Mini IoT substrate

The mini IoT baseboard was designed by Embedded Artists in collaboration with NXP to complement NXP's MCU IoT modules such as the LPC54018 IoT module OM40007, enabling easy-to-use, low-cost IoT application development. This baseboard offers onboard accelerators, buttons, LEDs, sites for the popular Arduino® UNO and Mikroe Click add-on boards, and connections for the Pervasive Displays ePaper display (available separately). The board supports rechargeable lithium batteries, allowing users to conduct complete one-stop IoT system prototyping with a small-format development kit.

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S12ZVMC256EVB: S12ZVMC256 Evaluation Board

GreenBox 3 real-time development platform

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OM13080: LPCXpresso1125 development board

TWR-KL28Z72M: Kinetis ^® KL28 MCU Tower ^® System Module

S12ZVM 12 V Electrical Fuel Pump (EFP) Reference Design

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MPC5565VBBOARDS: MPC5565 Vertical Basic Board

LPCXpresso824-MAX circuit board for LPC82x series MCUs

The LPCXpresso824-MAX board with NXP®'s LPC824 Cortex®-M0+ microcontroller is designed to make starting your project as easy as possible.

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Totem Pole Bridgeless PFC Converter

This reference design demonstrates totem pole bridgeless power factor correction (PFC) using the MC56F83783, MC56F81xxx, or MC56F82748 digital signal controller (DSC).

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TWR-K24F120M: Kinetis^® K24 120 MHz MCU Tower^® System Module

MPC5668GKIT: MPC5668G/E Evaluation Kit

FRDM-17531AEPEVB: Freedom expansion board, MPC17531AEP, dual H-bridge, stepper motor

Schematic PCB

Hitex LPC4350 Evaluation Board

The Hitex LPC4350 evaluation board allows you to quickly and easily evaluate the LPC4300 series of microcontrollers. The microcontroller, board, and feature set make it a great starting point for your next Cortex-M4 project. The LPC4350 is assembled to demonstrate the LPC4300 functionality, providing optimized dual-core performance, large internal memory and advanced peripherals. NOTE: It is the same as the Hitex LPC1850 evaluation board, but uses LPC4350 components instead of the LPC1850.

Schematic PCB

KV series three-phase AC induction motor control

The three-phase AC induction motor (ACIM) control reference design is based on V-Series MCUs and provides an example of a three-phase sensorless ACIM control solution. This reference solution uses field-oriented vector control (FOC) of the rotor speed and does not require any speed or position sensors, thereby increasing reliability and reducing final design cost.

Schematic PCB

DEMO9RS08KA8: Demonstration Board for MC9RS08KA8

P4080DS: P4080 Development System

DEVKIT-S12VRP: S12VRP Evaluation Board

KV series quad-core motor control

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Two-Phase Power Meter Reference Design

As global energy consumption continues to grow, especially in the residential market, utility providers require increasingly accurate and cost-effective energy metering solutions. The Kinetis® M Series two-phase energy meter reference design meets these accuracy and cost requirements by providing a high-performance analog front end combined with an embedded programmable gain amplifier to improve the accuracy of energy measurements.

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KV46 Digital LLC Converter Reference Design

This provides a fully digital design of LLC resonant converter based on HVP-LLC. The HVP-LLC development board is part of the NXP® High Voltage Platform.

Combined with the HVP-KV46F150 control card, it provides a ready-made software development platform for a 250-watt power supply with an input voltage of 390V DC and an output of 12V/21A.

Schematic PCB