Honeywell Device Support
The Force 2 Click Board™ is a mikroBUS™ add-on board with circuitry for implementing Honeywell’s FSS1500NGT Series force sensors into your projects (with a single zone force sensing resistor included with the click). This Click board™ utilizes FSS1500NGT force sensor which is designed to be one of the most reliable force sensor available as illustrated by 20 million Mean Cycles to Failure (MCTF) at 25 °C [77 °F] rating. This low profile Surface Mount Technology (SMT) sensor allows for automated assembly on a printed circuit board, often helping the customer to reduce assembly costs, while maintainging precise and reliable force sensing performance in a compact commercial-grade package.
Force 2 Click is supported by a mikroSDK compliant library, which includes functions that simplify software development. This Click board™ comes as a fully tested product, ready to be used on a system equipped with the mikroBUS™ socket.
The Pressure 12 Click Board™ is a barometric pressure gauge measuring Click Board™, equipped with the Amplified Basic Pressure sensor series (ABP), which features a ratio-metric analog output, which is proportional to the applied pressure. It features a very low Total Error Band of 1.5% of FS, a specification used to describe all the measurement errors and deviations within the sensor itself. The ABP series sensor uses a calibrated and thermally compensated ASIC, providing a ratio-metric output updated at a frequency of 1kHz. It can be directly used by the A/D conversion section of the host MCU, but it can also be directly used in a control feedback loop, for low latency operations.
The Temp&Hum 5 Click Board™ is a temperature and humidity sensing Click Board™, packed with features that allow simple integration into any design. It can measure a wide range of temperature and relative humidity values with high accuracy.
The Click Board™ is equipped with the HIH6130 sensor, offering the complete measurement system onboard: capacitive humidity sensor, bandgap thermal sensor, signal processing, and the I2C communication interface. Featuring good reliability over time, high accuracy, and low hysteresis, it represents an ideal solution to be used in various temperature and humidity related applications.