This solution is an electronic device that can monitor and manage the battery. This solution uses an MCU-based intelligent protection board, which has the advantages of convenient parameter adjustment, high flexibility, and better functional design.
Utilizing the ADP150 low-noise LDO regulator to power the ADF4350 PLL and VCO to reduce phase noise
B4860QDS is a development system that supports NXPThe B4860 baseband system-on-chip (SoC) device provides a complete application development environment.
NXP's NTAG I²C+ kit works with any Arduino header-compatible board, including LPCXpresso, Kinetis and i.MX boards. The purpose of this kit is to simulate the use of NTAG I2C tag chips in embedded electronic systems.
NHS3100UCODEADK
The STEVAL-LLL009V1 digitally controlled 300 W power supply consists of power factor correction (PFC) and half-bridge LCC resonant converter power stages. An STM32F334R8 microcontroller implements DC-DC and output synchronous rectification digital control, while the PFC is driven in transition mode by the L6562AT controller. The system supports constant voltage (CV) and constant current (CC) operation.
The EVALMASTERGAN2 board is an easy to use and quick to adapt tool to evaluate the characteristics of MASTERGAN2 and to quickly create new topologies without the need of complete PCB design.
Freedom Development Platform for Kinetis ® KV1x Family of 128 KB, 64 KB, 32 KB and 16 KB Flash MCUs
i.MX RT1060 EVK is a 4-layer through-hole USB powered PCB. At its core is the i.MX RT1060 crossover MCU, implemented using NXP's advanced Arm® Cortex®-M7 core. This core runs at speeds up to 600 MHz to provide high CPU performance and excellent real-time response. Support for FreeRTOS™ is provided in the MCUXpresso SDK. Zephyr™ OS supports the i.MX RT1060 evaluation kit for developing IoT with a free, open source embedded operating system.
The LPCXpresso845 breakout board is an ultra-low-cost development board for evaluation and prototyping using the LPC84x series MCUs.
This solution uses NuMicro® N76E003 as the main system chip and uses Nuvoton NCT3605 gate driver to implement a closed-loop brushless DC motor (Brushless DC, BLDC) system.
Cell phones typically send and receive signals in the frequency range 0.9 to 3GHz. This article provides a simple circuit that detects the presence of an activated mobile phone by detecting these signals.
The basic principle of the mobile phone detector circuit is to detect radio frequency signals. In Schottky diode circuits, Schottky semiconductors are used to detect mobile phone signals because of their unique properties of being able to correct low-frequency signals with low noise rates. When an inductor is placed near an RF signal source, it receives the signal through mutual inductance. This signal is rectified by a Schottky diode. This low-power signal can be amplified and used to power any indicator light, such as an LED in this case.
Smoke sensor design includes principle circuit design, PCB and BOM list
Triac and AC switch isolation control evaluation board
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