | | |===========================================================================| (1) Abbreviated values in the Format column are: A-8: ASCII string, 8 bytes A-12: ASCII string, 12 bytes I-4: Integer, 4 bytes UI-1: Unsigned integer, 1 byte UI-2: Unsigned integer, 2 bytes UI-4: Unsigned integer, 4 bytes UI-8: Unsigned integer, 8 bytes RE-4: IEEE single precision (4 bytes) RE-8: IEEE double precision (8 bytes) (2) The 'U' column contains values of 'units/precision'. Abbreviated values include: B: Bytes dBH: dB-Hz K: (degrees) kelvin ms: milliseconds N&D: See Item Name and Description column for details N/A: Not applicable ns: nanoseconds Pct: Percentage/percent ps: picoseconds s: seconds S6: seconds at precision 1 microsecond U: unitless (none) W: watts Y: years (3) The 'Range' column includes possible values. ds1* 0.01 to 86400.99 ds2* 0 to 2^16 - 1 ds3* 0 to 86400999 ds4* 0.00 to 86400.9999 ds5* -31,536,000.0 to 31,536,000.0 ds6* 0.000000 to 86400.999999 ds7* 4.0 to 504,536.0 ds8* -32.3e9 to -2.0e9 ds9* 0.00 to 86400.99 N num_obs 3.1.5.5 Filtered Data CHDOs There are two filtered data CHDOs: Smoothed Noise (data type 12) and Allan Deviation (data type 13). Their formats and contents are specified in sections 3.1.5.5.1 to 3.1.5.5.2. 3.1.5.5.1 Smoothed Noise CHDO (Data Type 12) The Smoothed Noise CHDO is generated for UPL-DTT antennas only and is defined in Table 3-25. Not generated if predicted frequencies are not available. |===========================================================================| | Table 3-25. Smoothed Noise CHDO (Data Type 12) Definitions | |===========================================================================| | Identifier | Byte | Item Name and Description |Format|U/P| Range|Notes| | |Offset| | (1) |(2)| (3) | | |==============+======+=============================+======+===+======+=====| |chdo_type | 0 |Type attribute of the | UI-2 |N/A| 10 | | | | |smoothed noise data CHDO. | | | | | | | |CHDO contains binary data. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |chdo_length | 2 |Length attribute of the | UI-2 | B | 46 | | | | |smoothed noise data CHDO | | | | | | | |value field. Number of bytes | | | | | | | |after this item. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |01sec_sm_noise| 4 |0.1-second smoothed noise | RE-4 |Hz/| 0 | 47 | | | |measurement. | |0.1| to | | | | | | | Hz| 1000.| | |--------------+------+-----------------------------+------+---+------+-----| |1sec_sm_noise | 8 |1-second smoothed noise | RE-4 |Hz/| 0 | 47 | | | |measurement. | |0.1| to | | | | | | | Hz| 1000.| | |--------------+------+-----------------------------+------+---+------+-----| |10sec_sm_noise| 12 |10-second smoothed noise | RE-4 |Hz/| 0 | 47 | | | |measurement. | |0.1| to | | | | | | | Hz| 1000.| | |--------------+------+-----------------------------+------+---+------+-----| |100sec_sm_ | 16 |100-second smoothed noise | RE-4 |Hz/| 0 | 47 | | noise| |measurement. | |0.1| to | | | | | | | Hz| 1000.| | |--------------+------+-----------------------------+------+---+------+-----| |200sec_sm_ | 20 |200-second smoothed noise | RE-4 |Hz/| 0 | 47 | | noise| |measurement. | |0.1| to | | | | | | | Hz| 1000.| | |--------------+------+-----------------------------+------+---+------+-----| |600sec_sm_ | 24 |600-second smoothed noise | RE-4 |Hz/| 0 | 47 | | noise| |measurement. | |0.1| to | | | | | | | Hz| 1000.| | |--------------+------+-----------------------------+------+---+------+-----| |int_time | 28 |Integration time. Total | UI-4 | s/| 1 | | | | |integration time of | | 1 | to | | | | |measurements. | | s | 10800| | |--------------+------+-----------------------------+------+---+------+-----| |percent_data_ | 32 |Percent of data used. | RE-4 |Pct| 0 to | 50 | | used| | | |/.1| 100| | | | | | |Pct| | | |--------------+------+-----------------------------+------+---+------+-----| |new_01sec | 36 |0.1-second measurement is new| UI-1 |N/A| 0-1 | 48 | | | | 0 => Old data | | | | | | | | 1 => New data | | | | | |--------------+------+-----------------------------+------+---+------+-----| |new_1sec | 37 |1-second measurement is new. | UI-1 |N/A| 0-1 | 48 | | | | 0 => Old data | | | | | | | | 1 => New data | | | | | |--------------+------+-----------------------------+------+---+------+-----| |new_10sec | 38 |10-second measurement is new.| UI-1 |N/A| 0-1 | 48 | | | | 0 => Old data | | | | | | | | 1 => New data | | | | | |--------------+------+-----------------------------+------+---+------+-----| |new_100sec | 39 |100-second measurement is new| UI-1 |N/A| 0-1 | 48 | | | | 0 => Old data | | | | | | | | 1 => New data | | | | | |--------------+------+-----------------------------+------+---+------+-----| |new_200sec | 40 |200-second measurement is new| UI-1 |N/A| 0-1 | 48 | | | | 0 => Old data | | | | | | | | 1 => New data | | | | | |--------------+------+-----------------------------+------+---+------+-----| |new_600sec | 41 |600-second measurement is new| UI-1 |N/A| 0-1 | 48 | | | | 0 => Old data | | | | | | | | 1 => New data | | | | | |--------------+------+-----------------------------+------+---+------+-----| |reserve8 | 42 |Reserved. Eight bytes. | UI-1 |N/A| 0 | | |===========================================================================| (1) Abbreviated values in the Format column are: A-8: ASCII string, 8 bytes A-12: ASCII string, 12 bytes I-4: Integer, 4 bytes UI-1: Unsigned integer, 1 byte UI-2: Unsigned integer, 2 bytes UI-4: Unsigned integer, 4 bytes UI-8: Unsigned integer, 8 bytes RE-4: IEEE single precision (4 bytes) RE-8: IEEE double precision (8 bytes) (2) The 'U' column contains values of 'units/precision'. Abbreviated values include: B: Bytes dBH: dB-Hz K: (degrees) kelvin ms: milliseconds N&D: See Item Name and Description column for details N/A: Not applicable ns: nanoseconds Pct: Percentage/percent ps: picoseconds s: seconds S6: seconds at precision 1 microsecond U: unitless (none) W: watts Y: years (3) The 'Range' column includes possible values. ds1* 0.01 to 86400.99 ds2* 0 to 2^16 - 1 ds3* 0 to 86400999 ds4* 0.00 to 86400.9999 ds5* -31,536,000.0 to 31,536,000.0 ds6* 0.000000 to 86400.999999 ds7* 4.0 to 504,536.0 ds8* -32.3e9 to -2.0e9 ds9* 0.00 to 86400.99 N num_obs 3.1.5.5.2 Allan Deviation CHDO (Data Type 13) The Allan Deviation CHDO is generated for UPL-DTT antennas only and is defined in Table 3-26. Not generated if predicted frequencies are not available. |===========================================================================| | Table 3-26. Allan Deviation CHDO (Data Type 13) Definitions | |===========================================================================| | Identifier | Byte | Item Name and Description |Format|U/P| Range|Notes| | |Offset| | (1) |(2)| (3) | | |==============+======+=============================+======+===+======+=====| |chdo_type | 0 |Type attribute of the Allan | UI-2 |N/A| 10 | | | | |Deviation data CHDO. | | | | | | | |CHDO contains binary data. