From 8ec69c31b99602abdebad28e7648f01d2919b100 Mon Sep 17 00:00:00 2001 From: morgan Date: Thu, 9 Jul 2015 08:29:50 -0700 Subject: [PATCH] adapted library for au registers --- HamShield.cpp | 313 +++++++++++++++++++------------------ HamShield.h | 29 ++-- examples/Gauges/Gauges.ino | 1 + 3 files changed, 179 insertions(+), 164 deletions(-) diff --git a/HamShield.cpp b/HamShield.cpp index eae5b2f..bfb4d0a 100644 --- a/HamShield.cpp +++ b/HamShield.cpp @@ -70,135 +70,138 @@ void HamShield::initialize() { // Note: these initial settings are for UHF 12.5kHz channel // see the A1846S register table and initial settings for more info - // TODO: update code to make it easier to change from VHF to UHF and 12.5kHz channel to 25kHz channel uint16_t tx_data; // reset all registers in A1846S softReset(); - // set pdn_reg bit in control register (0 or 1?) (now done in softReset) - //I2Cdev::writeBitW(devAddr, A1846S_CTL_REG, A1846S_PWR_DWN_BIT, 1); - tx_data = 0x0698; - I2Cdev::writeWord(devAddr, 0x02, tx_data); // why is this here? See A1846S register init table - + //set up clock to ues 12-14MHz setClkMode(1); - - // set up clock to use 12.8MHz crystal - setXtalFreq(12800); - // set up ADClk frequency to 6.4MHz - setAdcClkFreq(6400); - tx_data = 0xE000; - I2Cdev::writeWord(devAddr, 0x24, tx_data); // why is this here? See A1846S register init word doc + + tx_data = 0x0031; + I2Cdev::writeWord(devAddr, 0x31, tx_data); // included as per AU supplied register table - //could change GPIO voltage levels with writes to 0x08 and 0x09 - // see A1846S register init table - tx_data = 0x03AC; - I2Cdev::writeWord(devAddr, 0x09, tx_data); // why is this here? See A1846S register init word doc + tx_data = 0x44A5; + I2Cdev::writeWord(devAddr, 0x33, tx_data); // agc number - included as per AU supplied register table + + tx_data = 0x2B87; + I2Cdev::writeWord(devAddr, 0x34, tx_data); // Rx digital gain - included as per AU supplied register table - // set PA_bias voltage to 1.68V (and do something else too? what's the 3 for?) - tx_data = 0x0320; - I2Cdev::writeWord(devAddr, 0x0A, tx_data); - - tx_data = 0x1A10; - I2Cdev::writeWord(devAddr, 0x0B, tx_data); // why is this here? See A1846S register init table + tx_data = 0x470F; + I2Cdev::writeWord(devAddr, 0x41, tx_data); // digital gain for Tx - included as per AU supplied register table - tx_data = 0x3E37; - I2Cdev::writeWord(devAddr, 0x11, tx_data); // why is this here? See A1846S register init table + tx_data = 0x0DFF; + I2Cdev::writeWord(devAddr, A1846S_RX_VOLUME_REG, tx_data); - // Automatic Gain Control stuff - // AGC when band is UHF,0x32 = 0x627C;when band is VHF,0x32 = 0x62BC// - tx_data = 0x627c; // this is uhf, for vhf set to 0x62bc - I2Cdev::writeWord(devAddr, 0x32, tx_data); // why is this here? See A1846S register init table - tx_data = 0x0AF2; - I2Cdev::writeWord(devAddr, 0x33, tx_data); // why is this here? See A1846S