#include <unistd.h> /*usleep*/
#include <pthread.h> /*threads*/
#include <time.h> /*nanosleep*/
+#include <string.h>
#include "rpin.h" /*gpclk*/
#include "rp_spi.h" /*spi*/
#include "misc.h" /*structure for priorities*/
-#include "pxmc_sin_fixed.h" /*to test sin commutation */
-
-
-
-#define PRUM_PROUD 2061
-#define PRUM_SOUC 6183
-#define MAX_DUTY 128
-#define PID_P 0.1
+#include "pmsm_state.h"
+#include "cmd_proc.h"
+#include "controllers.h"
+#include "commutators.h"
+#include "comp.h"
+#include "logs.h"
#define PRIOR_KERN 50
#define PRIOR_HIGH 49
#define INIT_VALUE 1 /*init value for semaphor*/
-#define PXMC_SIN_FIX_TAB_BITS 9
-#define PXMC_SIN_FIX_IDX_SLR 23
-#define PXMC_SIN_FIX_XD_MASK 0x007fffff
-#define PXMC_SIN_FIX_XD_SLR 8
-#define PXMC_SIN_FIX_A_MASK 0xffffc000
-#define PXMC_SIN_FIX_B_SLL 19
-#define PXMC_SIN_FIX_B_SAR 16
-#define PXMC_SIN_FIX_B_XD_SAR 6
-#define PXMC_SIN_FIX_ZIC_MASK 0x00002000
-#define PXMC_SIN_FIX_ZIC_BIT 13
-
-#define PXMC_SIN_FIX_PI2 0x40000000
-#define PXMC_SIN_FIX_2PI3 0x55555555
-
#define NSEC_PER_SEC (1000000000) /* The number of nsecs per sec. */
-
struct rpi_in data;
-struct rpi_state{
- uint8_t test;
- uint16_t pwm1, pwm2, pwm3;
- uint16_t t_pwm1, t_pwm2, t_pwm3;
- char commutate;
- int duty; /* duty cycle of pwm */
- uint16_t index_dist; /* distance to index position */
- unsigned char index_ok;
- uint32_t tf_count; /*number of transfer*/
- int desired_pos; /* desired position */
-}rps;
-
+struct rpi_state rps={
+ //.MAX_DUTY=170,
+ .spi_dat=&data,
+ .test=0,
+ .pwm1=0,.pwm2=0, .pwm3=0,
+ .pwm1=0, .t_pwm2=0, .t_pwm3=0,
+ .commutate=0,
+ .duty=0, /* duty cycle of pwm */
+ .index_dist=0, /* distance to index position */
+ .index_ok=0,
+ .tf_count=0, /*number of transfer*/
+ .desired_pos=0, /* desired position */
+ .pos_reg_ena=0,
+ .desired_spd=0,
+ .spd_reg_ena=0,
+ .old_pos={0},
+ .spd_err_sum=0,
+ .log_col_count=0, /* pocet radku zaznamu */
+ .log_col=0,
+ .doLogs=0,
+ .alpha_offset=960
+};
/**
* \brief Initilizes GPCLK.