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |chdo_length | 2 |Length attribute of the Allan| UI-2 | B | 42 | | | | |Deviation data CHDO value | | | | | | | |field. Number of bytes after | | | | | | | |this item. | | | | | |--------------+------+-----------------------------+------+---+------+-----| |01sec_allan_ | 4 |0.1-second Allan Deviation | RE-4 | U |0.0 to| 49 | | dev| |measurement. | | | 1.0 | | |--------------+------+-----------------------------+------+---+------+-----| |1sec_allan_dev| 8 |1-second Allan Deviation | RE-4 | U |0.0 to| 49 | | | |measurement. | | | 1.0 | | |--------------+------+-----------------------------+------+---+------+-----| |10sec_allan_ | 12 |10-second Allan Deviation | RE-4 | U |0.0 to| 49 | | dev| |measurement. | | | 1.0 | | |--------------+------+-----------------------------+------+---+------+-----| |1000sec_allan_| 20 |1000-second Allan Deviation | RE-4 | U |0.0 to| 49 | | dev| |measurement. | | | 1.0 | | |--------------+------+-----------------------------+------+---+------+-----| |int_time | 24 |Integration time. | UI-4 | s/| 1-106| | | | | | |1 s| | | |--------------+------+-----------------------------+------+---+------+-----| |percent_data_ | 28 |Percent of data used. | RE-4 |Pct| 0 | 50 | | used| | | |/.1| to | | | | | | |Pct| 100| | |--------------+------+-----------------------------+------+---+------+-----| |rpt_cause | 32 |Cause of report generation. | UI-2 |N/A| 0-2 | | | | | 0 => 1000 second report | | | | | | | | 1 => Doppler mode change | | | | | | | | 2 => Idle mode | | | | | |--------------+------+-----------------------------+------+---+------+-----| |new_01sec | 33 |0.1-second measurement is new| UI-1 |N/A| 0-1 | 51 | | | | 0 => Old data | | | | | | | | 1 => New data | | | | | |--------------+------+-----------------------------+------+---+------+-----| |new_1sec | 34 |1-second measurement is new. | UI-1 |N/A| 0-1 | 51 | | | | 0 => Old data | | | | | | | | 1 => New data | | | | | |--------------+------+-----------------------------+------+---+------+-----| |new_10sec | 35 |10-second measurement is new.| UI-1 |N/A| 0-1 | 51 | | | | 0 => Old data | | | | | | | | 1 => New data | | | | | |--------------+------+-----------------------------+------+---+------+-----| |new_100sec | 36 |100-second measurement is new| UI-1 |N/A| 0-1 | 51 | | | | 0 => Old data | | | | | | | | 1 => New data | | | | | |--------------+------+-----------------------------+------+---+------+-----| |new_1000sec | 37 |1000-second measurement is | UI-1 |N/A| 0-1 | 51 | | | |new. | | | | | | | | 0 => Old data | | | | | | | | 1 => New data | | | | | |--------------+------+-----------------------------+------+---+------+-----| |reserve8 | 38 |Reserved. Eight bytes. | UI-8 |N/A| 0 | | |===========================================================================| (1) Abbreviated values in the Format column are: A-8: ASCII string, 8 bytes A-12: ASCII string, 12 bytes I-4: Integer, 4 bytes UI-1: Unsigned integer, 1 byte UI-2: Unsigned integer, 2 bytes UI-4: Unsigned integer, 4 bytes UI-8: Unsigned integer, 8 bytes RE-4: IEEE single precision (4 bytes) RE-8: IEEE double precision (8 bytes) (2) The 'U' column contains values of 'units/precision'. Abbreviated values include: B: Bytes dBH: dB-Hz K: (degrees) kelvin ms: milliseconds N&D: See Item Name and Description column for details N/A: Not applicable ns: nanoseconds Pct: Percentage/percent ps: picoseconds s: seconds S6: seconds at precision 1 microsecond U: unitless (none) W: watts Y: years (3) The 'Range' column includes possible values. ds1* 0.01 to 86400.99 ds2* 0 to 2^16 - 1 ds3* 0 to 86400999 ds4* 0.00 to 86400.9999 ds5* -31,536,000.0 to 31,536,000.0 ds6* 0.000000 to 86400.999999 ds7* 4.0 to 504,536.0 ds8* -32.3e9 to -2.0e9 ds9* 0.00 to 86400.99 N num_obs 3.2 Dependencies None identified. Appendix A Notes 1. Seconds to HH:MM:SS (UTC) format: 0.0 => 00:00:00 86399.0 => 23:59:59 86400.0 => Leap second 2. This offset (transmit_time_tag_delay) should be added to the time tag. It is used to compensate for differences in the time tag point and the antenna radiation point. 3. This offset (rcv_time_tag_delay) should be subtracted from the time tag. It is used to compensate for differences in the time tag point and the antenna radiation point. 4. Array delay (array_delay) is included in the station calibration value (stn_cal) measurement and should be subtracted from the time tag. 5. Spacecraft transponder lock (scft_transpd_lock), spacecraft transponder number (scft_transpd_num), spacecraft two-way non-coherent (TWNC) status (scft_twnc_stat), and spacecraft oscillator type (scft_osc_type) are obtained from spacecraft engineering data, which may not be available. 6. Spacecraft oscillator frequency (scft_osc_freq) is obtained from spacecraft project supplied data. 7. Spacecraft transponder delay (scft_transpd_delay) is based on spacecraft and configuration data supplied from spacecraft project. In the future, it may be based on engineering data from the spacecraft. This is the delay the ranging signal experiences through the spacecraft. 8. PHASE = HI * 232 + LO + FRAC * 2-32 , where, HI = ul_hi_phs_cycles, or phs_hi_x (with x = 0 through 9), phs_hi_avg, or dop_cnt_hi, or total_cnt_phs_ob_hi LO = ul_lo_phs_cycles, or phs_lo_x (with x = 0 through 9), or phs_lo_avg, or dop_cnt_lo, or total_cnt_phs_obs_lo FRAC = ul_frac_phs_cycles, or phs_frac_x (with x = 0 through 9), or phs_frac_avg, or dop_cnt_frac, or total_cnt_phs_obs_frac 9. Not applicable. 10. If hardware at station allows splitting the uplink and downlink ranging delays, the value will be included here. Otherwise, it is set to 0.0. 11. Measured code value (ul_rng_phs) and measured range value (dl_rng_phs) are the phase of the ranging signal at the time tag. 12. T1 setting (t1) is the length of time that the first component (the clock) is transmitted. 13. T2 setting (t2) is the length of time that each subsequent component is transmitted. 14. T3 setting (t3) is the length of time that the clock is transmitted for each DRVID measurement. 15. Component frequency is F_EXC * 2-(n+2), where n is the component number and F_EXC is the exciter reference signal (see note 17). 16. Chopping modulates the ranging signal with a subcarrier at the chop component frequency (chop_comp_num), for all components after and including the chop start component (chop_start_num). For example, if the chop start component value is 6 and the chop component is 5, all components from 6 on will be modulated with component 5. If the chop value is zero, all components starting with 15 and larger are chopped with the clock component. 17. The exciter reference frequency (F_EXC) is defined as follows: F_EXC = FRQ_UP * (exc_scalar_num/exc_scalar_den) where FRQ_UP is the uplink carrier frequency. 18. Sequential ranging cycle time is defined as follows: rng_cycle_time = (t1 + 2) + (last_comp_num - first_comp_num) * (t2 + 1) + num_drvid * (t3 + 2) + 1 19. The PN ranging code is a combination of multiple sequences logically combined. The code state is the particular bit (or chip) in the sequence, plus the phase of that chip at the time tag. For a component length L, and a subsequence state S, the code state C is related to L and S by: S = C mod L 20. PN chip rate = F_EXC / clk_divider 21. The first "n" bits (where n is the length specified in len_seqj) define the PN subsequence, e.g., a value of 46 for def_seq4 gives the following sequence: 0101110, which will have a value of 7 in len_seq4. 22. Code length (pn_code_length) equals the result of multiplying the lengths of all of the subsequences together. 23. PN cycle time is 16 * clk_divider * pn_code_length. 24. One Range Unit (RU) is defined as: 1 RU = (exc_scalar_den / exc_scalar_num) / (16 * FRQ_UP) where FRQ_UP is the uplink carrier frequency. Range is measured in RU to give a stable reference measurement when the uplink is being ramped. 