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testSensor
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Dependencies: FXOS8700CQ HIH6130 IS31SE5000 MAG3110 MAX44000 MAX44005 MAX44008 MMA8451Q MMA8452Q MPL3115A2 VEML6040 VEML6075 mbed vt100 LM75B FXAS21002 MAX30101 VCNL4020 VCNL4100
MSU.cpp
- Committer:
- Rhyme
- Date:
- 2017-12-27
- Revision:
- 18:ee6f43cbfcc1
- Parent:
- 17:514f67d94d12
- Child:
- 19:dfd1f76515c5
File content as of revision 18:ee6f43cbfcc1:
#include "mbed.h"
#include "vt100.h"
#include "MSS.h"
#include "MSU.h"
#include "MMA8451Q.h"
#include "MMA8452Q.h"
#include "MAG3110.h"
#include "HIH6130.h"
#include "FXOS8700CQ.h"
#include "MAX44000.h"
#include "MAX44005.h"
#include "MAX44008.h"
#include "MPL3115A2.h"
#include "VEML6040.h"
#include "VEML6075.h"
#include "LM75B.h"
#include "FXAS21002.h"
#include "S11059.h"
#include "MAX30101.h"
#include "VCNL4100.h"
#include "AK9752.h"
#include "AK9753.h"
#include "AK009970N.h"
extern int test_loop ;
extern int interval ; /* wait interval ms */
extern vt100 *tty ;
i2c_sensor_type i2c_sensor[] = {
{MSU_MMA8451Q_ADDRESS, "MMA8451Q", testMMA8451Q},
{MSU_MMA8452Q_ADDRESS, "MMA8452Q", testMMA8452Q},
{MSU_MAG3110_ADDRESS, "MAG3110", testMAG3110},
{MSU_HIH6130_ADDRESS, "HIH6130", testHIH6130},
{MSU_FXOS8700CQ_ADDRESS, "FXOS8700CQ", testFXOS8700CQ},
{MSU_MAX44000_ADDRESS, "MAX44000", testMAX44000},
{MSU_MAX44005_ADDRESS, "MAX44005", testMAX44005},
{MSU_MAX44008_ADDRESS, "MAX44008", testMAX44008},
{MSU_MAX30101_ADDRESS, "MAX30101", testMAX30101},
{MSU_MPL3115A2_ADDRESS, "MPL3115A2", testMPL3115A2},
{MSU_IS31SE5000_ADDRESS, "IS31SE5000", testIS31SE5000},
// {MSU_VCNL4020_ADDRESS, "VCNL4020", testVCNL4020"},
{MSU_VEML6040A_ADDRESS, "VEML6040A", testVEML6040A},
{MSU_VEML6075_ADDRESS, "VEML6075", testVEML6075},
{MSU_LM75B_ADDRESS, "LM75B", testLM75B},
{MSU_FXAS21002_ADDRESS, "FXAS21002", testFXAS21002},
{MSU_S11059_ADDRESS, "S11059", testS11059},
{MSU_VCNL4100_I2C_ADDRESS, "VCNL4100", testVCNL4100},
{MSU_AK9752_I2C_ADDRESS, "AK9752", testAK9752},
{MSU_AK9753_I2C_ADDRESS, "AK9753", testAK9753},
{MSU_AK009970N_I2C_ADDRESS, "AK009970N", testAK009970N},
{0x00, 0, 0}
} ;
MAX30101 *max30101 = 0 ;
#ifndef FIFO_DEPTH
#define FIFO_DEPTH 32
#endif
void doDemo(void)
{
int i ;
float humidity = 0 ;
float temperature = 0 ;
uint8_t mode ;
uint8_t txdata, rxdata ;
uint16_t als ;
uint8_t prox, overflow ;
uint32_t data, alt, bar, tmp ;
uint16_t sample_time ;
HIH6130 *hih6130 = new HIH6130(PIN_SDA, PIN_SCL, MSU_HIH6130_ADDRESS) ;
MMA8452Q *mma8452q = new MMA8452Q(PIN_SDA, PIN_SCL, MSU_MMA8452Q_ADDRESS) ;
MAX44000 *max44000 = new MAX44000(PIN_SDA, PIN_SCL, MSU_MAX44000_ADDRESS) ;
rxdata = 0xF1 ;
max44000->setRxConfig(rxdata) ;
txdata = 0x0F ; /* light LED! */
max44000->setTxConfig(txdata) ;
