White sands missile range reagan test site yuma proving ground
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List of TablesTable No. Page No. TABLE 2-1. TELEMETRY FREQUENCY ALLOCATIONS 2 TABLE 2-2. FQPSK-JR SHAPING FILTER DEFINITION 8 Table 2-3. FQPSK-B and FQPSK-JR phase map 10 TABLE 2-4. SOQPSK-TG PARAMETERS 12 TABLE 2-5. SOQPSK PRE-CODING TABLE FOR IRIG-106 COMPATIBILITY 13 TABLE 2-6. DIBIT TO IMPULSE AREA MAPPING 14 TABLE 3-1a. PROPORTIONAL-BANDWIDTH FM SUBCARRIER CHANNELS 2 7.5% CHANNELS 2 TABLE 3-1B. PROPORTIONAL-BANDWIDTH FM SUBCARRIER CHANNELS 3 15% CHANNELS 3 TABLE 3-1c. PROPORTIONAL-BANDWIDTH FM SUBCARRIER CHANNELS 4 30% CHANNELS 4 TABLE 3-2. CONSTANT-BANDWIDTH FM SUBCARRIER CHANNELS 6 TABLE 3-3. REFERENCE SIGNAL USAGE 7 TABLE 6-1. RECORD and REPRODUCE PARAMETERS 8 TABLE 6-2. DIMENSIONS – RECORDED TAPE FORMAT 9 TABLE 6-3. DIMENSIONS – RECORDED TAPE FORMAT 10 TABLE 6-4. DIMENSIONS – RECORDED TAPE FORMAT 11 TABLE 6‑5. CONSTANT‑AMPLITUDE SPEED‑CONTROL SIGNALS(1) 21 TABLE 6‑6. PREDETECTION CARRIER PARAMETERS 22 TABLE 6‑7. WIDE BAND AND DOUBLE DENSITY FM RECORD PARAMETERS 23 TABLE 6‑8. MAXIMUM RECOMMENDED BIT RATES, POST- 25 DETECTION RECORDING(1) 25 TABLE 6-9. MAXIMUM RECOMMENDED BIT RATES 26 TABLE 6-10. RECORD LOCATION AND DIMENSIONS 31 TABLE 6-11. TAPE LENGTH AND NOMINAL PLAY RECORD/ 31 REPRODUCE TIME AT 240 MEGABITS/SECOND USER DATA RATE 31 TABLE 6-12. SCANLIST BUILD STEPS 58 TABLE 6-13. SAMPLE ARMOR FRAME 59 TABLE 6-14. 60 TIME CODE WORD FORMAT 60 BIT 60
LEGEND 60 TABLE 6-15 COMMAND SUMMARY 65 TABLE 6-16. COMMAND ERROR CODES 66 TABLE 6-17. RECORDER STATES 76 TABLE 6-18. COMMAND VALIDITY MATRIX 81 TABLE 6-19. REQUIRED COMMANDS 82 TABLE 7‑1. TAPE DIMENSIONS 6 TABLE 7-2. MEASUREMENT WAVELENGTHS 8 TABLE 7-3. DURABILITY SIGNAL LOSSES 10 TABLE 7-4. SUGGESTED TAPE REQUIREMENT LIMITS 12 TABLE 7-4A. SUGGESTED WAVELENGTH RESPONSE REQUIREMENTS 12 TABLE 9-1. general information GROUP (G) 8 TABLE 9-2. TRANSMISSION ATTRIBUTES GROUP (T) 12 TABLE 9-3. TAPE/STORAGE SOURCE ATTRIBUTES GROUP (R) 19 TABLE 9-4. MULTIPLEX/MODULATION GROUP (M) 28 table 9-5. pcm format attributes group (P) 34 TABLE 9-6. PCM MEASUREMENT DESCRIPTION GROUP (D) 47 table 9-7. bus data attributes group (B) 59 TABLE 9-8. PAM ATTRIBUTES GROUP (A) 65 table 9-9. data conversion attributes group (c) 71 Table 10-1. 7 “required” scsi commands, features, and parameters 7 Table 10-2. Directory Block Format – Primary Block 11 Table 10-3. Directory ENTRY Format 12 TABLE 10-3 (Cont’d). DIRECTORY ENTRY FORMAT 13 table 10-4. correspondence of bits to bytes 14 table 10-5. 14 prohibited characters hexidecimal representation 14 Table 10-6. MP@ML algorithms 54 B Table A-1. COEFFICIENTS FOR MINIMUM FREQUENCY SEPARATION CALCULATION 5 TABLE C-1. OPTIMUM FRAME SYNCHRONIZATION PATTERNS FOR PCM TELEMETRY 3 TABLE D-1. DIMENSIONS - RECORDED TAPE FORMAT 4 7 Tracks Interlaced on 12.7-mm (1/2 in.) Wide Tape 4 TABLE D-2. DIMENSIONS - RECORDED TAPE FORMAT 5 TABLE D-3. DIMENSIONS - RECORDED TAPE FORMAT 6 42 Tracks Interlaced on 25.4-mm (1-in.) Wide Tape 6 TABLE F-1. DECODER REFERENCE DIGITAL PATTERNS FOR CVSD 7 TABLE F-2. INSERTION LOSS LIMITS FOR CVSD 8 TABLE F-3. IDLE CHANNEL NOISE LIMITS FOR CVSD 11 TABLE L-1. ARMOR SETUP PREAMBLE 1 TABLE L-2. SETUP ORGANIZATION 2 TABLE L-3. HEADER SECTION FORMAT 3 TABLE L-4. CHANNEL ENTRY LENGTHS 4 TABLE L-5. PCM INPUT CHANNELS 5 TABLE L-6. ANALOG INPUT AND OUTPUT CHANNELS 6 TABLE L-7. ANALOG INPUT AND OUTPUT CHANNELS 7 TABLE L-8. PARALLEL INPUT CHANNELS 7 TABLE L-9. PARALLEL OUTPUT CHANNELS 8 TABLE L-10. TIME CODE INPUT CHANNELS 11 TABLE L-11. TIME CODE OUTPUT CHANNELS 12 TABLE L-12. VOICE INPUT CHANNEL 13 TABLE L-13. VOICE OUTPUT CHANNELS 14 TABLE L-14. BIT SYNC INPUT CHANNELS 15 TABLE L-15. TRAILER SECTION FORMAT 16 TABLE M-2. RESPONSE TO RUN OF 1s 27