25. If carrier is suppressed (carr_resid_wt = 0.0), then the data power is used for the carrier tracking. 26. Doppler noise (dop_noise) is the standard deviation of the detrended downlink frequency residuals. The detrending is the removal of the least squares linear fit of the frequency residuals over the sample period. For the Downlink Carrier Phase data type (data type 1) and Doppler data type (data type 6), the sample period is 1 second. For the Carrier observable data type (data type 16), the sample period is sample integration time (obs_cnt_time) times the number of samples (num_obs). The equation for the Doppler noise is: dop_noise = sqrt((1 / N) * sum{F(I * t) - FL(I * t)}^2 - [(1 / N) * sum{F(I * t) - FL(I * t)}]^2) where F is the frequency residual, FL is the linear least squares fit of F, t is the spacing between points, and the sums are taken over I = 1 to N. 27. carr_resid_wt is the weight value applied to residual phase error in carrier tracking; suppressed carrier weight is 1.0 minus this value, e.g., phi_err = carr_resid_wt * phi_err_resid + (1 - carr_resid_wt) * phi_err_suppressed 28. Figure of Merit (FOM) (figure_merit) is the estimate of the probability of successfully acquiring all of the lower components (other than the clock component). It is expressed as a percentage (0.0 to 100.0). For sequential ranging, it is defined as: figure_merit = [1 + Erf{-sqrt(prn0 * t2)] ^ (rng_comp2 - rng_comp1) / 2 ^ (rng_comp2 - rng_comp1) where Erf(*) is the error function. For PN ranging, it is defined as: figure_merit = prod((1 / sqrt(pi)) * integral{exp(-x ^ 2) * [[{1 + Erf (x + (Cmax - Cmin) * sqrt(int_time * prn0))} / 2 ] ^ [len(i) - 1]] * dx}) where Cmin and Cmax are the minimum and maximum correlation values for each subsequence, len(i) is the length of the ith subsequence (2, 7, 11, 15, 19, and 23), prod is taken over i = 1 to 6, and integral is taken over minus infinity to plus infinity. 29. Range residual accuracy depends on the accuracy of the predicts and is rarely better than 1 microsec (1000 RU). 30. DRVID (drvid) stands for Differenced Range Versus Integrated Doppler. It is a measurement of the difference between the group and phase delay of the media. The measurement (at time tag TT) is the difference between two consecutive measured range points (i.e., points separated by the cycle time) minus the scaled difference in the uplink and downlink carrier phases over the same time period. The measurement is defined below: D_RNG = (meas_rng(TT) - meas_rng(TT - rng_cycle_time)), mod rng_modulo I_DOP = {(phi_T(TT) - phi_T(TT - rng_cycle_time)) - (scft_transpd_turn_den / scft_transpd_turn_num) * (phi_R(TT) - phi_R(TT - rng_cycle_time))} drvid = D_RNG - [16 * (exc_scalar_num / exc_scalar_den) * I_DOP mod rng_modulo] This has previously been called pseudo-DRVID, since the measurement does not require increasing the cycle time by adding additional clock transmissions during the measurement. The method of using additional clock cycles does not measure the carrier phase over the same period of time as the range measurement; this is why the pseudo-DRVID implementation was selected. 31. Slipped cycles (slipped_cycles) are estimated by processing the frequency residuals in a software-simulated, digital phase-locked loop and comparing the phase error with slip conditions. This estimate is subject to degradation during high noise conditions. The slipped cycles value is the number of cycle slips (both positive and negative) detected in this manner, for the sample interval. 32. Delta Frequency/Frequency (delta_ff) is the change in downlink frequency since the last sample, divided by the downlink frequency at this time tag. 33. A set of measurements is provided in the Received Carrier and Total Count Phase Observables data types (data types 16 and 17). For each set, a number of measurements (num_obs) and a time interval (obs_cnt_time) are provided. The first measurement is at the time tag reported in the header; the ith measurement (i = 1 to number of measurements) is at the time tag (TT) plus (i-1) * obs_cnt_time. The interval of time covered by the measurements is TT - obs_cnt_time to TT + (number of measurements - 1)* obs_cnt_time. 34. The Doppler Count is defined as difference in the uplink carrier phase (generated by integrating ul_freq), scaled by the spacecraft transponder turn around ratio, minus the downlink carrier phase plus a bias term (generated by integrating dop_cnt_bias_freq). The bias term is used to keep the Doppler Count a positive value. For UPL-DTT antennas, the ul_freq value is determined by the downlink frequency; for other antennas, it depends on the equipment configuration. The time tag of the ith measurement (i equals 1 to 10) is TT + (i - 1) * 0.1. The time tag is the end of the Doppler Count interval. Doppler Count = - (phi_R,i) + ((scft_transpd_turn_num/scft_transpd_turn_den) * ul_freq + dop_cnt_bias_freq )* (TimeI - Timestart) 35. The Received Carrier Frequency Observable is defined as the negative of the difference in the downlink phase at the end of the interval and the downlink phase at the start of the interval, divided by the interval time. The time tag point of the difference is the middle point of the count time interval (note that this means that the time tag may be on the half second). The time tag of the ith measurement (i equals 1 to num_obs) is TT + (i - 1.0) * obs_cnt_time. Observable = - (phi_i - phi_i-1) / obs_cnt_time 36. The Total Count Phase Observable is the difference between the downlink carrier phase at the measurement time tag and the downlink carrier phase at a starting point (a running integration). The time of the starting point is given by total_cnt_phs_st_year, total_cnt_phs_st_doy, and total_cnt_phs_st_sec. The starting point changes whenever something causes the carrier lock to be broken, such as spacecraft mode changes or downlink loss of lock. The time tag of the ith measurement (i equals 1 to num_obs) is TT + (i - 1) * obs_cnt_time. Observable = - (phi_i - phi_start) The value reported is the negative of the observable, e.g.: Reported Observable = (phi_i - phi_start) 37. Sequential ranging ambiguity (rng_modulo) in Range Units is defined as 2^(6+last_comp_num). 38. Sequential measured range (meas_rng) is the difference between the uplink ranging phase (ul_rng_phs) and the downlink ranging phase (dl_rng_phs) (for UPL-DTT antennas). For non-UPL-DTT antennas, the Sequential Ranging Assembly range value is used. The difference is the positive modulo of rng_modulo value. This measurement is not corrected for any calibration issues. 39. Range Observable is defined as the measured range (meas_rng) minus the calibration correction. This observable is valid for both UPL-DTT and non- UPL-DTT antennas and is supplied to maintain compatibility between the two. The calibration correction is defined as: Correction = (ul_stn_cal - transmit_time_tag_delay) + ul_zheight_corr + scft_transpd_delay + (dl_stn_cal - rcv_time_tag_delay - array_delay) + dl_zheight_corr 40. If the measured uplink calibration value (ul_stn_cal) as reported in the uplink range SFDUs is non-zero, then the uplink calibration value (ul_stn_cal) in the derived SFDUs for sequential and PN range is this value. Otherwise, it is one-half of the station calibration value (stn_cal). If the value is invalid, the parameter is set to -1.0. 