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Band decoder for Arduino
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!Configure inputs uncomment and activate '''only one input''' in source code {{//=====[ Inputs ]============================================================================================= // #define INPUT_SERIAL // telnet ascii input - cvs format [band],[freq]\n (serial.h) // #define ICOM_CIV // read frequency from CIV (icom_civ.h) ** you must enabled 'CI-V transceive' in TRX settings, and disable ICOM_CIV_OUT ** // #define KENWOOD_PC // RS232 CAT (kenwood_pc.h) // #define YAESU_BCD // TTL BCD in A (yaesu_bcd.h) // #define ICOM_ACC // voltage 0-8V on pin4 ACC(2) connector - need calibrate in (icom_acc.h) }} And connect to TRX as described below Available Inputs * [Input Serial|Band decoder for Arduino#Input_Serial] * [ICOM CIV|Band decoder for Arduino#ICOM_CIV] * [KENWOOD CAT|Band decoder for Arduino#KENWOOD_CAT] * [YAESU CAT|Band decoder for Arduino#YAESU_CAT] * [YAESU BCD|Band decoder for Arduino#YAESU_BCD] * [ICOM ACC(2)voltage|Band decoder for Arduino#ICOM_ACC_2__voltage] [In>Out Context table -->|https://remoteqth.com/arduino-band-decoder.php#input-outputs-context] !!Input Serial Activate uncomment line {{#define INPUT_SERIAL}} Not need any hardware settings, only send via USB to serial line ascii characters in preconfigured baudrate. {{X,YYYYYYY\n}} *'''X''' - band output in range 0-14, if activate BCD output range is 0-10 because 11-14 reserved for BCD. 0 (zero) = no output will be turned on. *'''YYYYYYY''' - frequency in Hz - has no effect on the output relays, used if any CIV/CAT outputs activated. *'''\n''' - is LF Line Feed (0A in hex) [https://remoteqth.com/img/wiki-bd-serial.png] [Next > Configure outputs -->|Band decoder for Arduino#Configure_outputs] !!ICOM CIV Input works in ''sniff'' mode (data over one wire - RXD). This means that it is necessary to provide, transmit frequency of TRX to serial line * enabled '''CI-V transceive''' in TRX menu settings * comunicate with TRX by other device or '''software''' (for example logbook with CAT support) '''Activate''' uncomment line {{#define ICOM_CIV}} Requires baud rate and '''CIV address''' in setting section of source code {{#define SERBAUD 9600 // [baud] Serial port in/out baudrate #define CIV_ADRESS 0x56 // HEX Icom adress (0x is prefix)}} '''Deactivate''' watchdog and request {{// #define WATCHDOG 10 // [sec] determines the time, after which the all relays go OFF, if missing next input data - uncomment for the enabled // #define REQUEST // use TXD output for sending frequency request (Kenwood PC, Yaesu CAT, Yaesu CAT old, Icom CIV)}} In icom_civ.h file you can set '''rules to select individual output''' relays, with a resolution of one Hz. {{ //=====[ Frequency (Hz) to Band rules ]====================================== // you can expand rules up to 14 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 //===========================================================================}} [https://remoteqth.com/img/wiki-bd-input-icom-civ.png|noborder] * short '''JP2''' left (RXD) [Next > Configure outputs -->|Band decoder for Arduino#Configure_outputs] !!KENWOOD CAT Input works in ''sniff'' mode (data over one wire - RXD). This means that it is necessary to provide, transmit frequency of TRX to serial line * comunicate TRX with other device or '''software''' (for example logbook with CAT support) * activate function '''Frequency request''' which utilizes data output TXD, and prevent the use of any from CAT/CIV output. '''Activate''' uncomment line {{#define KENWOOD_PC}} Requires '''baud rate''' in setting section of source code {{#define SERBAUD 9600 // [baud] Serial port in/out baudrate // #define WATCHDOG 10 // [sec] determines the time, after which the all relays go OFF, if missing next input data - uncomment for the enabled // #define REQUEST // use TXD output for sending frequency request (Kenwood PC)}} You can also use functions * '''WATCHDOG''' - determines the time, after which the all relay OFF, if missed next input data * '''REQUEST''' - use TXD output for sending frequency request - and prevent the use of any from CAT/CIV output. In kenwood_pc.h file you can set '''rules to select individual output''' relays, with a resolution of one Hz. {{ //=====[ Frequency (Hz) to Band rules ]====================================== // you can expand rules up to 14 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 //===========================================================================}} [https://remoteqth.com/img/wiki-bd-kenwood1.png|noborder] * short '''JP2''' right (RXD) * short '''JP7''' (PWR max232) [https://remoteqth.com/img/wiki-bd-kenwood2.png|noborder] * short '''JP2''' right (RXD) * short '''JP1''' right (TXD) * short '''JP7''' (PWR max232) [Next > Configure outputs -->|Band decoder for Arduino#Configure_outputs] !!!KENWOOD TS-x50 CAT This small PCB inverted TTL signal for old Kenwood RTX. * compatibile with Band decoder rev. 0.6 or higher * no more jumper needs * only plug small add-on to master pcb * connections to radio by DATA RJ45 connector [https://remoteqth.com/img/wiki-bd-kenwood-ts-x50.jpg] !!YAESU CAT Input worked in ''sniff'' mode (data over one wire - RXD). This means that it is necessary to provide, transmit frequency of TRX to serial line * comunicate TRX with other device or '''software''' (for example logbook with CAT support) * activate function '''Frequency request''' which utilizes data output TXD, and prevent the use of any from CAT/CIV output. '''Activate''' uncomment line {{#define YAESU_CAT}} Requires '''baud rate''' in setting section of source code {{#define SERBAUD 9600 // [baud] Serial port in/out baudrate // #define WATCHDOG 10 // [sec] determines the time, after which the all relay OFF, if missed next input data - uncomment for the enabled // #define REQUEST // use TXD output for sending frequency request (Kenwood PC, Yaesu CAT)}} You can also use functions * '''WATCHDOG''' - determines the time, after which the all relay OFF, if missed next input data * '''REQUEST''' - use TXD output for sending frequency request - and prevent the use of any from CAT/CIV output. In yaesu_cat.h file you can set '''rules to select individual output''' relays, with a resolution of one Hz. {{ //=====[ Frequency (Hz) to Band rules ]====================================== // you can expand rules up to 14 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 {BAND=0;} // out of range //===========================================================================}} [https://remoteqth.com/img/wiki-bd-yaesu1.png|noborder] * short '''JP2''' right (RXD) * short '''JP7''' (PWR max232) [https://remoteqth.com/img/wiki-bd-yaesu2.png|noborder] * short '''JP2''' right (RXD) * short '''JP1''' right (TXD) * short '''JP7''' (PWR max232) [Next > Configure outputs -->|Band decoder for Arduino#Configure_outputs] !!YAESU BCD '''Activate''' uncomment line {{#define YAESU_BCD}} In yaesu_bcd.h file you can set '''rules to select individual output''' relays, dependency to BCD input. {{=======[ Input BCD ]==================================================================== BCD 1 --> */ { 0, 1, 0, 1, 0, 1, 0, 1, 0, 1, 0, 1, 0, 1, 0 }, /* BCD 2 --> */ { 0, 0, 1, 1, 0, 0, 1, 1, 0, 0, 1, 1, 0, 0, 1 }, /* BCD 3 --> */ { 0, 0, 0, 0, 1, 1, 1, 1, 0, 0, 0, 0, 1, 1, 1 }, /* BCD 4 --> */ { 0, 0, 0, 0, 0, 0, 0, 0, 1, 1, 1, 1, 1, 1, 1 }, /* | | | | | | | | | | | | | | | V V V V V V V V V V V V V V V ------------------------------------------------------------------------------------- Band # in matrix table 0 1 2 3 4 5 6 7 8 9 10 11 12 13 14 Yaesu BCD 160 80 40 30 20 17 15 12 10 6m <--- free ---> ------------------------------------------------------------------------------------- ========================================================================================}} [https://remoteqth.com/img/wiki-bd-yaesu.png|noborder] [Next > Configure outputs -->|Band decoder for Arduino#Configure_outputs] !!ICOM ACC(2) voltage '''Activate''' uncomment line {{#define ICOM_ACC}} In icom_acc.h file you can set '''voltage range rules to select individual output''' relays. {{ //=====[ Icom ACC voltage range ]=========================================================== if (VOLTAGE > 0.73 && VOLTAGE < 1.00 ) {BAND=10;} // 6m * * * * * * * * * * * * * * * * if (VOLTAGE > 1.00 && VOLTAGE < 1.09 ) {BAND=9;} // 10m * Need * if (VOLTAGE > 1.09 && VOLTAGE < 1.32 ) {BAND=8;} // 12m * calibrated to your * if (VOLTAGE > 1.32 && VOLTAGE < 1.55 ) {BAND=7;} // 15m * own ICOM * if (VOLTAGE > 1.55 && VOLTAGE < 1.77 ) {BAND=6;} // 17m * ---------------- * if (VOLTAGE > 1.77 && VOLTAGE < 2.24 ) {BAND=5;} // 20m * (These values have * if (VOLTAGE > 0.10 && VOLTAGE < 0.50 ) {BAND=4;} // 30m * been measured by any) * if (VOLTAGE > 2.24 && VOLTAGE < 2.73 ) {BAND=3;} // 40m * ic-746 * if (VOLTAGE > 2.73 && VOLTAGE < 2.99 ) {BAND=2;} // 80m * * if (VOLTAGE > 2.99 && VOLTAGE < 4.00 ) {BAND=1;} // 160m * * * * * * * * * * * * * * * * if (VOLTAGE > 0.00 && VOLTAGE < 0.10 ) {BAND=0;} // parking //==========================================================================================}} When calibrating can read the measured voltage in the terminal, enable the echo function and set serial baudrate {{#define SERIAL_echo #define SERBAUD 9600}} [https://remoteqth.com/img/wiki-bd-icom.png|noborder] * short '''JP3''' [Next > Configure outputs -->|Band decoder for Arduino#Configure_outputs]
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