PrefaceThe IRIG-106 Telemetry Standards document is now published in two parts. Part I contains the more familiar information and standards that have been evolved over the years. Part II is devoted to the standards associated with the present technological evolution/ revolution in the telemetry networks area. It is important to note that Part II is a “work in progress.” The newly formed Telemetry Networks Committee, within the Telemetry Group, is currently reviewing Part II to determine if it is appropriately structured to guide the implementation of telemetry network technology at member ranges. The findings may result in significant updates and revisions to Part II in future releases of IRIG-106. The Telemetry Group of the Range Commanders Council has prepared this document to foster the compatibility of telemetry transmitting, receiving, and signal-processing equipment at the member ranges. The range commanders highly recommend that telemetry equipment operated by the ranges and telemetry equipment used in programs that require range support conform to these standards. These standards do not necessarily define the existing capability of any test range, but constitute a guide for the orderly implementation of telemetry systems for both ranges and range users. The scope of capabilities attainable with the use of these standards requires a careful consideration of tradeoffs. Guidance concerning tradeoffs is provided in the text. These standards provide the necessary criteria on which to base equipment design and modification. The ultimate purpose is to ensure efficient spectrum utilization, interference free operation, interoperability between ranges, and compatibility of range user equipment with the ranges. This standard, published in two parts, is complemented by a companion series, RCC Document 118, Test Methods for Telemetry Systems and Subsystems, and RCC Document 119, Telemetry Applications Handbook. The policy of the Telemetry Group is to update the telemetry standards and test methods as required being consistent with advances in the state of the art. To determine the current revision status, contact the RCC Secretariat. Secretariat, Range Commanders Council CSTE-DTC-WS-RCC 100 Headquarters Avenue White Sands Missile Range, New Mexico 88002-5110 TELEPHONE: (505) 678-1107 DSN 258-1107 EMAIL rcc@wsmr.army.mil This page intentionally left blank. Acronyms and InitialismsADARIO Analog/Digital/Adaptable/Recorder Input/Output AFC automatic frequency control AFTRCC Aerospace and Flight Test Radio Coordinating Council AFVP ARMOR Format Verification Program AGC automatic gain control ALC automatic level control AM amplitude modulation anal analog ANSI American National Standards Institute APC automatic phase control ARMOR Asynchronous Real-time Multiplexer and Output Reconstructor ARTM Advanced Range Telemetry AWGN additive white Gaussian noise
BDLN bus data link name BEP bit error probability BER bit error rate BiØ-L bi-phase level BIT built-in test BM block marker BMD block marker division BOD beginning of data BOM beginning of media bps bits per second BRC block rate clock BW bandwidth cass cassette CCM command and control mneonics CDS code word digital sum CDT channel data type CHN channel CHP channel parameter CHT channel type CPFSK continuous phase frequency shift keying CR carriage return CSR clock slip rate CVSD continuous variable slope delta CW continuous wave CWDS code word digital sum
dBm decibels referenced to 1 milliwatt dc direct current DCAC direct current or alternating current DIBITS digital in-band interswitch trunk signaling DLN data link name DoD Department of Defense DPOC dubbing organization point of contact DS data synchronization/sync DSI data source ID DSB double sideband DSV digital sum variation DW data words