41. If the measured downlink calibration value (dl_stn_cal) as reported in the downlink ranging SFDUs is non-zero, then the downlink calibration value (dl_stn_cal) in the derived SFDUs for sequential and PN range is this value. Otherwise, it is one-half of the station calibration value (stn_cal). ). If the value is invalid, the parameter is set to -1.0. 42. The uplink frequency (ul_freq) is provided for computing the Range Unit definition for those antennas that do not support ramped uplinks (i.e., no Data Type 9). 43. Range noise (rng_noise) is the standard deviation of up to the last 100 (i.e., if more than 100 data points exist, only the last 100 are used) range residuals, detrended by removing the least squares linear fit of the data. The equation for the Range noise is (R is the range residual, RL is the linear least squares fit of R, N is the number of points (up to 100), and t is the spacing between points): rng_noise = sqrt((1/N) * sum{R(I*t) - RL(I*t)}^2 - {(1/N) * sum[R(I*t) - RL(I*t)]}^2) where the sums are computed over I=(1,N). 44. DRVID noise (drvid_noise) is the standard deviation of up to the last 200 (i.e., if more than 200 data points exist, only the last 200 are used) DRVID values. The equation for the DRVID noise is (D is the DRVID residual, N is the number of points (up to 200), and t is the spacing between points): drvid_noise = sqrt((1/N) * sum{D(I*t)}^2 - {(1/N) * sum{D(I*t)}}^2) where the sums are computed over I=(1,N). 45. PN ranging ambiguity (modulo value) is defined as: rng_modulo = 16 * clk_divider * pn_code_length 46. PN measured range value (meas_rng) is the difference between the uplink ranging phase (ul_rng_phs) and the downlink ranging phase (dl_rng_phs). It is only available from the UPL-DTT antennas. The difference is the positive modulo of the rng_modulo value. This measurement is not corrected for any calibration issues. 47. Smoothed noise is the standard deviation of the detrended downlink frequency residuals. The detrending is the removal of the least squares linear fit of the frequency residuals over the sample period. Estimates are computed for 0.1, 1, 10, 100, 200, and 600-second intervals. The minimum sample period is 180 seconds, the maximum is 10,800. The standard deviation is computed over 18 points; if the number of points in the reporting period is more than 18 (e.g., 0.1-second and 1.0-second), the 18-sample standard deviations are averaged. The equation for the Smoothed noise is (F is the frequency residual, FL is the linear least squares fit of F, and t is the time spacing between points): NOISE = sqrt((1/18) * sum{F(I*t) - FL(I*t)}^2 - {(1/18) * sum{F(I*t)-FL(I*t)}}^2) 48. Since the record is generated every 180 seconds and each integration needs 18 points, the longer integrations will not be updated every time. The new_xxx flags are used to indicate which integrations have been updated. 49. Allan deviation is computed for interval (TAU) values of 0.1, 1, 10, 100, and 1000 seconds. The record is nominally output once every 1000 seconds. The frequency residuals are used for the computation (to remove the known motion effects, such as earth rotation). The result is normalized to DSN channel 14 (2295 MHz for S-band, 8415 MHz for X-band, and 31.977 GHz for Ka- band); this value is referred to as F0. The number of points, N, is equal to the integration time, INT_TIME, divided by TAU. delta_F_TAU / F = sqrt((1/2N) * sum{F(TAU*I) - F(TAU*(I-1))}^2) / F0 50. percent_data_used indicates if some data in the integration period was not used (e.g., carrier was out of lock). 51. If a record is generated due to a change in system status (e.g., receiver mode change), the report time will be short of the normal 1000 seconds, so the longer integrations may not have a new point computed. The new_xxx flags are used to indicate which integrations have been updated. 52. Some hardware (ground or spacecraft) may invert the ranging modulation. invert allows these inversions to be corrected on the uplink or downlink processing. 53. Loop Type (carr_loop_type) is the number of poles in the carrier phase locked loop transfer function. The number poles (or order) of the loop filter is the Loop Type minus one. For each increment in the Loop Type, one higher order derivative of Doppler is tracked out to zero (Type 1 tracks out phase offsets, Type 2 tracks out frequency errors, Type 3 tracks out frequency rate errors). 54. The time offset (prdx_time_offset) is a value added to the current time when generating the predicted frequency from the frequency predicts (F(t)). Thus, the predicted frequency (F_PRED), at time t, used by the tracking loop is: F_PRED = F(t + prdx_time_offset) 55. The frequency offset (prdx_freq_offset) is a value added to the frequency value generated from the frequency predicts (F(t)). Thus, the predicted frequency (F_PRED), at time t, used by the tracking loop is: F_PRED = F(t) + prdx_freq_offset 56. Correlation validity (correl_vld_flag) is reported by the downlink ranging equipment. It is an estimate of whether or not the clock component is properly aligned with the received ranging signal (it measures the power in the inphase and quadrature signals when correlating the lower components - if the clock is properly aligned, the power in the inphase signal is much greater than the quadrature signal). 57. The Angles Validity Flag (ang_vld_flag) is set by the tracking equipment to indicate whether or not the angle data is valid. 58. The signal level (rcv_sig_lvl) is either provided by the tracking station (non-UPL-DTT antennas), or derived from other parameters (UPL-DTT antennas). For the 34m and 70m antennas, the derivation is as follows: Signal Level = P_N0 - (K_DB + 10 * log10(system_noise_temp)) Where K_DB is Boltzmann's constant (-198.6 dBm/Hz/k), system_noise_temp is the system noise temperature, and P_N0 is either pcn0 (car_resid_wt > 0.0) or pdn0 (car_resid_wt = 0.0). 59. The In Phase Time (transmit_inphs_time or rcv_inphs_time) is the time point that the ranging modulation reference was initialized to zero phase. It is used for three-way ranging cases. It is seconds of day offset from the block time tag. 60. Distance (in time) to the phase center of the antenna that is not included in the station calibration. Included in this value is the delay to and from the test translator, the delay inside the test translator, the delay from the range calibration coupler to the phase center of the antenna, and the delay between the main antenna dish and the subreflector. Z-height is expressed in seconds, so it must be converted to Range Units before it is included in the Range Observables. The uplink part of this compensation (which is the delay from the point that the test translator taps off of the uplink path to the phase center) is provided in ul_zheight_corr and the downlink part (which is the delay from the phase center to the point where the test translator joins the downlink path, minus the delay of the test translator path) is in dl_zheight_corr. 61. When downlink carrier data is received, it reports the configuration that was used at the tracking station for the source of the downlink (e.g., three-way with DSS 65). However, that may not be the actual spacecraft mode (for example, the spacecraft may have been locked to an uplink from DSS 54, but the receiving station did not have any three-way predicts for DSS 54, so the predicts for DSS 65 were used instead). A validation is done to determine the actual spacecraft mode and is reported in the validated uplink station (vld_ul_stn) and validated doppler mode (vld_dop_mode) fields of the downlink data secondary CHDO. 62. The Carrier and Total Phase Count Pre-fit Residual Tolerance flags (carr_prefit_resid_tol_flag and total_phs_cnt_prefit_resid_tol_flag) indicate whether or not the pre-fit residuals are within the tolerance (carr_prefit_resid_tol_value and total_phs_cnt_prefit_resid_tol_value) set by the spacecraft project. The prefit residual flags (carr_prefit_resid_tol_flag and total_phs_cnt_prefit_resid_tol_flag) are set to Not Applicable if the prefit residual validity flags (carr_prefit_resid_vld_flag and total_phs_cnt_prefit_resid_vld_flag) indicate invalid. 