X-On Electronics has gained recognition as a prominent supplier of ECE2GM100G14TTTJ Aluminium Electrolytic Capacitors - Radial Leaded across the USA, India, Europe, Australia, and various other global locations. ECE2GM100G14TTTJ Aluminium Electrolytic Capacitors - Radial Leaded are a product manufactured by Yunxing. We provide cost-effective solutions for Aluminium Electrolytic Capacitors - Radial Leaded, ensuring timely deliveries around the world.
We are delighted to provide the ECE2GM100G14TTTJ from our Aluminium Electrolytic Capacitors - Radial Leaded category, at competitive rates not only in the United States, Australia, and India, but also across Europe and beyond. A long established and extensive electronic component distribution network has enhanced our global reach and dependability, ensuring cost savings through prompt deliveries worldwide. Client satisfaction is at the heart of our business, where every component counts and every customer matters. Our technical service team is ready to assist you. From product selection to after-sales support, we strive to deliver a seamless and satisfying experience. Are you ready to experience the best in electronic component distribution? Contact X-ON Electronics today and discover why X-On are a preferred choice for the ECE2GM100G14TTTJ and other electronic components in the Aluminium Electrolytic Capacitors - Radial Leaded category and beyond.
The ECE2GM100G14TTTJ is a 10uF 400V ±20% Radial Leaded, 10x14.5mm Aluminum Electrolytic Capacitors - Leaded ROHS manufactured by Yunxing. This part has aluminum terminals, two leaded radial pins and a polyester outer case wrapped in a vinyl coating. This part features Constructed of electrolytic aluminum with a self-healing property. It is designed to meet the demands of stringent 10x14.5mm applications with high temperature range and high temperature shock and vibration protection. This part provides excellent performance in circuits with high current capacities. It also offers a superior alternative to tantalum capacitors, allowing for longer life and higher reliability in harsh environments.