mode = 0x30 ; // ALS & PROX mode
max44000->setMainConfig(mode) ;
MPL3115A2 *mpl3115a2 = new MPL3115A2(PIN_SDA, PIN_SCL, MSU_MPL3115A2_ADDRESS) ;
tty->cls() ;
tty->locate(10, 1) ;
printf("=== Multi Sensor Demo (%s) ===\n", BOARD_NAME) ;
tty->putStr(2, 3, "MMA8451Q") ;
tty->putStr(2, 10, "MAX44000") ;
tty->putStr(40, 3, "HIH6130") ;
tty->putStr(40, 10, "MPL3115A2") ;
for (i = 0 ; i < test_loop ; i++ ) {
/* MMA8451Q */
tty->locate(2, 5) ;
printf("X:%.2f Y:%.2f Z:%.2f",
mma8452q->getAccX(),
mma8452q->getAccY(),
mma8452q->getAccZ()) ;
if ((i % 10) == 0) {
/* HIH6130 */
tty->locate(40, 5) ;
hih6130->getValue(&humidity, &temperature) ;
printf("Temp %.1f C", temperature) ;
tty->locate(40, 7) ;
printf("Humidity %.1f %%\n", humidity) ;
/* MAX44000 */
tty->locate(2, 12) ;
max44000->getADC(&overflow, &als, &prox) ;
printf("ALS[ %04X ]", als) ;
if (overflow) {
printf(" overflow ") ;
} else {
printf(" ") ;
}
tty->locate(2, 14) ;
printf("PRX[ %02X ]\n", prox) ;
/* MPL3115A2 */
mpl3115a2->modeAlt() ;
sample_time = mpl3115a2->OneShot() ;
wait(((double)sample_time)/1000.0) ;
alt = mpl3115a2->getAltitude() ;
mpl3115a2->modeBar() ;
sample_time = mpl3115a2->OneShot() ;
wait(((double)sample_time)/1000.0) ;
bar = mpl3115a2->getPressure() ;
tmp = mpl3115a2->getTemperature() ;
tty->locate(40, 11) ;
printf("Altitude: %d", (alt >> 16)&0xFFFF) ;
tty->locate(40, 13) ;
printf("Pressure: %d", (bar >> 6)) ;
tty->locate(40, 15) ;
printf("Temperature: %d", (tmp >> 8) ) ;
}
}
txdata = 0x00 ; /* dim LED! */
max44000->setTxConfig(txdata) ;
tty->locate(1, 20) ;
delete mpl3115a2 ;
delete max44000 ;
delete mma8452q ;
delete hih6130 ;
}
void testLM75B(void)
{
int8_t itemp = 0 ;
float ftemp = 0.0 ;
printf("test LM75B\n") ;
LM75B *lm75b = new LM75B(PIN_SDA, PIN_SCL, MSU_LM75B_ADDRESS) ;
for (int i = 0 ; i < test_loop ; i++ ) {
itemp = lm75b->temp() ;
lm75b->getTemp(&ftemp) ;
printf("Temp = %d C degree, %.3f C degree\n", itemp, ftemp) ;
wait_ms(interval) ;
}
delete lm75b ;
}
void testFXAS21002(void)
{
int16_t data[3] ;
printf("test FXAS21002\n") ;
FXAS21002 *fxas = new FXAS21002(PIN_SDA, PIN_SCL, MSU_FXAS21002_ADDRESS) ;
fxas->activate(true) ;
for (int i = 0 ; i < test_loop ; i++ ) {
data[0] = fxas->getX() ;
data[1] = fxas->getY() ;
data[2] = fxas->getZ() ;
printf("X[%6d], Y[%6d], Z[%6d]\n",
data[0], data[1], data[2]) ;
wait_ms(interval) ;
}
delete fxas ;
}
void testMMA8451Q(void)
{
uint16_t ix, iy, iz ;
float fx, fy, fz ;
printf("test MMA8451Q\n") ;
MMA8451Q *acc = new MMA8451Q(PIN_SDA, PIN_SCL, MSU_MMA8451Q_ADDRESS) ;
for(int i = 0 ; i < test_loop ; i++) {
ix = acc->getRawX() ;
iy = acc->getRawY() ;
iz = acc->getRawZ() ;
fx = acc->getAccX() ;
fy = acc->getAccY() ;
fz = acc->getAccZ() ;
printf("X = %d [ %.2f ], Y = %d [ %.2f ], Z = %d [ %.2f ]\n",