63. The Range Residual Tolerance flag (rng_resid_tol_flag) indicates whether or not the range residual is within the tolerance (rng_resid_tol_value) set by the spacecraft project. 64. The DRVID Tolerance flag (drvid_tol_flag) indicates whether or not the DRVID value is within the tolerance (drvid_tol_value) set by the spacecraft project. 65. The Pr/N0 Residual Tolerance flag (prn0_resid_tol_flag) indicates whether or not the Pr/N0 residual is within the tolerance (prn0_resid_tol_value) set by the spacecraft project. 66. The Range Sigma Tolerance flag (rng_sigma_tol_flag) indicates whether or not the range sigma (noise) is within the tolerance (rng_sigma_tol_value) set by the spacecraft project. 67. The Range Validity flag (rng_vld_flag) indicates that the range data is valid if the receiver is in-lock, if the Correlation Validity flag (correl_vld_flag) indicates valid data, and the FOM (figure_merit) is above its tolerance value (fom_tol_value). 68. The Range Configuration Change flag (rng_config_flag) is set whenever the system determines the microwave configuration has changed since the ranging calibration was done. 69. Note 69 has been deleted. 70. The Metrics Validity flag (metrics_vld_flag) indicates whether or not the downlink ranging equipment was able to process the ranging data to get a measurement of range and DRVID (for example, the pass may have been three-way and the uplink data was not available). 71. Note 71 has been deleted. 72. Currently, the equipment that performs the tone range measurement includes the corrections for the calibration and the Z-height correction in the reported range; however, these values are not reported by the station. Thus, stn_cal, ul_zheight_corr, dl_zheight_corr are set to 0.0. The range observable (rng_obs) is equal to meas_rng minus the spacecraft transponder delay scft_transpd_delay. If the equipment at the station is corrected, the values will be non-zero. 73. The Modification Time items (day and msec) are set to 0 when the block is first created. If any data in the block is changed, the items are set to the time of the modification. The time is expressed as the time (UTC) since the epoch of January 1, 1958. The time is represented as days since the epoch and milliseconds of the day. 74. The record creation time is the time when the data processing task first creates the record. It is expressed as the time (UTC) since the epoch of January 1, 1958. The time is represented as days since the epoch and milli- seconds of the day. 75. The In Phase Time (transmit_inphs_time_xxx or rcv_inphs_time_xxx, where xxx is year, doy, or sec) is the time point (UTC) that the ranging modulation reference was initialized to zero phase. It is used for three-way ranging cases. When reported from the DSN stations, it is reported as an absolute time (see note 59 regarding its other format). 76. The Downlink Range Observable (rng_obs_dl) is defined as the calibration correction minus the downlink ranging phase. It is only valid for UPL-DTT antennas. The calibration correction is defined as: Correction = (ul_stn_cal - transmit_time_tag_delay) + ul_zheight_corr + scft_transpd_delay + (dl_stn_cal - rcv_time_tag_delay - array_delay) + dl_zheight_corr 77. Downlink range observable validity flag (rng_obs_dl_vld_flag) indicates whether or not the Downlink range observable item (rng_obs_dl) is valid. It will be invalid if the data is for a non-UPL-DTT antenna. 78. The Clock Offset Epoch Time (clk_off_epoch_year, clk_off_epoch_doy, and clk_off_epoch_sec) is the time (UTC) that the two clock offsets (clk_off_1 and clk_off_2) where measured . 79. The uplink data is only valid if the validated spacecraft coherency (vld_scft_coh) indicates an uplink (value of 1 or 3). 80. The DRVID computation is done by the data processing task in AMMOS. 81. This computation is done at the station. The metrics validity flag (metrics_vld_flag) indicates its validity. 82. For DTT data, the downlink band is assumed to be correct. For non-DTT data, a validation is done. In the case of 26m stations, which use the two acquisition aid antennas (for both S- and X-band), if the downlink band cannot be definitively determined, the value gets set to "S or X". 83. The carrier lock status (carr_lock_stat) for non-DTT antennas is inferred from other values. 84. The count time (interval), Tc, that is used to form an observable is constrained by the sample interval. 85. A set of measurements is provided in the Doppler Count data type (data type 6). For each set, a number of measurements (10 or 1) and a time interval (sampl_time) are provided. The first measurement is at the time tag reported in the header; if there are 10 measurements, the ith measurement (i = 1 to number of measurements) is at the time tag (TT) plus (i-1) * 0.1. The interval of time covered by the measurements is TT to TT + (number of measurements - 1)* 0.1. 86. Until prefit residual values (rng_dl_prefit_resid, rng_prefit_resid, and carr_prefit_resid) are delivered, they will be indicated as invalid by setting their residual flags (rng_dl_prefit_resid_vld_flag, rng_prefit_resid_vld_flag, and carr_prefit_resid_vld_flag, respectively) to a value of 0. 87. Arraying is done using the Full Spectrum Processor (FSP). There are two FSPs per complex. 88. This field only pertains to the Doppler (Data Type 6), the Received Carrier Frequency Observables (Data Type 16) and the Total-Count Phase Observables (Data Type 17) data CHDOs. Otherwise, when not applicable, the field is set to 0. In the case of Data Types 16 and 17, this field describes the compression interval, which ranges from 0.1 through 3600.0 seconds. In the case of Data Type 6, this field describes the sample interval. 