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https://github.com/eclipse/upm.git
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65969462d1
Removed duplicate call to mraa_i2c_init which was allocating space for the i2c device twice. Signed-off-by: Noel Eck <noel.eck@intel.com>
270 lines
6.2 KiB
C++
270 lines
6.2 KiB
C++
/*
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* Author: Jon Trulson <jtrulson@ics.com>
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* Copyright (c) 2014 Intel Corporation.
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*
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* Permission is hereby granted, free of charge, to any person obtaining
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* a copy of this software and associated documentation files (the
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* "Software"), to deal in the Software without restriction, including
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* without limitation the rights to use, copy, modify, merge, publish,
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* distribute, sublicense, and/or sell copies of the Software, and to
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* permit persons to whom the Software is furnished to do so, subject to
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* the following conditions:
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*
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* The above copyright notice and this permission notice shall be
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* included in all copies or substantial portions of the Software.
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*
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* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND,
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* EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF
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* MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND
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* NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE
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* LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION
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* OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION
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* WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.
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*/
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#include <iostream>
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#include <string>
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#include <stdexcept>
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#include "adc121c021.hpp"
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using namespace upm;
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using namespace std;
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ADC121C021::ADC121C021(int bus, uint8_t address, float vref)
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{
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// setup our i2c link
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m_i2c = mraa_i2c_init(bus);
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if (!m_i2c)
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{
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throw std::invalid_argument(std::string(__FUNCTION__) +
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": mraa_i2c_init() failed");
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return;
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}
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m_addr = address;
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mraa_result_t ret = mraa_i2c_address(m_i2c, m_addr);
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if (ret != MRAA_SUCCESS)
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{
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throw std::invalid_argument(std::string(__FUNCTION__) +
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": mraa_i2c_address() failed");
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return;
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}
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m_vref = vref;
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}
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ADC121C021::~ADC121C021()
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{
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mraa_i2c_stop(m_i2c);
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}
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mraa_result_t ADC121C021::writeByte(uint8_t reg, uint8_t byte)
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{
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return mraa_i2c_write_byte_data(m_i2c, byte, reg);
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}
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mraa_result_t ADC121C021::writeWord(uint8_t reg, uint16_t word)
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{
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// We need to swap the bytes
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uint8_t b1 = (word & 0xff00) >> 8;
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word <<= 8;
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word |= b1;
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return mraa_i2c_write_word_data(m_i2c, word, reg);
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}
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uint8_t ADC121C021::readByte(uint8_t reg)
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{
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int val = mraa_i2c_read_byte_data(m_i2c, reg);
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if (val != -1) {
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return (uint8_t) val;
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}
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return 0;
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}
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uint16_t ADC121C021::readWord(uint8_t reg)
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{
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int x = mraa_i2c_read_word_data(m_i2c, reg);
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if (x == -1) {
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return 0;
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}
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uint16_t val = (uint16_t) x;
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uint8_t b1;
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// The value returned is in the wrong byte order, so we need to swap them
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b1 = (val & 0xff00) >> 8;
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val <<= 8;
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val |= b1;
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return val;
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}
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uint16_t ADC121C021::value()
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{
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// mask off alert flag and reserved bits
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return (readWord(ADC121C021_REG_RESULT) & 0x0fff);
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}
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float ADC121C021::valueToVolts(uint16_t val)
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{
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// The arduino example multiplies this by 2, which seems wrong. If
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// the reference voltage is 3.0, then you should never get a voltage
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// value higher than that.
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//
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// val * m_vref * 2.0 / ADC121C021_RESOLUTION
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return (val * m_vref / ADC121C021_RESOLUTION);
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}
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bool ADC121C021::getAlertStatus()
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{
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// high order bit is the alert flag, mask off the rest
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bool rv = (readWord(ADC121C021_REG_RESULT) & 0x8000) ? true : false;
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if (rv)
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{
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// read the alert low and high values and set the appropriate
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// member variables
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uint8_t astatus = readByte(ADC121C021_REG_ALERT_STATUS);
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if (astatus & 0x01)
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m_alertLow = true;
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else
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m_alertLow = false;
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if (astatus & 0x02)
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m_alertHigh = true;
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else
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m_alertHigh = false;
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}
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return rv;
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}
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void ADC121C021::clearAlertStatus()
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{
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// zero out both the low and high alert flags
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writeByte(ADC121C021_REG_ALERT_STATUS, 0x03);
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m_alertHigh = false;
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m_alertLow = false;
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}
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void ADC121C021::enableAlertFlag(bool enable)
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{
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// read the current config register
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uint8_t val = readByte(ADC121C021_REG_CONFIG);
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if (enable)
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val |= 0x08;
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else
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val &= ~0x08;
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// write the register back
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writeByte(ADC121C021_REG_CONFIG, val);
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}
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void ADC121C021::enableAlertPin(bool enable)
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{
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// read the current config register
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uint8_t val = readByte(ADC121C021_REG_CONFIG);
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if (enable)
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val |= 0x04;
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else
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val &= ~0x04;
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// write the register back
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writeByte(ADC121C021_REG_CONFIG, val);
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}
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void ADC121C021::enableAlertHold(bool enable)
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{
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// read the current config register
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uint8_t val = readByte(ADC121C021_REG_CONFIG);
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if (enable)
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val |= 0x10;
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else
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val &= ~0x10;
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// write the register back
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writeByte(ADC121C021_REG_CONFIG, val);
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}
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void ADC121C021::enableAlertPinPolarityHigh(bool enable)
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{
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// read the current config register
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uint8_t val = readByte(ADC121C021_REG_CONFIG);
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if (enable)
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val |= 0x01;
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else
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val &= ~0x01;
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// write the register back
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writeByte(ADC121C021_REG_CONFIG, val);
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}
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void ADC121C021::setAutomaticConversion(ADC121C021_CYCLE_TIME_T cycleTime)
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{
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// first we
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// read the current config register, masking off the cycle time bits
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uint8_t val = readByte(ADC121C021_REG_CONFIG) & 0x1f;
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val |= ((uint8_t)cycleTime << 5);
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// write the register back
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writeByte(ADC121C021_REG_CONFIG, val);
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}
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mraa_result_t ADC121C021::setAlertLowLimit(uint16_t limit)
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{
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// mask off the invalid bits in case they were set
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limit &= 0x0fff;
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// write it
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return writeWord(ADC121C021_REG_ALERT_LIM_UNDER, limit);
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}
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mraa_result_t ADC121C021::setAlertHighLimit(uint16_t limit)
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{
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// mask off the invalid bits in case they were set
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limit &= 0x0fff;
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// write it
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return writeWord(ADC121C021_REG_ALERT_LIM_OVER, limit);
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}
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mraa_result_t ADC121C021::setHysteresis(uint16_t limit)
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{
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// mask off the invalid bits in case they were set
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limit &= 0x0fff;
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// write it
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return writeWord(ADC121C021_REG_ALERT_HYS, limit);
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}
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uint16_t ADC121C021::getHighestConversion()
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{
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return readWord(ADC121C021_REG_HIGHEST_CONV);
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}
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uint16_t ADC121C021::getLowestConversion()
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{
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return readWord(ADC121C021_REG_LOWEST_CONV);
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}
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mraa_result_t ADC121C021::clearHighestConversion()
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{
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return writeWord(ADC121C021_REG_HIGHEST_CONV, 0x0000);
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}
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mraa_result_t ADC121C021::clearLowestConversion()
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{
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return writeWord(ADC121C021_REG_LOWEST_CONV, 0x0fff);
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}
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