ix, fx, iy, fy, iz, fz ) ;
wait_ms(interval) ;
}
delete acc ;
}
void testMMA8452Q(void)
{
float x, y, z ;
printf("test MMA8452Q\n") ;
MMA8452Q *acc = new MMA8452Q(PIN_SDA, PIN_SCL, MSU_MMA8452Q_ADDRESS) ;
for(int i = 0 ; i < test_loop ; i++) {
x = acc->getAccX() ;
y = acc->getAccY() ;
z = acc->getAccZ() ;
printf("X[%.2f] Y[%.2f] Z[%.2f]\n",x, y, z) ;
wait_ms(interval) ;
}
delete acc ;
}
void testMAG3110(void)
{
uint8_t status = 0 ;
int16_t mX, mY, mZ ;
float fx, fy, fz ;
int x = 10 ;
int y = 5 ;
MAG3110 *mag = new MAG3110(PIN_SDA, PIN_SCL, MSU_MAG3110_ADDRESS) ;
mag->activate() ;
tty->cls() ;
printf("test MAG3110\n") ;
for (int i = 0 ; i < test_loop ; i++) {
wait_ms(interval) ;
status = mag->getStatus() ;
while((status & 0x80) == 0) { // wait for ZYXOW
wait(0.01) ;
status = mag->getStatus() ;
}
tty->locate(x+5, y) ;
printf("--- MAG3110 ---") ;
tty->locate(x, y+4) ;
printf("Temperature: %02X",mag->getTemp()) ;
tty->locate(x, y+5) ;
printf("status: 0x%02X",mag->getStatus()) ;
tty->locate(x, y+6) ;
printf("ctrl reg1: 0x%02X ", mag->getCtrlReg1()) ;
printf("reg2: 0x%02X", mag->getCtrlReg2()) ;
mX = mag->getX() ; // here reset takes place!
mY = mag->getY() ;
mZ = mag->getZ() ;
fx = 10000 * (float)mX / (float)0x7FFF ;
fy = 10000 * (float)mY / (float)0x7FFF ;
fz = 10000 * (float)mZ / (float)0x7FFF ;
tty->locate(x, y+1) ;
printf("X : ") ;
if (fx >= 0) { printf(" ") ; }
printf("%.2f uT : 0x%08X ", fx, mX) ;
tty->locate(x, y+2) ;
printf("Y : ") ;
if (fy >= 0) { printf(" ") ; }
printf("%.2f uT : 0x%08X ", fy, mY) ;
tty->locate(x, y+3) ;
printf("Z : ") ;
if (fz >= 0) { printf(" ") ; }
printf("%.2f uT : 0x%08X ", fz, mZ) ;
}
tty->locate(0, 20) ;
mag->standby() ;
delete mag ;
}
void testHIH6130(void)
{
uint16_t result = 0 ;
float humidity = 0 ;
float temperature = 0 ;
HIH6130 *hih = new HIH6130(PIN_SDA, PIN_SCL, MSU_HIH6130_ADDRESS) ;
printf("test HIH6130\n") ;
for (int i = 0 ; i < test_loop ; i++) {
result = hih->getValue(&humidity, &temperature) ;
printf("Temp %.1f C Humidity %.1f %%\n", temperature, humidity) ;
wait_ms(interval) ;
}
}
void testFXOS8700CQ(void)
{
int16_t accData[3], mgnData[3] ;
printf("test FXOS8700CQ\n") ;
FXOS8700CQ *fxos = new FXOS8700CQ(PIN_SDA, PIN_SCL, MSU_FXOS8700CQ_ADDRESS) ;
fxos->init() ;
for (int i = 0 ; i < test_loop ; i++) {
fxos->readAccMgnData(accData, mgnData) ;
printf("ACC X[%d], Y[%d], Z[%d], MGN X[%d], Y[%d], Z[%d]\n",
accData[0], accData[1], accData[2],
mgnData[0], mgnData[1], mgnData[2]) ;
wait_ms(interval) ;
}
delete fxos ;
}
void testMAX44000(void)
{
uint8_t mode ;
uint8_t txdata, rxdata ;
uint16_t als ;
uint8_t prox, overflow ;
int x = 10 ;
int y = 5 ;
tty->cls() ;
printf("test MAX44000\n") ;
MAX44000 *max44000 = new MAX44000(PIN_SDA, PIN_SCL, MSU_MAX44000_ADDRESS) ;
rxdata = 0xF1 ;
