A versatile LiDAR SLAM package. Supports various types of LiDAR sensors (mechanical, solid-state, etc.), 6-axis and 9-axis IMU, loose coupling and tight coupling, mapping and positioning, loop detection, etc.
With features like adaptive cruise control, driver monitoring, automatic lane centering, etc., it is available for Toyota, Hyundai, Honda and many other brands, about 275+ models. openpilot complies with ISO26262 guidelines.
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.
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.
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.
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.
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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