Midterm
Dependencies: MMA8451Q8b SLCD mbed
Fork of KL46z_double_tap_2017 by
KL46z_single_tap_2016..cpp
- Committer:
- kennylujan42
- Date:
- 2017-03-15
- Revision:
- 14:ca20f659409a
- Parent:
- 13:254e382efeab
File content as of revision 14:ca20f659409a:
#include "mbed.h" #include "MMA8451Q8g.h" #include "SLCD.h" #define BLINKTIME 1.5 #define RELAYON 0 #define RELAYOFF 1 #define LEDDELAY 0.4 #define WAITDELAY 0.7 #define LCDLEN 10 #define REG_WHO_AM_I 0x0D #define XYZ_DATA_CFG 0x0E #define REG_OUT_X_MSB 0x01 #define REG_OUT_Y_MSB 0x03 #define REG_OUT_Z_MSB 0x05 #define REG_PULSE_CFG 0x21 #define REG_PULSE_SRC 0x22 #define REG_PULSE_THSZ 0x25 #define REH_PULSE_TMLT 0x26 #define REG_CTRL_4 0x2D #define REG_CTRL_5 0x2E #define MAX_2G 0x00 #define MAX_4G 0x01 #define MAX_8G 0x02 #define SET_INTERRUPT 0x08 //using interrupt INT1 PTC5 #define SET_INT_LINE 0x00 #define SET_THZ 0x28 // See Table 49 in data sheet /*********** 0b0010 0000 2g/0.063g/count = 32 counts ************/ #define SET_TMLT 0x1C // See Talbe 51 in data sheet /****** 0b0001 1000 24 = 0x18 time step at 800Hz ODR = 0.625ms 24x0.625 = 15 ms ******/ //#define PRINTDBUG // Accelerometer SPI pins #if defined (TARGET_KL25Z) || defined (TARGET_KL46Z) PinName const SDA = PTE25; PinName const SCL = PTE24; #elif defined (TARGET_KL05Z) PinName const SDA = PTB4; PinName const SCL = PTB3; #else #error TARGET NOT DEFINED #endif #define MMA8451_I2C_ADDRESS (0x1d<<1) Ticker ledBlink; // timinginterrupt for RED led InterruptIn MMA8451QInt1(PTD1); //push botton with internal pullup DigitalOut myled(LED_RED); // red led DigitalOut relay(LED_GREEN); // green led MMA8451Q acc(SDA, SCL, MMA8451_I2C_ADDRESS); float delay = WAITDELAY; int relayState = RELAYOFF; int outState = false; SLCD slcd; //define LCD display char LCDMessages[2][LCDLEN] = {"TRUE", "FALS"}; void LCDMess(char *lMess, float dWait){ slcd.Home(); slcd.clear(); slcd.printf(lMess); wait(dWait); } void LCDMessNoDwell(char *lMess){ slcd.Home(); slcd.clear(); slcd.printf(lMess); } // Interrupt routines void LEDBlinker(){ // RED LED interrupt outState = !outState; myled.write(outState); } void GreenLEDBlinker(){ // Green LED interrupt //uint8_t i_regData; relayState = !relayState; relay.write(relayState); //acc.readRegs(REG_PULSE_SRC, &i_regData, 1); // Clear the tap event } // end interrupt routines int main() { uint8_t regData; uint8_t latchData = 0x20; //0b01000000 64; //for pulse config register uint8_t axisData = 0x08; //0b00010000 16; char lcdData[LCDLEN]; myled.write(outState); relay.write(relayState); // set up interrrupts to be used later for taps MMA8451QInt1.rise(&GreenLEDBlinker); MMA8451QInt1.mode(PullNone); // set up interrrupts to be used later for taps ledBlink.attach(&LEDBlinker, LEDDELAY); // Read Pulse Source Data and check to see if things have been set acc.readRegs(REG_PULSE_CFG, ®Data, 1); // check it sprintf (lcdData,"%x",regData); LCDMess(lcdData,BLINKTIME); // *********** Initialize for tap tecognition *********** regData = latchData | axisData; acc.setRegisterInStandby(REG_PULSE_CFG, regData); // write the data acc.readRegs(REG_PULSE_CFG, ®Data, 1); // check it sprintf (lcdData,"%x",regData); LCDMess(lcdData,BLINKTIME); // Check to see if accerlometer is alive and well acc.setGLimit(MAX_4G); // For now set to 2g acc.readRegs(XYZ_DATA_CFG, ®Data, 1); sprintf (lcdData,"%x",regData); // Note displaying in hexidecimal LCDMess(lcdData,BLINKTIME); // Setup single-tap pulse prarameters. acc.setRegisterInStandby(REG_PULSE_THSZ, SET_THZ); // write the data acc.setRegisterInStandby(REH_PULSE_TMLT, SET_TMLT); // write the data // Set up (pulse) interrupt to INT1 pin acc.setRegisterInStandby(REG_CTRL_4, SET_INTERRUPT); // write the data acc.setRegisterInStandby(REG_CTRL_5, SET_INT_LINE); // write the data // End or seetup acc.readRegs(REG_WHO_AM_I, ®Data, 1); sprintf (lcdData,"%x",regData); LCDMess(lcdData,BLINKTIME); while (true) { acc.readRegs(REG_PULSE_SRC, ®Data, 1); sprintf (lcdData,"%x",regData); LCDMess(lcdData,BLINKTIME); LCDMessNoDwell(LCDMessages[relayState]); wait(delay); } }