雄介 太田
yozakura arm with keyboard
Dependencies: Dynamixel SerialHalfDuplex mbed
main.cpp
- Committer:
- yusuke_kyo
- Date:
- 2015-04-25
- Revision:
- 0:12f6300133f5
File content as of revision 0:12f6300133f5:
/*YOZAKURAのアームコード
シリアル通信で送るデータ S_Data={linearD[4],pitchD[4],yawD[4],ThermoD1[16],ThermoD2[16],CO2[4]} 計48bytes
シリアル通信で受け取るデータ R_Data={mode[2bit],linear_ref[2bit],pitch_ref[2bit],yaw_ref[2bit]} 計1byte
*/
#include "mbed.h"
Serial pc(USBTX, USBRX); // tx, rx
DigitalOut myled1(LED1); DigitalOut myled2(LED2); DigitalOut myled3(LED3); DigitalOut myled4(LED4);
/*--Dynamixel:begin-----------------------------------------------------------------------------------------*/
#include "AX12.h"
#include "MX28.h"
DigitalOut low(p16); DigitalOut RelaySwitch(p18);
AX12 linear (p13, p14, 0, 1000000); //直動Dynamixel
MX28 pitch (p13, p14, 1, 1000000); //ピッチDynamixel
MX28 yaw (p13, p14, 2, 1000000); //ヨーDynamixel
int linear_goal, pitch_goal, yaw_goal;
//最小値,最大値,角速度,初期値を指定[unit:degree]
//MX:MultiTurnモードでは-2520°~2520°(SetGoalの書き換え不要)
int linear_min = 100; int linear_MAX = 300; float linear_Speed=0.1; int linear_Init = linear_MAX;
int pitch_min = 172; int pitch_MAX = 334; float pitch_Speed=0.2; int pitch_Init = pitch_MAX;
int yaw_min = 360; int yaw_MAX = 360; float yaw_Speed=0.2; int yaw_Init = 0; //MultiTurnモード
void Dyna_init() {
low = 0; RelaySwitch = 1;
printf("linear_Init\n");
linear.SetCWLimit(linear_min); linear.SetCCWLimit(linear_MAX);
linear.SetCRSpeed(linear_Speed); linear_goal=linear_Init; linear.SetGoal(linear_Init);
printf("pitch_Init\n");
pitch.SetCWLimit(pitch_min); pitch.SetCCWLimit(pitch_MAX);
pitch.SetCRSpeed(pitch_Speed); pitch_goal=pitch_Init; pitch.SetGoal(pitch_Init);
printf("yaw_Init\n");
yaw.SetCWLimit(yaw_min); yaw.SetCCWLimit(yaw_MAX);
yaw.SetCRSpeed(yaw_Speed); yaw_goal=yaw_Init; yaw.SetGoal(yaw_Init);
wait(1);
}
void Dyna_GetData(char* data) {
float lP, lV, pP, pC, yP, yC;
lP = linear.GetPosition(); lV = linear.GetVolts();
pP = pitch.GetPosition(); pC = pitch.GetCurrent();
yP = yaw.GetPosition(); yC = yaw.GetCurrent();
linear_goal=lP; pitch_goal=pP; yaw_goal=yP; //現在角度を目標値に設定
printf("\nlinearPosition : %4.1f[degree]\n",lP); printf("Voltage : %4.1f[V]\n",lV);
printf("pitchPosition : %4.1f[degree]\n",pP); printf("pitchCurrent : %4.1f[mA]\n",pC);
printf("yawPosition : %4.1f[degree]\n",yP); printf("yawCurrent : %4.1f[mA]\n",yC);
sprintf(data,"%4.1f %4.1f %4.1f %4.1f %4.1f %4.1f ",lP,lV,pP,pC,yP,yC);
}
void Dyna_SetGoal(int linear_mode, int pitch_mode, int yaw_mode) {
switch(linear_mode){
case 29: break;
case 30: linear.SetTorqueLimit(1); linear_goal-=2; break;
case 31: linear.SetTorqueLimit(1); linear_goal+=2; break;
}
