small engine control

This reference design board supports the NXP® MM912_P812 engine control IC, which combines an MCU (S12P) and an analog control chip (MC33812), and is suitable for motorcycles and other single/double-cylinder small engine control applications.

The analog control IC consists of three integrated low-side drivers, a pre-driver, a +5.0 V voltage pre-regulator, an MCU watchdog circuit, an ISO 9141 K-Line interface and a parallel interface for MCU communication.

The archived content will no longer be updated and is for historical reference only.

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Class D Audio Amplifier Reference Design

The 1000W Class D Audio Amplifier Reference Design provides examples of audio amplifiers and push-pull power converters. It runs using the KV1x Tower® Series platform or the k64 Freedom board.​

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K22 wireless player reference design

NXP's MCU-based EdgeReady face recognition solution with live detection function

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EdgeReady intelligent voice user interface solution based on i.MX RT106V

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NXP’s 3D face recognition solution based on EdgeReady MCU

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NXP EdgeReady Smart HMI solution based on i.MX RT117H with ML vision, voice and graphical UI capabilities

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Face recognition and liveness detection solution based on NXP EdgeReady MCU

NXP's EdgeReady MCU-based facial recognition solution leverages the i.MX RT106F crossover MCU to enable developers to quickly and easily add facial recognition with liveness detection capabilities to their products. Liveness detection prevents photo spoofing and is enabled by low-cost IR and RGB cameras. The solution’s development kit, SLN-VIZNLC-IOT, comes with fully integrated, turnkey software for rapid out-of-the-box operation, minimizing time to market, risk and development effort. Facial recognition is done entirely at the edge, solving many consumer privacy concerns. The NXP EdgeReady solution is part of the EdgeVerse™ edge computing platform.

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Intelligent lighting design based on LPC860 MCU

This smart lighting solution is based on the low-cost LPC860 MCU reference design. It provides an IEC 62386-101 compliant transceiver, a 3-channel high-efficiency LED driver, and sensor communication interfaces for a variety of analog and digital sensors. The solution is designed to provide customers with low-cost and comprehensive solutions for connected smart lighting products.

PC accessory SDRAM module controller based on LPC860 MCU

The SDRAM module controller reference design for PC accessory applications is based on two LPC860 MCUs and utilizes an I3C interface to transmit audio spectrum and temperature information between the controller and the target. The controller uses FTM to trigger the ADC to sample the audio information, and then executes the FFT algorithm to obtain the spectrum information. After the calculation is completed, the spectral information is transmitted to the target through the I3C interface, and then the device will drive the LED matrix to display the spectral information. At the same time, the target also detects temperature information and transmits it to the controller via I3C.

Gaming Headset

3-phase PMSM control

Schematic PCB

K60 3-Phase PMSM Sensorless Vector Control Reference Design

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.

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PX4 Robotic Drone Vehicle/Flight Management Unit (VMU/FMU) - RDDRONE-FMUK66

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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.

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KV series quad-core motor control

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Three-Phase Power Meter Reference Design

The three-phase power meter reference design is used to measure and record active and reactive energy in directly connected three-phase networks. It is pre-certified to the European EN50470-1, EN50470-3, Class B and Class C, and IEC 62053-21 and IEC 62052-11 international standards for active energy class 2 and class 1 electronic meters.

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KV Series Full-Bridge DC-DC Switched Mode Power Supply (SMPS)

The full-bridge DC-DC switch mode power supply reference design is based on V-Series MCUs and is intended to provide examples of power conversion applications. A full-bridge DC-DC converter is a transformer-isolated step-down converter. The full-bridge topology consists of a full-bridge inverter module, transformer, synchronous rectifier module and filter.

Schematic PCB