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/**
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* Copyright (c) 2007 Colony Project
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*
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* Permission is hereby granted, free of charge, to any person
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* obtaining a copy of this software and associated documentation
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* files (the "Software"), to deal in the Software without
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* restriction, including without limitation the rights to use,
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* copy, modify, merge, publish, distribute, sublicense, and/or sell
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* copies of the Software, and to permit persons to whom the
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* Software is furnished to do so, subject to the following
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* 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
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* OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND
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* NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT
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* HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY,
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* WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING
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* FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR
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* OTHER DEALINGS IN THE SOFTWARE.
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**/
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/**
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* @file analog.c
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* @brief Analog input and output
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*
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* Contains functions for manipulating the ADC on the Dragonfly board.
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*
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* @author Colony Project, CMU Robotics Club
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* code mostly taken from fwr analog file (author: Tom Lauwers)
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**/
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#include <util/delay.h> |
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#include <avr/interrupt.h> |
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#include "analog.h" |
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#include "serial.h" |
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// Internal Function Prototypes
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void set_adc_mux(int which); |
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/** @brief Struct to hold the value of a particular analog port */
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typedef struct { |
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uint8_t adc8; |
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uint16_t adc10; |
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} adc_t; |
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/**
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* @defgroup analog Analog
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* Functions for manipulation the ADC on the dragonfly board.
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* All definitions may be found in analog.h.
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*
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* @{
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**/
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int adc_loop_running = 0; |
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int adc_current_port = AN1;
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adc_t an_val[11];
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/**
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* Initializes the ADC.
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* Call analog_init before reading from the analog ports.
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*
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* @see analog8, analog10
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**/
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void analog_init(int start_conversion) |
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{ |
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for (int i = 0; i < 11; i++) { |
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an_val[i].adc10 = 0;
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an_val[i].adc8 = 0;
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} |
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//cli();
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// ADMUX register
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// Bit 7,6 - Set voltage reference to AVcc (0b01)
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// Bit 5 - ADLAR set to simplify moving from register
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// Bit 4 - X
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// Bit 3:0 - Sets the current channel
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// Initializes to read from AN1 first (AN0 is reservered for the BOM)
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ADMUX = 0;
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ADMUX |= ADMUX_OPT | _BV(MUX0); |
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// ADC Status Register A
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// Bit 7 - ADEN is set (enables analog)
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// Bit 6 - Start conversion bit is set (must be done once for free-running mode)
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// Bit 5 - Enable Auto Trigger (for free running mode) NOT DOING THIS RIGHT NOW
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// Bit 4 - ADC interrupt flag, 0
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// Bit 3 - Enable ADC Interrupt (required to run free-running mode)
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// Bits 2-0 - Set to create a clock divisor of 128, to make ADC clock = 8,000,000/64 = 125kHz
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ADCSRA = 0;
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ADCSRA |= _BV(ADEN) | _BV(ADIE) | _BV(ADPS2) | _BV(ADPS1) | _BV(ADPS0); |
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// Set external mux lines to outputs
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DDRG |= 0x1C;
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// Set up first port for conversions
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set_adc_mux(0x00);
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adc_current_port = AN1; |
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//Start the conversion if requested
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if (start_conversion)
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analog_start_loop(); |
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else
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analog_stop_loop(); |
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//sei();
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} |
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unsigned int analog8(int which) { |
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if (which == BOM_PORT) {
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return 0; |
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} else {
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return an_val[which - 1].adc8; |
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} |
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} |
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unsigned int analog10(int which) { |
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if (which == BOM_PORT) {
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return 0; |
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} else {
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return an_val[which - 1].adc10; |
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} |
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} |
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void analog_start_loop(void) { |
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//Start the conversion
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ADCSRA |= _BV(ADSC); |
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adc_loop_running = 0x1;
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} |
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//will stop after current conversion finishes
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void analog_stop_loop(void) { |
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//Stop the conversion
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adc_loop_running = 0x0;
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} |
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/**
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* Reads an eight bit number from an analog port.
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* analog_init must be called before using this function.
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*
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* @param which the analog port to read from. One of
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* the constants AN0 - AN7.