max44000->setRxConfig(rxdata) ;
txdata = 0x0F ; /* light LED! */
max44000->setTxConfig(txdata) ;
mode = 0x30 ; // ALS & PROX mode
max44000->setMainConfig(mode) ;
for (int i = 0 ; i < test_loop ; i++ ) {
max44000->getADC(&overflow, &als, &prox) ;
printf("ALS[ %04X ]", als) ;
if (overflow) {
printf(" overflow ") ;
} else {
printf(" ") ;
}
printf("PRX[ %02X ]\n", prox) ;
wait_ms(interval) ;
}
txdata = 0x00 ; /* dim LED! */
max44000->setTxConfig(txdata) ;
delete max44000 ;
}
void testMAX44005(void)
{
uint16_t amb_c, amb_r, amb_g, amb_b, amb_ir, amb_ircomp, amb_temp ;
MAX44005 *max44005 = new MAX44005(PIN_SDA, PIN_SCL, MSU_MAX44005_ADDRESS) ;
max44005->enableTEMP() ;
max44005->setMode(0x04) ;
printf("test MAX44005\n") ;
for (int i = 0 ; i < test_loop ; i++ ) {
amb_c = max44005->getAMB_CLEAR() ;
amb_r = max44005->getAMB_RED() ;
amb_g = max44005->getAMB_GREEN() ;
amb_b = max44005->getAMB_BLUE() ;
amb_ir = max44005->getIR() ;
amb_ircomp = max44005->getIRCOMP() ;
amb_temp = max44005->getTEMP() ;
printf("--- MAX44005 ---\n") ;
printf(" C[ %04X ]\n", amb_c) ;
printf("R[ %04X ] G[ %04X ] B[ %04X ]\n",amb_r, amb_g, amb_b) ;
printf("IR[ %04X ] IRCOMP [ %04X ]\n",amb_ir, amb_ircomp) ;
printf(" TEMP [ %04X ]\n",amb_temp) ;
printf("\n") ;
wait_ms(interval) ;
}
delete max44005 ;
}
#define MODE_CLEAR_RGB_IR 0x02
void testMAX44008(void)
{
uint16_t amb_c, amb_r, amb_g, amb_b, amb_ir, amb_ircomp, amb_temp ;
MAX44008 *max44008 = new MAX44008(PIN_SDA, PIN_SCL, MSU_MAX44008_ADDRESS) ;
max44008->setMode(MODE_CLEAR_RGB_IR) ;
printf("test MAX44008\n") ;
for (int i = 0 ; i < test_loop ; i++ ) {
amb_c = max44008->getAMB_CLEAR() ;
amb_r = max44008->getAMB_RED() ;
amb_g = max44008->getAMB_GREEN() ;
amb_b = max44008->getAMB_BLUE() ;
amb_ir = max44008->getIR() ;
amb_ircomp = max44008->getIRCOMP() ;
amb_temp = max44008->getTEMP() ;
printf("--- MAX44008 ---\n") ;
printf(" C[ %04X ]\n", amb_c) ;
printf("R[ %04X ] G[ %04X ] B[ %04X ]\n",amb_r, amb_g, amb_b) ;
printf("IR[ %04X ] IRCOMP [ %04X ]\n",amb_ir, amb_ircomp) ;
printf(" TEMP [ %04X ]\n",amb_temp) ;
printf("\n") ;
wait_ms(interval) ;
}
delete max44008 ;
}
void testMPL3115A2(void)
{
uint32_t data, alt, bar, tmp ;
uint16_t sample_time ;
MPL3115A2 *mpl = new MPL3115A2(PIN_SDA, PIN_SCL, MSU_MPL3115A2_ADDRESS) ;
printf("test MPL3115A2\n") ;
for (int i = 0 ; i < test_loop ; i++) {
mpl->modeAlt() ;
sample_time = mpl->OneShot() ;
wait(((double)sample_time)/1000.0) ;
alt = mpl->getAltitude() ;
mpl->modeBar() ;
sample_time = mpl->OneShot() ;
wait(((double)sample_time)/1000.0) ;
bar = mpl->getPressure() ;
tmp = mpl->getTemperature() ;
printf("Altitude: %d, Pressure: %d, Temperature: %d\n",
(alt >> 16)&0xFFFF,
(bar >> 6),
(tmp >> 8) ) ;
wait_ms(interval) ;
}
delete mpl ;
}
void testIS31SE5000(void)
{
