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LIST OF FIGURESFigure No. Page No. Figure 2-1. FQPSK-JR Baseband Signal Generator 7 Figure 2-2. Basic SOQPSK. 10 Figure 2-3. SOQPSK Transmitter. 12
Figure 4-1. PCM code definitions. 3 Figure 4-2. PCM frame structure. 5 Figure 4-3 16 bit standardized time word format. 9 Figure 4-4. Time word insertion into 12 bit PCM word size. 9 Figure 4-5. Asynchronous word structure. 11 Figure 4-6 Overhead truth table. 11 Figure 5-1. Insertion of CVSD encoded audio into a PCM stream. 2 Figure 6-1. Recorded tape format. 12 Figure 6-2. Record and reproduce head and head segment identification and location (N-track interlaced system). 13 Figure 6-5. Serial high-density digital record and reproduce. 27 Figure 6-6. Location and dimensions of recorded tracks. 30 Figure 6-7. ADARIO block format. 33 Figure 6-8. ADARIO data format. 34 Figure 6-9a. Submux data format. 38 Figure 6-9b. Submux data format. 39 Figure 6-10. Helical track dimensions, B format. 41 Figure 6-11. Helical track dimensions, E format. 41 Figure 6-12. Recorded tracks on tape, B format. 45 Figure 6-13. Tape cartridge layout. 46 Figure 6-14. Helical track format. 47 Figure 6-15. Typical VLDS data path electronics block diagram. 49 Figure 6-16. Interleave buffer architectures. 51 Figure 6-17. The steps of the build process. 57 Figure 6-18. Recorder state transition diagram. 64 Figure 8-1. System block diagram. 2 Figure 8-2. Word construction. 4 Figure 8-3. Composite frame structure. 7 Figure 8-4. Multiple tape track spread format (4-track spread example). 8 Figure 9-1. Group relationships. 6 Figure 9-2. General Information Group (G). 7 Figure 9-3. Transmission Attributes Group (T). 11 Figure 9-4. Tape/Storage Source Attributes Group (R). 17 Figure 9-5. Multiplex/Modulation Attributes Group (M). 27 Figure 9-6. PCM Format Attributes Group (P). 31 Figure 9-7. PCM Measurement Description Group (D). 45 Figure 9-8. Bus Data Attributes Group (B). 57 Figure 9-9. PAM Attributes Group (A). 64 Figure 9-10. Data Conversion Attributes Group (C). 69 Figure 10-1. Functional layout of standard. 2 Figure 10-2. Directory Block Structure. 9 Figure 10-3. Directory Block (as depicted in STANAG 4575). 10 16 Figure 10-4. General Packet Format. 16 Figure 10-5. A 32-Bit Packet Format Layout. 17 18 Figure 10-6. Packet trailer for 32-bit Data Checksum. 18 18 Figure 10-7. Packet trailer for 8-bit Data Checksum. 18 23 Figure 10-8. General PCM Data Packet, Format 1. 23 Figure 10-9. PCM Packet Channel Specific Data format. 24 26 Figure 10-10. PCM Data – Unpacked Mode Sample Packet. 26 27 Figure 10-11. PCM Data – Packed Mode Sample Packet. 27 28 Figure 10-12. PCM Data – Throughput Mode sample packet. 28 28 Figure 10-13. PCM Intra-Packet header. 28 30 Figure 10-14. General Time Data Packet, Format 1. 30 Figure 10-15. Time Data Packet Channel Specific Data Word format. 30 Figure 10-16a. Time Data - Packet Format, Day Format. 32 Figure 10-16b. Time Data - Packet Format, Day, Month, And Year Format. 32 Figure 10-17. MIL-STD-1553 Packet Body Channel Specific Data Word format. 32 Figure 10-18. MIL-STD-1553 Data Packet, Format 1. 33 34 Figure 10-19. MIL-STD-1553 Intra-Packet Data Header. 34 Figure 10-20. Block Status Word bit definitions. 34
Figure 10-22. MIL-STD-1553 Data Packet, Format 1. 37 38 Figure 10-23. Generic Analog Data Packet, Format 1. 38 Figure 10-24. Analog Data Packets, Channel Specific Data word format. 39 43 Figure 10-25. Analog Data Packet – msb Unpacked Mode. 43 44 Figure 10-26. Analog Data Packet – lsb Unpacked Mode. 44 44 Figure 10-27. Analog Data Packet – Packed Mode packet. 44 45 Figure 10-28. General Discrete Data Packet, Format 1. 45 Figure 10-29. Discrete packet Channel Specific Data word format. 45