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*
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* @return the eight bit input to the specified port
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*
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* @see analog_init, analog10
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**/
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unsigned int analog_get8(int which) |
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{ |
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// Let any previous conversion finish
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while (ADCSRA & _BV(ADSC));
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if(which < EXT_MUX) {
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ADMUX = ADMUX_OPT + which; |
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} else {
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ADMUX = ADMUX_OPT + EXT_MUX; |
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set_adc_mux(which - 8);
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} |
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// Start the conversion
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ADCSRA |= _BV(ADSC); |
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// Wait for the conversion to finish
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while (ADCSRA & _BV(ADSC));
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return ADCH; //since we left aligned the data, ADCH is the 8 MSB. |
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} |
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/**
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* Reads a ten bit number from the specified port.
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* analog_init must be called before using this function.
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*
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*
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* @param which the analog port to read from. Typically
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* a constant, one of AN0 - AN7.
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*
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* @return the ten bit number input to the specified port
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*
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* @see analog_init, analog8
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**/
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unsigned int analog_get10(int which) |
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{ |
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int adc_h;
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int adc_l;
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// Let any previous conversion finish
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while (ADCSRA & _BV(ADSC));
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if(which < EXT_MUX) {
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ADMUX = ADMUX_OPT + which; |
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} else {
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ADMUX = ADMUX_OPT + EXT_MUX; |
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set_adc_mux(which - 8);
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} |
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// Start the conversion
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ADCSRA |= _BV(ADSC); |
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// Wait for the conversion to finish
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while (ADCSRA & _BV(ADSC));
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adc_l = ADCL; |
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adc_h = ADCH; |
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return ((adc_h << 2) | (adc_l >> 6)); |
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} |
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/**
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* Returns the current position of the wheel, as an integer
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* in the range 0 - 255.
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* analog_init must be called before using this function.
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*
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* @return the orientation of the wheel, as an integer in
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* the range 0 - 255.
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*
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* @see analog_init
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**/
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int wheel(void) |
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{ |
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return analog_get8(WHEEL_PORT);
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} |
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/**
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* Sets the value of the external analog mux. Values are read
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* on AN7 physical port. (AN8 - AN15 are "virtual" ports).
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*
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* @param which which analog mux port (0-7) which corresponds
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* to AN8-AN15.
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*
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* @bug FIX THIS IN THE NEXT BOARD REVISION:
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* ADDR2 ADDR1 ADDR0
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* G2.G4.G3 set mux to port 0-7 via vinary selection
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* math would be much cleaner if it was G4.G3.G2
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*
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* @see analog_init
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**/
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void set_adc_mux(int which) |
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{ |
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// mask so only proper bits are possible.
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PORTG = (PORTG & 0xE3) | ((which & 0x03) << 3) | (which & 0x04); |
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} |
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/**@}**/ //end defgroup |
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ISR(ADC_vect) { |
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static volatile int adc_prev_loop_running = 0; |
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int adc_h = 0; |
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int adc_l = 0; |
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//usb_putc('p');
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//usb_putc('r');
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//usb_puti(adc_loop_running);
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//usb_puts("\n\r");
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//Store the value only if this read isn't for the BOM
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if (ADMUX != BOM_PORT) {
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adc_l = ADCL; |
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adc_h = ADCH; |
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an_val[adc_current_port - 1].adc10 = (adc_h << 2) | (adc_l >> 6); |
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an_val[adc_current_port - 1].adc8 = adc_h;
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//usb_puti(an_val[adc_current_port - 1].adc10);
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//usb_puts("\n\r");
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//usb_puti(an_val[adc_current_port - 1].adc8);
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//usb_puti(ADCH);
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//usb_puts("\n\r");
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} |
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//Save the result only if we just turned off the loop
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if (!adc_loop_running && !adc_prev_loop_running)
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return;
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adc_prev_loop_running = adc_loop_running; |
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//Skip AN7 because it is not a real port
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if (adc_current_port == AN6) {
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ADMUX = ADMUX_OPT | EXT_MUX; |
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set_adc_mux(AN8 - 8);
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adc_current_port = AN8; |
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//Wrap around
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} else if (adc_current_port == AN11) { |
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adc_current_port = AN1; |
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ADMUX = ADMUX_OPT | adc_current_port; |
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//Normal increment
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} else {
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adc_current_port++; |
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if(adc_current_port < EXT_MUX) {
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ADMUX = ADMUX_OPT | adc_current_port; |
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} else {
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ADMUX = ADMUX_OPT | EXT_MUX; |
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set_adc_mux(adc_current_port - 8);
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} |
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} |
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//Initiate next conversion only if we are running a loop
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if (!adc_loop_running)
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return;
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ADCSRA |= _BV(ADSC); |
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//if (ADCSRA & _BV(ADSC))
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// usb_putc('s');
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return;
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} |
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