* \brief Signal handler pro Ctrl+C
*/
void appl_stop(){
+ uint8_t tx[16];
+ sem_wait(&rps.thd_par_sem);
+
+ memset(tx,0,16*sizeof(int));
+ rps.pwm1=0;
+ rps.pwm2=0;
+ rps.pwm3=0;
+ spi_read(&rps);
+
spi_disable();
clk_disable();
+ freeLogs(&rps);
/*muzeme zavrit semafor*/
- sem_destroy(&thd_par_sem);
+ sem_destroy(&rps.thd_par_sem);
printf("\nprogram bezpecne ukoncen\n");
}
-void substractOffset(struct rpi_in* data, struct rpi_in* offset){
- data->pozice_raw=data->pozice;
- data->pozice-=offset->pozice;
- return;
-}
-/*
- * pocita procentualni odchylku od prumerneho proudu
- */
-float diff_p(float value){
- return ((float)value-PRUM_PROUD)*100/PRUM_PROUD;
-}
-/*
- * pocita procentualni odchylku od prumerneho souctu proudu
- */
-float diff_s(float value){
- return ((float)value-PRUM_SOUC)*100/PRUM_SOUC;
-}
-/*
- * tiskne potrebna data
- */
-void printData(){
- struct rpi_in data_p;
- struct rpi_state s; /*state*/
- float cur0, cur1, cur2;
- int i;
- /* copy the data */
- sem_wait(&thd_par_sem);
- data_p = data;
- s=rps;
- sem_post(&thd_par_sem);
-
- if (data_p.adc_m_count){
- cur0=data_p.ch0/data_p.adc_m_count;
- cur1=data_p.ch1/data_p.adc_m_count;
- cur2=data_p.ch2/data_p.adc_m_count;
- }
- for (i = 0; i < 16; i++) {
- if (!(i % 6))
- puts("");
- printf("%.2X ", data_p.debug_rx[i]);
- }
- puts("");
- printf("\npozice=%d\n",(int32_t)data_p.pozice);
- printf("chtena pozice=%d\n",s.desired_pos);
- printf("transfer count=%u\n",s.tf_count);
- printf("raw_pozice=%u\n",data_p.pozice_raw);
- printf("raw_pozice last12=%u\n",(data_p.pozice_raw&0x0FFF));
- printf("index position=%u\n",data_p.index_position);
- printf("hal1=%d, hal2=%d, hal3=%d\n",data_p.hal1,data_p.hal2,data_p.hal3);
- printf("en1=%d, en2=%d, en3=%d (Last sent)\n",!!(0x40&s.test),!!(0x20&s.test),!!(0x10&s.test));
- printf("shdn1=%d, shdn2=%d, shdn3=%d (L.s.)\n",!!(0x08&s.test),!!(0x04&s.test),!!(0x02&s.test));
- printf("PWM1=%u(L.s.)\n",s.pwm1);
- printf("PWM2=%u(L.s.)\n",s.pwm2);
- printf("PWM3=%u(L.s.)\n",s.pwm3);
- printf("distance to index=%u\n",s.index_dist);
- printf("T_PWM1=%u T_PWM2=%u T_PWM3=%u\n",s.t_pwm1,s.t_pwm2, s.t_pwm3);
- printf("Pocet namerenych proudu=%u\n",data_p.adc_m_count);
- printf("(pwm1) (ch1)=%d (avg=%4.0f) (%2.2f%%)\n",data_p.ch1,cur1,diff_p(cur1));
- printf("(pwm2) (ch2)=%d (avg=%4.0f)(%2.2f%%)\n",data_p.ch2,cur2,diff_p(cur2));
- printf("(pwm3) (ch0)=%d (avg=%4.0f)(%2.2f%%)\n",data_p.ch0,cur0,diff_p(cur0));
- printf("soucet prumeru=%5.0f (%2.2f%%)\n",cur0+cur1+cur2,diff_s(cur0+cur1+cur2));
- printf("duty=%d\n",s.duty);
- if (s.index_ok) printf("index ok\n");
- if (s.commutate) printf("commutation in progress\n");
-}
-void prepare_tx(uint8_t * tx){
-
- /*Data format:
- * tx[4] - bity 95 downto 88 - bits that are sent first
- * tx[5] - bity 87 downto 80
- * tx[6] - bity 79 downto 72
- * tx[7] - bity 71 downto 64
- * tx[8] - bity 63 downto 56
- * tx[9] - bity 55 downto 48
- * tx[10] - bity 47 downto 40
- * tx[11] - bity 39 downto 32
- * tx[12] - bity 31 downto 24
- * tx[13] - bity 23 downto 16
- * tx[14] - bity 15 downto 8
- * tx[15] - bity 7 downto 0
- *
- * bit 95 - ADC reset
- * bit 94 - enable PWM1
- * bit 93 - enable PWM2
- * bit 92 - enable PWM3
- * bit 91 - shutdown1
- * bit 90 - shutdown2
- * bit 89 - shutdown3
- * .
