ON Semiconductor NCP5387MNR2G Product Overview
The NCP5387MNR2G is a high-performance, multi-phase PWM controller designed by ON Semiconductor, a leader in energy-efficient innovations. This advanced controller is tailored for precision voltage regulation in a variety of high-performance computing applications, including motherboards, graphic cards, servers, and other voltage regulation modules (VRMs) requiring efficient power management.
Key Features
- Multi-Phase Operation: The NCP5387MNR2G is capable of operating in multi-phase mode, which allows for excellent load regulation, reduced stress on individual components, and improved thermal performance.
- High-Efficiency Design: This controller is engineered for maximum efficiency, which helps to reduce power loss and improve overall system performance.
- Adjustable Voltage Control: It offers precise voltage regulation with an adjustable output voltage range, ensuring compatibility with a wide range of CPUs and GPUs.
- Differential Remote Voltage Sensing: To ensure accurate voltage regulation, the NCP5387MNR2G utilizes a differential remote voltage sensing technique.
- Overcurrent Protection: The built-in overcurrent protection safeguards the system against excessive current that could potentially damage the hardware.
Applications
The versatility of the NCP5387MNR2G makes it suitable for a myriad of applications in the computing sector. It is particularly well-suited for systems that demand reliable and efficient power delivery to high-performance integrated circuits.
Technical Specifications
- Package: The device is housed in a compact QFN-40 package, which allows for a small footprint on the PCB.
- Operating Temperature: It is designed to operate within a wide temperature range, ensuring stability and performance under varying environmental conditions.
- Power Input: The NCP5387MNR2G supports a broad range of input voltages, accommodating various power supply specifications.
In conclusion, the NCP5387MNR2G from ON Semiconductor is a sophisticated solution for managing power in high-performance computing environments. It combines efficiency, precision, and durability to meet the stringent requirements of modern electronic systems.