register init table + tx_data = 0x7FFF; + I2Cdev::writeWord(devAddr, 0x47, tx_data);// soft mute - // why is this here? See A1846S register init word doc - tx_data = 0x0F28; // this is uhf, for vhf set to 0x62bc - I2Cdev::writeWord(devAddr, 0x3C, tx_data); // why is this here? See A1846S register init table - tx_data = 0x200B; - I2Cdev::writeWord(devAddr, 0x3D, tx_data); // why is this here? See A1846S register init table + tx_data = 0x2C62; + I2Cdev::writeWord(devAddr, 0x4F, tx_data);// included as per AU supplied register table + + tx_data = 0x0094; + I2Cdev::writeWord(devAddr, 0x53, tx_data);// included as per AU supplied register table + + tx_data = 0x0081; + I2Cdev::writeWord(devAddr, 0x55, tx_data);// included as per AU supplied register table + + tx_data = 0x0B22; + I2Cdev::writeWord(devAddr, 0x56, tx_data);// sq detection time + + tx_data = 0x1C00; + I2Cdev::writeWord(devAddr, 0x57, tx_data);// bypass rssi lpfilter + + tx_data = 0x0EDB; + I2Cdev::writeWord(devAddr, 0x5A, tx_data);// SQ detection time - // Noise threshold settings - tx_data = 0x1C2F; // see email from Iris - I2Cdev::writeWord(devAddr, 0x47, tx_data); // why is this here? See A1846S register init table + tx_data = 0x101E; + I2Cdev::writeWord(devAddr, 0x60, tx_data);// SQ noise threshold + + tx_data = 0x16AD; + I2Cdev::writeWord(devAddr, 0x63, tx_data);// pre-emphasis bypass threshold - // SNR LPF settings, sq settings - tx_data = 0x293A; - I2Cdev::writeWord(devAddr, 0x4e, tx_data); // why is this here? See A1846S register init table - - // subaudio decode setting,sq_out_sel,noise threshold value db - tx_data = 0x114A; // A1846S_SQ_OUT_SEL_REG is 0x54 - I2Cdev::writeWord(devAddr, A1846S_SQ_OUT_SEL_REG, tx_data); // why is this here? See A1846S register init table - - // bandwide setting of filter when RSSI is high or low - tx_data = 0x0652; - I2Cdev::writeWord(devAddr, 0x56, tx_data); // why is this here? See A1846S register init table - - tx_data = 0x062d; - I2Cdev::writeWord(devAddr, 0x6e, tx_data); // why is this here? See A1846S register init table - - // note, this is for 12.5kHz channel - tx_data = 0x6C1E; - I2Cdev::writeWord(devAddr, 0x71, tx_data); // why is this here? See A1846S register init table - - // see A1846S register init doc for this - tx_data = 0x00FF; - I2Cdev::writeWord(devAddr, 0x44, tx_data); // why is this here? See A1846S register init table - tx_data = 0x0500; - I2Cdev::writeWord(devAddr, 0x1F, tx_data); // set up GPIO for RX/TX mirroring - - - // set RFoutput power (note that the address is 0x85, so do some rigmaroll) - tx_data = 0x1; - I2Cdev::writeWord(devAddr, 0x7F, tx_data); // prep to write to a reg > 0x7F - // If 0x85 is 0x001F, Rfoutput power is 8dBm , ACP is -63dB in 12.5KHz and -65dB in 25KHz - // If 0x85 is 0x0018, Rfoutput power is 6dBm , ACP is -64dB in 12.5KHz and -66dB in 25KHz - // If 0x85 is 0x0017, Rfoutput power is -3dBm , ACP is -68dBc in 