Senseair K33 ELG: Sensor module for environment parameters logging
●Senseair K33 ELG is designed for low-power application with demand for multiple measurement parameters. The adjustable measurement interval, results in average current that can be reduced to less than 52 μA (one measurement every 60 minutes).
●The module is as all other sensors from Senseair designed for high volume production with full traceability by sensor serial number on all manufactoring processes and key components. Every sensor is individually calibrated and is provided with UART digital interface
●This platform is designed to be a low power OEM module for integration into host apparatus, such as battery operated products and sensors with radio transmitters. Any application where power consumption is important to keep at a minimum without sacrificing the performance.
▲Low-power consumption
▲Individually calibrated
▲Maintenance free
▲High quality
▲Long term stability
|
|
Datasheet |
|
|
|
Please see the document for details |
|
|
|
|
|
|
|
English Chinese Chinese and English Japanese |
|
2022/1/20 |
|
Rev: 6 |
|
PSH0127 |
|
379 KB |
- +1 Like
- Add to Favorites
Recommend
- Crocus’ XtremeSense® TMR CT81xx Sensors: a Combination of High Sensitivity, Low Power and Small Footprint for Medical Wearables Applications
- High-sensitivity Crocus XtremeSense® TMR Sensors Solves Tamper Detection, with Less Susceptibility to Temperature Change
- Crocus Technology Introduced its Second Generation XtremeSense™ TMR 2D Angular Sensor CT310
- Crocus Technology Surpasses 100 million Delivered Units of its CMOS-Integrated XtremeSense® TMR Sensor Citing Design Wins and Rapid Market Adoption of TMR Technology
- TT Electronics to Feature FlexSense™ and Industry-leading Optoelectronics Portfolio at Sensors Converge 2023
- Crocus Technology Unveiled High Linearity, High Resolution, Integrated XtremeSense™ TMR Current Sensor CT110
- Nidec Develops TapSense, the World’s Thinnest 1.4mm-thick Linear Resonant Actuator
- Get Started with Thunderboard™ Sense and Sense 2
All reproduced articles on this site are for the purpose of conveying more information and clearly indicate the source. If media or individuals who do not want to be reproduced can contact us, which will be deleted.