- * .
- * Unused
- * .
- * .
- * bits 47 .. 32 - match PWM1
- * bits 31 .. 16 - match PWM2
- * bits 15 .. 0 - match PWM3
- */
-
-
- uint16_t tmp;
-
- /* keep the 11-bit cap*/
-
- if (rps.pwm1>2047) rps.pwm1=2047;
- if (rps.pwm2>2047) rps.pwm2=2047;
- if (rps.pwm3>2047) rps.pwm3=2047;
-
- tx[0]=rps.test; /*bit 94 - enable PWM1*/
-
- /*now we have to switch the bytes due to endianess */
- /* ARMv6 & ARMv7 instructions are little endian */
- /*pwm1*/
- tx[10]=((uint8_t*)&rps.pwm1)[1]; /*MSB*/
- tx[11]=((uint8_t*)&rps.pwm1)[0]; /*LSB*/
-
- /*pwm2*/
- tx[12]=((uint8_t*)&rps.pwm2)[1]; /*MSB*/
- tx[13]=((uint8_t*)&rps.pwm2)[0]; /*LSB*/
-
- /*pwm3*/
- tx[14]=((uint8_t*)&rps.pwm3)[1]; /*MSB*/
- tx[15]=((uint8_t*)&rps.pwm3)[0]; /*LSB*/
-
-
-}
/**
* Funkce pravidelne vypisuje posledni zjistenou pozici lokalniho motoru
*/
void * pos_monitor(void* param){
while(1){
- printData();
+ printData(&rps);
usleep(1000000); /*1 Hz*/
}
return (void*)0;
}
-/*
- * \brief
- * Multiplication of 11 bit
- * Zaporne vysledky prvede na nulu.
- */
-inline uint16_t mult_cap(int32_t s,int d){
- int j;
- int res=0;
- for(j=0;j!=11;j++){
- /* multiplicate as if maximum sinus value was unity */
- res+=(!(s & 0x10000000))*(((1 << j) & s)>>j)*(d>>(10-j));
- }
- return res;
-}
-inline
-int sin_commutator(int duty){
- #define DEGREE_60 715827883
- #define DEGREE_120 1431655765
- #define DEGREE_180 2147483648
- #define DEGREE_240 2863311531
- #define DEGREE_300 3579139413
- uint32_t j,pos;
- int32_t sin;
- pos=rps.index_dist*4294967;
- if (duty>=0){ /*clockwise rotation*/
- /* 1st phase */
- sin = pxmc_sin_fixed_inline(pos+DEGREE_240,10); /*10+1 bity*/ /*-120*/
- rps.pwm1=mult_cap(sin, duty);
-
- /* 2nd phase */
- sin = pxmc_sin_fixed_inline(pos+DEGREE_120,10); /*10+1 bity*/ /*-240*/
- rps.pwm2=mult_cap(sin, duty);
-
- /* 3rd phase */
- sin = pxmc_sin_fixed_inline(pos,10); /*10+1 bity*/
- rps.pwm3=mult_cap(sin, duty);
- }else{
- duty=-duty;
-
- /* 1st phase */
- sin = pxmc_sin_fixed_inline(pos+DEGREE_60,10); /*10+1 bity*/ /*-300*/
- rps.pwm1=mult_cap(sin, duty);
-
- /* 2nd phase */
- sin = pxmc_sin_fixed_inline(pos+DEGREE_300,10); /*10+1 bity*/ /*-60-*/
- rps.pwm2=mult_cap(sin, duty);
-
- /* 3rd phase */
- sin = pxmc_sin_fixed_inline(pos+DEGREE_180,10); /*10+1 bity*/ /*-180*/
- rps.pwm3=mult_cap(sin, duty);
- }
- return 0;
-}
-/*
- * \brief
- * Test function to be placed in controll loop.
- * Switches PWM's at point where they produce same force.