12.5KHz and -68dBc in 25KHz - tx_data = 0x001F; - I2Cdev::writeWord(devAddr, 0x5, tx_data); // set output power, reg 0x85 - 0x80 - tx_data = 0x0; - I2Cdev::writeWord(devAddr, 0x7F, tx_data); // finish writing to a reg > 0x7F - - // set control reg for pdn_reg, rx, and mute when rxno - tx_data = 0xA4; - I2Cdev::writeWord(devAddr, A1846S_CTL_REG, tx_data); // finish writing to a reg > 0x7F - - delay(100); - - // set control reg for chip_cal_en, pdn_reg, rx, and mute when rxno - tx_data = 0xA6; - I2Cdev::writeWord(devAddr, A1846S_CTL_REG, tx_data); // finish writing to a reg > 0x7F - - delay(100); - - // set control reg for chip_cal_en, pdn_reg - tx_data = 0x6; - I2Cdev::writeWord(devAddr, A1846S_CTL_REG, tx_data); // finish writing to a reg > 0x7F - - delay(100); - - // and then I have no idea about this nonsense - // some of these settings seem to be for 12.5kHz channels - // TODO: get A1846S to give us a full register table - tx_data = 0x1d40; - I2Cdev::writeWord(devAddr, 0x54, tx_data); - tx_data = 0x062d; - I2Cdev::writeWord(devAddr, 0x6e, tx_data); - tx_data = 0x102a; - I2Cdev::writeWord(devAddr, 0x70, tx_data); - tx_data = 0x6c1e; - I2Cdev::writeWord(devAddr, 0x71, tx_data); - tx_data = 0x0006; + // calibration + tx_data = 0x00A4; I2Cdev::writeWord(devAddr, 0x30, tx_data); - + delay(50); + tx_data = 0x00A6; + I2Cdev::writeWord(devAddr, 0x30, tx_data); + delay(100); + tx_data = 0x0006; + I2Cdev::writeWord(devAddr, 0x30, tx_data); + delay(10); + + // continue default setup in 12.5kHz mode + tx_data = 0x1100; + I2Cdev::writeWord(devAddr, 0x15, tx_data); // tuning bit + + tx_data = 0x4495; + I2Cdev::writeWord(devAddr, 0x32, tx_data); // agc target power + + tx_data = 0x40C3; + I2Cdev::writeWord(devAddr, 0x3A, tx_data); // modu_det_sel sq setting + + tx_data = 0x0F1E; + I2Cdev::writeWord(devAddr, 0x3C, tx_data); // pk_det_thr sq setting + + tx_data = 0x28D0; + I2Cdev::writeWord(devAddr, 0x3F, tx_data); // pk_det_thr sq setting + + tx_data = 0x20BE; + I2Cdev::writeWord(devAddr, 0x48, tx_data); // pk_det_thr sq setting + + tx_data = 0x0A50; + I2Cdev::writeWord(devAddr, 0x59, tx_data); // Tx FM Deviation + + tx_data = 0x0A10; + I2Cdev::writeWord(devAddr, 0x62, tx_data); // Modu_det_thresh (sq setting) + + tx_data = 0x2494; + I2Cdev::writeWord(devAddr, 0x65, tx_data); // setting th_sif for SQ rssi detect + + tx_data = 0x2494; + I2Cdev::writeWord(devAddr, 0x66, tx_data); // setting th_sif for SQ rssi detect + + // AGC gain table settings + // the rest of these settings are to upper register addresses + // set 0x7F to 1 to write to them + tx_data = 0x0001; + I2Cdev::writeWord(devAddr, 0x7F, tx_data); + + tx_data = 0x0014; + I2Cdev::writeWord(devAddr, 0x06, tx_data); + tx_data = 0x020C; + I2Cdev::writeWord(devAddr, 0x07, tx_data); + tx_data = 0x0214; + I2Cdev::writeWord(devAddr, 0x08, tx_data); + tx_data = 0x030C; + I2Cdev::writeWord(devAddr, 0x09, tx_data); + tx_data = 0x0314; + I2Cdev::writeWord(devAddr, 0x0A, tx_data); + tx_data = 0x0324; + I2Cdev::writeWord(devAddr, 0x0B, tx_data); + tx_data = 0x0344; + I2Cdev::writeWord(devAddr, 0x0C, tx_data); + tx_data = 0x1344; + I2Cdev::writeWord(devAddr, 0x0D, tx_data); + tx_data = 0x1B44; + I2Cdev::writeWord(devAddr, 0x0E, tx_data); + tx_data = 0x3F44; + I2Cdev::writeWord(devAddr, 0x0F, tx_data); + tx_data = 0xE0EB; + I2Cdev::writeWord(devAddr, 0x12, tx_data); + + // done writing to upper page addresses, so set 0x7F back + tx_data = 0x0000; + I2Cdev::writeWord(devAddr, 0x7F, tx_data); + delay(100); // setup default values - setFrequency(446000); - setVolume1(0xF); - setVolume2(0xF); + //setVolume1(0xF); + //setVolume2(0xF); setModeReceive(); setTxSourceMic(); setSQLoThresh(80); @@ -211,9 +214,8 @@ void HamShield::initialize() { * @return True if connection is valid, false otherwise */ bool HamShield::testConnection() { - I2Cdev::readWord(devAddr, 0x09, radio_i2c_buf); -// 03ac or 032c - return radio_i2c_buf[0] == 0x03AC; // TODO: find a device ID reg I can use + I2Cdev::readWord(devAddr, 0x00, radio_i2c_buf); + return radio_i2c_buf[0] == 0x1846; } @@ -283,6 +285,7 @@ void HamShield::setNoFilters() { setGpioHi(2); // turn off VHF } +/* // band // 00 - 400-520MHz // 10 - 200-260MHz @@ -308,7 +311,9 @@ uint16_t HamShield::getBand(){ I2Cdev::readBitsW(devAddr, A1846S_BAND_SEL_REG, A1846S_BAND_SEL_BIT, A1846S_BAND_SEL_LENGTH, radio_i2c_buf); return radio_i2c_buf[0]; } +*/ +/* // xtal frequency (kHz) // 12-14MHz crystal: this reg is set to crystal freq_khz // 24-28MHz crystal: this reg is set to crystal freq_khz / 2 @@ -316,11 +321,12 @@ void HamShield::setXtalFreq(uint16_t freq_kHz){ I2Cdev::writeWord(devAddr, A1846S_XTAL_FREQ_REG, freq_kHz); } uint16_t HamShield::getXtalFreq(){ - I2Cdev::readWord(devAddr, A1846S_FREQ_HI_REG, radio_i2c_buf); + I2Cdev::readWord(devAddr, A1846S_XTAL_FREQ_REG, radio_i2c_buf); return radio_i2c_buf[0]; } + // adclk frequency (kHz) // 12-14MHz crystal: this reg is set to crystal freq_khz / 2 // 24-28MHz crystal: this reg is set to crystal freq_khz / 4 @@ -332,15 +338,16 @@ uint16_t HamShield::getAdcClkFreq(){ I2Cdev::readWord(devAddr, A1846S_ADCLK_FREQ_REG, radio_i2c_buf); return radio_i2c_buf[0]; } +*/ // clk mode // 12-14MHz: set to 1 // 24-28MHz: set to 0 void HamShield::setClkMode(bool LFClk){ // include upper bits as default values - uint16_t tx_data = 0x0F11; // NOTE: should this be 0fd1 or 0f11? Programming guide and setup guide disagree + uint16_t tx_data = 0x0FD1; if (!LFClk) { - tx_data = 0x0F10; + tx_data = 0x0FD0; } I2Cdev::writeWord(devAddr, A1846S_CLK_MODE_REG, tx_data); @@ -358,6 +365,8 @@ bool HamShield::getClkMode(){ // TX/RX control +// TODO: create a 25kHz setup option as well as 12.5kHz (as is implemented now) +/* // channel mode // 11 - 25kHz channel // 00 - 12.5kHz channel @@ -369,6 +378,7 @@ uint16_t HamShield::getChanMode(){ I2Cdev::readBitsW(devAddr, A1846S_CTL_REG, A1846S_CHAN_MODE_BIT, A1846S_CHAN_MODE_LENGTH, radio_i2c_buf); return radio_i2c_buf[0]; } +*/ // choose tx or rx void HamShield::setTX(bool on_noff){ @@ -378,19 +388,16 @@ void HamShield::setTX(bool on_noff){ // For RF6886: // first turn on power - // set RX output on + // set RX output off setGpioHi(4); // remember that RX and TX are active low - // set TX output off + // set TX output on setGpioLow(5); // remember that RX and TX are active low // then turn on VREG (PWM output) // then apply RF signal - setRfPower(9); // figure out a good default number (or don't set a default) + setRfPower(9); // figure out a good default number (TODO: or don't set a default) } - // todo: make sure gpio are set correctly after this I2Cdev::writeBitW(devAddr, A1846S_CTL_REG, A1846S_TX_MODE_BIT, on_noff); - - } bool HamShield::getTX(){ I2Cdev::readBitW(devAddr, A1846S_CTL_REG, A1846S_TX_MODE_BIT, radio_i2c_buf); @@ -403,7 +410,7 @@ void HamShield::setRX(bool on_noff){ setTX(false); // set TX output off - setGpioHi(5); // remember that RX and TX are active low + setGpioHiZ(5); // remember that RX and TX are active low // set RX output on setGpioLow(4); // remember that RX and TX are active low } @@ -416,15 +423,16 @@ bool HamShield::getRX(){ } void HamShield::setModeTransmit(){ - // check to see if we should allow them to do this - if(restrictions == true) { - if((radio_frequency > 139999) & (radio_frequency < 148001)) { setRX(false); setTX(true); } - if((radio_frequency > 218999) & (radio_frequency < 225001)) { setRX(false); setTX(true); } - if((radio_frequency > 419999) & (radio_frequency < 450001)) { setRX(false); setTX(true); } - } else { - // turn off rx, turn on tx - setRX(false); // break before make - setTX(true); } + // check to see if we should allow them to do this + if(restrictions == true) { + if((radio_frequency > 139999) & (radio_frequency < 148001)) { setRX(false); setTX(true); } + if((radio_frequency > 218999) & (radio_frequency < 225001)) { setRX(false); setTX(true); } + if((radio_frequency > 419999) & (radio_frequency < 450001)) { setRX(false); setTX(true); } + } else { + // turn off rx, turn on tx + setRX(false); // break before make + setTX(true); + } } void HamShield::setModeReceive(){ // turn on rx, turn off tx @@ -438,33 +446,35 @@ void HamShield::setModeOff(){ } // set tx source -// 00 - Mic source -// 01 - sine source from tone2 -// 10 - tx code from GPIO1 code_in (gpio1<1:0> must be set to 01) -// 11 - no tx source +// 000 - Nothing +// 001 - sine source from tone1 +// 010 - sine source from tone2 +// 011 - sine source from tone1 and tone2 +// 100 - mic void HamShield::setTxSource(uint16_t tx_source){ I2Cdev::writeBitsW(devAddr, A1846S_TX_VOICE_REG, A1846S_VOICE_SEL_BIT, A1846S_VOICE_SEL_LENGTH, tx_source); } void HamShield::setTxSourceMic(){ - setTxSource(0); + setTxSource(4); } -void