Soft robot team
Robot team project
Dependencies: QEI Motordriver ros_lib_melodic
sensor/Sensor.cpp
- Committer:
- florine_van
- Date:
- 2019-10-22
- Revision:
- 1:d5adc483bce0
- Parent:
- 0:57855aafa907
- Child:
- 2:c537f1ebad7b
File content as of revision 1:d5adc483bce0:
#include"mbed.h"
#include <ros.h>
#include "Sensor.h"
Sensor::Sensor(PinName sda, PinName scl, PinName shdn)
: i2c(sda, scl), SHDN(shdn)
{
addr = DEFAULT_SENSOR_ADDRESS;
}
///////////////////////////////////////////////////////////////////
// TODO
///////////////////////////////////////////////////////////////////
int Sensor::init()
{
char reset;
// check to see has it be Initialised already
reset = readByte(0x016);
if (reset==1) {
// Mandatory settings : private registers
setRegister(0x0207, 0x01);
setRegister(0x0208, 0x01);
setRegister(0x0096, 0x00);
setRegister(0x0097, 0xfd);
setRegister(0x00e3, 0x01);
setRegister(0x00e4, 0x03);
setRegister(0x00e5, 0x02);
setRegister(0x00e6, 0x01);
setRegister(0x00e7, 0x03);
setRegister(0x00f5, 0x02);
setRegister(0x00d9, 0x05);
setRegister(0x00db, 0xce);
setRegister(0x00dc, 0x03);
setRegister(0x00dd, 0xf8);
setRegister(0x009f, 0x00);
setRegister(0x00a3, 0x3c);
setRegister(0x00b7, 0x00);
setRegister(0x00bb, 0x3c);
setRegister(0x00b2, 0x09);
setRegister(0x00ca, 0x09);
setRegister(0x0198, 0x01);
setRegister(0x01b0, 0x17);
setRegister(0x01ad, 0x00);
setRegister(0x00ff, 0x05);
setRegister(0x0100, 0x05);
setRegister(0x0199, 0x05);
setRegister(0x01a6, 0x1b);
setRegister(0x01ac, 0x3e);
setRegister(0x01a7, 0x1f);
setRegister(0x0030, 0x00);
setRegister(SYSTEM_FRESH_OUT_OF_RESET, 0x00); //change fresh out of set status to 0
} else {
return -1;
}
return 0;
}
void Sensor::changeAddress(char address)
{
setRegister(I2C_SLAVE_DEVICE_ADDRESS, address);
addr = address;
}
///////////////////////////////////////////////////////////////////
// New measurement
///////////////////////////////////////////////////////////////////
int Sensor::read()
{
int range;
// Start range measurement
startRange();
// Poll the VL6180 till new sample ready
pollRange();
// Read range result
range = readRange();
// Clear the interrupt on VL6180
clearInterrupts();
// Display result
return range;
}
void Sensor::startRange()
{
writeByte(0x018,0x03);
}
void Sensor::pollRange()
{
char status;
char range_status;
// check the status
status = readByte(RESULT_INTERRUPT_STATUS_GPIO);
range_status = status & 0x07;
// wait for new measurement ready status
while (range_status != 0x00) {
status = readByte(RESULT_INTERRUPT_STATUS_GPIO);
range_status = status & 0x07;
}
}
int Sensor::readRange()
{
int range;
range = readByte(RESULT_RANGE_VAL);
return range;
}
void Sensor::clearInterrupts()
{
writeByte(0x015,0x07);
}
void Sensor::turnOff()
{
SHDN = 0;
}
void Sensor::turnOn()
{
SHDN = 1;
}
///////////////////////////////////////////////////////////////////
// Update a VL6180X register
///////////////////////////////////////////////////////////////////
void Sensor::setRegister(wchar_t reg, char data)
{
writeByte(reg, data);
}
///////////////////////////////////////////////////////////////////
// Split 16-bit register address into two bytes and write
// the address + data via I²C
///////////////////////////////////////////////////////////////////
void Sensor::writeByte(wchar_t reg, char data)
{
char data_write[3];
data_write[0] = (reg >> 8) & 0xFF;;
// MSB of register address
data_write[1] = reg & 0xFF;
// LSB of register address
data_write[2] = data & 0xFF;
i2c.write(addr, data_write, 3);
}
///////////////////////////////////////////////////////////////////
// Split 16-bit register address into two bytes and write
// required register address to VL6180 and read the data back
///////////////////////////////////////////////////////////////////
char Sensor::readByte(wchar_t reg)
{
char data_write[2];
char data_read[1];
data_write[0] = (reg >> 8) & 0xFF; // MSB of register address
data_write[1] = reg & 0xFF; // LSB of register address
i2c.write(addr, data_write, 2);
i2c.read(addr, data_read, 1);
return data_read[0];
}