26m stations are capable of producing tracking data at sample intervals of 0.1, 1, 10, or 60 seconds. UPL/DTT stations produce tracking data at a 0.1 second interval. Appendix B File Format B.1 LVO Structure of Files When the data defined by this document are stored in a file, the file is wrapped with an attached header. The file consists of nested LVOs, including a catalog LVO (known as the K-object LVO) and a data LVO (known as the I- object LVO). The catalog LVO contains the meta-data needed to catalog the actual tracking data. The data LVO consists of CHDO SFDUs defined in Section 3. The LVO structure of a file is depicted in Figure B-1. Further details on the contents of the label and value fields of each LVO are provided in the following subsections. +---------------------------------------------+ L| Primary SFDU Label | +-+ +---------------------------------------+| | L| K-Object Label || | +-+ | | V| Catalog Information || | | End Marker || V| +---------------------------------------|| | L| I-Object Label || | +-+ || | V| CHDO SFDUs || | | || . . .. . . .. . . .. | | EOF || +-------------------------------------------+ L = label field V = value field Figure B-1. LVO Structure of Files B.2 Physical Layout of Files The physical layout of the TRK-2-34 file is shown in Figure B-2. The length in bytes is 88+M+L, where M is the length of the catalog field and L is the length of the CHDO SFDUs. The structure is divided into three main parts: * primary label of the entire SFDU (Table B-1 describes the primary label.) * K-header. The K-header (or K-object) consists of the K-header SFDU label (or K-object SFDU label), catalog information, and an end marker. The catalog information consists of meta-data for cataloging the SFDU file. The meta-data are in the form of keyword-value pairs (hence, the "K" for keyword). (Tables B-2 and B-3 describe the K-header.) * I-object. The I-object (where "I" stands for information) contains the CHDO SFDUs defined by Section 3, preceded by an I-object SFDU label. (Table B-4 describes the I-object SFDU label.) BIT +-----------------------------------------------+ |1 |2 |3 |4 |5 |6 |7 |8 |1 |2 |3 |4 |5 |6 |7 |8 | +-----------------------------------------------| BYTE 0| | +- -| ... PRIMARY SFDU LABEL ... ... (20 BYTES) ... +- -| 18| | +--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+--| 20| | +- -| ... K-OBJECT SFDU LABEL ... ... (20 BYTES) ... +- -| 38| | +--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+--| 40| | +- -| ... CATALOG INFORMATION ... ... ... +- -| 38+M| | +--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+--| 40+M| | +- -| ... K-OBJECT END MARKER ... ... (20 BYTES) ... +- -| 58+M| | +--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+--| 60+M| | +- -| ... I-OBJECT SFDU LABEL ... ... (20 BYTES) ... +- -| 78+M| | +--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+--| 80+M| | +- -| ... BINARY DATA OBJECT ... ... ... +- -| 78+M+L| | +--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+--| 80+M+L| | +- -| ... END OF FILE MARKER ... ... (8 BYTES) ... +- -| 86+M+L| | +--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+--| |1 |2 |3 |4 |5 |6 |7 |8 |1 |2 |3 |4 |5 |6 |7 |8 | +-----------------------------------------------+ M is length of Catalog Information L is length of Tracking SFDUs Figure B-2. File Layout See Figure B-3 for a sample header of a TRK-2-34 file. CCSD3ZF0000100000001NJPL3KS0PDSX$T-2-34$ PDS_VERSION_ID = PDS3 RECORD_TYPE = UNDEFINED MISSION_NAME = CASSINI SPACECRAFT_NAME = CASSINI SPACECRAFT_ID = 82 MISSION_ID = 7 DATA_SET_ID = "MEX-M-MRS-1/2/3-EXT6-3892-V1.0" FILE_NAME = 20013610115SC82.234 PRODUCER_ID = TDDS PRODUCT_CREATION_TIME = 2017-11-10T07:29:05.000 START_TIME = 2001-361T01:15:10 STOP_TIME = 2001-361T12:30:30 INTERCHANGE_FORMAT = BINARY NOTE = "Carrier lock status in DT1 changed by Jane Doe." CCSD$$MARKER$T-2-34$NJPL3IF0T23400000001 Figure B-3. Sample Header of File B.2.1 Primary SFDU Label Bytes 0 through 19 of the tracking SFDU file contain the primary SFDU label field for the files. The format and content of the label are defined in Table B-1. |===========================================================================| | Table B-1. Primary SFDU Label | |===========================================================================| | Byte | Data Item - Description and Units | Format | Range | |======+==============================================+==========+==========| | 0-3 |Control authority identifier (CAID). This CAID|Restricted| 'CCSD' | | |field indicates that the data description | ASCII-4 | | | |information (referred to in bytes 8 to 11) for| | | | |this SFDU is maintained and disseminated by | | | | |the CCSDS control authority. Control authority| | | | |identifiers are assigned by the CCSDS. Refer | | | | |to AnyCatalog, p.4-12,4-13; MGDS User's | | | | |Guide/Working with File Data (JPL D-6060), | | | | |Ch.2; PDS Stds Ref, p.16-5. | | | |------+----------------------------------------------+----------+----------| | 4 |SFDU version identifier. This version field |Restricted| '3' | | |indicates how this primary SFDU label is | ASCII-1 | | | |delimited. The value of '3' indicates that | | | | |this LVO can be delimited by marker, EOF (end | | | | |of file), or length. Refer to AnyCatalog, | | | | |p.4-12,4-13; MGDS User's Guide/Working with | | | | |File Data (JPL D-6060), Ch.2; PDS Stds Ref, | | | | |p.16-5. | | | |------+----------------------------------------------+----------+----------| | 5 |SFDU class identifier. This class identifier |Restricted| 'Z' | | |field gives a high-level classification of the| ASCII-1 | | | |content of the value field of this LVO (i.e., | | | | |this TRK-2-34 LVO that contains the K-header | | | | |LVO and the I-object LVO). The value of 'Z' | | | | |indicates that the value (V) field of this LVO| | | | |contains a JPL LVO with a CCSD CAID. Refer to | | | | |AnyCatalog, p.4-12,4-13; MGDS User's | | | | |Guide/Working with File Data (JPL D-6060), | | | | |Ch.2; PDS Stds Ref, p.16-5. | | | |------+----------------------------------------------+----------+----------| | 6 |Delimiter identifier. This delimitation |Restricted| 'F' | | |identifier indicates the type of delimiter | ASCII-1 | | | |this primary SFDU label uses for its last | | | | |eight bytes. A value of 'F' indicates this | | | | |label ends with '00000001', as specified in | | | | |bytes 12 to 19, which implies that the entire | | | | |SFDU is closed with an EOF marker. Refer to | | | | |AnyCatalog, p.4-12,4-13; MGDS User's | | | | |Guide/Working with File Data (JPL D-6060), | | | | |Ch.2; PDS Stds Ref, p.16-5. | | | |------+----------------------------------------------+----------+----------| | 7 |Reserved. This byte is a spare field. Refer to|Restricted| '0' | | |AnyCatalog, p.4-12,4-13; MGDS User's | ASCII-1 | | | |Guide/Working with File Data (JPL D-6060), | | | | |Ch.2; PDS Stds Ref, p.16-5. | | | |------+----------------------------------------------+----------+----------| | 8-11 |Data description package identifier. This |Restricted| '0001' | | |field uniquely identifies (for the specified | ASCII-4 | | | |Control Authority, i.e., CCSDS, per bytes 0 to| | | | |3) the package that contains the definition of| | | | |the data object [or value (V) field of this | | | | |LVO]. The value shown here is registered with| | | | |the specified control authority. Refer to | | | | |AnyCatalog, p.4-12,4-13; MGDS User's | | | | |Guide/Working with File Data (JPL D-6060), | | | | |Ch.2; PDS Stds Ref, p.16-5. | | | |------+----------------------------------------------+----------+----------| | 12-19|Length attribute of the SFDU. This field is | Standard |'00000001'| | |designated the "length" field because data are| ASCII-8 | | | |delimited by length for stream data. However,| | | | |since this SFDU is considered to be a file | | | | |SFDU, rather than a stream SFDU, the end of | | | | |the TRK-2-34 LVO (SFDU) is designated by an | | | | |EOF marker. The EOF marker is specified in | | | | |this primary SFDU label as '00000001.' Refer | | | | |to AnyCatalog, p.4-12,4-13; MGDS User's | | | | |Guide/Working with File Data (JPL D-6060), | | | | |Ch.2; PDS Stds Ref, p.16-5. | | | |===========================================================================| B.2.2 K-Header (or K-Object) Bytes 20 to 59+M are the K-header (or K-Object) for the file (M is the length of the catalog information, which is variable length). The three components of the