ENSMM
BLE test of ObCP ENSMM
Dependencies: mbed SimpleBLE X_NUCLEO_IDB0XA1 LIS3DH_spi USBDevice
main.cpp
- Committer:
- jimbaud
- Date:
- 2019-11-27
- Revision:
- 6:1670244c4eb4
- Parent:
- 3:e439dd384d7e
File content as of revision 6:1670244c4eb4:
//Includes
#include "mbed.h"
#include "SimpleBLE.h"
#include "LIS3DH.h"
#include "USBSerial.h"
//Accelerometer
#define MOSI PC_12
#define MISO PC_11
#define CS PC_5
#define SCLK PC_10
//Init simpleBLE
SimpleBLE ble("ObCP_ENSMM_CROC");
// GPIO set
//Interrupt input
InterruptIn user1(PC_13); //User1
//PWM output
PwmOut PWMoutput(PB_1); //Main PWM output
PwmOut Green(PC_8); //PWM Red LED
PwmOut Red(PC_6); //PWM Green LED
PwmOut Blue(PC_9); //PWM Blue LED
//USART
USBSerial pc(0x1f00, 0x2012, 0x0001, false);
//Init accelerometer
LIS3DH acc(MOSI, MISO, SCLK, CS, LIS3DH_DR_NR_LP_50HZ, LIS3DH_FS_2G);
// Characteristics Accelerometer input
SimpleChar<float> accX = ble.readOnly_float(0xA000, 0xA002);
SimpleChar<float> accY = ble.readOnly_float(0xA000, 0xA003);
SimpleChar<float> accZ = ble.readOnly_float(0xA000, 0xA004);
// Clear the screen
void clrscr ()
{
char clrscr[] = {0x1B, '[', '2', 'J', 0};
pc.printf(clrscr);
}
//Home the cursor
void homescr()
{
char homescr[] = {0x1B, '[', 'H', 0};
pc.printf(homescr);
}
//goto specified line an column
void gotoscr(int line, int column)
{
char scr[] = {0x1B, '[', 0x00,';',0x00, 'H', 0};
scr[2] = line;
scr[4] = column;
pc.printf(scr);
}
// When characteristic LED RGB changing
void LEDupdate(uint32_t newColor)
{
// read individual bytes
uint8_t* channels = (uint8_t*)&newColor;
// cast to float, as PwmOut expects a value between 0.0f and 1.0f
Red = static_cast<float>(channels[0]) / 255.0f;
Green = static_cast<float>(channels[1]) / 255.0f;
Blue = static_cast<float>(channels[2]) / 255.0f;
gotoscr('5','0');
pc.printf("PWM Red = ");
pc.printf("%5.2f",Red);
gotoscr('6','0');
pc.printf("PWM Green = ");
pc.printf("%5.2f",Green);
gotoscr('7','0');
pc.printf("PWM Blue = ");
pc.printf("%5.2f",Blue);
}
// When characteristic PWM output changing
void PWMupdate(uint8_t pwmvalue)
{
// cast to float, as PwmOut expects a value between 0.0f and 1.0f
PWMoutput = static_cast<float>(pwmvalue) / 255.0f;
gotoscr('4','0');
pc.printf("PWM = ");
pc.printf("%5.2f",PWMoutput);
}
// When characteristic input changing
void Accupdate()
{
accX = float(short((acc.read_reg(LIS3DH_OUT_X_H) << 8) | acc.read_reg(LIS3DH_OUT_X_L))) * 0.001F / 15;
accY = float(short((acc.read_reg(LIS3DH_OUT_Y_H) << 8) | acc.read_reg(LIS3DH_OUT_Y_L))) * 0.001F / 15;
accZ = float(short((acc.read_reg(LIS3DH_OUT_Z_H) << 8) | acc.read_reg(LIS3DH_OUT_Z_L))) * 0.001F / 15;
gotoscr('0','0');
pc.printf("X acceleration = ");
pc.printf("%5.2f",accX);
gotoscr('2','0');
pc.printf("Y acceleration = ");
pc.printf("%5.2f",accY);
gotoscr('3','0');
pc.printf("Z acceleration = ");
pc.printf("%5.2f",accZ);
}
// Characteritic PWM LED RGB
SimpleChar<uint32_t> color = ble.writeOnly_u32(0x6200, 0x6201, &LEDupdate);
// Characteristic PWM output
SimpleChar<uint8_t> pwmout = ble.writeOnly_u8(0xA000, 0xA001, &PWMupdate);
//Main program
int main(int, char**)
{
ble.start();
clrscr();
homescr();
pc.printf("BLE started");
Ticker t;
t.attach(&Accupdate, 5.0f);
while (1) {
ble.waitForEvent();
}
}