Software that allows basic remote control of the position of a servo (schematic included in the comments)
Fork of Nucleo_sg90_remote_control by
main.cpp
- Committer:
- YROY2004
- Date:
- 2017-03-24
- Revision:
- 6:6e9120cf5640
- Parent:
- 5:78a94312c383
- Child:
- 7:db4f43c3ae10
File content as of revision 6:6e9120cf5640:
//247-426-Nucleo_Lab_8 //This software is derived from Nucleo_sg90_remote_control. //It outputs a PWM signal that is compatible with Tower Pro SG90 servos. //It makes the servo move according to the temperature read from a DS1820 //temperature sensor. //Pressing the user button makes the software define the temperature it then //reads as a reference temperature that is associated to the middle position //that can be taken by the sg90 servo. An increase in temperature relative to //this reference temperature will then make the servo rotate in one direction //whereas a decrease with respect to the reference will rather make it rotate in //the other direction. // //Just connect the brown wire of a SG90 servo to GND, its red wire to AVDD and //its the orange wire to D11 to have the SMT32-F401RE control the servo. // // //material: // DS18S20: temperature sensor // //signals: // D11= pwm signal to use to control SG90 directly // D8= used to communicate with the 1-wire temperature sensor Ds18s20 // // Circuit: // _____ // | | DS18S20 // -----(front view) // | | | // GND___| | |+5V // Orange wire of servo SG90 --D11 | // Red wire of servo SG90 -----+5V D8_______|-/\/\/\--+5v // Brown wire of servo SG90 ---GND 10k // // Hyperterminal configuration // 9600 bauds, 8-bit data, no parity #include "DS1820.h" #include "mbed.h" #define NUMBER_OF_POSITIONS sizeof(pulseDurationInMicroSeconds)/sizeof(int) #define PWM_PERIOD_FOR_SG90_IN_MS 20 #define PWM_PERIOD_FOR_MODULATION_IN_US 25 Serial pc(SERIAL_TX, SERIAL_RX); DS1820 probe(D8); PwmOut led(LED1); DigitalOut userLED(LED1); PwmOut towerProSG90(D11); InterruptIn userButton(USER_BUTTON); int index; int pulseDurationInMicroSeconds[]= {1500,1625,1750,1875,2000, 1875,1750,1625,1500,1375,1250,1125,1000,1125,1250,1375}; void responseToUserButtonPressed(void) { index++; if (index >= NUMBER_OF_POSITIONS) { index = 0; } towerProSG90.pulsewidth_us(pulseDurationInMicroSeconds[index]); } int main() { index = 0; towerProSG90.period_ms(PWM_PERIOD_FOR_SG90_IN_MS); towerProSG90.pulsewidth_us(pulseDurationInMicroSeconds[index]); userButton.fall(&responseToUserButtonPressed); userLED = 1; while(1) { userLED = !userLED; probe.convertTemperature(true, DS1820::all_devices); //Start temperature conversion, wait until ready printf("Il fait: %3.1foC\r\n", probe.temperature()); wait(1.25); } }