- * This points are found thanks to IRC position,
- */
-inline
-void simple_ind_dist_commutator(int duty){
- if (duty>=0){ /* clockwise - so that position increase */
- /* pwm3 */
- if ((rps.index_dist>=45 && rps.index_dist<=373) ||
- (rps.index_dist>=1048 && rps.index_dist<=1377)){
- rps.pwm1=0;
- rps.pwm2=0;
- rps.pwm3=duty;
- /* pwm1 */
- }else if ((rps.index_dist>=373 && rps.index_dist<=711) ||
- (rps.index_dist>=1377 && rps.index_dist<=1711)){
- rps.pwm1=duty;
- rps.pwm2=0;
- rps.pwm3=0;
- /* pwm2 */
- }else if ((rps.index_dist>=0 && rps.index_dist<=45) ||
- (rps.index_dist>=711 && rps.index_dist<=1048) ||
- (rps.index_dist>=1711 && rps.index_dist<=1999)){
- rps.pwm1=0;
- rps.pwm2=duty;
- rps.pwm3=0;
- }
- }else{ /*counter-clockwise - position decrease */
- /* pwm3 */
- if ((rps.index_dist>=544 && rps.index_dist<=881) ||
- (rps.index_dist>=1544 && rps.index_dist<=1878)){
- rps.pwm1=0;
- rps.pwm2=0;
- rps.pwm3=-duty;
- /* pwm1 */
- }else if ((rps.index_dist>=0 && rps.index_dist<=211) ||
- (rps.index_dist>=881 && rps.index_dist<=1210) ||
- (rps.index_dist>=1878 && rps.index_dist<=1999)){
- rps.pwm1=-duty;
- rps.pwm2=0;
- rps.pwm3=0;
- /* pwm2 */
- }else if ((rps.index_dist>=211 && rps.index_dist<=544) ||
- (rps.index_dist>=1210 && rps.index_dist<=1544)){
- rps.pwm1=0;
- rps.pwm2=-duty;
- rps.pwm3=0;
- }
- }
-}
-/*
- * \brief
- * Test function to be placed in controll loop.
- * Switches PWM's at point where they produce same force
- */
-inline void simple_hall_commutator(int duty){
- if (duty>=0){ /* clockwise - so that position increase */
- /* pwm3 */
- if (data.hal2 && !data.hal3){
- rps.pwm1=0;
- rps.pwm2=0;
- rps.pwm3=duty;
- /* pwm1 */
- }else if (data.hal1 && !data.hal2){
- rps.pwm1=duty;
- rps.pwm2=0;
- rps.pwm3=0;
- /* pwm2 */
- }else if (!data.hal1 && data.hal3){
- rps.pwm1=0;
- rps.pwm2=duty;
- rps.pwm3=0;
- }
- }else{ /*counter-clockwise - position decrease */
- /* pwm3 */
- if (!data.hal2 && data.hal3){
- rps.pwm1=0;
- rps.pwm2=0;
- rps.pwm3=-duty;
- /* pwm1 */
- }else if (!data.hal1 && data.hal2){
- rps.pwm1=-duty;
- rps.pwm2=0;
- rps.pwm3=0;
- /* pwm2 */
- }else if (data.hal1 && !data.hal3){
- rps.pwm1=0;
- rps.pwm2=-duty;
- rps.pwm3=0;
- }
- }
-}
-/**
- * \brief
- * Computation of distance to index.
