KIT_DPS310_2GO DPS310 Kit2Go
Introducing the DPS310 Kit2Go: The ultimate barometric pressure sensor for IoT and embedded system
The DPS310 Kit2Go from Infineon is the latest addition to our line of barometric pressure sensors, designed for use in IoT and embedded systems. This all-in-one solution is based on the popular DPS310 Shield2Go, but comes with a built-in XMC1100 microcontroller unit, and a XMC4200 Debugger, which makes it even more versatile and convenient to use.
The DPS310 Kit2Go is not only powerful, but also incredibly easy to use. It is fully compatible with the Arduino IDE, which means that you can easily incorporate it into your existing projects or create new ones. Additionally, example codes are available on Infineon's Github repository, which can be easily modified and customized to suit your needs.
Overall, the DPS310 Kit2Go is an innovative and reliable solution that makes it easier than ever to measure air pressure in your projects. It's ideal for applications in automotive, weather monitoring, industrial, and other fields where precision and convenience are key.
Summary of Features
- Supply voltage 5V USB
- Micro USB Type AB Connector
- 16-pin Shield2GO Interface
- Two User LEDs and one Power LED
- Integrated MCU and Debugger Unit
- Operation range:
- Pressure: 300–1200 hPa
- Temperature: -40–85°C
- Precision: ± 0.002 hPa (or ±0.02 m)
- Rel. accuracy: ± 0.06 hPa (or ±0.5 m)
- Pressure temperature sensitivity of 0.5Pa/K
- Temperature accuracy ±0.5C°
- Interface: I2C and SPI (both with optional interrupt)
Benefits
- High precision measurements with low power consumption
- Arduino IDE compatible – Check out our Infineon Github Repository
- Easy integration into IoT and embedded systems projects
- Super small and light design
Potential Applications
- Automotive
- Weather monitoring
- Industrial
- Altimeter
- HVAC
- Robotics
- Altitude measurement
- Environmental monitoring
- Smart home
Please note that this list is not exhaustive, and the DPS310 Kit2Go can also be used in other applications that require precise pressure measurements.