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Open interface III
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!!Configure * '''CW keyer''' functionality configure in external files same as in original K3NG code ([manual|https://github.com/k3ng/k3ng_cw_keyer/wiki]) * '''Other function''' configure in master .ino file from line [1198|https://github.com/ok1hra/k3ng_cw_keyer/blob/master/k3ng_keyer/k3ng_keyer.ino#L1198] * how to [upload|https://remoteqth.com/wiki/index.php?page=Open+interface+III#How_to_upload] !!!WinTest Need enable line {{#define OPTION_WINKEY_2_HOST_CLOSE_NO_SERIAL_PORT_RESET}} in file '''keyer_features_and_options_open_interface.h''' [https://remoteqth.com/img/wiki-open-interface-3-wintest.png|noborder] Tested version 4.24.0-DXP !!!N1MM Need enable line {{#define OPTION_WINKEY_2_HOST_CLOSE_NO_SERIAL_PORT_RESET}} in file '''keyer_features_and_options_open_interface.h''' [https://remoteqth.com/img/wiki-open-interface-3-n1mm.png|noborder] Tested version 1.0.6164.0 !!! PTT TRX For TRX you can configure one from three PTT outputs for each mode seperatly * '''PTT1''' - pin 8 on DB25 * '''PTT2''' - pin 20 on DB25 * '''PTT3(mic)''' - pin 22 on DB25 (typicaly for front mic PTT) Firmware configure section: {{ // 1 = pin8 at DB25 | 2 = pin20 at DB25 | 3 = pin22 at DB25 #define PTTmodeCW 1 // [1-3] How PTT TRX output use in mode CW #define PTTmodeSSB 3 // [1-3] How PTT TRX output use in mode SSB #define PTTmodeFSK 1 // [1-3] How PTT TRX output use in mode FSK #define PTTmodeDIGI 2 // [1-3] How PTT TRX output use in mode DIGI(AFSK) }} !!! Sequencer controled four outputs in precise seqenced time # '''SEQUENCER''' - RCA cinch on rear panel # '''PTT-PA''' - RCA cinch on rear panel + pin7 in DB25 # '''PTT-TRX''' - one from three PTT outputs, see previous section {{#define SEQUENCERlead 0 // SEQUENCER output lead delay ms between SEQ-->PA #define SEQUENCERtail 200 // SEQUENCER output tail delay ms : : : PA-->SEQ #define PAlead 10 // PA output lead delay ms between : PA-->TRX : : : #define PAtail 200 // PA output tail delay ms : : : TRX-->PA : #define PTTlead 10 // PTT (FSK) lead delay ms between : : TRX-->FSK : : : #define PTTtail 350 // PTT (FSK) tail delay ms : : : FSK-->TRX : : /* | ^ ^ ^ ^ ^ ^ Master SEQUENCERlead ______| | | | | |_____ SEQUENCERtail for CW PAlead ___________| | | |___________ PAtail tail delay PTTlead ________________| |________________ PTTtail }} [https://remoteqth.com/img/wiki-open-interface-3-11.png|noborder] !!!Ethernet * Enable {{#define ETHERNET_MODULE // enable ETHERNET module (must be installed) EXPERIMENTAL}} * DHCP {{#define __USE_DHCP__ // Uncoment to Enable DHCP}} * Fixed IP{{IPAddress ip(192, 168, 1, 220); // IP IPAddress gateway(192, 168, 1, 200); // GATE IPAddress subnet(255, 255, 255, 0); // MASK IPAddress myDns(8, 8, 8, 8); // DNS (google pub)}} !!!!Incoming UDP command * FSK ASCII {{#define UDP_RTTY_PORT 89 // UDP port listen to RTTY character (FSK mode)}} * Commands {{#define UDP_COMMAND_PORT 88 // UDP port listen to command EXPERIMENTAL! // m:#; - Mode # 0-5 // i:#; - INTERLOCK # 0/1 (on/off) // p:#:%; - PTT # 0/1 (on/off), % 0-3 (0=PTTPA, 1=PTT1, 2=PTT2, 3=PTT3)}} !!!!MQTT {{#define MQTT_PATH "oi3" // Identificator your device in MQTT #define MQTT_PORT 1883 // MQTT broker PORT //#define MQTT_LOGIN // enable MQTT broker login #define MQTT_USER "hra" // MQTT broker user login #define MQTT_PASS "" // MQTT broker password IPAddress server(37, 187, 106, 16); // test.mosquitto.org MQTT broker}} [https://remoteqth.com/img/wiki-open-interface-3-10.png|noborder] !!!Master features {{#define K3NG_KEYER // enable CW keyer #define BAND_DECODER // enable Band decoder #define FSK_TX // enable RTTY keying #define FSK_RX // enable RTTY decoder}} !!!Details {{#define YOUR_CALL "call" #define MODE_AFTER_POWER_UP 4 // MODE after start up #define MENU_AFTER_POWER_UP 7 // MENU after start up #define PCB_REV_3_141 // revision of PCB #define BUTTON_BEEP // Mode button beep enable #define VOLTAGE_MEASURE_ADJUST 0.3 // ofset for precise adjust voltage measure}} !!!Band decoder {{// BAND DECODER Inputs #define SERBAUD2 9600 // [baud] CAT Serial port in/out baudrate #define ICOM_CIV // read frequency from CIV (icom_civ.h) ** you must enabled 'CI-V transceive' in