High Performance Relative
HS300x
Humidity and Temperature Sensor
Datasheet
Description
Features
The HS300x series is a highly accurate, fully calibrated relative
humidity and temperature sensor. The MEMS sensor features a
proprietary sensor-level protection, ensuring high reliability and
long-term stability.
.
RH accuracy: ±1.5%RH, typical (HS3001, 10 to 90%RH,
25°C)
.
.
14-bit resolution: 0.01%RH, typical
Independent programmable resolution settings: 8, 10, 12, 14-
bits
Integrated calibration and temperature-compensation logic pro-
vides fully corrected RH and temperature values via a standard I2C
output. No user calibration of the output data is required.
.
.
Fast RH response time: 4 seconds time constant, typical
Temperature sensor accuracy: ±0.2°C, typical (HS3001,
HS3002, -10 to +80°C)
The high accuracy, fast measurement response time, and long-
term stability combined with the small package size makes the
HS300x series ideal for a wide number of applications ranging from
portable devices to products designed for harsh environments.
.
Low current consumption: 1.0µA average (8-bit resolution,
1.8V supply), 24.4µA average (14-bit resolution, 3.3V
supply), one RH and temperature measurement per second
The HS300x series digital sensor accurately measures relative
humidity and temperature levels. The measured data is internally
corrected and compensated for accurate operation over a wide
range of temperature and humidity levels – user calibration is not
required.
.
.
Excellent stability against aging
Highly robust protection from harsh environmental conditions
and mechanical shock
.
Very low power consumption
Physical Characteristics
Typical Applications
.
.
.
.
Supply voltage: 2.3V to 5.5V
.
.
.
.
.
.
Climate control systems
Home appliances
Extended supply voltage: 1.8V (-20°C to +125°C)
Operating temperature: -40°C to +125°C
3.0 × 2.41 × 0.8 mm DFN-style 6-LGA package
Weather stations
Industrial automation
Medical equipment
Automotive cabin climate control
Product Image
© 2020 Renesas Electronics Corporation
1
April 22, 2020