bontor humala
Calibrate and get energy readings from ADE7758 IC from Analog Devices
Currently this library can be used to calibrate and get VRMS, IRMS, active, and apparent energy. I havent worked on reactive energy measurement.
ade-example.cpp
- Committer:
- bonchenko
- Date:
- 2015-04-20
- Revision:
- 6:513b3b5750de
- Parent:
- 5:ea599a829b0b
File content as of revision 6:513b3b5750de:
//#include "mbed.h"
//#include "ade7758.h"
//
//#define AIRMSOFFSET 0xFB1
//#define BIRMSOFFSET 0xFB0
//#define CIRMSOFFSET 0xFB1
//#define AVRMSOFFSET 0xFFB
//#define BVRMSOFFSET 0x2
//#define CVRMSOFFSET 0xFFF
//
//Serial DBG(PA_9, PA_10); // tx, rx
//ADE7758 ADE(PB_5, PD_2, PB_4, PB_6, PB_7);
//
//void printBytes(long input, uint8_t numBits);
//bool CALIBRATE = true;
//
//float AWattHr, BWattHr, CWattHr, AVAHr, BVAHr, CVAHr;
//
//void ade_main() {
// DBG.baud(115200);
// DBG.format(8,Serial::None,1);
// DBG.printf("Starting...\r\n");
//
// ADE.begin();
//
// if (CALIBRATE) {
// DBG.printf("Calibrating...\r\n");
// ADE.calibrateVI(20);
// DBG.printf("V calibration: %.2f, %.2f, %.2f\r\n", ADE.AVRMSCalib, ADE.BVRMSCalib, ADE.CVRMSCalib);
// DBG.printf("I calibration: %.2f, %.2f, %.2f\r\n", ADE.AIRMSCalib, ADE.BIRMSCalib, ADE.CIRMSCalib);
// ADE.writeRMSOffset(AIRMSOFFSET, BIRMSOFFSET, CIRMSOFFSET, AVRMSOFFSET, BVRMSOFFSET, CVRMSOFFSET);
// ADE.calibrateGain(PHASE_A);
// DBG.printf("Watt gain calibration: %.5f, %.5f, %.5f\r\n", ADE.AWGCalib, ADE.BWGCalib, ADE.CWGCalib);
// DBG.printf("VA gain calibration: %.5f, %.5f, %.5f\r\n", ADE.AVAGCalib, ADE.BVAGCalib, ADE.CVAGCalib);
// DBG.printf("Wh/LSB: %.8f, %.8f, %.8f\r\n", ADE.AWhLSB, ADE.BWhLSB, ADE.CWhLSB);
// DBG.printf("VAh/LSB: %.8f, %.8f, %.8f\r\n", ADE.AVAhLSB, ADE.BVAhLSB, ADE.CVAhLSB);
// }
//
// DBG.printf("Start measurement\r\n");
//
// while(1) {
// DBG.printf("VRMS for each phase: %.2f, %.2f, %.2f\r\n", ADE.calculateVRMS(PHASE_A), ADE.calculateVRMS(PHASE_B), ADE.calculateVRMS(PHASE_C));
// DBG.printf("IRMS for each phase: %.2f, %.2f, %.2f\r\n", ADE.calculateIRMS(PHASE_A), ADE.calculateIRMS(PHASE_B), ADE.calculateIRMS(PHASE_C));
// ADE.getEnergy(PHASE_A, 1, &AWattHr, &BWattHr, &CWattHr, &AVAHr, &BVAHr, &CVAHr);
// DBG.printf("WattHR for each phase: %.2f, %.2f, %.2f\r\n", AWattHr, BWattHr, CWattHr);
// DBG.printf("VAHR for each phase: %.2f, %.2f, %.2f\r\n", AVAHr, BVAHr, CVAHr);
// DBG.printf("\r\n");
// wait(10);
// }
//}
//
//void printBytes(long input, uint8_t numBits) {
// for (int i = numBits-1; i >= 0; i--) {
// DBG.printf("%d", ((input >> i) & 1));
// }
//}