K-header are described below. B.2.2.1 K-Header SFDU Label Bytes 20 to 39 are the label field for the K-Header SFDU (or Catalog LVO) for the files. The 20 bytes of the label field are defined below in Table B-2. |===========================================================================| | Table B-2. K-Header (or K-Object) SFDU Label | |===========================================================================| | Byte | Data Item - Description and Units | Format | Range | |======+==============================================+==========+==========| | 0-3 |Control authority identifier (CAID). This CAID|Restricted| 'NJPL' | | |field indicates that the data description | ASCII-4 | | | |information (referred to in bytes 8 to 11) for| | | | |this SFDU is maintained and disseminated by | | | | |the NASA/JPL control authority. | | | |------+----------------------------------------------+----------+----------| | 4 |SFDU version identifier. This version field |Restricted| '3' | | |indicates how this K-header SFDU label is | ASCII-1 | | | |delimited. The value of '3' indicates that | | | | |this LVO can be delimited by marker, EOF (end | | | | |of file), or length. In this case, the actual| | | | |delimiter is by marker, as indicated by byte | | | | |6. The value of '3' is required per | | | | |, p.4-3, and in PDS Stds Ref., | | | | |p.16-6. Also refer to MGDS User's | | | | |Guide/Working with File Data (JPL D-6060), | | | | |Ch. 2. | | | |------+----------------------------------------------+----------+----------| | 5 |SFDU class identifier. This class identifier |Restricted| 'K' | | |field gives a high-level classification of the| ASCII-1 | | | |content of the value field of this LVO (i.e., | | | | |the K-header LVO). The value of 'K' indicates| | | | |that the value (V) field of this LVO contains | | | | |a K-header. [The K-header contains metadata | | | | |that describes the I-object LVO (information | | | | |or data object) that follows it.] The value of| | | | |'K' is required per , p.4-3, and | | | | |in PDS Stds Ref., p.16-6. Also refer to MGDS | | | | |User's Guide/Working with File Data | | | | |(JPL D-6060), Ch. 2. | | | |------+----------------------------------------------+----------+----------| | 6 |Delimiter identifier. This delimitation |Restricted| 'S' | | |identifier indicates the type of delimiter | ASCII-1 | | | |this K-header SFDU label uses for its last | | | | |eight bytes. A value of 'S' indicates that | | | | |this label ends with a marker, i.e., a start | | | | |marker (signifying the start of the value | | | | |field). [The value (V) field of the K-header | | | | |LVO is the Catalog information. It is | | | | |delimited by a start marker at the end of this| | | | |K-header SFDU label, and then by a matching | | | | |end marker at the end of the value (V) field.]| | | | |The marker is specified in the 'Length | | | | |attribute' field of this label at bytes 12 to | | | | |19. The value of 'S' is required per PDS Stds | | | | |Ref., p.16-6. Also refer to MGDS User's | | | | |Guide/Working with File Data (JPL D-6060), | | | | |Ch. 2. | | | |------+----------------------------------------------+----------+----------| | 7 |Reserved. This byte is a spare field. |Restricted| '0' | | | | ASCII-1 | | |------+----------------------------------------------+----------+----------| | 8-11 |Data description package identifier. This |Restricted| 'PDSX' | | |field uniquely identifies (for the specified | ASCII-4 | | | |Control Authority, i.e., NJPL, per bytes 0 to | | | | |3) the data object [or value (V) field of this| | | | |LVO]. The value shown here is registered with| | | | |the specified control authority. The value of| | | | |'PDSX' is required per , p.4-3, | | | | |and in PDS Stds Ref., p.16-6. Also refer to | | | | |MGDS User's Guide/Working with File Data (JPL | | | | |D-6060), Ch. 2. | | | |------+----------------------------------------------+----------+----------| | 12-19|Length attribute of the SFDU. The Catalog | Standard |'$T-2-34$'| | |information is delimited with a start and end | ASCII-8 | | | |marker. | | | |===========================================================================| B.2.2.2 Catalog Information The catalog information for the files starts at byte 40 and is defined below in Table B-3. This value field of the LVO contains the set of parameters and values, in = format, of attributes that are pertinent to the file data. Each line is terminated with a carriage return (ASCII decimal code 13, written as or Ctrl-M), and a line feed (ASCII decimal code 10, written as or Ctrl-J). The values must conform to the standard ASCII character set (32 through 127 decimal). In addition, the values should be in upper case, except for the NOTE field. |===========================================================================| | Table B-3. Catalog Information (Value Field of the K-Object) | |===========================================================================| | Ref# | Keyword-Value Pairs | Range for Value | | | Description and Units | | |======+================================================+===================| | 1 |PDS_VERSION_ID = | 'PDS3' | | |Represents the version number of the standards | | | |document that is valid when the label is | | | |created. | | |------+------------------------------------------------+-------------------| | 2 |RECORD_TYPE = | 'UNDEFINED' | | |The record format of this file. | | |------+------------------------------------------------+-------------------| | 3 |MISSION_NAME = | Varies | | |The name of the mission or project that is | | | |associated with the data contained in the | | | |I-object. Must be upper case. | | |------+------------------------------------------------+-------------------| | 4 |SPACECRAFT_NAME = | Varies | | |The full, unabbreviated name of the spacecraft | | | |that is associated with the data contained in | | | |the I-object. Must be upper case. | | |------+------------------------------------------------+-------------------| | 5 |SPACECRAFT_ID = | '0' thru '255' | | |The decimal representation of the applicable DSN| | | |spacecraft number as defined in Reference [3a]. | | |------+------------------------------------------------+-------------------| | 6 |MISSION_ID = | '0' thru '255' | | |The decimal representation of the applicable DSN| | | |mission number per Reference [3a]. | | |------+------------------------------------------------+-------------------| | 7 |DATA_SET_ID = "MEX-M-MRS-1/2/3-EXT6-3892-V1.0" | |The unique identifier for this data type. | | |------+------------------------------------------------+-------------------| | 8 |FILE_NAME = | Varies | | |The unique file name, without a directory path | | | |specified, for this SFDU file. The file name | | | |shall be of the form: yyyydddhhmmSCsssss.234, | | | |where, | | | | yyyy is the four-digit year | | | | ddd is the three-digit day-of-year | | | | (001 thru 366) | | | | hh is the two-digit hour into the day | | | | (00 thru 23) | | | | mm is minutes into the hour (00 thru 59) | | | | SC is fixed, and denotes that the spacecraft | | | | ID is to follow: | | | | sssss is the spacecraft ID (per Reference | | | | [3a], with leading zeros omitted) | | | | . 