1/23 操舵 レシーバ
Dependencies: ADXL345_I2C INA226_ver1 mbed
Fork of RS485R_2 by
Revision 3:2bdb60bbc665, committed 2016-01-23
- Comitter:
- taurin
- Date:
- Sat Jan 23 10:43:15 2016 +0000
- Parent:
- 2:2b98a651b0a1
- Commit message:
- 1/23 ???????;
Changed in this revision
INA226.lib | Show annotated file Show diff for this revision Revisions of this file |
main.cpp | Show annotated file Show diff for this revision Revisions of this file |
--- /dev/null Thu Jan 01 00:00:00 1970 +0000 +++ b/INA226.lib Sat Jan 23 10:43:15 2016 +0000 @@ -0,0 +1,1 @@ +https://developer.mbed.org/teams/albatross/code/INA226_ver1/#e490f37579a6
--- a/main.cpp Sat Dec 05 11:21:06 2015 +0000 +++ b/main.cpp Sat Jan 23 10:43:15 2016 +0000 @@ -1,18 +1,23 @@ -//相互通信確認用 +//翼端操舵プログラム #include "mbed.h" #include "ADXL345_I2C.h" +#include "INA226.hpp" #define BUFFER 30 Serial rs485(p13,p14); Serial pc(USBTX,USBRX); DigitalOut Receiver(p5); ADXL345_I2C accelerometer(p9, p10); +I2C ina226_i2c(p28,p27); +INA226 VCmonitor(ina226_i2c); PwmOut servo1(p21); PwmOut servo2(p22); int counter = 0; -int servo_deg1 = 0; -int servo_deg2 = 0; +int eruron_deg = 0; +int drug_deg = 0; +unsigned short ina_val; +double V,C; int acc[3] = {0,0,0}; @@ -21,12 +26,10 @@ signed char rec_data = rs485.getc(); switch(rec_data) { case 'A': - servo_deg1 = rs485.getc(); - pc.printf("counter1:%d\n\r",servo_deg1); + eruron_deg = rs485.getc(); break; case 'B': - servo_deg2 = rs485.getc(); - //pc.printf("counter2:%d\n\r",servo_deg2); + drug_deg = rs485.getc(); break; case 'C': Receiver = 1; @@ -37,14 +40,15 @@ rs485.putc((signed char)acc[1]); rs485.putc('Z'); rs485.putc((signed char)acc[2]); -// rs485.printf("X%iY%iZ%i\n\r",(short)acc[0],(short)acc[1],(short)acc[2]); + rs485.putc('V'); + rs485.putc((signed char)V); + rs485.putc('I'); + rs485.putc((signed char)C); wait_ms(2); Receiver = 0; - //pc.printf("x:%d,y:%d,z:%d\n\r",(signed char)acc[0],(signed char)acc[1],(signed char)acc[2]); break; default: wait_us(5); - pc.printf("%d\n\r",rec_data); } } @@ -63,15 +67,46 @@ accelerometer.setDataFormatControl(0x0B); accelerometer.setDataRate(ADXL345_3200HZ); accelerometer.setPowerControl(0x08); + + if(!VCmonitor.isExist()){ + pc.printf("VCmonitor NOT FOUND\n"); + } + ina_val = 0; + if(VCmonitor.rawRead(0x00,&ina_val) != 0){ + pc.printf("VCmonitor READ ERROR\n"); + while(1){} + } + VCmonitor.setCurrentCalibration(); +} + +void updateDatas(){ + accelerometer.getOutput(acc); + int tmp = VCmonitor.getVoltage(&V); + tmp = VCmonitor.getCurrent(&C); +} + +double calcPulse(int deg){ + return (0.00093+(deg/180.0)*(0.00235-0.00077)); +} + +void WriteServo(){ + servo1.pulsewidth(calcPulse(eruron_deg)); + servo2.pulsewidth(calcPulse(drug_deg)); +} + +void toStringDatas(){ + pc.printf("acc[0]:%i acc[1]:%i acc[2]:%i\r\n",acc[0],acc[1],acc[2]); + pc.printf("V:%i C:%i\r\n",V,C); + pc.printf("\r\n"); } int main() { init(); while(1) { - accelerometer.getOutput(acc); - servo1.pulsewidth(0.00093 + (servo_deg1 / 180.0) * (0.00235 - 0.00077)); - servo2.pulsewidth(0.00093 + (servo_deg2 / 180.0) * (0.00235 - 0.00077)); + updateDatas(); + WriteServo(); + toStringDatas(); wait_ms(10); } }