// // FILE: M62429.cpp // AUTHOR: Rob Tillaart // PURPOSE: Arduino library for M62429 volume control IC // VERSION: 0.2.2 // HISTORY: See M62429.cpp2 // URL: https://github.com/RobTillaart/M62429 // HISTORY: // 0.1.0 2019-01-17 initial version // 0.2.0 2020-08-02 refactor // 0.2.1 2020-12-30 add Arduino-CI + unit test // 0.2.2 2021-05-27 fix library.properties // 0.2.3 2021-12-21 update library.json, license, readme, minor edits #include "M62429.h" void M62429::begin(uint8_t dataPin, uint8_t clockPin) { _data = dataPin; _clock = clockPin; pinMode(_data, OUTPUT); pinMode(_clock, OUTPUT); digitalWrite(_data, LOW); digitalWrite(_clock, LOW); _muted = false; setVolume(2, 0); } int M62429::getVolume(uint8_t channel) { if (channel > 2) return M62429_CHANNEL_ERROR; return _vol[channel & 1]; } int M62429::setVolume(uint8_t channel, uint8_t volume) { if (channel > 2) return M62429_CHANNEL_ERROR; if (_muted) return M62429_MUTED; uint8_t attn = volume/3 + 2; if (attn <= 2) attn = 0; _setVolume(channel, attn); // update cached values if (channel == 0) _vol[0] = volume; if (channel == 1) _vol[1] = volume; if (channel == 2) _vol[0] = _vol[1] = volume; return 0; } void M62429::incr() { if (_vol[0] < 255) _vol[0]++; setVolume(0, _vol[0]); if (_vol[1] < 255) _vol[1]++; setVolume(1, _vol[1]); } void M62429::decr() { if (_vol[0] > 0) _vol[0]--; setVolume(0, _vol[0]); if (_vol[1] > 0) _vol[1]--; setVolume(1, _vol[1]); } void M62429::average() { uint8_t v = (((int)_vol[0]) + _vol[1]) / 2; setVolume(0, v); setVolume(1, v); } void M62429::muteOn() { _muted = true; setVolume(2, 0); } void M62429::muteOff() { _muted = false; setVolume(0, _vol[0]); setVolume(1, _vol[1]); } //////////////////////////////////////////////////////////////////// // // PRIVATE // // attn = 0, 3..87 void M62429::_setVolume(uint8_t channel, uint8_t attn) { uint16_t databits = 0xFE00; // latch bits databits |= (attn & 0x007C); databits |= ((attn & 0x03) << 7); // channel == 2 -> both 0x00 is default if (channel == 0) databits |= 0x03; // 11 if (channel == 1) databits |= 0x02; // 01 for (uint16_t mask = 1; mask < 0x0200; mask <<= 1) { digitalWrite(_data, databits & mask); digitalWrite(_clock, HIGH); // Note that if clock pulses are long enough the data pulses are automatically too. if (M62429_CLOCK_DELAY > 0) delayMicroseconds(M62429_CLOCK_DELAY); digitalWrite(_data, LOW); digitalWrite(_clock, LOW); if (M62429_CLOCK_DELAY > 0) delayMicroseconds(M62429_CLOCK_DELAY); } // Last latch bit must be high digitalWrite(_data, HIGH); digitalWrite(_clock, HIGH); if (M62429_CLOCK_DELAY > 0) delayMicroseconds(M62429_CLOCK_DELAY); // _data is already high digitalWrite(_clock, LOW); if (M62429_CLOCK_DELAY > 0) delayMicroseconds(M62429_CLOCK_DELAY); } // -- END OF FILE --