234 is a fixed suffix, and identifies the | | | | file as being a TRK-2-34 file. | | | |The time reflects the time of the earliest | | | |tracking sample contained in the file. | | |------+------------------------------------------------+-------------------| | 9 |PRODUCER_ID = | Varies | | |A short name or acronym for the producer or | | | |producing team/group (e.g., TDDS) of this file. | | | |An ASCII character string, limited to 20 | | | |characters (must be upper case). | | |------+------------------------------------------------+-------------------| | 10 |PRODUCT_CREATION_TIME = 2017-11-10T07:29:05.000 | |This attribute indicates the UTC time at which | | | |this file was created. The value is specified | | | |in the following time format: | | | | yyyy-dddThh:mm:ss | | | |where, | | | | yyyy four-digit year | | | | ddd day-of-year (001 thru 366) | | | | T ASCII literal field (i.e., "T") | | | | hh hours of the day (00 thru 23) | | | | mm minutes of the hour (00 thru 59) | | | | ss seconds of the minute (00 thru 60), | | | | allows for leap second | | |------+------------------------------------------------+-------------------| | 11 |START_TIME = | any valid UTC | | |This attribute identifies the earliest time tag | | | |(in UTC) reported across all SFDU secondary | | | |CHDOs included in the data object. The value is| | | |specified in the following time format: | | | | yyyy-dddThh:mm:ss | | | |where, | | | | yyyy four-digit year | | | | ddd day-of-year (001 thru 366) | | | | T ASCII literal field (i.e., "T") | | | | hh hours of the day (00 thru 23) | | | | mm minutes of the hour (00 thru 59) | | | | ss seconds of the minute (00 thru 60), | | | | allows for leap second | | |------+------------------------------------------------+-------------------| | 12 |STOP_TIME = | any valid UTC | | |This attribute identifies the latest time tag | | | |(in UTC) reported across all SFDU secondary | | | |CHDOs included in the data object. The value is| | | |specified in the following time format: | | | | yyyy-dddThh:mm:ss | | | |where, | | | | yyyy four-digit year | | | | ddd day-of-year (001 thru 366) | | | | T ASCII literal field (i.e., "T") | | | | hh hours of the day (00 thru 23) | | | | mm minutes of the hour (00 thru 59) | | | | ss seconds of the minute (00 thru 60), | | | | allows for leap second | | |------+------------------------------------------------+-------------------| | 13 |INTERCHANGE_FORMAT = | 'BINARY' | | |Identifies the way the data object is stored. | | |------+------------------------------------------------+-------------------| | 14 |NOTE = "" | Varies | | |Description of changes made to the data in this | | | |TRK-2-34 file as a result of manual editing (may| | | |be upper or lower case). | | |===========================================================================| B. 2.2.3 K-Object End Marker After the catalog information, starting at byte 40+M (M being the length of the catalog field), is the marker field. The marker field delimits the end of the catalog LVO. The 20 byte field is the following ASCII string: "CCSD$$MARKER$T-2-34$". B.2.3 I-Object SFDU Label Bytes 60+M to 79+M are the label field for the I-Object SFDU. The 20 bytes are defined below in Table B-4. |===========================================================================| | Table B-4. I-Object SFDU Label | |===========================================================================| | Byte | Data Item - Description and Units | Format | Range | |======+==============================================+==========+==========| | 0-3 |Control authority identifier (CAID). This CAID|Restricted| 'NJPL' | | |field indicates that the data description | ASCII-4 | | | |information (referred to at bytes 8 to 11) for| | | | |this SFDU is maintained and disseminated by | | | | |the NASA/JPL control authority. | | | |------+----------------------------------------------+----------+----------| | 4 |SFDU version identifier. This version field |Restricted| '3' | | |indicates how this I-object SFDU label is | ASCII-1 | | | |delimited. The value of '3' indicates that | | | | |this LVO can be delimited by marker, EOF (end | | | | |of file), or length. In this case, the actual| | | | |delimiter is by EOF, as indicated by byte 6. | | | | |The value of '3' is required per PDS Stds | | | | |Ref., p.16-7. Also refer to MGDS User's | | | | |Guide/Working with File Data (JPL D-6060), | | | | |Ch.2; AnyCatalog, p.4-12 to 4-13. | | | |------+----------------------------------------------+----------+----------| | 5 |SFDU class identifier. This class identifier |Restricted| 'I' | | |field gives a high-level classification of the| ASCII-1 | | | |content of the value field of this LVO (i.e., | | | | |the I-object LVO). The value of 'I' indicates| | | | |that the value (V) field of this LVO contains | | | | |an I-object (or information object.) The | | | | |value of 'I' is required per PDS Stds Ref., | | | | |p.16-7. Also refer to MGDS User's | | | | |Guide/Working with File Data (JPL D-6060), | | | | |Ch.2; AnyCatalog, p.4-12 to 4-13. | | | |------+----------------------------------------------+----------+----------| | 6 |Delimiter identifier. This delimitation |Restricted| 'F' | | |this I-object SFDU label uses for its last | ASCII-1 | | | |eight bytes. A value of 'F' indicates that | | | | |this label ends with the value specified in | | | | |bytes 12 to 19, which implies that the | | | | |I-object ends with an EOF marker. The value | | | | |of 'F' is required per PDS Stds Ref., p.16-7. | | | | |Also refer to MGDS User's Guide/Working with | | | | |File Data (JPL D-6060), Ch.2; AnyCatalog, | | | | |p.4-12 to 4-13. | | | |------+----------------------------------------------+----------+----------| | 7 |Reserved. This byte is a spare field. |Restricted| '0' | | | | ASCII-1 | | |------+----------------------------------------------+----------+----------| | 8-11 |Data description package identifier. This |Restricted| 'T234' | | |field uniquely identifies (for the specified | ASCII-4 | | | |Control Authority, i.e., NJPL, per bytes 0 to | | | | |3) the data object [or value (V) field of this| | | | |LVO]. | | | |------+----------------------------------------------+----------+----------| | 12-19|Length attribute of the SFDU. The end of this| Standard |'00000001'| | |LVO is designated by marker - in this case, an| ASCII-8 | | | |EOF marker. The EOF marker is specified in | | | | |this I-object SFDU label as '00000001.' Note | | | | |that the EOF marker terminating the I-object | | | | |serves a dual purpose in that it also | | | | |terminates the entire file, per bytes 12 to 19| | | | |of the primary SFDU label. The value of | | | | |'00000001' is required per PDS Stds Ref., | | | | |p.16-7. Also refer to MGDS User's | | | | |Guide/Working with File Data (JPL D-6060), | | | | |Ch.2; AnyCatalog, p.4-12 to 4-13. | | | |===========================================================================| B.2.4 Binary Data Object Starting at byte 80+M (M being the length of the catalog field) is the binary data object. The binary data object of the file contains a series of CHDO SFDUs in time-sorted order. That is, given a file containing different data types, all the data types are interleaved based on time. The CHDOs are defined in Section 3. The total length of the binary data object is L bytes. B.2.5 End of File (EOF) Starting at byte 80+M+L (M being the length of the catalog field and L being the length of the binary data object) is the end of the file (EOF) marker. This 8 byte marker is defined in the Primary Label field, bytes 12 to 19. The value of the EOF marker is '00000001'.