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bldcsensored.c
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bldcsensored.c
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/*
bldc sensored driver 0x01
copyright (c) Davide Gironi, 2013
Released under GPLv3.
Please refer to LICENSE file for licensing information.
*/
#ifdef BLDCSENSORED
#include <stdio.h>
#include <avr/io.h>
#include <avr/interrupt.h>
#include <util/delay.h>
#include "bldcsensored.h"
//current direction
volatile uint8_t bldcsensored_direction = BLDCSENSORED_DIRECTIONCW;
//current speed
volatile uint16_t bldcsensored_speed = 0;
//current running status
volatile uint8_t bldcsensored_enabled = 0;
//current spinning direction
volatile uint8_t bldcsensored_spindirection = BLDCSENSORED_SPINCW;
#if BLDCSENSORED_DEBUG == 1
//motor position debug variables
volatile uint8_t bldcsensored_debugstate = 0;
volatile uint8_t bldcsensored_debugposerror = 0;
volatile uint8_t bldcsensored_debugposerrorprev = 0;
#endif
/*
* get current spin direction
*/
uint8_t bldcsensored_getspindirection(void) {
return bldcsensored_spindirection;
}
/*
* get speed
*/
uint16_t bldcsensored_getspeed(void) {
return bldcsensored_speed;
}
/*
* set speed
*/
void bldcsensored_setspeed(uint16_t speed) {
cli();
bldcsensored_speed = (long)BLDCSENSORED_SPEEDMIN - ((long)(speed - 0) * (long)(BLDCSENSORED_SPEEDMIN - 0) / (long)(100 - 0) + 0);
sei();
}
/*
* get direction
*/
uint8_t bldcsensored_getdirection(void) {
return bldcsensored_direction;
}
/*
* set direction
*/
void bldcsensored_setdirection(uint8_t direction) {
if(direction == BLDCSENSORED_DIRECTIONCW || direction == BLDCSENSORED_DIRECTIONCCW) {
cli();
bldcsensored_direction = direction;
sei();
}
}
/*
* set stop
*/
void bldcsensored_setstop(void) {
if(bldcsensored_enabled) {
cli();
BLDCSENSORED_RUNS;
bldcsensored_enabled = 0;
sei();
}
}
/*
* set start
*/
void bldcsensored_setstart(void) {
if(!bldcsensored_enabled) {
cli();
bldcsensored_enabled = 1;
sei();
}
}
/*
* do one sound cycle
*/
void bldcsensored_soundercyle(uint16_t ontime, uint16_t offtime) {
uint16_t i=0;
for(i=0; i<ontime; i++)
_delay_us(1);
BLDCSENSORED_RUNB;
BLDCSENSORED_RUNS;
for(i=0; i<offtime; i++)
_delay_us(1);
}
/*
* emit a sound
*/
void bldcsensored_sounder(uint8_t repetitions, uint8_t duration, uint16_t ontime, uint16_t offtime) {
uint8_t i = 0;
uint8_t q= 0;
for (i=0; i<repetitions; i++) {
for (q=0; q<duration; q++) {
BLDCSENSORED_RUN1; bldcsensored_soundercyle(ontime, offtime);
BLDCSENSORED_RUN4; bldcsensored_soundercyle(ontime, offtime);
BLDCSENSORED_RUN3; bldcsensored_soundercyle(ontime, offtime);
BLDCSENSORED_RUN6; bldcsensored_soundercyle(ontime, offtime);
BLDCSENSORED_RUN5; bldcsensored_soundercyle(ontime, offtime);
BLDCSENSORED_RUN2; bldcsensored_soundercyle(ontime, offtime);
}
_delay_ms(30);
}
}
/*
* emit the power on sound
*/
void bldcsensored_poweronsound(void) {
bldcsensored_sounder(1, 20, 20, 1200);
bldcsensored_sounder(1, 20, 120, 1200);
bldcsensored_sounder(1, 20, 240, 1200);
}
/*
* init bldc ports and variables
*/
void bldcsensored_init(void) {
cli();
//init hall sensor ports
BLDCSENSORED_HALLUDDR &= ~(1<<BLDCSENSORED_HALLUINPUT);
BLDCSENSORED_HALLVDDR &= ~(1<<BLDCSENSORED_HALLVINPUT);
BLDCSENSORED_HALLWDDR &= ~(1<<BLDCSENSORED_HALLWINPUT);
//init fet driver ports
BLDCSENSORED_FETULDDR |= (1<<BLDCSENSORED_FETULINPUT);
BLDCSENSORED_FETUHDDR |= (1<<BLDCSENSORED_FETUHINPUT);
