Ham Radio Software on Centos Linux Configuring multitudes of Amateur HAM Radio software for Centos6 Centos5 Linux. Value to the Business The Availability Management process ensures that the availability of systems and services matches the evolving and agreed upon needs of. Download the code, schematics and PCB layout here. The code is split into 2 sections based on whether the CIV is connected. If the CIV is connected by default it is. Updated 20170513 This is an open source Arduino based CW Morse Code keyer with a lot of features and flexibility, rivaling commercial keyers which often cost. Ci V Icom Software Defined' title='Ci V Icom Software Defined' />Complete Technical Acronyms, Glossary Definitions for PC, SAN, NAS, QA, Testing, HDTV, Wireless, Linux, Embedded, Networks, Video, Digital, pharma, Unix, Video. Icom CI V or band Data to Yaesu BCD Band Data Converter Geekshed M1. BXFAfter the 2. 01. Camb Hams DXPedition to Arran and using the Discovery 6. I decided to bite the bullet and go buy a decent 6m Amplifier. I have been thinking of getting an amplifier for HF and 6m for a while but didnt want to have 2 extra amplifiers in the shack, one for HF and one for 6m 5. MHz.   There are a few options about for a combined HF 6m amplifier and luckily a Yaesu VL 1. Quadra 1. KW HF and 5. Martin Lynch and Sons so while standing out in the single spot in the garden at the Arran DX site where I could get decent and reliable Vodafone coverage I gave them a call, agreed a price and had it shipped, bullseye The Quadra needs to switch bands for bandpass switching which can be achieved by sniffing RF from the exciter or via Yeasus 4 bit Band Data interface which most Yaesu radios support. However my exciter is an Icom IC 7. Icom do external band switching by varying a voltage on a single pin between 0v and 8v depending upon the band selected note WARC bands are not individually identified, I could also use the CI V frequency data with CI V Transceive set to ON L Low 0v, H High 5v. The Project. So what I need to do is build an interface which takes the Icom Band Voltage from the Icom IC 7. ACC2 port and converts it to Yaesu 4 bit Band Data. If I wanted to use just CI V I could use a PICAXE 0. M 8 PIN which support 4 output pins, Yaesu Band A to D and one serial in PIN used for CI V but the SERIN support for the 0. M is limited.   I decided to go for a PICAXE 2. X2 as it has a hardware serial pin, supports 1. IC 7. 56pro. 3 manages and gave me plenty of spare pins. My final spec sheet was Auto switching between CI V and Icom analogue band data as source input. Yaesu Band Data to the Quadra VL 1. Support remote onoff switching of the Quadra VL 1. Quadra when the IC 7. Have the PTT line integrated within the interface connections, it is not connected nor needed for the PIC. NOTE  I found the VL 1. Pinout diagrams it has a picture with pins numbered but has a list next to it in in letters A,B,C etc  I also blew the 5. A fuse inside my IC 7. The PICAXE code PICAXE 2. X2. v. 1. 2 released 0. Added funcionality for the 5. B4. AGN BPF on Pins. C. v. 1. 