printf("test ISI31SE5000\n") ;
printf("Sorry not implemented yet\n") ;
}
void testVEML6040A(void)
{
uint16_t uR, uG, uB, uW ;
VEML6040 *veml = new VEML6040(PIN_SDA, PIN_SCL, MSU_VEML6040A_ADDRESS) ;
for (int i = 0 ; i < test_loop ; i++ ) {
veml->setCOLORConf(0x04) ; /* one time trigger, other wise write 0 */
wait(0.1) ;
veml->getRData(&uR) ;
veml->getGData(&uG) ;
veml->getBData(&uB) ;
veml->getWData(&uW) ;
printf("VEML6040A R[%d], G[%d], B[%d], W[%d]\n", uR, uG, uB, uW) ;
wait_ms(interval) ;
}
delete veml ;
}
void testVEML6075(void)
{
float uvi ;
float uva, uvb, uva_cie, uvb_cie ;
VEML6075 *veml = new VEML6075(PIN_SDA, PIN_SCL, MSU_VEML6075_ADDRESS) ;
veml->setUVConf(0x00) ;
for (int i = 0 ; i < test_loop ; i++ ) {
uvi = veml->UVI() ;
uva = veml->getUVA() ;
uva_cie = veml->getUVA_CIE() ;
uvb = veml->getUVB() ;
uvb_cie = veml->getUVB_CIE() ;
printf("VEML6075 UVI[%.4f] UVA[%.4f] UVA_CIE[%.4f] UVB[%.4f] UVB_CIE[%.4f]\n",
uvi, uva, uva_cie, uvb, uvb_cie) ;
wait_ms(interval) ;
}
delete veml ;
}
void testVCNL4100(void)
{
uint8_t psData = 0x00 ;
uint16_t alsData = 0x00 ;
VCNL4100 *vcnl4100 = 0 ;
vcnl4100 = new VCNL4100(PIN_SDA, PIN_SCL, MSU_VCNL4100_I2C_ADDRESS) ;
printf("=== test VCNL4100 for %s (%s)\n", BOARD_NAME, __DATE__) ;
printf("Proximity, Ambient Light\n") ;
vcnl4100->setAlsConf(0x00) ;
vcnl4100->setPsConf12(0x0000) ;
vcnl4100->setSpo(0xA0) ;
wait(0.1) ;
for (int i = 0 ; i < test_loop ; i++ ) {
psData = vcnl4100->getPsData() ;
alsData = vcnl4100->getAlsData() ;
printf("0x%02X, 0x%04X\n", psData, alsData) ;
wait(1);
}
delete vcnl4100 ;
}
void testS11059(void)
{
uint16_t uR, uG, uB, uIR ;
uint8_t ctrl ;
S11059 *s11059 = new S11059(PIN_SDA, PIN_SCL, MSU_S11059_ADDRESS) ;
for (int i = 0 ; i < test_loop ; i++ ) {
ctrl = 0x89 ; /* ADC reset, High Gain, integration time 1.4ms */
s11059->setControl(ctrl) ;
ctrl = 0x09 ; /* Release ADC reset, High Gain, integration time 1.4ms */
s11059->setControl(ctrl) ; /* start measure */
wait(0.02) ;
s11059->getRData(&uR) ;
s11059->getGData(&uG) ;
s11059->getBData(&uB) ;
s11059->getIRData(&uIR) ;
printf("S11059 R[%d], G[%d], B[%d], IR[%d]\n", uR, uG, uB, uIR) ;
wait_ms(interval) ;
}
delete s11059 ;
}
void init_max30101(void)
{
uint32_t slot_config = 0 ;
uint8_t mode ;
max30101 = new MAX30101(PIN_SDA, PIN_SCL, MAX30101_I2C_ADDRESS) ;
max30101->reset() ;
/* config for Mode Configuration (0x09) */
mode = 0x07 ; /* Green, Red, and/or IR */
// mode = 0x03 ; /* SpO2 mode */
max30101->setMODE_CONFIG(mode) ;
/* config for FIFO Configuration (0x08) */
mode =
// (0x02 << 5) /* SMP_AVE = 2 -> avarage of 4 data */
(0x05 << 5) /* SMP_AVE = 5 -> avarage of 32 data */
// | (0x01 << 4) /* FIFO_ROLLOVER_EN = 1 */
| (0x00 << 4) /* FIFO_ROLLOVER_EN = 0 */
| (0x0C) /* FIFO ALMOST FULL at 12 (0x0C) */
;