TRX settings ** // #define KENWOOD_PC // RS232 CAT (kenwood_pc.h) // #define YAESU_CAT // RS232 CAT (yaesu_cat.h) YAESU CAT since 2015 ascii format // #define YAESU_CAT_OLD // Old binary format RS232 CAT (yaesu_cat_old.h) <------- ** tested on FT-817 ** // #define INPUT_SERIAL // telnet ascii input - cvs format [band],[freq]\n (serial.h) // #define YAESU_BCD // TTL BCD in A (yaesu_bcd.h) // #define ICOM_ACC // voltage 0-8V on pin? ACC connector - need calibrate // BAND DECODER Outputs #define SERBAUD3 115200 // [baud] CAT Serial port in/out baudrate #define BCD_OUT // output 11-14 relay used as Yaesu BCD // #define ICOM_CIV_OUT // send frequency to CIV ** you must set TRX CIV_ADRESS, and disable ICOM_CIV ** // #define KENWOOD_PC_OUT // send frequency to RS232 CAT ** for operation must disable REQUEST ** // #define YAESU_CAT_OUT // send frequency to RS232 CAT ** for operation must disable REQUEST ** // #define REMOTE_RELAY // TCP/IP remote relay - need install and configure TCP232 module // #define SERIAL_echo // Feedback on serial line in same baudrate, CVS format <[band],[freq]>\n // BAND DECODER Settings #define WATCHDOG // determines the time, after which the BCD output switch to OFF and Frequency to 0 - uncomment for the enabled <------------------- nefunguje v request modu #define REQUEST // use TXD output for sending frequency request, if not detect frequency in sniff mode (Kenwood PC, Yaesu CAT, Yaesu CAT old, Icom CIV) #define CIV_ADRESS 0x56 // CIV input HEX Icom adress (0x is prefix) // #define CIV_ADR_OUT 0x56 // CIV output HEX Icom adress (0x is prefix) char* ANTname[17] = { // Name antennas on LCD "-", "Dipole", // Band 1 "Vertical", // Band 2 "Yagi", // Band 3 "Windom", // Band 4 "DeltaLoop", // Band 5 "20m Stack", // Band 6 "-", // Band 7 "-", // Band 8 "-", // Band 9 "-", // Band 10 "-", // Band 11 "-", // Band 12 "-", // Band 13 "-", // Band 14 "-", // Band 15 "-" // Band 16 };}} **'''Frequency to Band''' rules{{//=====[ Frequency (Hz) to Band rules ]====================================== // you can expand rules up to 16 BCD Bands if (freq >= 1810000 && freq <= 2000000 ) {BAND=1;} // 160m else if (freq >= 3500000 && freq <= 3800000 ) {BAND=2;} // 80m else if (freq >= 7000000 && freq <= 7200000 ) {BAND=3;} // 40m else if (freq >= 10100000 && freq <= 10150000 ) {BAND=4;} // 30m else if (freq >= 14000000 && freq <= 14350000 ) {BAND=5;} // 20m else if (freq >= 18068000 && freq <= 18168000 ) {BAND=6;} // 17m else if (freq >= 21000000 && freq <= 21450000 ) {BAND=7;} // 15m else if (freq >= 24890000 && freq <= 24990000 ) {BAND=8;} // 12m else if (freq >= 28000000 && freq <= 29700000 ) {BAND=9;} // 10m else if (freq >= 50000000 && freq <= 52000000 ) {BAND=10;} // 6m else if (freq >= 144000000 && freq <= 146000000 ) {BAND=11;} // 2m else {BAND=0;} // out of range //=========================================================================== }} **'''BCD Output''' matrix table{{ -------------------------------------------------------------------- Band # to output relay 0 1 2 3 4 5 6 7 8 9 10 (Yaesu BCD) 160 80 40 30 20 17 15 12 10 6m -------------------------------------------------------------------- | | | | | | | | | | | V V V V V V V V V V V */ { 0, 1, 0, 1, 0, 1, 0, 1, 0, 1, 0 }, /* --> BCD1 */ { 0, 0, 1, 1, 0, 0, 1, 1, 0, 0, 1 }, /* --> BCD2 */ { 0, 0, 0, 0, 1, 1, 1, 1, 0, 0, 0 }, /* --> BCD3 */ { 0, 0, 0, 0, 0, 0, 0, 0, 1, 1, 1 }, /* --> BCD4 */}; }} !!!FSK (RTTY) {{// Serial2FSK (FSK TX) #define SERBAUD0 115200 // Serial0 in/out baudrate (seria2fsk, ) #define AFSK_ENABLE // AFSK AUDIO (serial2fsk, fsk memory) //#define SERIAL_FSK_TX_ECHO // enable TX echo on serial port //#define SHOW_HIDDEN_FSK_CHAR // show invisible TX characters on LCD #define PTTlead 400 // FSK PTT lead delay ms #define PTTtail 200 // FSK PTT tail delay ms #define MARK 1445 // AFSK mark 1445 / 2295 Hz #define SPACE 1275 // AFSK space 1275 / 2125 Hz #define FMARK HIGH // FSK mark level [LOW/HIGH] #define FSPACE LOW // FSK space level [LOW/HIGH] #define BaudRate 45.45 // RTTY baud rate #define StopBit 1.5 // stop bit long String FSKmemory[3]= { "cq de call call k", // Memory 0 button " call ", // Memory 1 button " 599 15 " // Memory 2 button };}}
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