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Electronic Components, Module, Power Supply
Desktop PC Power Supply eNSP4-500P Series – Nipron Co. Ltd.
Electronic Components, Module, Power SupplyDesktop PC Power Supply eNSP4-500P Series – Nipron Co. Ltd.
High-capacity power supply with 1 sec backup time, maintenance-free with capacitor package, noise reduction and thermal-sensing fan, customizable output harnesses, 10-year lifespan.
The eNSP4-500P Series is a high-capacity ATX12V power supply designed for desktop PCs. With a typical output of 180W, it boasts a backup time of 1 second in the event of a blackout, provided a capacitor package is connected. The capacitor package offers several advantages, including no need for maintenance or regular replacement, the ability to adjust to low and high temperatures, and a quick 2-minute charge in the case of frequent blackouts. The power supply is also lightweight, approximately half the weight of a 5-inch bay embedded lead battery. It features an AC_FAIL signal delivered at blackout, a completely independent voltage-stabilizing circuit, and a thermal-sensing variable speed fan for noise reduction and heat-related issues. The power supply is designed to last a minimum of 10 years with continuous rated operation at 45°C, and its output harnesses can be easily customized to meet various requirements. The signal unit and fan are also replaceable.
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When selecting a module for your company’s needs, there are several important points to consider during the comparison and evaluation process.Common Comparison Points for Any Module
1. Functionality and Compatibility
Determine the specific functionality and compatibility requirements for your application. Identify the features and capabilities you need in a module and ensure compatibility with your existing systems or equipment.
2. Performance Specifications
Evaluate the performance specifications of the module. This includes parameters such as speed, accuracy, resolution, capacity, response time, and signal-to-noise ratio. Compare these specifications with your application requirements to ensure optimal performance.
3. Reliability and Quality
Consider the reliability and quality of the module. Look for modules from reputable manufacturers known for producing reliable and high-quality products. Check for certifications or standards compliance to ensure the module meets industry requirements.
4. Interface and Connectivity
Assess the interface and connectivity options of the module. Determine if it provides the necessary communication protocols, ports, and connectors to integrate with your existing systems or equipment. Consider compatibility with your data acquisition or control systems.
5. Power Requirements
Determine the power requirements of the module, including voltage levels and power consumption. Ensure that the module can be adequately powered and that it aligns with the available power sources in your facility.
6. Size and Form Factor
Evaluate the physical dimensions and form factor of the module. Consider the available space and mounting options in your system or equipment. Choose a module size and form factor that can be easily integrated.