max30101->setFIFO_CONFIG(mode) ;
max30101->setLED1_PA(0x80) ;
max30101->setLED2_PA(0x80) ;
// max30101->setLED3_PA(0x80) ;
// max30101->setPILOT_PA(0x80) ;
#if 0
slot_config =
(0x02 << 24) /* SLOT2 LED2(IR) */
| (0x01 << 16) /* SLOT1 LED1(RED) */
| (0x00 << 8) /* SLOT4 none */
| (0x03) /* SLOT3 LED3(GREEN) */
;
max30101->setSLOT(slot_config) ;
#endif
mode = 0x01 ;
max30101->setPROX_INT_THR(mode) ;
}
void readSPO2_FIFO(void)
{
uint32_t data[2] ;
uint8_t fifo_wr_ptr, fifo_rd_ptr ;
int num_available_samples = 0 ;
int num_samples_to_read = 6 ;
int i ;
fifo_wr_ptr = max30101->getFIFO_WR_PTR() ;
fifo_rd_ptr = max30101->getFIFO_RD_PTR() ;
num_available_samples = (fifo_wr_ptr + FIFO_DEPTH - fifo_rd_ptr) % FIFO_DEPTH ;
if (num_available_samples < num_samples_to_read) {
num_samples_to_read = num_available_samples / 2 ;
} else {
num_samples_to_read = num_available_samples ;
}
printf("=== %d data %d to read===\n",
num_available_samples, num_samples_to_read) ;
for (i = 0 ; i < num_samples_to_read ; i++ ) {
data[0] = max30101->readFIFO() ; /* LED1 */
data[1] = max30101->readFIFO() ; /* IR */
// printf("LED1: 0x%05X, IR: 0x%05X\n", data[0], data[1]) ;
}
// max30101->setFIFO_WR_PTR(0) ;
// max30101->setFIFO_RD_PTR(0) ;
}
void SPO2_isr(void)
{
uint16_t flag, config ;
float temp ;
int temp_int, temp_frac ;
flag = max30101->getIntStatus() ;
config = max30101->getIntEnable() ;
// printf("Int: 0x%04X Enable: 0x%04X\n", flag, config) ;
if (flag & INT_ST_A_FULL) { /* A_FULL_EN */
// printf("FIFO almost full!\n") ;
readSPO2_FIFO() ;
}
if (flag & INT_ST_PPG_RGY) { /* New FIFO Data Ready */
printf("New FIFO Data Ready\n") ;
}
if (flag & INT_ST_ALC_OVF) { /* Ambient Light Cancellaration Overflow */
printf("Ambient Light Cancellaration Overflow\n") ;
}
if (flag & INT_ST_PROX_INT) {/* Proximity Threshold Triggered */
printf("Proximity Threshold Triggered\n") ;
}
if (flag & INT_ST_PWR_RDY) {/* Power Ready Flag */
printf("Power Ready!\n") ;
}
if (flag & INT_ST_DIE_TEMP_RDY) {/* Internal Temperature Ready Flag */
printf("DIE Temperature Ready!\n") ;
temp_int = max30101->getTEMP_INT() ;
temp_frac = max30101->getTEMP_FRAC() ;
temp = ((float)temp_int)+(((float)temp_frac)/16.0) ;
printf("Temp: %.2f\n", temp) ;
}
}
void initSPO2(void)
{
uint8_t config_byte = 0 ;
uint16_t slot_config = 0 ;
/* config for SPO2 (0x0A) */
config_byte =
(0x01 << 5) /* SPO2_ADC_RGE */
// | (0x05 << 3) /* SPO2_SR 101 = 1000 samples/sec */
| (0x00 << 3) /* SPO2_SR 000 = 50 samples/sec */
| (0x00) /* LED_PW 00 = 69us */
;
max30101->setSPO2_CONFIG(config_byte) ;
/* slot configuration */
slot_config =
(0x02 << 12) /* SLOT2 LED2(IR) */
| (0x01 << 8) /* SLOT1 LED1(RED) */
| (0x00 << 4) /* SLOT4 none */
| (0x00) /* SLOT3 none */
;
max30101->setSLOT(slot_config) ;
/* Inititalize FIFO */
