Humidity and Temperature Sensors

Humidity and Temperature Sensors

Humidity and temperature sensors measure physical temperature and/or atmospheric humidity and convert them directly into digital or analog data. The capacitive measuring principle enables accurate and reliable measurements. Here, sensor technology and evaluation are fused on a tiny IC (SENSIRION CMOSens). The sensors are already calibrated and extensively tested according to established quality standards (e.g. AEC-Q100).

Humidity Sensors from Sensirion with CMOSens®

Humidity sensors from Sensirion with CMOSens®

Capacitive humidity sensor principle

In addition to the resistive method, the capacitive measurement principle, above all, established and proved itself as a standard in the past. For this principle, the sensor element is built out of a capacitor. The dielectric is a polymer which absorbs or releases water proportional to the relative environmental humidity, and thus changes the capacitance of the capacitor. This change in capacitance can be measured by an electronic circuit. This allows the relative air humidity to be determined. For humidity sensors with CMOSens® technology, a "micro-machined" finger electrode system with different protective and polymer cover layers forms the capacitance for the sensor chip, and, in addition to providing the sensor property, simultaneously protects the sensor from interference in ways previously not achieved.

Humidity, temperature and dew point

The temperature sensor and the humidity sensor together form a single unit. This also enables an accurate and point-precise determination of the dew point, without incurring errors due to temperature gradients between the humidity and the temperature sensors. Through the unique linkage of these sensor elements with the signal amplifier unit, the analog-to-digital converter, the calibration data memory, as well as the digital, bus-ready interface, all on a surface area of a few square millimeters.

Highest stability and performance

Total coverage with condensation or even immersion in liquid present no problems whatsoever. Over two years of hardness tests have already shown this result. The signal amplification near the sensor allows the polymer layers to be optimized not for the signal strengths, but rather for long-term stability, which is significant for numerous applications. The analog-to-digital conversion, which is also performed "in place," makes the signal extremely insensitive to noise. A checksum generated by the chip itself is used for additional reliability. Last but not least, the calibration data loaded on the sensor chip guarantees that Sensirion humidity sensors have identical specifications and thus they can be replaced 100%. Other obvious advantages are the very short response times (4 sec at 1/e), high precision (±2% to ±5% according to configuration), as well as very low power consumption (< 3mA standby).

Digital Interface

Humidity and temperature sensors with CMOSens® technology can be connected directly to any microprocessor system by means of the digital 2-wire interface, which minimizes the system development times, saves costs, and leads to a significant advantage, especially for high-volume applications.

Manufacturer

Measuring Range [%RH]

Accuracy typ. [+-%RH]

Operation Range [°C]

Accuracy typ. [+-°C]

Interface

Supply Voltage [V]

