The Si7021 I2C Humidity and Temperature Sensor is a monolithic CMOS IC integrating humidity and temperature sensor elements, an analog-to-digital converter, signal processing, calibration data, and an I2C Interface. The patented use of industry-standard, low-K polymeric dielectrics for sensing humidity enables the construction of low-power, monolithic CMOS Sensor ICs with low drift and hysteresis, and excellent long term stability, it would be a great sensor to have on the roller. It would be able to measure everything before I go out for a ride around town.
Features
- Relative Humidity Sensor:
- Si7013/21: ± 3% RH (maximum) @ 0-80% RH
- Si7020: ± 4% RH (maximum) @ 0-80% RH
- Si7006: ± 5% RH (maximum) @ 0-80% RH
- Temperature Sensor:
- Si7013/20/21: ±0.4°C accuracy (maximum) @ -10 to +85°C
- Si7006: ±1.0°C accuracy (maximum) @ -10 to +85°C
- 0 to 100% RH operating range
- Up to -40 to +125°C operating range
- Wide operating voltage range (1.9 to 3.6V)
- Low Power Consumption: 2.2µW average power at 3.3V and 1 sample per second
- I2C host interface
- Integrated on-chip heater
- 3mm x 3mm QFN package
- Excellent long term stability
- Factory calibrated
- Optional factory-installed filter/cover
- Lifetime protection during reflow and in operation
- Protects against contamination from dust, dirt, household chemicals and other liquids
- AEC-Q100 automotive qualified (Si7013/20/21)
Layout
Code
[codesyntax lang=”cpp”]
#include const int ADDR =0x40; int X0,X1,Y0,Y1,Y2,Y3; double X,Y,X_out,Y_out1,Y_out2; void setup() { Serial.begin(9600); Wire.begin(); delay(100); Wire.beginTransmission(ADDR); Wire.endTransmission(); } void loop() { /**Send command of initiating temperature measurement**/ Wire.beginTransmission(ADDR); Wire.write(0xE3); Wire.endTransmission(); Serial.print("Temp"); Serial.print("\t"); Serial.println("Humidity"); /**Read data of temperature**/ Wire.requestFrom(ADDR,2); if(Wire.available()<=2); { X0 = Wire.read(); X1 = Wire.read(); X0 = X0<<8; X_out = X0+X1; } /**Calculate and display temperature**/ X=(175.72*X_out)/65536; X=X-46.85; Serial.print(X); Serial.print("C"); Serial.print("\t"); /**Send command of initiating relative humidity measurement**/ Wire.beginTransmission(ADDR); Wire.write(0xE5); Wire.endTransmission(); /**Read data of relative humidity**/ Wire.requestFrom(ADDR,2); if(Wire.available()<=2); { Y0 = Wire.read(); Y2=Y0/100; Y0=Y0%100; Y1 = Wire.read(); Y_out1 = Y2*25600; Y_out2 = Y0*256+Y1; } /**Calculate and display relative humidity**/ Y_out1 = (125*Y_out1)/65536; Y_out2 = (125*Y_out2)/65536; Y = Y_out1+Y_out2; Y=Y-6; Serial.print(Y); Serial.println("%"); delay(300); Serial.println(); delay(1000); }
[/codesyntax]
Output
Open the serial monitor, you should see something like this
Temp Humidity
23.12C 52.83%
Temp Humidity
24.04C 53.13%
Temp Humidity
26.28C 53.83%
Temp Humidity
27.42C 54.57%
Temp Humidity
28.27C 55.32%
Temp Humidity
27.94C 56.11%
Links
Humidity Temperature Sensor Breakout Barometric Pressure SI7021 for Arduino GY-21