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613 lines
12 KiB
C++
613 lines
12 KiB
C++
//
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// FILE: LTC2991.cpp
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// AUTHOR: Rob Tillaart
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// VERSION: 0.1.6
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// DATE: 2021-05-10
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// PURPOSE: Library for LTC2991 temperature and voltage control IC
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// URL: https://github.com/RobTillaart/LTC2991
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#include "LTC2991.h"
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/////////////////////////////////////////////////////
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//
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// REGISTERS
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//
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#define STATUS_LOW 0x00
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#define STATUS_HIGH 0x01
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// 0x02..0x05 reserved
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#define CONTROL_V1_V4 0x06
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#define CONTROL_V5_V8 0x07
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#define PWM_THRESHOLD_LSB 0x08
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#define PWM_THRESHOLD_MSB 0x09
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#define V_BASE 0x0A
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#define V1_MSB 0x0A
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#define V1_LSB 0x0B
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#define V2_MSB 0x0C
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#define V2_LSB 0x0D
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#define V3_MSB 0x0E
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#define V3_LSB 0x0F
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#define V4_MSB 0x10
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#define V4_LSB 0x11
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#define V5_MSB 0x12
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#define V5_LSB 0x13
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#define V6_MSB 0x14
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#define V6_LSB 0x15
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#define V7_MSB 0x16
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#define V7_LSB 0x17
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#define V8_MSB 0x18
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#define V8_lSB 0x19
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#define T_INTERNAL_MSB 0x1A
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#define T_INTERNAL_LSB 0x1B
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#define VCC_MSB 0x1C
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#define VCC_LSB 0x1D
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/////////////////////////////////////////////////////
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//
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// MAGIC NUMBERS
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//
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// PAGE 21
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const float SINGLE_ENDED_FACTOR = 2.5 / 8192; // 2^13
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const float DIFFERENTIAL_FACTOR = 2.5 / 131072; // 2^17
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const float VCC_FACTOR = 2.5 / 8192; // 2^13
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const float TEMPERATURE_FACTOR = 1.0 / 16;
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const float DIODE_VOLTAGE_FACTOR = 2.5 / 65536; // 2^16
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/////////////////////////////////////////////////////
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//
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// CONSTRUCTORS
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//
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LTC2991::LTC2991(const int8_t address, TwoWire *wire)
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{
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_address = address;
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_wire = wire;
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}
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#if defined (ESP8266) || defined(ESP32)
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bool LTC2991::begin(const uint8_t sda, const uint8_t scl)
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{
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_wire->begin(sda, scl);
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if (! isConnected()) return false;
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return true;
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}
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#endif
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bool LTC2991::begin()
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{
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_wire->begin();
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if (! isConnected()) return false;
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return true;
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}
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bool LTC2991::isConnected()
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{
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_wire->beginTransmission(_address);
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return ( _wire->endTransmission() == 0);
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}
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uint8_t LTC2991::getAddress()
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{
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return _address;
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}
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//
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// CORE functions
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//
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bool LTC2991::new_data(uint8_t channel)
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{
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uint8_t x = _readRegister(STATUS_LOW);
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// LTC2991_NEW_DATA / NONE
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return (x & (1 << (channel - 1))) > 0;
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}
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bool LTC2991::new_temperature()
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{
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uint8_t x = _readRegister(STATUS_HIGH);
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// LTC2991_NEW_DATA / NONE
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return (x & 0x02) > 0;
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}
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bool LTC2991::new_voltage()
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{
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uint8_t x = _readRegister(STATUS_HIGH);
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// LTC2991_NEW_DATA / ??
