k3ng_rotator_controller/libraries/TimerFive.cpp
2015-03-06 19:18:53 -05:00

104 lines
4.2 KiB
C++

/*
* Interrupt and PWM utilities for 16 bit Timer5 on ATmega640/1280/2560
* Original code by Jesse Tane for http://labs.ideo.com August 2008
* Modified March 2009 by Jérôme Despatis and Jesse Tane for ATmega328 support
* Modified June 2009 by Michael Polli and Jesse Tane to fix a bug in setPeriod() which caused the timer to stop
* Modified Oct 2009 by Dan Clemens to work with timer3 of the ATMega1280 or Arduino Mega
* Modified Aug 2011 by RobotFreak to work with timer5 of the ATMega640/1280/2560 or Arduino Mega/ADK
*
* This is free software. You can redistribute it and/or modify it under
* the terms of Creative Commons Attribution 3.0 United States License.
* To view a copy of this license, visit http://creativecommons.org/licenses/by/3.0/us/
* or send a letter to Creative Commons, 171 Second Street, Suite 300, San Francisco, California, 94105, USA.
*
*/
#include "TimerFive.h"
TimerFive Timer5; // preinstatiate
ISR(TIMER5_OVF_vect) // interrupt service routine that wraps a user defined function supplied by attachInterrupt
{
Timer5.isrCallback();
}
void TimerFive::initialize(long microseconds)
{
TCCR5A = 0; // clear control register A
TCCR5B = _BV(WGM53); // set mode as phase and frequency correct pwm, stop the timer
setPeriod(microseconds);
}
void TimerFive::setPeriod(long microseconds)
{
long cycles = (F_CPU * microseconds) / 2000000; // the counter runs backwards after TOP, interrupt is at BOTTOM so divide microseconds by 2
if(cycles < RESOLUTION) clockSelectBits = _BV(CS50); // no prescale, full xtal
else if((cycles >>= 3) < RESOLUTION) clockSelectBits = _BV(CS51); // prescale by /8
else if((cycles >>= 3) < RESOLUTION) clockSelectBits = _BV(CS51) | _BV(CS50); // prescale by /64
else if((cycles >>= 2) < RESOLUTION) clockSelectBits = _BV(CS52); // prescale by /256
else if((cycles >>= 2) < RESOLUTION) clockSelectBits = _BV(CS52) | _BV(CS50); // prescale by /1024
else cycles = RESOLUTION - 1, clockSelectBits = _BV(CS52) | _BV(CS50); // request was out of bounds, set as maximum
ICR5 = pwmPeriod = cycles; // ICR1 is TOP in p & f correct pwm mode
TCCR5B &= ~(_BV(CS50) | _BV(CS51) | _BV(CS52));
TCCR5B |= clockSelectBits; // reset clock select register
}
void TimerFive::setPwmDuty(char pin, int duty)
{
unsigned long dutyCycle = pwmPeriod;
dutyCycle *= duty;
dutyCycle >>= 10;
if(pin == 46) OCR5A = dutyCycle;
if(pin == 45) OCR5B = dutyCycle;
if(pin == 44) OCR5C = dutyCycle;
}
void TimerFive::pwm(char pin, int duty, long microseconds) // expects duty cycle to be 10 bit (1024)
{
if(microseconds > 0) setPeriod(microseconds);
// sets data direction register for pwm output pin
// activates the output pin
if(pin == 46) { DDRE |= _BV(PORTL3); TCCR5A |= _BV(COM5A1); }
if(pin == 45) { DDRE |= _BV(PORTL4); TCCR5A |= _BV(COM5B1); }
if(pin == 44) { DDRE |= _BV(PORTL5); TCCR5A |= _BV(COM5C1); }
setPwmDuty(pin, duty);
start();
}
void TimerFive::disablePwm(char pin)
{
if(pin == 46) TCCR5A &= ~_BV(COM5A1); // clear the bit that enables pwm on PE3
if(pin == 45) TCCR5A &= ~_BV(COM5B1); // clear the bit that enables pwm on PE4
if(pin == 44) TCCR5A &= ~_BV(COM5C1); // clear the bit that enables pwm on PE5
}
void TimerFive::attachInterrupt(void (*isr)(), long microseconds)
{
if(microseconds > 0) setPeriod(microseconds);
isrCallback = isr; // register the user's callback with the real ISR
TIMSK5 = _BV(TOIE5); // sets the timer overflow interrupt enable bit
sei(); // ensures that interrupts are globally enabled
start();
}
void TimerFive::detachInterrupt()
{
TIMSK5 &= ~_BV(TOIE5); // clears the timer overflow interrupt enable bit
}
void TimerFive::start()
{
TCCR5B |= clockSelectBits;
}
void TimerFive::stop()
{
TCCR5B &= ~(_BV(CS50) | _BV(CS51) | _BV(CS52)); // clears all clock selects bits
}
void TimerFive::restart()
{
TCNT5 = 0;
}