[NXP Rapid IoT Review] Week 1: Get familiar with kit resources

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[NXP Rapid IoT Review] Week 1: Get familiar with kit resources [Copy link]

I finally received the long-awaited NXP Rapid IoT evaluation kit. The packaging is really very tight! I opened the package as soon as possible and saw the real appearance. The exquisite packaging box contains a paper version of the quick start guide, NXP Rapid IoT and Calibri micro-USB cable.

As expected, the kit is very small and cute, and the blue square shell feels very smooth!

Here is a 3Dclose-up

According to the official introduction, this kit is a comprehensive, secure and power-optimized solution designed to accelerate the prototyping and development of IoT terminal nodes. To this end, 11 NXP devices (microcontrollers, low-power connectivity devices, sensors, NFC, security components, power management, interfaces) are integrated into it. To facilitate data retrieval, the specific supported devices are listed as follows: K64_120: Kinetis K64-120 MHz, 256KB SRAM microcontroller (MCU), based on the Arm Cortex-M4 core KW41Z: Kinetis KW41Z-2.4 GHz Dual Mode: BLE and 802.15.4 Wireless Radio Microcontroller (MCU), based on the Arm Cortex M0 Plus Core. Cortex-M0+ core n NT3H2111_2211: NTAG I2C+, NFC Forum Type 2 tag with I2C interface for entry-level NFC applications n FXAS21002C: 3-axis digital gyroscope FXAS21002C: 6-axis digital gyroscope FXOS8700CQ: 3-axis digital gyroscope FXOS8700CQ: 6-axis digital motion sensor 3d accelerometer 2g 4g 8g plus 3d magnetometer FXOS8700CQ: Digital motion sensor – 3D accelerometer (±2g/±4g/±8g) + 3DMagnetometer

n MPL3115A2: 20 to 110kPa, Absolute Digital Pressure Sensor

n NX3L2267: Low-ohmic dual SPDT analog switch

n NX3P191UK: Logic-controlled high-side power switch

n PCF2123: SPI Real Time Clock/Calendar n MC34671: 600 mA Single Cell Li-Ion/Li-Polymer Battery Charger n SPI Real Time Clock/Calendar n MC34671: 600 mA Single Cell Li-Ion/Li-Polymer Battery Charger n Secure Authenticator IC: Embedded Security Platform Features: l Atmosphere web IDE with GUI-based programming capabilities l Automatic source code and project generation for MCUXpresso IDE/SDK l iOS/Android mobile apps and IoT cloud connectivity platform l 400+ Click board, expandable to most IoT end node use cases. Compatible with NXP IoT modular gateways. The IoT battery is drained and needs to be charged first. Connect one end of the included micro-USB cable to the USB charger port and the other end to the micro-USB port on the IoT. While waiting for charging to complete, read the Rapid IoT Prototyping Tool User Guide.

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l Atmosphere web IDE for GUI-based programmingl Automatic source code and project generation for MCUXpresso IDE/SDKl iOS/Android mobile apps and IoT cloud connectivity platforml Scalable to most IoT end-node use cases with 400+ Click boardsl Compatible with NXP IoT modular gateways The battery of the IoT is exhausted. First, charge it. Connect one end of the included micro-USB cable to the USB port charger and the other end to the micro-USB port of the IoT. While waiting for charging to complete, read the Rapid IoT Prototyping Tool User Guide.77)]

l Atmosphere web IDE for GUI-based programmingl Automatic source code and project generation for MCUXpresso IDE/SDKl iOS/Android mobile apps and IoT cloud connectivity platforml Scalable to most IoT end-node use cases with 400+ Click boardsl Compatible with NXP IoT modular gateways The battery of the IoT is exhausted. First, charge it. Connect one end of the included micro-USB cable to the USB port charger and the other end to the micro-USB port of the IoT. While waiting for charging to complete, read the Rapid IoT Prototyping Tool User Guide.

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I know there is such a small mounting hole. Do I have to hang it on the wall? NXP really put a lot of effort into it.