BLDCSENSORED_FETVLDDR |= (1<<BLDCSENSORED_FETVLINPUT);
BLDCSENSORED_FETVHDDR |= (1<<BLDCSENSORED_FETVHINPUT);
BLDCSENSORED_FETWLDDR |= (1<<BLDCSENSORED_FETWLINPUT);
BLDCSENSORED_FETWHDDR |= (1<<BLDCSENSORED_FETWHINPUT);
//set direction and speed
bldcsensored_setstop();
bldcsensored_setspeed(0);
//precharge bootstrap_caps
BLDCSENSORED_RUNB;
_delay_ms(5);
BLDCSENSORED_RUNS;
//sound start
#if BLDCSENSORED_STARTUPSOUND == 1
bldcsensored_poweronsound();
#endif
ICR1 = TIMER1_ICR1; //ICR1
TCCR1A = (1 << WGM11); //fast pwm mode
TCCR1B = (1 << WGM13) | (1 << WGM12);
TCCR1B |= TIMER1_PRESCALER; //prescaler
TIMSK1 |= (1<<TOIE1); //enable timer1
sei();
}
/*
* main bldc motor timer
*/
ISR(TIMER1_OVF_vect) {
static uint8_t statenum = 0; //current motor position
static uint8_t statenumprev = 1; //previous motor position (used to check spinning and direction), must be init from 1 to 6
static uint16_t emitcounter = 0; //counter for the PWM emission
static uint8_t emit = 0; //PWM controller
static uint8_t emitdo = 0; //output to fet controller
static uint8_t emitstartup = 0; //emit startup sequence
static uint8_t hallstatus = 0; //current hall status
static uint8_t hallstatuslast = 0; //last hall status
static uint8_t wrongspin = 0; //wrong spin detector
static uint8_t emitwrongspin = 0; //emit a wrong status, i.e. break motor
static uint16_t stopcount = 0; //counter for the stop position
static uint16_t spind = 0; //current spin direction
static uint16_t spindlast = 0; //last spin direction counter
static uint16_t spindlastcount = 0; //counter for the spin direction
//speed controller
if(emitcounter < bldcsensored_speed) {
emitcounter++; //increase speed counter
} else {
emitcounter = 0;
if(bldcsensored_enabled) { //emit only if enabled
emit = 1; //this clock emit output to fet
if(wrongspin) { //emit output error if we are not spinning the right way
//update current spin direction
if(bldcsensored_direction == BLDCSENSORED_DIRECTIONCW) {
spind = BLDCSENSORED_SPINCCW;
} else if (bldcsensored_direction == BLDCSENSORED_DIRECTIONCCW) {
spind = BLDCSENSORED_SPINCW;
}
wrongspin = 0; //reset wrong spin counter
emitwrongspin = 1; //output wrong status
} else {
//update current spin direction
if(bldcsensored_direction == BLDCSENSORED_DIRECTIONCW) {
spind = BLDCSENSORED_SPINCW;
} else if (bldcsensored_direction == BLDCSENSORED_DIRECTIONCCW) {
spind = BLDCSENSORED_SPINCCW;
}
}
}
}
if(stopcount > BLDCSENSORED_STOPSTEPS) { //check if the motor is not spinning
stopcount = 0; //reset stop position counter
if(bldcsensored_enabled) { //emit only if enabled
//if is not spinning emit a startup status
emitdo = 1;
emitstartup = 1;
}
spind = BLDCSENSORED_SPINNONE;
}
//update spin direction
if(spindlast != spind) {
spindlastcount++;
if(spindlastcount>200) { //update direction if we are spinning many times this way
spindlastcount = 0;
spindlast = spind;
bldcsensored_spindirection = spind;
}
}
//get current hall status
hallstatus = (
(!((BLDCSENSORED_HALLUPIN & (1<<BLDCSENSORED_HALLUINPUT))>>BLDCSENSORED_HALLUINPUT)<<2) |
(!((BLDCSENSORED_HALLVPIN & (1<<BLDCSENSORED_HALLVINPUT))>>BLDCSENSORED_HALLVINPUT)<<1) |
(!((BLDCSENSORED_HALLWPIN & (1<<BLDCSENSORED_HALLWINPUT))>>BLDCSENSORED_HALLWINPUT)<<0)
) & 0b00000111;
//check if motor is in a different position
if(hallstatus != hallstatuslast && !emitstartup) {
hallstatuslast = hallstatus;
stopcount = 0; //reset stop position counter