if(linear_goal>linear_MAX) linear_goal=linear_MAX;
if(linear_goal<linear_min) linear_goal=linear_min;
linear.SetGoal(linear_goal);
switch(pitch_mode){
case 29: break;
case 30: pitch_goal-=3;
if(pitch_goal>pitch_MAX) pitch_goal=pitch_MAX;
break;
case 31: pitch_goal+=3;
if(pitch_goal<pitch_min) pitch_goal=pitch_min;
break;
}
if(pitch_goal>pitch_MAX) pitch_goal=pitch_MAX;
if(pitch_goal<pitch_min) pitch_goal=pitch_min;
pitch.SetGoal(pitch_goal);
switch(yaw_mode){
case 29: break;
case 30: yaw_goal-=3; break;
case 31: yaw_goal+=3; break;
}
if(pitch_goal>2520) pitch_goal=2520;
if(pitch_goal<-2520) pitch_goal=-2520;
yaw.SetGoal(yaw_goal);
}
/*--Dynamixel:end-----------------------------------------------------------------------------------------*/
/*--Thermal_Sensor:begin----------------------------------------------------------------------------------*/
/*MEMS非接触温度センサ:形D6T-44L-06 4×4素子タイプ*/
/*データシート:http://www.omron.co.jp/ecb/products/sensor/special/mems/pdf/AN-D6T-01JP_r2.pdf*/
I2C MEMS1(p9, p10); // sda, scl
I2C MEMS2(p28, p27); // sda, scl
#define D6T_addr 0x14
#define D6T_cmd 0x4c
#define THERMO_DEBUG 1
char I2C_rd1[64]; // 生データ
short datr1[16]; // 16点 温度データ(10倍整数)
short PTAT1; // センサ内部PTAT温度データ(10倍整数)
double dt1[16]; // 16点 温度データ
double dt1_temp[16];
short d_PTAT1; // センサ内部PTAT温度データ
char I2C_rd2[64]; // 生データ
short datr2[16]; // 16点 温度データ(10倍整数)
short PTAT2; // センサ内部PTAT温度データ(10倍整数)
double dt2[16]; // 16点 温度データ
double dt2_temp[16];
short d_PTAT2; // センサ内部PTAT温度データ
void GetThermo(char* data) {
char con[6];
sprintf(data,"");
/*MEMS1*/
int i,j;
int itemp;
//// measure
MEMS1.start();
MEMS1.write(D6T_addr);
MEMS1.write(D6T_cmd);
// Repeated Start condition
MEMS1.read(D6T_addr,I2C_rd1,35);
// if(check_PEC(I2C_rd) == -1) continue; // error
for(i=0,j=0;i<17;i++){
itemp = (I2C_rd1[j++] & 0xff);
itemp += I2C_rd1[j++] * 256;
if(i == 0) PTAT1 = itemp;
else datr1[i-1] = itemp;
}
for(i=0;i<16;i++){
dt1[i] = 0.1 * datr1[i];
}
for(int i=0;i<16;i++){
if(dt1[i]<50 && dt1[i]>5) {
sprintf(con,"%3.1f ",dt1[i]);
dt1_temp[i]=dt1[i];
}
else sprintf(con,"%3.1f ",dt1_temp[i]);
strcat(data,con);
}
if(THERMO_DEBUG){
printf("\nThermal_Sensor 1");
for(i=0;i<16;i++){
if(i%4==0) printf("\n");
printf("%3.1f ",dt1[i]);
} printf("\n");
}
d_PTAT1 = 0.1 * PTAT1;
wait(0.1);
/*MEMS1*/
/*MEMS2*/
//// measure
MEMS2.start();
MEMS2.write(D6T_addr);
MEMS2.write(D6T_cmd);
// Repeated Start condition
MEMS2.read(D6T_addr,I2C_rd2,35);
// if(check_PEC(I2C_rd) == -1) continue; // error
for(i=0,j=0;i<17;i++){
itemp = (I2C_rd2[j++] & 0xff);
itemp += I2C_rd2[j++] * 256;
if(i == 0) PTAT2 = itemp;
else datr2[i-1] = itemp;
}
for(i=0;i<16;i++){
dt2[i] = 0.1 * datr2[i];
}
for(int i=0;i<16;i++){