EDAC error detection and correction ENR excess noise ratio EOD end of data EOF end of file EOM end of media EIRP effective isotropic radiated power
FCC Federal Communications Commission FDM frequency division multiplex FET field effect transistor FFI frame format identification/identifier FIR finite impulse response FM frequency modulation
FQPSK Feher’s-patented quadrature phase shift keying FS framing and signaling fsc frequency of speed control FTPMM flux transistors per millimeter
GPS global positioning system G/T gain/temperature
HDDR high density digital recording HE high energy HR high resolution HW header words ID identification IF intermediate frequency IM intermodulation IMD intermodulation distortion IP intercept point ips inches per second IRAC Interdepartmental Radio Advisory Committee IRIG Interrange Instrumentation Group ISO International Standards Organization ITDE interchannel time displacement error ITU International Telecommunications Union kHz kilohertz ks kiloseconds LAOR left subchannel over range LBOT logical beginning of tape LEOT logical end of tape LF line feed LIFO last in first out LO local oscillator or longitudinal log logarithm LPF low pass filter lsb least significant bit of a series of bits LSB least significant byte of a series of bytes LSLW least significant long word LSW least significant word MAS Military Agency fr Standardization MC master clock MCEB Military Communications-Electronics Board MCS master clock source MCT manufacturer's centerline tape MHz megahertz MIL STD military standard MOD modulating mm millimeter MML magnetic media laboratory msb most significant bit of a series of bits MSB most significant byte of a series of bytes MSCT manufacturer's secondary centerline tape MSK minimum shift keying MUX multiplexing N Newton NADSI NATO Advanced Data Storage Interface NATO North Atlantic Treaty Organization NNT notch noise test NPR noise power ratio NPRF noise power ratio floor NRZ non-return-to-zero NRZ-L non-return-to-zero-level NSIB no samples in block NTIA National Telecommunications and Information Administration OQPSK offset quadrature phase shift keying PAM pulse-amplitude modulation PAR/PARA parallel PB principal block PBN principal block number PBOT physical beginning of tape PCM pulse-code modulation PEOT physical end of tape PI physical interface PLL phase-lock loop PM phase modulation POC point of contact p-p peak-to-peak PRL parallel PRN pseudo random noise PSD power spectral density PSK phase shift keying PTF PCM type format PW partial word PWS partial word status
QPSK quadrature phase shift keying R bit rate RAOR right subchannel over range RCC Range Commanders Council RF radio frequency RH relative humidity RMM removable memory module rms root mean square RNRZ randomized non-return-to-zero RNRZ-L randomized non-return-to-zero-level RO rotary RS Reed-Solomon SE sync error SHW session header words SI Système International d’Unités SMPTE Society of Motion Picture and Television Engineers SNR signal-to-noise ratio SOQPSK Shaped Offset Quadrature Phase Shift Keying SRL serial SSB single sideband SSR solid-state recorder SST session start time ST subterminal STANAG standardization agreement STO storage STA subterminal address sync synchronization
TC tachometer constant/tape code TD time delay TK track
TMATS Telemetry Attributes Transfer Standard TS track sync TTL transistor-transistor logic
UHF ultra high frequency US&P United States and Possessions
VHF very high frequency VLDS very large data store
WC word count This page intentionally left blank.
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