uint8_t statprevok = 0; //check if previous position is right
//free spin
BLDCSENSORED_RUNS;
switch (hallstatus) {
case 0b00000101:
statenum = 1;
#if BLDCSENSORED_DEBUG == 1
bldcsensored_debugstate = 101;
#endif
if(bldcsensored_direction == BLDCSENSORED_DIRECTIONCW && statenumprev == 6) { //check previous motor position dependence on direction
statprevok = 1;
} else if (bldcsensored_direction == BLDCSENSORED_DIRECTIONCCW && statenumprev == 2) { //direction CCW
statprevok = 1;
}
break;
case 0b00000100:
statenum = 2;
#if BLDCSENSORED_DEBUG == 1
bldcsensored_debugstate = 100;
#endif
if(bldcsensored_direction == BLDCSENSORED_DIRECTIONCW && statenumprev == 1) { //direction CW
statprevok = 1;
} else if (bldcsensored_direction == BLDCSENSORED_DIRECTIONCCW && statenumprev == 3) { //direction CCW
statprevok = 1;
}
break;
case 0b00000110:
statenum = 3;
#if BLDCSENSORED_DEBUG == 1
bldcsensored_debugstate = 110;
#endif
if(bldcsensored_direction == BLDCSENSORED_DIRECTIONCW && statenumprev == 2) { //direction CW
statprevok = 1;
} else if (bldcsensored_direction == BLDCSENSORED_DIRECTIONCCW && statenumprev == 4) { //direction CCW
statprevok = 1;
}
break;
case 0b00000010:
statenum = 4;
#if BLDCSENSORED_DEBUG == 1
bldcsensored_debugstate = 10;
#endif
if(bldcsensored_direction == BLDCSENSORED_DIRECTIONCW && statenumprev == 3) { //direction CW
statprevok = 1;
} else if (bldcsensored_direction == BLDCSENSORED_DIRECTIONCCW && statenumprev == 5) { //direction CCW
statprevok = 1;
}
break;
case 0b00000011:
statenum = 5;
#if BLDCSENSORED_DEBUG == 1
bldcsensored_debugstate = 11;
#endif
if(bldcsensored_direction == BLDCSENSORED_DIRECTIONCW && statenumprev == 4) { //direction CW
statprevok = 1;
} else if (bldcsensored_direction == BLDCSENSORED_DIRECTIONCCW && statenumprev == 6) { //direction CCW
statprevok = 1;
}
break;
case 0b00000001:
statenum = 6;
#if BLDCSENSORED_DEBUG == 1
bldcsensored_debugstate = 1;
#endif
if(bldcsensored_direction == BLDCSENSORED_DIRECTIONCW && statenumprev == 5) { //direction CW
statprevok = 1;
} else if (bldcsensored_direction == BLDCSENSORED_DIRECTIONCCW && statenumprev == 1) { //direction CCW
statprevok = 1;
}
break;
}
statenumprev = statenum; //update last state
//check position for emissions
if(statprevok == 1) { //previous position is ok
//output to fet if spee counter permit emission
if(emit) {
emit = 0;
emitdo = 1;
}
} else {
wrongspin=1; //wrong spin detector
#if BLDCSENSORED_DEBUG == 1
if(bldcsensored_debugposerror == 0) {
if(bldcsensored_direction == BLDCSENSORED_DIRECTIONCW) {
bldcsensored_debugposerror = 10 + statenum;
} else if (bldcsensored_direction == BLDCSENSORED_DIRECTIONCCW) {
bldcsensored_debugposerror = 100 + statenum;
}
bldcsensored_debugposerrorprev = statenumprev;
}
#endif
}
} else {
//hall sensor in the previos position as before
if(stopcount <= BLDCSENSORED_STOPSTEPS)
stopcount++; //increment stop position counter
}
//output fet status
if(emitdo) {
emitdo = 0;
if(emitstartup) {
emitstartup = 0; //reset emit startup
uint16_t startup_delays[BLDCSENSORED_STARTUPCOMMUTATIONS+1] = BLDCSENSORED_STARTUPDELAYS; //startup delays
//do a complete startup loop starting from the current motorpositon
uint8_t i = 0;
uint8_t go = statenum;
while(i<BLDCSENSORED_STARTUPCOMMUTATIONS) {
BLDCSENSORED_RUNS;
_delay_us(15);
switch (go) {
case 1:
statenumprev = 1; //update last motor position