HamShield::setTxSourceSine(){ +void HamShield::setTxSourceTone1(){ setTxSource(1); } -void HamShield::setTxSourceCode(){ - // note, also set GPIO1 to 01 - setGpioMode(1, 1); - +void HamShield::setTxSourceTone2(){ setTxSource(2); } -void HamShield::setTxSourceNone(){ +void HamShield::setTxSourceTones(){ setTxSource(3); } +void HamShield::setTxSourceNone(){ + setTxSource(0); +} uint16_t HamShield::getTxSource(){ I2Cdev::readBitsW(devAddr, A1846S_TX_VOICE_REG, A1846S_VOICE_SEL_BIT, A1846S_VOICE_SEL_LENGTH, radio_i2c_buf); return radio_i2c_buf[0]; } +/* // set PA_bias voltage // 000000: 1.01V // 000001:1.05V @@ -481,7 +491,7 @@ uint16_t HamShield::getPABiasVoltage(){ I2Cdev::readBitsW(devAddr, A1846S_PABIAS_REG, A1846S_PABIAS_BIT, A1846S_PABIAS_LENGTH, radio_i2c_buf); return radio_i2c_buf[0]; } - +*/ // Subaudio settings // TX and RX code /* @@ -913,10 +923,10 @@ bool HamShield::getPreDeEmphEnabled(){ // Read Only Status Registers int16_t HamShield::readRSSI(){ - I2Cdev::readWord(devAddr, A1846S_RSSI_REG, radio_i2c_buf); + I2Cdev::readBitsW(devAddr, A1846S_RSSI_REG, A1846S_RSSI_BIT, A1846S_RSSI_LENGTH, radio_i2c_buf); - int16_t rssi = (radio_i2c_buf[0] & 0x3FF) / 8 - 135; - return rssi; // only need lowest 10 bits + int16_t rssi = (radio_i2c_buf[0] & 0x3FF); // - 137; + return rssi; } uint16_t HamShield::readVSSI(){ I2Cdev::readWord(devAddr, A1846S_VSSI_REG, radio_i2c_buf); @@ -937,6 +947,7 @@ uint16_t HamShield::readDTMFCode(){ return radio_i2c_buf[0]; } + void HamShield::setRfPower(uint8_t pwr) { // using loop reference voltage input to op-amp @@ -952,24 +963,26 @@ void HamShield::setRfPower(uint8_t pwr) { } + bool HamShield::frequency(uint32_t freq_khz) { + //TODO: there are several "special" frequencies that require extra setup of the AU1846 if((freq_khz >= 137000) && (freq_khz <= 174000)) { setVHF(); - setBand(3); // 0b11 is 134-174MHz + //setBand(3); // 0b11 is 134-174MHz setFrequency(freq_khz); return true; } if((freq_khz >= 200000) && (freq_khz <= 260000)) { setVHF(); - setBand(2); // 10 is 200-260MHz + //setBand(2); // 10 is 200-260MHz setFrequency(freq_khz); return true; } if((freq_khz >= 400000) && (freq_khz <= 520000)) { setUHF(); - setBand(00); // 00 is 400-520MHz + //setBand(00); // 00 is 400-520MHz setFrequency(freq_khz); return true; } diff --git a/HamShield.h b/HamShield.h index 5006af3..8593cb9 100644 --- a/HamShield.h +++ b/HamShield.h @@ -32,14 +32,14 @@ #define A1846S_CTL_REG 0x30 // control register #define A1846S_CLK_MODE_REG 0x04 // clk_mode #define A1846S_PABIAS_REG 0x0A // control register for bias voltage -#define A1846S_BAND_SEL_REG 0x0F // band_sel register <1:0> +//#define A1846S_BAND_SEL_REG 0x0F // band_sel register <1:0> #define A1846S_GPIO_MODE_REG 0x1F // GPIO mode select register #define A1846S_FREQ_HI_REG 0x29 // freq<29:16> #define A1846S_FREQ_LO_REG 0x2A // freq<15:0> -#define A1846S_XTAL_FREQ_REG 0x2B // xtal_freq<15:0> -#define