- *
- * K dispozici je 12-bit index, to umoznuje ulozit 4096 ruznych bodu
- * Je nutne vyjadrit 1999 bodu proti i posmeru h.r. od indexu -
- * to je 3999 bodu
- * =>12 bitu je dostacujicich, pokud nikdy nedojde ke ztrate
- * signalu indexu
- */
-void comIndDist(){
- uint16_t pos = 0x0FFF & data.pozice_raw;
- uint16_t dist;
- uint16_t index = data.index_position;
-
- if (index<1999){ /*index e<0,1998> */
- if (pos<index){ /*pozice e<0,index-1> */
- /*proti smeru h.r. od indexu*/
- dist=pos+2000-index;
- }else if (pos<=index+1999){ /*pozice e<index,index+1999> */
- /*po smeru h.r. od indexu*/
- dist=pos-index;
- }else if (pos<index+2096){ /*pozice e<index+2000,index+2095> */
- goto index_lost;
- }else{ /*pozice e<index+2096,4095> */
- /*proti smeru h.r. od indexu - podtecena pozice*/
- dist=pos-index-2096;
- }
- }else if (index<=2096){ /*index e<1999,2096>*/
- if (pos<index-1999){ /*pozice e<0,index-2000> */
- goto index_lost;
- }else if (pos<index){ /*pozice e<index-1999,index-1> */
- /*proti smeru h.r. od indexu*/
- dist=pos+2000-index;
- }else if (pos<=index+1999){ /*pozice e<index,index+1999> */
- /*po smeru h.r. od indexu*/
- dist=pos-index;
- }else { /*pozice e<index+2000,4095> */
- goto index_lost;
- }
- }else{ /*index e<2097,4095> */
- if (pos<=index-2097){ /*pozice e<0,index-2097> */
- /*po smeru h.r. od indexu - pretecena pozice*/
- dist=4096+pos-index;
- }else if (pos<index-1999){ /*pozice e<index-2096,index-2000> */
- goto index_lost;
- }else if (pos<index){ /*pozice e<index-1999,index-1> */
- /*proti smeru h.r. od indexu*/
- dist=pos+2000-index;
- }else{ /*pozice e<index,4095> */
- /*po smeru h.r. od indexu*/
- dist=pos-index;
- }
- }
- rps.index_dist = dist;
- return;
-
- index_lost:
- rps.index_ok=0;
- return;
-}
-/*
- * \brief
- * Very simple PID regulator.
- * Now only with P-part so that the error doesnt go to zero.
- * TODO: add anti-wind up and I and D parts
- */
-inline void pid(){
- int duty_tmp;
- duty_tmp = PID_P*(rps.desired_pos - (int32_t)data.pozice);
- if (duty_tmp>MAX_DUTY){
- rps.duty=MAX_DUTY;
- }else if (duty_tmp<-MAX_DUTY){
- rps.duty=-MAX_DUTY;
- }else{
- rps.duty = duty_tmp;
- }
-}
/*
* \brief
* Feedback loop.
+ * TODO: replace bunch of 'IFs' with Object-like pattern
*/
void * read_data(void* param){
int i;
struct rpi_in pocatek;
+ struct rpi_state poc={
+ .spi_dat=&pocatek,
+ .test=0,
+ .pwm1=0, .pwm1=0, .pwm3=0
+ };
struct timespec t;
int interval = 1000000; /* 1ms ~ 1kHz*/
- uint8_t tx[]={0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0} ;
char first=1;
uint16_t last_index; /*we have index up-to date*/
- pocatek = spi_read(tx);
+ spi_read(&poc); /*pocatecni informace*/
clock_gettime(CLOCK_MONOTONIC ,&t);
/* start after one second */
t.tv_sec++;
while(1){
/* wait until next shot */
clock_nanosleep(CLOCK_MONOTONIC, TIMER_ABSTIME, &t, NULL);
- sem_wait(&thd_par_sem); /*---take semaphore---*/
- prepare_tx(tx); /*save the data to send*/
- data = spi_read(tx); /*exchange data*/
+ sem_wait(&rps.thd_par_sem); /*---take semaphore---*/
+