1 released 2. Improved CI V string searching. Additional checks in Band Data routine to ensure we didnt get there by mistake. Initial release. SYMBOL m. SYMBOL m. 80 0. SYMBOL m. SYMBOL m. 40 0. SYMBOL m. SYMBOL m. 20 0. SYMBOL m. SYMBOL m. 15 0. SYMBOL m. SYMBOL m. 10 0. SYMBOL m. A 0. 00. 01. 01. All these symbols are shifted one bit due to pin C. HSEROUT. SYMBOL m. SYMBOL m. 80c 0. SYMBOL m. E 0. 00. 00. 00. SYMBOL m. SYMBOL m. 30c 1. E 0. SYMBOL m. 20c 0. A 0. SYMBOL m. 17c 1. E 0. SYMBOL m. 15c 0. E 0. SYMBOL m. 12c 1. E 0. SYMBOL m. 10c 1. SYMBOL m. E 0. 00. 00. 00. SYMBOL CIVinbaud B1. Change this to CI V serial rate. SYMBOL CIVin. PIN Pin. B. 6. Symbol CIVor. ADC Pin. B. 7. Symbol BandADC 6ADC6. SYMBOL Freq W0 B0, B1. SYMBOL CHSM1 B2 General register used in many places for calculations. SYMBOL CHSM2 B3 General register used in many places for calculations. SYMBOL MHZ B4 MHz register. SYMBOL KHZ B5 KHz register. SYMBOL MClear B6 Used to count the loop for clearing the serial memory. SYMBOL Search B6 Used to count where the CI V identifier will be. SYMBOL Search. 2 B7 Used to count where the CI V checkbit will be. SYMBOL Lookfor B8 Used to substitute h. Ser. Ptr so we have a fixed upper limit when looping. SYMBOL Band B9 Used to save which band we are on, reserved for future use. SETFREQ M6. 4Run the code at 6. MHz let Dirs. A 0. Dirs. B 0. 00. Dirs. C 0. 00. HSERSETUP CIVinbaud,0. IF CIVin. PIN 1 or CIVor. ADC 0 then CI V Code. IF h. Ser. Ptr 0 then goto start No seral data, no need to run the code. Pause 1. 00. 0 wait a while to let the serial buffer to fill. Lookfor h. Ser. Ptr Transfer h. Ser. Ptr value to Lookfor as h. Ser. Ptr can still increase as we loop below. FOR Search 0 to Lookfor Loop to the value of Lookfor. Search. 2 Search 6Search. FD which is 6 places ahead of the CI V identifier. GET Search, CHSM1 for each position in turn load the buffer into CHSM1. GET Search. 2,CHSM2 for each position in turn look 6 places ahead and load into CHSM2. If CHSM1 0. 5 and CHSM2 FD then goto Load. Freq Set frequency 0. FD found. If CHSM1 0. CHSM2 FD then goto Load. Freq Read operating frequency 0. FD found. If CHSM1 0. CHSM2 FD then goto Load. Freq Set frequency 0. FD found. Next Go back to the start of the loop or finish. Goto Clearh. Ser. PtrIf we get here then we didnt find valid 0. Load. FreqWe found valid serial data so process it and output the band data. CHSM1 Search 4Set where to look for MHZ value. CHSM2 Search 3Set where to look for KHZ value. GET CHSM1, MHZRead the CHSM1 location into register MHZ, this is need formatting. GET CHSM2, KHZRead the CHSM2 location into register KHZ, this is need formatting. Bcd. TOASCII MHZ,CHSM1,CHSM2Extract the MHZ serial value to individual registers. CHSM1 CHSM1 4. Format to decimal. CHSM2 CHSM2 4. MHZ CHSM1 1. CHSM2Add them back together. BCDTOASCII KHZ,CHSM1,CHSM2Extract the KHZ serial value to individual registers. KHZ CHSM1 4. 8Format to decimal only need the first value in KHZ case. Freq MHZ 1. 0 Combine the MHZ and KHZ value into one register. Freq Freq KHZ. Select Case FreqGo find a match. Pins. B m. 16. 0Set Pins. B to 0. 00. 00. 00. Pins. C m. 16. 0cSet Pins. C to the value required. Pins. B m. 80 Set Pins. B to 0. 00. 00. 01. Pins. C m. 80cSet Pins. C to the value required. Pins. B m. 60 Set Pins. B to 0. 00. 00. 