Overview of WR04X1002FTL by Walsin Technology Corporation
The WR04X1002FTL is a Surface Mount Chip Resistor part of the WR04 series produced by Walsin Technology Corporation. This component is specified as a fixed resistor with a metal glaze/thick film construction, featuring a resistance value of 10 kilohms and a rated power dissipation of 62.5 milliwatts. Its tolerance is tightly controlled within 1%, and it operates effectively within a temperature coefficient of 100 ppm/°C. Designed for a working voltage up to 50 volts, its dimensions conform to the 0402 [1005 Metric] package, making it suitable for compact surface mount applications. Key attributes according to the “Part Data Attributes” include it being RoHS compliant, with a part life cycle code indicating active status, showcasing its reliability and readiness for a wide array of applications. The lead-free (Pb-free) and Reach compliant design further underscores its environmental friendliness and suitability for global use in today’s electronically sophisticated world.
Industry Applications for WR04X1002FTL
The WR04X1002FTL, with its tight tolerance and high reliability, could be suitably integrated into a broad spectrum of industry applications where precision and stability are paramount. While these possible applications are conceptual and require validation by engineering and procurement teams, they illustrate the part’s versatility.
- Space Technology: Considering its high precision and temperature stability, the WR04X1002FTL could potentially be used in the design of satellite components, where stable resistive values are critical under varied thermal conditions.
- Environmental Monitoring: The tight tolerance and reliability make it suitable for use in environmental sensors and monitoring systems. These systems often require components that can maintain accuracy over a wide range of operating conditions.
- Aerospace and Defense: The robust construction and precision of the WR04X1002FTL may make it an ideal choice for critical circuitry in aerospace avionics and military hardware, where performance and reliability cannot be compromised.
- Renewable Energy: Its properties are also beneficial for clean energy applications, such as solar inverters or wind turbine controls, where efficiency and reliability contribute to optimal power conversion and distribution.
Note that these industry use cases are illustrative and necessitate thorough technical review to ensure suitability.
About Walsin Technology Corporation
Walsin Technology Corporation is a leading manufacturer in the electronics industry, notably within the realm of resistors, including the Metal Glaze/Thick Film Resistors subcategory. With a focus on research, development, and production of passive components, Walsin Technology Corporation offers a wide array of products designed to meet the complex and evolving needs of customers across various sectors. The company’s commitment to quality, innovation, and consistency is reflected in products like the WR04X1002FTF, embodying the latest in Metal Glaze/Thick Film technology. Respected globally for their reliability and performance, Walsin’s products serve as foundational components in advanced electronic systems worldwide.
Where to Find WR04X1002FTL by Walsin Technology Corporation
To procure the WR04X1002FTL for your next project, findchips.com is your go-to resource. By offering up-to-date information on availability and best pricing, FindChips ensures you can make the most informed decisions for your procurement needs. Historically, distributors such as Perfect Parts Corporation, LCSC, Chip1Cloud, and Future Electronics, among others, have listed this part. However, stock levels and pricing are subject to change, thus visiting FindChips is recommended for current information. Additionally, for those considering alternate parts or similar components by Walsin Technology Corporation or other manufacturers within the Metal Glaze/Thick Film Resistors subcategory, FindChips provides a comprehensive comparison to ensure you find the exact match for your application requirements.