HDC1080 sensor library
HDC1080.cpp
- Committer:
- MACRUM
- Date:
- 2019-11-08
- Revision:
- 1:a0e46d956969
- Parent:
- 0:fdb750cc9ca8
- Child:
- 2:b913d2690215
File content as of revision 1:a0e46d956969:
#include "mbed.h" #include "HDC1080.h" #define HDC_TEMP_OFF 0x00 #define HDC_HUMID_OFF 0x01 #define HDC_CONFIG_OFF 0x02 #define HDC_MANID_OFF 0xFE #define HDC_SER_OFF_FIRST 0xFB #define HDC_SER_OFF_MID 0xFC #define HDC_SER_OFF_LAST 0xFD #define I2C_FREQ 100000 #define CHIP_ADDRESS (0x40 << 1) const float HDC_CHIP_ERROR = -255; const unsigned long HDC_CHIP_SER_ERROR = 0; HDC1080::HDC1080(PinName sda, PinName slc) : I2C(sda, slc) { memset(_buffer,'\0',5); _buffer[0] = HDC_CONFIG_OFF; this->frequency(I2C_FREQ); int res = this->write(CHIP_ADDRESS, _buffer, 2); } int HDC1080::ReadSignature(void) { uint16_t Manufacturer_ID = read2Bytes(CHIP_ADDRESS, HDC_MANID_OFF); if (Manufacturer_ID == 0) { return (int)HDC_CHIP_ERROR; } else { return Manufacturer_ID; } } float HDC1080::readTemperature() { uint16_t rawT = read2Bytes(CHIP_ADDRESS, HDC_TEMP_OFF); if (rawT == 0) { return HDC_CHIP_ERROR; } else { float temp = ((float) rawT / pow(2.0f, 16.0f)) * 165.0f - 40.0f; return temp; } } float HDC1080::readHumidity() { uint16_t rawH = read2Bytes(CHIP_ADDRESS, HDC_HUMID_OFF); if (rawH == 0) { return HDC_CHIP_ERROR; } else { float humidity = ((float) rawH / pow(2.0f, 16.0f)) * 100.0f; return humidity; } } unsigned long HDC1080::readSerialNumber(void) { memset(_buffer,0,4); _buffer[0] = HDC_MANID_OFF; int res = this->write(CHIP_ADDRESS, _buffer, 1); if (res != 0) { return (unsigned long) HDC_CHIP_SER_ERROR; } memset(_buffer,0,4); res = this->read(CHIP_ADDRESS, _buffer,4); if (res != 0) { return (unsigned long) HDC_CHIP_SER_ERROR; } unsigned long rawser = _buffer[2] << 16 | _buffer[1] << 8 | _buffer[0]; return rawser; } //Private Member functions uint16_t HDC1080::read2Bytes(int chip_addr, int offset) { memset(_buffer,0,3); // send chip address onto buss _buffer[0] = offset; int res =this->write(chip_addr, _buffer, 1); if (res != 0) { return 0; } // read data from chip memset(_buffer,0,3); res = this->read(CHIP_ADDRESS, _buffer,2); if (res != 0) { return 0; } return _buffer[0] << 8 | _buffer[1]; }