mirror of
https://github.com/DCC-EX/CommandStation-EX.git
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c50f3e016c
Unused parameter removal & end of file tidying by the Arduino IDE
170 lines
6.2 KiB
C++
170 lines
6.2 KiB
C++
/*
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* © 2021, Neil McKechnie. All rights reserved.
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*
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* This file is part of DCC++EX API
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*
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* This is free software: you can redistribute it and/or modify
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* it under the terms of the GNU General Public License as published by
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* the Free Software Foundation, either version 3 of the License, or
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* (at your option) any later version.
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*
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* It is distributed in the hope that it will be useful,
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* but WITHOUT ANY WARRANTY; without even the implied warranty of
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* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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* GNU General Public License for more details.
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*
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* You should have received a copy of the GNU General Public License
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* along with CommandStation. If not, see <https://www.gnu.org/licenses/>.
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*/
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#ifndef io_analogueinputs_h
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#define io_analogueinputs_h
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// Uncomment following line to slow the scan cycle down to 1second ADC samples, with
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// diagnostic output of scanned values.
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//#define IO_ANALOGUE_SLOW
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#include "IODevice.h"
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#include "I2CManager.h"
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#include "DIAG.h"
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#include "FSH.h"
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/**********************************************************************************************
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* ADS111x class for I2C-connected analogue input modules ADS1113, ADS1114 and ADS1115.
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*
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* ADS1113 and ADS1114 are restricted to 1 input. ADS1115 has a multiplexer which allows
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* any of four input pins to be read by its ADC.
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*
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* The driver polls the device in accordance with the constant 'scanInterval' below. On first loop
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* entry, the multiplexer is set to pin A0 and the ADC is triggered. On second and subsequent
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* entries, the analogue value is read from the conversion register and then the multiplexer and
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* ADC are set up to read the next pin.
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*
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* The ADS111x is set up as follows:
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* Single-shot scan
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* Data rate 128 samples/sec (7.8ms/sample, but scanned every 10ms)
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* Comparator off
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* Gain FSR=6.144V
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* The gain means that the maximum input voltage of 5V (when Vss=5V) gives a reading
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* of 32767*(5.0/6.144) = 26666.
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*
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* A device is configured by the following:
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* ADS111x::create(firstVpin, nPins, i2cAddress);
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* for example
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* ADS111x::create(300, 1, 0x48); // single-input ADS1113
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* ADS111x::create(300, 4, 0x48); // four-input ADS1115
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*
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* Note: The device is simple and does not need initial configuration, so it should recover from
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* temporary loss of communications or power.
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**********************************************************************************************/
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class ADS111x: public IODevice {
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public:
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static void create(VPIN firstVpin, int nPins, I2CAddress i2cAddress) {
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if (checkNoOverlap(firstVpin,nPins,i2cAddress)) new ADS111x(firstVpin, nPins, i2cAddress);
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}
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private:
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ADS111x(VPIN firstVpin, int nPins, I2CAddress i2cAddress) {
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_firstVpin = firstVpin;
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_nPins = (nPins > 4) ? 4 : nPins;
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_I2CAddress = i2cAddress;
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_currentPin = 0;
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for (int8_t i=0; i<_nPins; i++)
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_value[i] = -1;
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addDevice(this);
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}
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void _begin() {
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// Initialise I2C
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I2CManager.begin();
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// ADS111x support high-speed I2C (4.3MHz) but that requires special
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// processing. So stick to fast mode (400kHz maximum).
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I2CManager.setClock(400000);
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// Initialise ADS device
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if (I2CManager.exists(_I2CAddress)) {
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_nextState = STATE_STARTSCAN;
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#ifdef DIAG_IO
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_display();
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#endif
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} else {
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DIAG(F("ADS111x device not found, I2C:%s"), _I2CAddress.toString());
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_deviceState = DEVSTATE_FAILED;
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}
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}
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void _loop(unsigned long currentMicros) override {
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// Check that previous non-blocking write has completed, if not then wait
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uint8_t status = _i2crb.status;
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if (status == I2C_STATUS_PENDING) return; // Busy, so don't do anything.
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if (status == I2C_STATUS_OK) {
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switch (_nextState) {
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case STATE_STARTSCAN:
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// Configure ADC and multiplexer for next scan. See ADS111x datasheet for details
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// of configuration register settings.
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_outBuffer[0] = 0x01; // Config register address
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_outBuffer[1] = 0xC0 + (_currentPin << 4); // Trigger single-shot, channel n
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_outBuffer[2] = 0xA3; // 250 samples/sec, comparator off
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// Write command, without waiting for completion.
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I2CManager.write(_I2CAddress, _outBuffer, 3, &_i2crb);
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delayUntil(currentMicros + scanInterval);
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_nextState = STATE_STARTREAD;
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break;
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case STATE_STARTREAD:
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// Reading the pin value
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_outBuffer[0] = 0x00; // Conversion register address
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I2CManager.read(_I2CAddress, _inBuffer, 2, _outBuffer, 1, &_i2crb); // Read register
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_nextState = STATE_GETVALUE;
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break;
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case STATE_GETVALUE:
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_value[_currentPin] = ((uint16_t)_inBuffer[0] << 8) + (uint16_t)_inBuffer[1];
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#ifdef IO_ANALOGUE_SLOW
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DIAG(F("ADS111x VPIN:%u value:%d"), _currentPin, _value[_currentPin]);
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#endif
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// Move to next pin
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if (++_currentPin >= _nPins) _currentPin = 0;
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_nextState = STATE_STARTSCAN;
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break;
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default:
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break;
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}
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} else { // error status
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DIAG(F("ADS111x I2C:%s Error:%d %S"), _I2CAddress.toString(), status, I2CManager.getErrorMessage(status));
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_deviceState = DEVSTATE_FAILED;
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}
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}
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int _readAnalogue(VPIN vpin) override {
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int pin = vpin - _firstVpin;
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return _value[pin];
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}
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void _display() override {
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DIAG(F("ADS111x I2C:%s Configured on Vpins:%u-%u %S"), _I2CAddress.toString(), _firstVpin, _firstVpin+_nPins-1,
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_deviceState == DEVSTATE_FAILED ? F("OFFLINE") : F(""));
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}
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// ADC conversion rate is 250SPS, or 4ms per conversion. Set the period between updates to 10ms.
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// This is enough to allow the conversion to reliably complete in time.
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#ifndef IO_ANALOGUE_SLOW
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const unsigned long scanInterval = 10000UL; // Period between successive ADC scans in microseconds.
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#else
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const unsigned long scanInterval = 1000000UL; // Period between successive ADC scans in microseconds.
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#endif
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enum : uint8_t {
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STATE_STARTSCAN,
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STATE_STARTREAD,
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STATE_GETVALUE,
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};
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uint16_t _value[4];
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uint8_t _outBuffer[3];
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uint8_t _inBuffer[2];
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uint8_t _currentPin; // ADC pin currently being scanned
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I2CRB _i2crb;
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uint8_t _nextState;
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};
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#endif // io_analogueinputs_h
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