From automobile intellectualization to smart home, the system increasingly relies on the judgment of the surrounding environment to make decisions, and uses high-precision sensor products that can respond quickly to capture the necessary information, so as to realize real-time control and autonomous operation in various terminal devices. Nanocore micro's high reliability, high precision and low power consumption temperature and humidity sensor NSHT30 can help achieve more efficient and stable systems.
Whether it is intelligent defogging of automobile intelligent cabin, or extending the life of fresh products during transportation and storage, or controlling the humidity and quality of indoor air, as well as medical equipment for gas humidity requirements, more and more scenarios need to use relative humidity sensors to measure water vapor in the environment, to provide a more reliable, safer, more comfortable environment.
CMOS-MEMS relative Humidity (RH) and temperature sensor NSHT30 from Nanocore micro. The NSHT30 integrates a complete sensor system on a single chip, including capacitive relative humidity sensor, COMS temperature sensor and signal processor and I2C digital communication interface, in the DFN and LGA packages 2.5mm x 2.5mm x 0.9mm. Its I2C interface communication mode, minimal packaging and low power characteristics allow NSHT30 to be more widely integrated into a variety of applications.
In addition, the NSHT30's I2C interface features two unique, selectable I2C addresses for communication speeds up to 1 MHz and a wide power supply voltage range of 2.0V to 5.5V, making the NSHT30 more compatible in a variety of application environments. It also has programmable interrupt thresholds that provide alerts and system awakenings without the need for a microcontroller to continuously monitor the system.