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The archived content will no longer be updated and is for historical reference only.

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Car 15W wireless charging transmitter

The NXP WCT-15WAUTO13 multi-coil transmitter reference platform is the first Qi® 1.3 certified 15W reference design for in-vehicle wireless charging applications based on the NXP MWCT2xx3A controller IC family. The system supports 40W power output to meet all customized fast charging needs.

The platform uses automotive-grade components and other critical automotive features, including EMC optimization, safety features and MISRA C compliance software, and is flexible to ensure seamless system integration. Complies with the Wireless Power Consortium's latest Qi v1.3 specification (including authentication) and is certified as MP-A13 transmitter type.

15 W AUTOSAR Wireless Charging Transmitter

The NXP® 15 W multi-coil transmitter reference platform is designed for AutoSAR automotive wireless charging applications based on the NXP MWCT101xS controller IC family. The platform uses automotive-grade components and other critical automotive features, including AUTOSAR software and drivers, to ensure the system can be integrated seamlessly. Complies with the latest Qi® specification from the Wireless Power Consortium and is MP-A9 transmitter type certified.

S32K148 Automotive Telematics Box (T-Box)

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S12ZVM 3-phase PMSM water pump

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S12G 4th generation lighting

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First generation electric vehicle power inverter control reference platform

S12ZVL32 RGB LED lighting reference design

S12ZVH HVAC control with LCD

The aim of the design was to replace the existing mechanical switches for ventilation position, blower speed and temperature control with an interactive LCD based system to extend the life and robustness of the system. The system can handle events via a capacitive touchpad interface (controlled via NXP's proximity capacitive touch sensor controller PT60), an infrared remote control (available for the convenience of rear-seat passengers) or microswitches.

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S12P and MC33812 Small Engine Control Reference Design

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S12VR Window Lift StarterTRAK Reference Design

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K series hydraulic/pneumatic valve controller system

This valve controller system uses SB0800 octal valve controller IC with MCU and two power MOSFETs. The system can drive proportional and digital valves as well as system pumps. Monitoring and protection features protect the system from hazardous events such as short circuits, overcurrent or overvoltage, and other abnormal conditions.

5 W multi-coil wireless charging transmitter

Car multi-coil wireless charging transmitter

S12G HVAC Control Reference Design

RDS12GHVAC is a reference design based on the 16-bit S12G ultra-reliable microcontroller. RDS12GHVAC consists of a central control board with a human-machine interface (HMI), a motor control board, a damper and a blower motor. It is used to realize the temperature, light, and humidity of automotive HVAC. and air quality sensing interface and configurable automatic climate control software algorithms to effectively control vehicle climate.

12 V lead-acid battery management system with LIN

The RD9Z1-638-12V is a battery management system (BMS) designed to demonstrate the capabilities of the MM9Z1J638 battery sensor module in 12 V lead-acid applications where high EMC performance is required to obtain high-precision measurements of critical battery parameters.

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12 V lead-acid battery sensor with CAN

RD9Z1-638-12V is a battery management system designed to demonstrate the capabilities of the MM9Z1J638 battery sensor IC in 12 V lead-acid applications where high EMC performance is required to obtain high-precision measurements of critical battery parameters.

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Reference design for eCar and eBus hybrid centralized distributed architecture battery management system in automotive applications

High Voltage Battery Junction Box Reference Design

High Voltage Battery Junction Box Reference Design

The RD9Z1-638BJBEVM is a hardware tool for evaluation and development, ideal for rapid prototyping of high-voltage battery junction boxes (HV-BJBs) in electric vehicles. This board evaluates the functionality of the RD9Z1-638BJBEVM device and allows the user to connect to a power distribution unit (PDU) for voltage, current, temperature sensing and contactor status diagnostics.

The RD9Z1-638BJBEVM reference design can help accelerate your project development. It is a flexible, independent function board with high integration, smaller size, and compatibility with electric vehicles and electric buses.

Schematic PCB