51 products found.
Device Manufacturer Measuring Range [%RH] Accuracy typ. [+-%RH] Operation Range [°C] Accuracy typ. [+-°C] Interface Supply Voltage [V]
SCC30-DB Sensirion 0 to 100 3 -20 to 85 0.3 I²C 2.4 to 5.5
SE-SENSOR-STARTERKIT GLYN 0 to 100 3 -20 to 85 0.3 I²C 2.4 to 5.5
SHT20 Sensirion 0 to 100 3 -40 to 125 0.3 I²C 2.1 to 3.6
SHT20P Sensirion 0 to 100 3 -40 to 125 0.3 PWM 2.1 to 3.6
SHT20S Sensirion 0 to 100 3 -40 to 125 0.3 SDM 2.1 to 3.6
SHT21 Sensirion 0 to 100 2 -40 to 125 0.3 I²C 2.1 to 3.6
SHT21P Sensirion 0 to 100 2 -40 to 125 0.3 PWM 2.1 to 3.6
SHT21S Sensirion 0 to 100 2 -40 to 125 0.3 SDM 2.1 to 3.6
SHT25 Sensirion 0 to 100 1.8 -40 to 125 0.2 I²C 2.1 to 3.6
SHT30A-DIS-B10kS Sensirion 0 to 100 3 -40 to 125 0.3 I²C 2.4 to 5.5
SHT30A-DIS-B2.5kS Sensirion 0 to 100 3 -40 to 125 0.3 I²C 2.4 to 5.5
SHT30-ARP-B10kS Sensirion 0 to 100 3 -40 to 125 0.3 Voltage Out 2.4 to 5.5
SHT30-ARP-B2.5kS Sensirion 0 to 100 3 -40 to 125 0.3 Voltage Out 2.4 to 5.5
SHT30-ARP-F2.5kS Sensirion 0 to 100 3 -40 to 125 0.3 Voltage Out 2.4 to 5.5
SHT30-DIS-B10kS Sensirion 0 to 100 3 -40 to 125 0.3 I²C 2.15 to 5.5
SHT30-DIS-B2.5kS Sensirion 0 to 100 3 -40 to 125 0.3 I²C 2.15 to 5.5
SHT30-DIS-B500E Sensirion 0 to 100 3 -40 to 125 0.3 I²C 2.15 to 5.5
SHT30-DIS-F2.5kS Sensirion 0 to 100 3 -40 to 125 0.3 I²C 2.15 to 5.5
SHT30-DIS-P10kS Sensirion 0 to 100 3 -40 to 125 0.3 I²C 2.15 to 5.5
SHT31A-DIS-B10kS Sensirion 0 to 100 2 -40 to 125 0.3 I²C 2.4 to 5.5
SHT31A-DIS-B2.5kS Sensirion 0 to 100 2 -40 to 125 0.3 I²C 2.4 to 5.5
SHT31-ARP-B2.5kS Sensirion 0 to 100 2 -40 to 125 0.3 Voltage Out 2.4 to 5.5
SHT31-DIS-B10KS Sensirion 0 to 100 2 -40 to 125 0.2 I²C 2.15 to 5.5
SHT31-DIS-B2.5kS Sensirion 0 to 100 2 -40 to 125 0.2 I²C 2.15 to 5.5
SHT31-DIS-F2.5kS Sensirion 0 to 100 2 -40 to 125 0.3 I²C 2.15 to 5.5
SHT31-DIS-P2.5kS Sensirion 0 to 100 2 -40 to 125 0.3 I²C 2.15 to 5.5
SHT35-DIS-B2.5kS Sensirion 0 to 100 1.5 -40 to 125 0.1 I²C 2.15 to 5.5
SHT35-DIS-F2.5kS Sensirion 0 to 100 1.5 -40 to 125 0.2 I²C 2.15 to 5.5
SHT40A-AD1B-R2 Sensirion 0 to 100 3 -40 to 125 0.3 I²C 2.3 to 5.5
SHT40A-AD1B-R3 Sensirion 0 to 100 3 -40 to 125 0.3 I²C 2.3 to 5.5
SHT40-AD1B-R2 Sensirion 0 to 100 1.8 -40 to 125 0.2 I²C 1.08 to 3.6
SHT40-AD1B-R3 Sensirion 0 to 100 1.8 -40 to 125 0.2 I²C 1.08 to 3.6
SHT40-AD1F-R2 Sensirion 0 to 100 1.8 -40 to 125 0.2 I²C 1.08 to 3.6
SHT40-AD1P-R2 Sensirion 0 to 100 1.8 -40 to 125 0.2 I²C 1.08 to 3.6
SHT40-BD1B-R2 Sensirion 0 to 100 1.8 -40 to 125 0.2 I²C 1.08 to 3.6
SHT40I-AD1B-R2 Sensirion 0 to 100 1.8 -40 to 125 0.2 I²C 1.08 to 3.6
SHT40I-BD1B-R3 Sensirion 0 to 100 2 -40 to 125 0.2 I²C 2.3 to 5.5
SHT41A-AD1B-R3 Sensirion 0 to 100 2 -40 to 125 0.3 I²C 2.3 to 5.5
SHT41-AD1B-R2 Sensirion 0 to 100 1.8 -40 to 125 0.2 I²C 1.08 to 3.6
SHT41-AD1B-R3 Sensirion 0 to 100 1.8 -40 to 125 0.2 I²C 1.08 to 3.6
SHT41-AD1F-R2 Sensirion 0 to 100 1.8 -40 to 125 0.2 I²C 1.08 to 3.6
SHT41I-AD1B-R2 Sensirion 0 to 100 2 -40 to 125 0.2 I²C 1.08 to 3.6
SHT41I-AD1P-R2 Sensirion 0 to 100 2 -40 to 125 0.2 I²C 1.08 to 3.6
SHT43-ADCB-R2 Sensirion 0 to 100 1.8 -40 to 125 0.4 I²C 1.08 to 3.6
SHT45-AD1B-R2 Sensirion 0 to 100 1 -40 to 125 0.1 I²C 1.08 to 3.6
SHT45-AD1B-R3 Sensirion 0 to 100 1 -40 to 125 0.1 I²C 1.08 to 3.6
SHT45-AD1F-R2 Sensirion 0 to 100 1 -40 to 125 0.1 I²C 1.08 to 3.6
SHT85 Sensirion 0 to 100 1.5 -40 to 125 0.1 I²C 5.15 to 5.5
SHTC1 Sensirion 0 to 100 3 -30 to 100 0.3 I²C 1.62 to 1.98
SHTC3 Sensirion 0 to 100 2 -40 to 125 0.2 I²C 1.62 to 3.6
SHTW2 Sensirion 0 to 100 3 -30 to 125 0.3 I²C 1.62 to 1.98

Analog, Power & Sensors

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aps@glyn.de