/* config for FIFO Configuration (0x08) */
config_byte =
(0x02 << 5) /* SMP_AVE = 2 -> avarage of 4 data */
| (0x01 << 4) /* FIFO_ROLLOVER_EN = 1 */
// | (0x0C) /* FIFO ALMOST FULL at 12 (0x0C) */
| (0x09) /* FIFO ALMOST FULL at 9 */
;
max30101->setFIFO_CONFIG(config_byte) ;
}
void testMAX30101(void)
{
uint16_t int_config = 0 ;
uint8_t flag = 0 ;
float temp = 0.0 ;
uint8_t id, rev ;
InterruptIn *int0 ;
MAX30101 *max30101 ;
int0 = new InterruptIn(PIN_INT1) ;
max30101 = new MAX30101(PIN_SDA, PIN_SCL, MSU_MAX30101_ADDRESS) ;
init_max30101() ;
id = max30101->getID() ;
rev = max30101->getRev() ;
printf("MAX30101 ID: 0x%02X, Rev: 0x%02X\n", id, rev) ;
initSPO2() ;
int0->fall(&SPO2_isr) ;
max30101->setMODE_CONFIG(MODE_SPO2) ;
max30101->setIntEnable( INT_EN_A_FULL | INT_EN_DIE_TEMP_RDY ) ;
int_config = max30101->getIntEnable() ;
printf("Int enable: 0x%04X\n", int_config) ;
flag = max30101->getIntStatus() ;
for (int i = 0 ; i < test_loop ; i++ ) {
max30101->setTEMP_EN() ; /* trigger temperature read */
temp = max30101->getTEMP() ;
flag = max30101->getIntStatus() ;
printf("Temp = %.2f interrupt flags = 0x%02X\n", temp, flag) ;
wait(1) ;
}
delete max30101 ;
delete int0 ;
}
void testAK9752(void)
{
int companyID, deviceID ;
float temp, ir ;
AK9752 *ak9752 = 0 ;
ak9752 = new AK9752(PIN_SDA, PIN_SCL, MSU_AK9752_I2C_ADDRESS) ;
companyID = ak9752->getCompanyCode() ;
deviceID = ak9752->getDeviceID() ;
printf("=== AK9752 ===\n") ;
printf("Company Code = 0x%02X [should be 0x48]\n", companyID) ;
printf("Device ID = 0x%02X [should be 0x14]\n", deviceID) ;
printf("Temp IR\n") ;
for (int i = 0 ; i < test_loop ; i++ ) {
ak9752->setCNTL2(0xFE) ; /* single shot */
while(ak9752->dataReady() != true) {
;
}
ir = ak9752->getIR() ;
temp = ak9752->getTMP() ;
ak9752->dataOverRun() ; /* clear data ready */
printf("%.2f %.2f\n", temp, ir) ;
wait(0.1) ;
}
delete ak9752 ;
}
void testAK9753(void)
{
int companyID, deviceID ;
float temp, ir[4] ;
AK9753 *ak9753 = 0 ;
ak9753 = new AK9753(PIN_SDA, PIN_SCL, MSU_AK9753_I2C_ADDRESS) ;
ak9753->software_reset() ;
companyID = ak9753->getCompanyCode() ;
deviceID = ak9753->getDeviceID() ;
printf("=== AK9753 ===\n") ;
printf("Company Code = 0x%02X [should be 0x48]\n", companyID) ;
printf("Device ID = 0x%02X [should be 0x13]\n", deviceID) ;
printf("Temp IR1 IR2 IR3 IR4\n") ;
ak9753->setEINTEN(0x01) ;
for (int i = 0 ; i < test_loop ; i++ ) {
ak9753->setECNTL1(0xAA) ; /* single shot */
while(ak9753->dataReady() != true) {
;
}
temp = ak9753->getTMP() ;
ir[0] = ak9753->getIR1() ;
ir[1] = ak9753->getIR2() ;
ir[2] = ak9753->getIR3() ;
ir[3] = ak9753->getIR4() ;
ak9753->dataOverRun() ; /* clear data ready */
printf("%.2f %.2f %.2f %.2f %.2f\n",
temp, ir[0], ir[1], ir[2], ir[3]) ;
wait(0.2) ;
}
delete ak9753 ;
}
void testAK009970N(void)
{
}