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return (x & 0x01) > 0;
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}
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bool LTC2991::is_busy()
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{
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uint8_t x = _readRegister(STATUS_HIGH);
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// LTC2991_BUSY / IDLE
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return (x & 0x04) > 0;
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}
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//////////////////////////////////////////////////////////////////
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//
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// EXTERNAL CHANNELS (8 voltage or 4 temperature)
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//
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void LTC2991::trigger_conversion(uint8_t n)
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{
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enable(n, true);
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}
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void LTC2991::trigger_conversion_all()
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{
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_setRegisterMask(STATUS_HIGH, 0xF0);
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}
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void LTC2991::enable(uint8_t n, bool enable)
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{
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if (enable) _setRegisterMask(STATUS_HIGH, (0x08 << n));
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else _clrRegisterMask(STATUS_HIGH, (0x08 << n));
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}
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bool LTC2991::is_enabled(uint8_t n)
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{
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uint8_t x = _readRegister(STATUS_HIGH);
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// LTC2991_TRIGGER_ENABLED / DISABLED
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return (x & (0x08 << n)) > 0;
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}
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void LTC2991::enable_filter(uint8_t n, bool enable)
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{
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uint8_t reg = CONTROL_V1_V4;
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if (n > 2)
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{
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reg++;
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n -= 2;
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}
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uint8_t mask = 0x08;
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if (n > 1) mask = 0x80;
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if (enable) _setRegisterMask(reg, mask);
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else _clrRegisterMask(reg, mask);
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}
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bool LTC2991::is_enabled_filter(uint8_t n)
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{
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uint8_t reg = CONTROL_V1_V4;
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if (n > 2)
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{
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reg++;
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n -= 2;
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}
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uint8_t mask = 0x08;
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if (n > 1) mask = 0x80;
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// LTC2991_FILTER_ENABLED / DISABLED
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return _getRegisterMask(reg, mask) > 0;
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}
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// can be more efficient in one register addressing.
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void LTC2991::set_Kelvin(uint8_t n)
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{
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set_temp_scale(n, true);
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set_mode_temperature(n);
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};
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// can be more efficient in one register addressing.
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void LTC2991::set_Celsius(uint8_t n)
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{
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set_temp_scale(n, false);
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set_mode_temperature(n);
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};
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void LTC2991::set_temp_scale(uint8_t n, bool Kelvin)
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{
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uint8_t reg = CONTROL_V1_V4;
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if (n > 2)
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{
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reg++;
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n -= 2;
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}
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uint8_t mask = 0x04;
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if (n > 1) mask = 0x40;
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if (Kelvin) _setRegisterMask(reg, mask);
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else _clrRegisterMask(reg, mask);
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}
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char LTC2991::get_temp_scale(uint8_t n)
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{
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uint8_t reg = CONTROL_V1_V4;
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if (n > 2)
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{
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reg++;
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n -= 2;
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}
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uint8_t mask = 0x04;
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if (n > 1) mask = 0x40;
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if (_getRegisterMask(reg, mask) > 0)
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{
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return 'K';
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}
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return 'C';
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}
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void LTC2991::set_mode_temperature(uint8_t n)
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{
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uint8_t reg = CONTROL_V1_V4;
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if (n > 2)
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{
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reg++;
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n -= 2;
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}
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uint8_t mask = 0x02;
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if (n > 1) mask = 0x20;
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_setRegisterMask(reg, mask);
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}
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void LTC2991::set_mode_voltage_differential(uint8_t n)
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{
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uint8_t reg = CONTROL_V1_V4;
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if (n > 2)
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{
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reg++;
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n -= 2;
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}
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uint8_t mask = 0x02; // 3 == voltage | differential
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if (n > 1) mask = 0x20;
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_clrRegisterMask(reg, mask);
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mask >>= 1;
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_setRegisterMask(reg, mask);
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}
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void LTC2991::set_mode_voltage_normal(uint8_t n)
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{
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uint8_t reg = CONTROL_V1_V4;
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if (n > 2)
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{
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reg++;
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n -= 2;
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}
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uint8_t mask = 0x02;
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if (n > 1) mask = 0x20;
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_clrRegisterMask(reg, mask);
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mask >>= 1;
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_clrRegisterMask(reg, mask);
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}
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uint8_t LTC2991::get_operational_mode(uint8_t n)
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{
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uint8_t reg = CONTROL_V1_V4;
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if (n > 2)
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{
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reg++;
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n -= 2;
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}
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uint8_t mask = 0x02;
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if (n > 1) mask = 0x20;
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if (_getRegisterMask(reg, mask) > 0) return 1;
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return 0;
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}
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uint8_t LTC2991::get_differential_mode(uint8_t n)
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{
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uint8_t reg = CONTROL_V1_V4;
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if (n > 2)
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{
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reg++;
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n -= 2;
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}
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uint8_t mask = 0x01;
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if (n > 1) mask = 0x10;
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// LTC2991_VOLTAGE_DIFF / NORMAL ???
