The MAXREFDES171# is a complete, high-accuracy, IO-Link distance sensor reference design that provides accurate ranging up to 4m. Built in an industrial form factor, the design makes use of a commercially available time-of-flight (ToF), laser-ranging sensor.
The MAXREFDES1044 is a reference design for the MAX30101 and several other Maxim® products that demonstrates how a small size, low cost, low power, high accuracy heart-rate monitor can be easily implemented. This design can monitor heart rate using red, infrared (IR), or green LEDs.
The MAXREFDES164# IO-Link® temp sensor reference design uses the MAX14828 IO-Link device transceiver and supports the TMG TE IO-Link or TEConcept IO-Link stack.
The MAXREFDES1161# is a small form factor, high accuracy, 2-wire 4mA to 20mA transmitter which integrates all functional and protection blocks in a small 1.0in x 0.6in dual-row header footprint that is compatible with breadboards and off-the-shelf peripheral expansion boards.
The MAXREFDES1207 is a reference design for wearable application based on a total Maxim® solution which includes the MAX32660, MAX30112, MAX77651B, and MAX40005. This solution demonstrates how a small size, low cost, low power, high accuracy heart-rate (HR) monitor can be easily implemented. This design can monitor heart rate using two green LEDs.
Maxim health sensor (hSensor) platform helps customers evaluate Maxim’s complex and innovative medical and high-end fitness solutions faster and easier. The hSensor platform supports the measurement of motion, precision skin temperature, biopotential measurements, and reflective photo plethysmography measurements, etc.
The MAXREFDES103# is a wrist-worn wearable form factor that demonstrates the high sensitivity and algorithm processing functions for health-sensing applications. This health sensor band platform includes an enclosure and a biometric sensor hub with an embedded heart-rate, SpO2 algorithm (the MAX32664C) which processes PPG signals from the analog-front-end (AFE) sensor (the MAX86141). Algorithm output and raw data can be streamed through Bluetooth® technology to an Android® app or PC GUI for demonstration, evaluation, and customized development.
表面贴装到DIP评估板
在嵌入式设计中集成传感器、无线电和其他外设元件,可轻松地与塔式插件载波模块(TWR-TWRPI-BD)协同工作。
The NXP Mechatronics Robot is an easy-to-use mechatronics development and demonstration platform for operating with the TWR-MECH Board.
BRKOUT-FXLN83xxQ套装包含面向恩智浦FXLN83xxQ加速度传感器系列的分线板。
Learn about the sensor toolbox development tools for FXLS8471Q 3-axis linear accelerometer. Demo kits, shield and breakout boards with compatible SW