if(dt1[i]<50 && dt1[i]>5) {
sprintf(con,"%3.1f ",dt2[i]);
dt2_temp[i]=dt2[i];
}
else sprintf(con,"%3.1f ",dt2_temp[i]);
strcat(data,con);
}
if(THERMO_DEBUG){
printf("\nThermal_Sensor 2");
for(i=0;i<16;i++){
if(i%4==0) printf("\n");
printf("%3.1f ",dt2[i]);
} printf("\n");
}
d_PTAT2 = 0.1 * PTAT2;
wait(0.1);
/*MEMS2*/
}
/*--Thermal_Sensor:end------------------------------------------------------------------------------------*/
/*--CO2_Sensor:begin--------------------------------------------------------------------------------------*/
/*CO2センサモジュール:A051020-AQ6B-01*/
/*データシート:http://www.fisinc.co.jp/common/pdf/A051020-AQ6.pdf*/
/*参考 外気:396.0[ppm](2013年) 呼気:13,200[ppm] ※このセンサで測れるのは3000[ppm]まで*/
#include "mbed.h"
AnalogIn ain(p20);
#define CO2_DEBUG 1
float GetCO2() {
float v; //生データ:電圧
float sensor_v,CO2;
v = ain.read()*3.3;
sensor_v = v * 5.0/3.3; //電圧レベルを合わせる
CO2 = sensor_v * 1000 + 400; //データシートより
if(CO2_DEBUG) printf("\nCO2:%4.1f\n",CO2);
return(CO2);
}
/*--CO2_Sensor:end----------------------------------------------------------------------------------------*/
/*---------------
MAIN ROOP
----------------*/
int main() {
char Dyna_data[50];
char Thermo_data[200];
float CO2_data;
Dyna_init();
char Send_data[250];
int Read_data;
int Joy_mode, linear_mode, pitch_mode, yaw_mode;
while(1) {
/*--Dynamixel:begin---------------------------------------------------------------*/
// //Dynamixelへの命令を判定
// linear_mode = R_data & 0x0c; linear_mode = linear_mode >> 2;
// pitch_mode = R_data & 0x30; pitch_mode = pitch_mode >> 4;
// yaw_mode = R_data & 0xc0; yaw_mode = yaw_mode >> 6;
//現在の角度・電圧・電流を取得
myled1=1;
Dyna_GetData(Dyna_data);
myled1=0;
printf("linear_mode : ");
linear_mode=pc.getc();
printf("%d\n",linear_mode);
printf("pitch_mode : ");
pitch_mode=pc.getc();
printf("%d\n",pitch_mode);
printf("yaw_mode : ");
yaw_mode=pc.getc();
printf("%d\n",yaw_mode);
//目標角度を変更
myled2=1;
Dyna_SetGoal(linear_mode, pitch_mode, yaw_mode);
myled2=0;
/*--Dynamixel:end------------------------------------------------------------------*/
/*--Thermal_Sensor:begin-----------------------------------------------------------*/
//値を取得
myled3=1;
GetThermo(Thermo_data);
/*--Thermal_Sensor:end-------------------------------------------------------------*/
/*--CO2_Sensor:begin---------------------------------------------------------------*/
//値=””
CO2_data=GetCO2();
myled3=0;
/*--CO2_Sensor:end-----------------------------------------------------------------*/
//値を送信
myled4=1;
printf("\nDyna_data : %s\n",Dyna_data); printf("Thermo_data : %s\n",Thermo_data);
sprintf(Send_data,"%s%s%4.1f",Dyna_data,Thermo_data,CO2_data);
printf("Send_data : %s\n",Send_data);
myled4=0;
}
}