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if (_getRegisterMask(reg, mask) > 0) return 1;
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return 0;
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}
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float LTC2991::get_value(uint8_t channel)
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{
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uint8_t chan = channel - 1;
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uint8_t pair = (channel + 1)/2;
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int16_t v = _readRegister16(V_BASE + chan * 2);
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if (get_operational_mode(pair) > 0) // temperature
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{
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if (get_temp_scale(pair) == 'K') // KELVIN
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{
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return TEMPERATURE_FACTOR * (float)v;
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}
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// CELSIUS positive
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if ((v & 0x1000) == 0)
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{
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return TEMPERATURE_FACTOR * (float)v;
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}
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// CELSIUS neg two complements (page 13, 2nd column.)
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v = (v^0x1FFF) + 1;
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return TEMPERATURE_FACTOR * (float)v * -1.0;
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}
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if (get_differential_mode(pair) == 0) // SINGLE ENDED
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{
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if ((v & 0x4000) == 0)
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{
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return SINGLE_ENDED_FACTOR * (float)v;
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}
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v = (v^0x7FFFF) + 1;
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return SINGLE_ENDED_FACTOR * (float)v * -1.0;
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}
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// DIFFERENTIAL
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if ((v & 0x4000) == 0)
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{
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return DIFFERENTIAL_FACTOR * (float)v;
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}
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v = (v^0x7FFFF) + 1;
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return DIFFERENTIAL_FACTOR * (float)v * -1.0;
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}
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//////////////////////////////////////////////////////////////////
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//
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// PWM functions
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//
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void LTC2991::set_PWM(uint16_t value)
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{
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if (value > 511) value = 511;
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_writeRegister(PWM_THRESHOLD_MSB, value >> 1);
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if (value & 0x01) _setRegisterMask(PWM_THRESHOLD_LSB, 0x80);
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else _clrRegisterMask(PWM_THRESHOLD_LSB, 0x80);
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}
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void LTC2991::set_PWM_fast(uint16_t value)
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{
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if (value > 511) value = 511;
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_writeRegister(PWM_THRESHOLD_MSB, value >> 1);
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// last bit is never set, only when value is zero
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// to be sure there is no dangling bit.
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if (value == 0) _clrRegisterMask(PWM_THRESHOLD_LSB, 0x80);
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}
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uint16_t LTC2991::get_PWM()
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{
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uint16_t pwm = _readRegister(PWM_THRESHOLD_MSB);
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pwm <<= 1;
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if (_readRegister(PWM_THRESHOLD_LSB) > 0 ) pwm |= 0x01;
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return pwm;
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}
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void LTC2991::invert_PWM(bool invert)
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{
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if (invert) _setRegisterMask(PWM_THRESHOLD_LSB, 0x40);
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else _clrRegisterMask(PWM_THRESHOLD_LSB, 0x40);
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}
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bool LTC2991::is_inverted_PWM()
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{
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// LTC2991_PWM_INVERTED / LTC2991_PWM_NORMAL
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return _getRegisterMask(PWM_THRESHOLD_LSB, 0x40) > 0;
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}
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void LTC2991::enable_PWM(bool enable)
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{
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if (enable) _setRegisterMask(PWM_THRESHOLD_LSB, 0x20);
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else _clrRegisterMask(PWM_THRESHOLD_LSB, 0x20);
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}
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bool LTC2991::is_enabled_PWM()
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{
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// LTC2991_PWM_ENABLED / LTC2991_PWM_DISABLED
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return _getRegisterMask(PWM_THRESHOLD_LSB, 0x20) > 0;
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}
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//////////////////////////////////////////////////////////////////
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//
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// CONFIGURATION
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//
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void LTC2991::set_acquisition_repeat()
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{
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_setRegisterMask(PWM_THRESHOLD_LSB, 0x10);
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}
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void LTC2991::set_acquisition_single()
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{
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_clrRegisterMask(PWM_THRESHOLD_LSB, 0x10);
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}
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uint8_t LTC2991::get_acquisition_mode()
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{
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// LTC2991_MODE_REPEAT / LTC2991_MODE_SINGLE
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if (_getRegisterMask(PWM_THRESHOLD_LSB, 0x10) > 0) return 1;
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return 0;
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}
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//////////////////////////////////////////////////////////////////
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//
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// INTERNAL SENSORS
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//
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void LTC2991::enable_Tintern_Vcc(bool enable)
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{
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if (enable) _setRegisterMask(STATUS_HIGH, 0x08);
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else _clrRegisterMask(STATUS_HIGH, 0x08);
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}
