1. D-STAR A New Way to Communicate

2. Digital Radio System Open System Not Encrypted JARL

3. ・ The terminal is not heavily restricted by the system ・ Compatibility with the Internet ・ Necessity for user’s to be able to make by themselves ・ Operation as a single system with sequential expansion possible via infrastructure maintenance 。 ・ Necessity for communication with existing analog systems Requirements of an Amateur Radio Digital System

4. Simplex Repeaters Backbone Digital Voice High Speed Data

5. Digital data communication via local repeater.

6. Digital voice communication via local repeater.

7. Backbone communication between two repeater sites.

8. Digital transceiver ID-1

9. Block Diagram of ID-1

10. Specification Operating Frequency: 1.2GHz Amateur Band Operating MODE: FM (analog voice) (FDMA) 0.5GMSK (Digital voice / DATA) Data Rate: 8kbps(voice) / 128kbps(data) CODEC: ITU G723.1 Data interface: IEEE802.3 (10Base-T ) RF Power: 10W / 1W Rx Sensitivity: FM -16dBu (typical) 8kbps GMSK voice -10dBu 128kbps GMSK Data +2dBu Switching Time: 10mS(Digital mode) GMSK Modulation: Quadrature Modulator / FPGA(Base Band)

11. 1.2GHz Data Repeater 1.2GHz Voice Repeater 1.2GHz Antenna Local repeaters and antenna

12. 10GHz 90cmφ parabola antenna10GHz backbone repeater Backbone repeater and antenna

13. Composition of the repeater site

14. Repeater site details

15. Wire connection of the repeater site TX Antenna TX Antenna Conneter RX TX CNT b 13.8V Local Repeater b RX TX CNT c 13.8V Local Repeater c TX Antenna RX Antenna RX Antenna RX Antenna TX Antenna RX TX CNT d 13.8V Local Repeater d BRb R Ｘ BRb ＴＸ 13.8V Backbone Repeater b TX RX TX CNT b CNT c CNT d 13.8V BR ａ Ｔ Ｘ BR ａ R Ｘ BRb R Ｘ BRb ＴＸ Local Repeater ａ Tel.Line DC 13.8V Telephone Line BR ａ ＴＸ BR ａ R Ｘ 13.8V Backbone Repeater a TX RX

16. D-STAR protocol Data communication protocol Voice communication protocol Backbone protocol USB of ID-1 control software Application software Software and protocol

17. Composition of Data packet frame Data communication protocol

18. Message transfer

19. Voice communication protocol Composition of Voice packet frame

20. ＡＴＭ（ Asynchronous Transfer Mode ） ATM Ｃｅｌｌ (53byte) → 48byte 5byte Header Ｐａｙｌ ｏａｄ Header Ｐａｙｌ ｏａｄ Backbone protocol

21. Timing of the backbone signals

22. Remote control by personal computer

23. The Internet or server access Applications

24. Small data communications to use data frames in the voice packet. Applications

25. CODEC ・ ACELP (Algebraic Code Excited Linear Prediction) (ITU G723.1) ・ AMBE (Advanced Multi-Band Excitation) ・ VSELP (Vector Sum Exited Linear Prediction) ・ CELP (Code Exited Linear Prediction) ・ RELP (Residual Excited Linear Prediction) MIC Ａ／Ｄ Convert Digital signal

26. ・ ACELP (Algebraic Code Excited Linear Prediction) ・ Low bit rate 5.3Kbps (include 6.3Kbps) ・ Frame size 30mS ・ Algorithm delay 37mS ITU G723.1 CODEC

27. ・ AMBE Coder divides each segment of speech into distinct frequency bands. ・ And makes a voiced/unvoiced decision for each frequency band. ・ This allows the excitation signal for a particular speech segment to be a mixture of periodic and noise-like energy. AMBE CODEC IC

28. D-STAR System