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void SHT25_soft_reset() |
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void SHT25_soft_reset() |
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{ |
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{ |
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i2c_start(); // Start condition |
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i2c_start(); // Start condition |
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i2c_write(0x80); // Device address |
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i2c_write(0x80); // Device address |
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i2c_write(0xFE); // Device command |
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i2c_write(0xFE); // Device command |
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i2c_stop(); // Stop condition |
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i2c_stop(); // Stop condition |
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} |
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} |
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unsigned int8 SHT25_setup(unsigned int8 setup_reg ) // writes to status register and returns its value |
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unsigned int8 SHT25_setup(unsigned int8 setup_reg ) // writes to status register and returns its value |
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{ |
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{ |
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unsigned int8 reg; |
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unsigned int8 reg; |
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|
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i2c_start(); // Start condition |
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i2c_start(); // Start condition |
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i2c_write(SHT25_ADDR); // Device address |
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i2c_write(SHT25_ADDR); // Device address |
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i2c_write(0xE7); // Device command |
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i2c_write(0xE7); // Device command |
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|
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i2c_start(); // Start condition |
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i2c_start(); // Start condition |
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i2c_write(SHT25_ADDR+1); // Device address |
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i2c_write(SHT25_ADDR+1); // Device address |
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reg=i2c_read(0); // Read status actual status register |
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reg=i2c_read(0); // Read status actual status register |
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reg = (reg & 0x3A) | setup_reg; |
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reg = (reg & 0x3A) | setup_reg; |
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i2c_start(); // Start condition |
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i2c_start(); // Start condition |
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i2c_write(SHT25_ADDR); // Device address |
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i2c_write(SHT25_ADDR); // Device address |
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i2c_write(0xE6); // Write to status register |
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i2c_write(0xE6); // Write to status register |
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i2c_write(reg); // Device command |
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i2c_write(reg); // Device command |
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i2c_stop(); // Stop condition |
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i2c_stop(); // Stop condition |
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delay_ms(10); |
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delay_ms(10); |
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i2c_start(); // Start condition |
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i2c_start(); // Start condition |
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i2c_write(SHT25_ADDR); // Device address |
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i2c_write(SHT25_ADDR); // Device address |
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i2c_write(0xE7); // Device command |
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i2c_write(0xE7); // Device command |
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i2c_start(); // Start condition |
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i2c_start(); // Start condition |
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i2c_write(SHT25_ADDR+1); // Device address |
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i2c_write(SHT25_ADDR+1); // Device address |
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reg=i2c_read(0); // Read status actual status register |
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reg=i2c_read(0); // Read status actual status register |
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return (reg); |
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return (reg); |
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} |
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} |
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float SHT25_get_temp() |
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float SHT25_get_temp() |
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{ |
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{ |
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unsigned int8 MSB, LSB, Check; |
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unsigned int8 MSB, LSB, Check; |
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unsigned int16 data; |
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unsigned int16 data; |
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i2c_start(); |
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i2c_start(); |
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I2C_Write(SHT25_ADDR); |
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I2C_Write(SHT25_ADDR); |
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I2C_write(0xE3); |
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I2C_write(0xE3); |
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i2c_stop(); |
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i2c_stop(); |
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delay_ms(100); |
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delay_ms(100); |
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i2c_start(); |
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i2c_start(); |
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I2C_Write(SHT25_ADDR+1); |
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I2C_Write(SHT25_ADDR+1); |
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MSB=i2c_read(1); |
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MSB=i2c_read(1); |
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LSB=i2c_read(1); |
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LSB=i2c_read(1); |
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Check=i2c_read(0); |
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Check=i2c_read(0); |
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i2c_stop(); |
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i2c_stop(); |
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LSB = LSB >> 2; // trow out status bits |
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LSB = LSB >> 2; // trow out status bits |
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data = (((unsigned int16) MSB << 8) + (LSB << 4)); |
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data = (((unsigned int16) MSB << 8) + (LSB << 2)); |
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return(-46.85 + 175.72*((float)data/0xFFFF)); |
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return(-46.85 + 175.72*((float)data/0xFFFF)); |
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} |
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} |
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float SHT25_get_hum() |
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float SHT25_get_hum() |
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{ |
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{ |
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unsigned int8 MSB, LSB, Check; |
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unsigned int8 MSB, LSB, Check; |
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unsigned int16 data; |
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unsigned int16 data; |
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|
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i2c_start(); //RH |
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i2c_start(); //RH |
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I2C_Write(SHT25_ADDR); |
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I2C_Write(SHT25_ADDR); |
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I2C_write(0xE5); |
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I2C_write(0xE5); |
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delay_ms(100); |
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delay_ms(100); |
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i2c_start(); |
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i2c_start(); |
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I2C_Write(SHT25_ADDR+1); |
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I2C_Write(SHT25_ADDR+1); |
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MSB=i2c_read(1); |
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MSB=i2c_read(1); |
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LSB=i2c_read(1); |
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LSB=i2c_read(1); |
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Check=i2c_read(0); |
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Check=i2c_read(0); |
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i2c_stop(); |
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i2c_stop(); |
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LSB = LSB >> 2; // trow out status bits |
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LSB = LSB >> 2; // trow out status bits |
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data = (((unsigned int16) MSB << 8) + (LSB << 4) ); |
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data = (((unsigned int16) MSB << 8) + (LSB << 2) ); |
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return( -6.0 + 125.0*((float)data/0xFFFF)); |
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return( -6.0 + 125.0*((float)data/0xFFFF)); |
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} |
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} |
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