Figure 10-31. Discrete Event Intra-Packet Data Header. 46 47 Figure 10-32. Discrete Data – Packet format. 47 48 Figure 10-33. General Computer Generated Data Packet format. 48 Figure 10-34. Computer Generated Data Packet - Channel Specific Data word format. 48 49 Figure 10-35. ARINC-429 Data Packet format. 49 Figure 10-36. ARINC 429 Packet Channel Specific Data Word format. 49 Figure 10-37. ARINC 429 ID Word bit definitions. 50 51 Figure 10-38. Message Data Packet format. 51 Figure 10-39. Complete Message Channel Specific Data Word Format. 51 Figure 10-40. Segmented type of Packet Body Channel Specific Data Word format. 52 53 Figure 10-41. Message Data Intra-Packet Header. 53 Figure 10-42. Intra-Packet Data Header format. 53 55 Figure 10-43. General MPEG-2 Video Packet, Format 0. 55 Figure 10-44. Video Packet Channel Specific Data Word format. 55 57 Figure 10-45. Format 0 MPEG-2 Video Frame Sync and Word format. 57 57 Figure 10-46. Format 0 MPEG-2 Video Data – sample packet. 57 Figure 10-47. Image Packet, Format 0. 58 Figure 10-48. Image Packet Channel Specific Data Word format. 58 59 Figure 10-49. Format 1 Image Data Intra-Packet Data Header. 59 Figure 10-50. UART Data Packet Format 0. 60 Figure 10-51. UART Packet Channel Specific Data Word, Format 0. 61 61 Figure 10-52. UART Data Intra-Packet Data Header. 61 Figure 10-53. UART Data ID Word format. 62 63 Figure 10-54. Required Discrete Control Functions. 63 Figure 10-55. Discrete Control and Indicator functional diagram. 65
Figure A-6. Bi PCM/PM signal 13 Figure A-7. FM/AM signal and Carson’s Rule 13 Figure A-8. Typical receiver RLC IF filter response (-3 dB bandwidth = 1 MHz). 15 Figure A-9. RLC and SAW IF filters 16 Figure A-10. Filtered 5-Mb/s RNRZ PCM/FM signal and spectral mask. 18 Figure A-11. Unfiltered 5-Mb/s RNRZ PCM/FM signal and spectral mask. 18 Figure A-12. Typical 5-Mb/s SOQPSK‑TG signal and spectral mask. 20 Figure A-13. Typical 5-Mb/s ARTM CPM signal and spectral mask. 20 Figure A-14. OQPSK modulator. 21 Figure A-15. I & Q constellation. 21 Figure A-16. FQPSK wavelet eye diagram. 22 Figure A-17. FQPSK-B I & Q eye 22 diagrams (at input to IQ modulator). 22
Figure A-25. Power spectrum of 5 Mb/s 26 ARTM CPM. 26
Figure C-3. Theoretical bit error probability performance for various baseband PCM signaling techniques (perfect bit synchronization assumed). 4 Figure C-4. Major Frame Length = Minor Frame Maximum Length. 6
Figure D-4. Random PCM power spectra. 13 Figure D-5a. Bi-L at bit packing density of 15 kb/in. 14 Figure D-5b. RNRZ-L at bit packing density of 25 kb/in. 14 Figure D-6. Tape crossplay. 17 Figure D-7. Square wave responses. 22 Figure F-1a. Typical CVSD encoder. 2 Figure F-1b. Typical CVSD decoder. 2 Figure F-2. Typical envelope characteristics of the decoder output signal for CVSD. 5 Figure F-3. Interface diagram for CVSD converter. 7 Figure F-4a. Insertion loss versus frequency for CVSD (16 kbps). 9 Figure F-4b. Insertion loss versus frequency for CVSD (32 kbps). 9 Figure F-5a. Variation of gain with input level for CVSD (16 kbps). 10 Figure F-5b. Variation of gain with input level for CVSD (32 kbps). 10 Figure F-6a. Signal to quantizing noise ratio vs input level for CVSD (16 kbps). 11 11 Figure F-6b. Signal to quantizing noise ratio vs input level for 11 CVSD (32 kbps). 11
Figure F-7b. Signal to quantizing noise ratio versus frequency for CVSD (32 kbps). 12 Figure G-1. ADARIO data format. 2 Figure G-2. ADARIO data blocks. 3 Figure G-3. ADARIO timing. 4 Figure G-4a. Submux data format. 18 Figure G-4b. Submux data format. 19 Figure G-5. Submux aggregate format. 20 Figure H-1. Typical elements of the telemetry attributes transfer process. 2 Figure I-1. Sample cover sheet for attribute transfer files. 1 2 Figure J-1. Group linkages. 2 Figure J-2. PCM format for PCM w/async. 5 Figure J-3. PCM format for PCM1. 6 Figure J-4. PCM format for async. 7 Figure K-1. 50‑percent duty cycle PAM with amplitude synchronization. 2 Figure K-2. 100‑percent duty cycle PAM with amplitude synchronization. 2 Figure M-1. Transmission System. 22 Figure M-2. OFFSET QPSK 106 Symbol to Phase Mapping Convention. 23 Figure M-3. Detection ambiguity. 23 Figure M-4. QPSK State Timing 24 Figure M-5. OFFSET QPSK State Timing. 25 Figure M-6. Basic SOQPSK Transmitter. 33 Figure M-7. OQPSK Transmitter (with precoder). 34 Directory: legacy -> osmhome legacy -> Ivan Allen Jr. Civic Responsibility Essay Contest legacy -> Issued by Office of International Student Services Revised January 2010 table of contents legacy -> U. S. Department of Justice Civil Rights Division Selected Accomplishments, 2013 legacy -> Antitrust division legacy -> - legacy -> Scientific Software Group legacy -> Appendix recalling a personal best leadership experience legacy -> Seting up an ip sec vpn legacy -> Latency adtran submission to ntia/rus 4-13-09 Introduction Download 9.91 Mb. Share with your friends:
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