A1846S_ADCLK_FREQ_REG 0x2C // adclk_freq<15:0> +//#define A1846S_XTAL_FREQ_REG 0x2B // xtal_freq<15:0> +//#define A1846S_ADCLK_FREQ_REG 0x2C // adclk_freq<15:0> #define A1846S_INT_MODE_REG 0x2D // interrupt enables -#define A1846S_TX_VOICE_REG 0x3C // tx voice control reg +#define A1846S_TX_VOICE_REG 0x3A // tx voice control reg #define A1846S_TH_H_VOX_REG 0x41 // register holds vox high (open) threshold bits #define A1846S_TH_L_VOX_REG 0x42 // register holds vox low (shut) threshold bits #define A1846S_FM_DEV_REG 0x43 // register holds fm deviation settings @@ -53,8 +53,8 @@ #define A1846S_SQ_OUT_SEL_REG 0x54 // see sq #define A1846S_EMPH_FILTER_REG 0x58 #define A1846S_FLAG_REG 0x5C // holds flags for different statuses -#define A1846S_RSSI_REG 0x5F // holds RSSI (unit 1/8dB) -#define A1846S_VSSI_REG 0x60 // holds VSSI (unit mV) +#define A1846S_RSSI_REG 0x1B // holds RSSI (unit 1dB) +#define A1846S_VSSI_REG 0x1A // holds VSSI (unit mV) #define A1846S_DTMF_CTL_REG 0x63 // see dtmf #define A1846S_DTMF_C01_REG 0x66 // holds frequency value for c0 and c1 #define A1846S_DTMF_C23_REG 0x67 // holds frequency value for c2 and c3 @@ -93,8 +93,8 @@ #define A1846S_PADRV_LENGTH 4 // Bitfields for A1846S_BAND_SEL_REG -#define A1846S_BAND_SEL_BIT 7 // band_sel<1:0> -#define A1846S_BAND_SEL_LENGTH 2 +//#define A1846S_BAND_SEL_BIT 7 // band_sel<1:0> +//#define A1846S_BAND_SEL_LENGTH 2 // Bitfields for RDA1864_GPIO_MODE_REG #define RDA1864_GPIO7_MODE_BIT 15 // <1:0> 00=hi-z,01=vox,10=low,11=hi @@ -127,8 +127,8 @@ #define A1846S_VOX_INT_BIT 0 // vox uint16_t enable // Bitfields for A1846S_TX_VOICE_REG -#define A1846S_VOICE_SEL_BIT 15 //voice_sel<1:0> -#define A1846S_VOICE_SEL_LENGTH 2 +#define A1846S_VOICE_SEL_BIT 14 //voice_sel<1:0> +#define A1846S_VOICE_SEL_LENGTH 3 // Bitfields for A1846S_TH_H_VOX_REG #define A1846S_TH_H_VOX_BIT 14 // th_h_vox<14:0> @@ -181,8 +181,8 @@ #define A1846S_VOX_FLAG_BIT 0 // vox out from dsp // Bitfields for A1846S_RSSI_REG -#define A1846S_RSSI_BIT 9 // RSSI readings <9:0> -#define A1846S_RSSI_LENGTH 10 +#define A1846S_RSSI_BIT 15 // RSSI readings <9:0> +#define A1846S_RSSI_LENGTH 8 // Bitfields for A1846S_VSSI_REG #define A1846S_VSSI_BIT 14 // voice signal strength indicator <14:0> (unit mV) @@ -329,8 +329,9 @@ class HamShield { // 11 - no tx source void setTxSource(uint16_t tx_source); void setTxSourceMic(); - void setTxSourceSine(); - void setTxSourceCode(); + void setTxSourceTone1(); + void setTxSourceTone2(); + void setTxSourceTones(); void setTxSourceNone(); uint16_t getTxSource(); diff --git a/examples/Gauges/Gauges.ino b/examples/Gauges/Gauges.ino index 10c3c20..b18647d 100755 --- a/examples/Gauges/Gauges.ino +++ b/examples/Gauges/Gauges.ino @@ -28,6 +28,7 @@ void setup() { Serial.println(result,DEC); radio.initialize(); radio.setFrequency(446000); + radio.setModeReceive(); Serial.println("Entering gauges..."); tone(9,1000); delay(2000);