SHT31-DIS Library
Dependents: HYBRYD2018_IZU_ROCKET
SHT3x.cpp
- Committer:
- Sigma884
- Date:
- 2018-11-14
- Revision:
- 4:9a5de0485008
- Parent:
- 3:16d45bca7580
File content as of revision 4:9a5de0485008:
#include"mbed.h" #include"SHT3x.h" //Serial pc(USBTX, USBRX); //tx, rx mySHT3x::mySHT3x(I2C &i2cBus, AD0 celect){ i2c = &i2cBus; if(celect == AD0_HIGH) _addr = SLV_ADDR_HIGH; else _addr = SLV_ADDR_LOW; SLV_WRITE_SHT = _addr; SLV_READ_SHT = _addr | 1; i2c->frequency(400000); } /********** ヒーターをセットする i=0ならば、ヒーターOFF i=1ならば、ヒーターON セット直後は5msくらい待ってあげる **********/ void mySHT3x::heater_set(int i) { char cmd[2][2]; cmd[0][0] = 0x30;cmd[0][1] = 0x66; cmd[1][0] = 0x30;cmd[1][1] = 0x6D; i2c->write(SLV_WRITE_SHT, cmd[i], 3); } /************** 温度、湿度を取得する このセンサーは温度、または湿度のデータを個別で送ることはできず 同時に送るので、一応個別に返す関数を作ったが、 なるべくこっちでまとめて値を取得した方がいいのかも **************/ void mySHT3x::get_temp_hum(float *temp, float *hum) { char cmd[2] = {0x24,0x00}; char buff[6]; unsigned int val[4]; i2c->write(SLV_WRITE_SHT, cmd, 2); wait_ms(30); i2c->read(SLV_READ_SHT, buff, 6); val[0] = (unsigned int)buff[0]<<8; val[1] = (unsigned int)buff[1]; val[2] = (unsigned int)buff[3]<<8; val[3] = (unsigned int)buff[4]; *temp = (float)(val[0] | val[1]); *hum = (float)(val[2] | val[3]); *temp = *temp*175.0/65535-45.0; *hum = *hum*100.0/65535; } /*********** 温度を取得 湿度が絶対にいらない場合はこっちで ************/ float mySHT3x::get_temp() { char cmd[2] = {0x24,0x00}; char buff[6]; unsigned int val[2]; float temp; i2c->write(SLV_WRITE_SHT, cmd, 2); //wait_ms(30); i2c->read(SLV_READ_SHT, buff, 6); val[0] = (unsigned int)buff[0]<<8; val[1] = (unsigned int)buff[1]; temp = (float)(val[0] | val[1]); temp = temp*175.0/65535-45.0; return temp; } /*************** 湿度を取得 温度が絶対にいらない場合はこちらで *****************/ float mySHT3x::get_hum() { char cmd[2] = {0x24,0x00}; char buff[6]; unsigned int val[2]; float hum; i2c->write(SLV_WRITE_SHT, cmd, 2); //wait_ms(30); i2c->read(SLV_READ_SHT, buff, 6); val[0] = (unsigned int)buff[3]<<8; val[1] = (unsigned int)buff[4]; hum = (float)(val[0] | val[1]); hum = hum*100.0/65535; return hum; } /************* センサーの現在の状態を取得 何bit目が何を表しているのかは データシートを参照 *************/ int mySHT3x::get_state() { char cmd[2] = {0xF3, 0x2D}; char buff[2]; unsigned int val[2]; int state; i2c->write(SLV_WRITE_SHT, cmd, 2); i2c->read(SLV_READ_SHT, buff, 2); val[0] = (unsigned int)buff[0]<<8; val[1] = (unsigned int)buff[1]; state = (int)(val[0] | val[1]); return state; }