01. Pins. C m. 60cSet Pins. C to the value required. Pins. B m. 40 Set Pins. B to 0. 00. 00. 01. Pins. C m. 40cSet Pins. C to the value required. Case 1. 00 to 1. 29. Pins. B m. 30 Set Pins. B to 0. 00. 00. 10. Pins. C m. 30cSet Pins. C to the value required. Case 1. 30 to 1. 69. Pins. B m. 20Set Pins. B to 0. 00. 00. 10. Pins. C m. 20cSet Pins. C to the value required. Case 1. 70 to 1. 99. Pins. B m. 17 Set Pins. B to 0. 00. 00. 11. Pins. C m. 17cSet Pins. C to the value required. Case 2. 00 to 2. 29. Pins. B m. 15 Set Pins. B to 0. 00. 00. 11. Pins. C m. 15cSet Pins. C to the value required. Case 2. 30 to 2. 69. Pins. B m. 12Set Pins. B to 0. 00. 01. 00. Pins. C m. 12cSet Pins. C to the value required. Case 2. 70 to 4. 79. Pins. B m. 10Set Pins. B to 0. 00. 01. 00. Pins. C m. 10cSet Pins. C to the value required. Case 4. 80 to 5. 40. Pins. B m. 6Set Pins. B to 0. 00. 01. 01. Pins. C m. 6cSet Pins. C to the value required. ElseNo matcxh found, out of bounds. Pins. B FFSet Pins. B to 0. Pins. C FFSet Pins. C to 0. Goto Clearh. Ser. Ptr. ElseBand Voltage Code. IF h. Ser. Ptr 0 then goto start No seral data, no need to run the code. Read. ADC1. 0 BandADC,Freq. Select Case Freq. Case 8. 60 to 9. 83 1. Pins. B m. 16. 0Set Pins. B to 0. 00. 00. 00. Pins. C m. 16. 0cSet Pins. C to the value required. Case 7. 00 to 7. 99 8. Pins. B m. 80 Set Pins. B to 0. 00. 00. 01. Pins. C m. 80cSet Pins. C to the value required. Case 5. 75 to 6. 76 6. Pins. B m. 60 Set Pins. B to 0. 00. 00. 01. Pins. C 0. 00. Set Pins. C to the value required. Case 5. 75 to 6. 76. Pins. B m. 40 Set Pins. B to 0. 00. 00. 01. Pins. C m. 40cSet Pins. C to the value required. Case 0. 10 to 1. 47. Pins. B m. 30 Set Pins. B to 0. 00. 00. 10. Pins. C m. 30cSet Pins. C to the value required. Case 4. 50 to 5. 53. Pins. B m. 20Set Pins. B to 0. 00. 00. 10. Pins. C m. 20cSet Pins. C to the value required. Case 3. 69 to 4. 30. Pins. B m. 17 Set Pins. B to 0. 00. 00. 11. Commander. Alinco DX7. E, DX7. 7 TDZKIT. SIENNAElecraft K2, K3, KX3. Flex. Radio SDR 1. FLEX 1. 50. 0, SDR 3. SDR 5. 00. 0, FLEX 6. FLEX 6. 50. 0, FLEX 6. Hilberling. PT8. 00. Icom IC 2. 71, IC 2. IC 3. 75, IC 4. IC 4. IC 5. IC 7. 03, IC 7. IC 7. 06. MKII. IC 7. MKIIG, IC 7. 07, IC 7. IC 7. 25, IC 7. IC 7. IC 7. IC 7. 31, IC 7. IC 7. 36, IC 7. IC 7. IC 7. IC 7. 46. Pro, IC 7. IC 7. 56, IC 7. Pro, IC 7. Pro II, IC 7. Pro III, IC 7. IC 7. IC 7. 75, IC 7. IC 8. 20, IC 8. IC 9. H, IC 9. IC 1. 27. IC 1. IC 7. 00. 0, IC 7. IC 7. 20. 0, IC 7. IC 7. 40. 0, IC 7. IC 7. 60. 0, IC 7. IC 7. 80. 0, IC 7. IC 7. 85. 1, IC 9. Icom R1. 0, R7. 1, R7. R7. 5, R7. 00. 0, R7. R8. 50. 0, R9. 00. JRC JRC 1. 45. JRC 2. Kachina 5. 05. Kenwood TS 5. Harold Rosenberg The Tradition Of The New Pdf Books. TS 4. 40. TS 4. TS 4. TS 5. TS 5. 90, TS 5. SG. TS 6. 90, TS 7. TS 7. 90, TS 8. TS 8. TS 8. TS 9. 40. TS 9. TS 9. 90. S, TS 2. Ten. Tec Argonaut II, Argonaut V. Argonaut. VI, Delta II, Eagle. Jupiter, Omni. V. Omni. VI, Omni VII, Orion, Orion II, Pegasus. Yaesu FT 1. 00, FT 4. FT 7. 36. FT 7. FT 7. FT 7. GX, FT 7. 57. GXII, FT 7. FT 8. FT 8. FT 8. 47, FT 8. FT 8. 90. FT 8. FT 9. FT 9. FT 9. 50, FT 9. FT 9. 91, FT 1. D, FT 1. MP, FT 1. MP. MARK V, FT 2. FTDX 1. 20. 0. FTDX 3. FTDX 5. 00. 0, FTDX 9.