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bool LTC2991::is_enabled_Tintern_Vcc()
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{
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uint8_t x = _readRegister(STATUS_HIGH);
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// LTC2991_TINTERN_ENABLED / DISABLED
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return ((x & 0x08) > 0);
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}
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void LTC2991::enable_filter_Tintern(bool enable)
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{
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if (enable) _setRegisterMask(PWM_THRESHOLD_LSB, 0x08);
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else _clrRegisterMask(PWM_THRESHOLD_LSB, 0x08);
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}
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bool LTC2991::is_enabled_filter_Tintern()
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{
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// LTC2991_TINTERN_FILTER_ENABLED / DISABLED
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return _getRegisterMask(PWM_THRESHOLD_LSB, 0x08) > 0;
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}
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void LTC2991::set_Kelvin_Tintern()
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{
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set_temp_scale_Tintern(true);
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}
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void LTC2991::set_Celsius_Tintern()
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{
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set_temp_scale_Tintern(false);
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}
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// true = Kelvin, false = Celsius
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void LTC2991::set_temp_scale_Tintern(bool Kelvin)
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{
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if (Kelvin) _setRegisterMask(PWM_THRESHOLD_LSB, 0x04);
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else _clrRegisterMask(PWM_THRESHOLD_LSB, 0x04);
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}
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char LTC2991::get_temp_scale_Tintern()
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{
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if (_getRegisterMask(PWM_THRESHOLD_LSB, 0x04) > 0)
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{
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return 'K'; // LTC2991_KELVIN
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}
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return 'C'; // LTC2991_CELSIUS
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}
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float LTC2991::get_Tintern()
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{
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int16_t v = _readRegister16(T_INTERNAL_MSB);
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if (get_temp_scale_Tintern() == 'K')
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{
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return TEMPERATURE_FACTOR * (float)v;
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}
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// CELSIUS positive value
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if ((v & 0x1000) == 0)
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{
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return TEMPERATURE_FACTOR * (float)v;
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}
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// CELSIUS neg two complements (page 13, 2nd colom.)
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v = (v^0x1FFF) + 1;
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return TEMPERATURE_FACTOR * (float)v * -1.0;
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}
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float LTC2991::get_VCC()
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{
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int16_t v = _readRegister16(VCC_MSB);
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if ((v & 0x4000) == 0)
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{
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return VCC_FACTOR * (float)v + 2.5;
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}
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// can Vcc be negative?
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v = (v^0x7FFFF) + 1;
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return VCC_FACTOR * (float)v * -1.0 + 2.5;
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}
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//////////////////////////////////////////////////////////////////
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//
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// PRIVATE functions
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//
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uint8_t LTC2991::_writeRegister(const uint8_t reg, const uint8_t value)
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{
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_wire->beginTransmission(_address);
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_wire->write(reg);
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_wire->write(value);
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return _wire->endTransmission();
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}
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uint8_t LTC2991::_readRegister(const uint8_t reg)
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{
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_wire->beginTransmission(_address);
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_wire->write(reg);
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_wire->endTransmission();
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_wire->requestFrom(_address, (uint8_t)1);
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return _wire->read();
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}
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uint16_t LTC2991::_readRegister16(const uint8_t reg)
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{
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uint16_t x = _readRegister(reg) << 8;
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x |= _readRegister(reg + 1);
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// bool dataValid = (x & 0x8000) > 0; // TODO error handling
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x &= 0x7FFF;
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return x;
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}
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void LTC2991::_setRegisterMask(const uint8_t reg, uint8_t mask)
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{
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uint8_t x = _readRegister(reg);
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if ((x & mask) != mask) // if not all bits set, set them
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|
{
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x |= mask;
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_writeRegister(reg, x);
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}
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}
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void LTC2991::_clrRegisterMask(const uint8_t reg, uint8_t mask)
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{
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uint8_t x = _readRegister(reg);
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if (x | mask) // if any bit of the mask set clear it
|
|
{
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|
x &= ~mask;
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_writeRegister(reg, x);
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}
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}
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uint8_t LTC2991::_getRegisterMask(const uint8_t reg, uint8_t mask)
|
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{
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|
uint8_t x = _readRegister(reg);
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return x & mask;
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}
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// -- END OF FILE --
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