if(bldcsensored_direction == BLDCSENSORED_DIRECTIONCW) { //direction CW
BLDCSENSORED_101CW;
} else if (bldcsensored_direction == BLDCSENSORED_DIRECTIONCCW) { //direction CCW
BLDCSENSORED_101CCW;
}
break;
case 2:
statenumprev = 2; //update last motor position
if(bldcsensored_direction == BLDCSENSORED_DIRECTIONCW) { //direction CW
BLDCSENSORED_100CW;
} else if (bldcsensored_direction == BLDCSENSORED_DIRECTIONCCW) { //direction CCW
BLDCSENSORED_100CCW;
}
break;
case 3:
statenumprev = 3; //update last motor position
if(bldcsensored_direction == BLDCSENSORED_DIRECTIONCW) { //direction CW
BLDCSENSORED_110CW;
} else if (bldcsensored_direction == BLDCSENSORED_DIRECTIONCCW) { //direction CCW
BLDCSENSORED_110CCW;
}
break;
case 4:
statenumprev = 4; //update last motor position
if(bldcsensored_direction == BLDCSENSORED_DIRECTIONCW) { //direction CW
BLDCSENSORED_010CW;
} else if (bldcsensored_direction == BLDCSENSORED_DIRECTIONCCW) { //direction CCW
BLDCSENSORED_010CCW;
}
break;
case 5:
statenumprev = 5; //update last motor position
if(bldcsensored_direction == BLDCSENSORED_DIRECTIONCW) { //direction CW
BLDCSENSORED_011CW;
} else if (bldcsensored_direction == BLDCSENSORED_DIRECTIONCCW) { //direction CCW
BLDCSENSORED_011CCW;
}
break;
case 6:
statenumprev = 6; //update last motor position
if(bldcsensored_direction == BLDCSENSORED_DIRECTIONCW) { //direction CW
BLDCSENSORED_RUN3;
} else if (bldcsensored_direction == BLDCSENSORED_DIRECTIONCCW) { //direction CCW
BLDCSENSORED_001CCW;
}
break;
}
//check startup direction
if(bldcsensored_direction == BLDCSENSORED_DIRECTIONCW) { //direction CW
go++;
} else if (bldcsensored_direction == BLDCSENSORED_DIRECTIONCCW) { //direction CCW
go--;
}
if(go > 6)
go = go-6;
else if(go < 1)
go = 6;
uint16_t m = 0;
//do delay for startup
for(m=0; m<startup_delays[i]; m++) {
_delay_us(BLDCSENSORED_STARTUPDELAYMULT);
}
i++;
}
hallstatuslast = 0; //reset last status
} else if(emitwrongspin) {
BLDCSENSORED_RUNS; //wrong spin, emit break or spin
emitwrongspin = 0;
} else {
//output depending on direction and position
switch (hallstatus) {
case 0b00000101:
if(bldcsensored_direction == BLDCSENSORED_DIRECTIONCW) { //direction CW
BLDCSENSORED_101CW;
} else if (bldcsensored_direction == BLDCSENSORED_DIRECTIONCCW) { //direction CCW
BLDCSENSORED_101CCW;
}
break;
case 0b00000100:
if(bldcsensored_direction == BLDCSENSORED_DIRECTIONCW) { //direction CW
BLDCSENSORED_100CW;
} else if (bldcsensored_direction == BLDCSENSORED_DIRECTIONCCW) { //direction CCW
BLDCSENSORED_100CCW;
}
break;
case 0b00000110:
if(bldcsensored_direction == BLDCSENSORED_DIRECTIONCW) { //direction CW
BLDCSENSORED_110CW;
} else if (bldcsensored_direction == BLDCSENSORED_DIRECTIONCCW) { //direction CCW
BLDCSENSORED_110CCW;
}
break;
case 0b00000010:
if(bldcsensored_direction == BLDCSENSORED_DIRECTIONCW) { //direction CW
BLDCSENSORED_010CW;
} else if (bldcsensored_direction == BLDCSENSORED_DIRECTIONCCW) { //direction CCW
BLDCSENSORED_010CCW;
}
break;
case 0b00000011:
if(bldcsensored_direction == BLDCSENSORED_DIRECTIONCW) { //direction CW
BLDCSENSORED_011CW;
} else if (bldcsensored_direction == BLDCSENSORED_DIRECTIONCCW) { //direction CCW
BLDCSENSORED_011CCW;
}
break;
case 0b00000001:
if(bldcsensored_direction == BLDCSENSORED_DIRECTIONCW) { //direction CW
BLDCSENSORED_001CW;
} else if (bldcsensored_direction == BLDCSENSORED_DIRECTIONCCW) { //direction CCW
BLDCSENSORED_001CCW;
}
break;
}
}
}
}
#endif