+ /*old positions*/
+ rps.old_pos[rps.tf_count%OLD_POS_NUM]=rps.spi_dat->pozice;
+ spi_read(&rps); /*exchange data*/
/*subtract initiate postion */
rps.tf_count++;
- substractOffset(&data,&pocatek);
- comIndDist();
+ substractOffset(&data,poc.spi_dat);
+ compSpeed(&rps); /*spocita rychlost*/
+
if (!rps.index_ok){
if (first){
last_index=data.index_position;
first=0;
}else if (last_index!=data.index_position){
rps.index_ok=1;
+ comIndDist(&rps); /*vypocet vzdalenosti indexu*/
}
+ }else{ /*index je v poradku*/
+ comIndDist(&rps); /*vypocet vzdalenosti indexu*/
}
- pid();
+
+ /* pocitame sirku plneni podle potreb rizeni*/
+ if (rps.pos_reg_ena){ /*pozicni rizeni*/
+ pos_pid(&rps);
+ }else if(rps.spd_reg_ena){ /*rizeni na rychlost*/
+ spd_pid(&rps);
+ }
+
+ /* sirka plneni prepoctena na jednotlive pwm */
if (rps.index_ok && rps.commutate){
/*simple_ind_dist_commutator(rps.duty);*/
- sin_commutator(rps.duty);
+ /*sin_commutator(rps.duty);*/
+ inv_trans_comm(&rps);
+ inv_trans_comm_2(&rps);
}else if(!rps.index_ok && rps.commutate){
- simple_hall_commutator(rps.duty);
+ simple_hall_commutator(&rps);
+ }
+
+ /*zalogujeme hodnoty*/
+ if (rps.doLogs && !(rps.tf_count%LOG_PERIOD)){
+ makeLog(&rps);
}
- sem_post(&thd_par_sem); /*--post semaphore---*/
+
+ sem_post(&rps.thd_par_sem); /*--post semaphore---*/
/* calculate next shot */
t.tv_nsec += interval;
}
-/**
- * \brief
- * Commands detection.
- */
-void poll_cmd(){
- unsigned int tmp;
- /*
- * Note:
- * pri pouziti scanf("%u",&simple_hall_duty); dochazelo
- * k preukladani hodnot na promenne test. Dost divne.
- */
- while (1){
- scanf("%u",&tmp);
- printf("volba=%u\n",tmp);
- switch (tmp){
- case 1:
- scanf("%u",&tmp);
- sem_wait(&thd_par_sem);
- rps.pwm1=tmp&0xFFF;
- sem_post(&thd_par_sem);
- break;
- case 2:
- scanf("%u",&tmp);
- sem_wait(&thd_par_sem);
- rps.pwm2=tmp&0xFFF;
- sem_post(&thd_par_sem);
- break;
- case 3:
- scanf("%u",&tmp);
- sem_wait(&thd_par_sem);
- rps.pwm3=tmp&0xFFF;
- sem_post(&thd_par_sem);
- break;
- case 4:
- scanf("%u",&tmp);
- sem_wait(&thd_par_sem);
- rps.test=tmp&0xFF;
- sem_post(&thd_par_sem);
- break;
- case 5:
- sem_wait(&thd_par_sem);
- rps.commutate=!rps.commutate;
- /* switch off pwms at the end of commutation */
- rps.pwm1&=rps.commutate*0xFFFF;
- rps.pwm2&=rps.commutate*0xFFFF;
- rps.pwm3&=rps.commutate*0xFFFF;
- sem_post(&thd_par_sem);
- break;
- case 6:
- scanf("%d",&tmp);
- sem_wait(&thd_par_sem);
- rps.duty=tmp;
- sem_post(&thd_par_sem);
- break;
- case 7:
- scanf("%d",&tmp);
- sem_wait(&thd_par_sem);
- rps.desired_pos=tmp;
- sem_post(&thd_par_sem);
- break;
-
- default:
- break;
- }
-
- }
- return ;
-}
/**
* \brief Main function.
*/
spi_init(); /* iniicializace spi*/
/*semafor pro detekci zpracovani parametru vlaken*/
- sem_init(&thd_par_sem,THREAD_SHARED,INIT_VALUE);
+ sem_init(&rps.thd_par_sem,THREAD_SHARED,INIT_VALUE);
setup_environment();
base_thread_id=pthread_self();
create_rt_task(&base_thread_id,PRIOR_LOW,pos_monitor,NULL);
/*wait for commands*/
- poll_cmd();
+ poll_cmd(&rps);
return 0;
}