This is 470 μH ±10% Ferrite Leaded Inductor 390mA Idc 980mΩ Rdc ELC09D manufactured by Panasonic. The manufacturer part number is ELC09D471F. Its diameter is 9.5mm. The given dimensions of the product include 9.5 (dia.) x 8.9mm. The product is available in radial configuration. It allows up to 980mω maximum DC resistance. While it carries 390ma of maximum DC current. The product elc09d, is a highly preferred choice for users. In addition, the height is 8.9mm. The core is manufactured from highly durable and reliable ferrite materials. The product has a 470 μh inductance value. The lead features 5mm pitch. It features ±10% of tolerance value.
Yes. You can also search ELC09D471F on website for other similar products.
We accept all major payment methods for all products including ET13999588. Please check your shopping cart at the time of order.
You can order Panasonic brand products with ELC09D471F directly through our website or call us at +44 (0) 3303 800 157 or email our support team at sales@enrgtech.co.uk.
Yes. Our products in Leaded Inductors category are shipped in lowest possible time.
You will get a confirmation email regarding your order of Panasonic 470 μH ±10% Ferrite Leaded Inductor, 390mA Idc, 980mΩ Rdc ELC09D. You can also check on our website or by contacting our customer support team for further order details on Panasonic 470 μH ±10% Ferrite Leaded Inductor, 390mA Idc, 980mΩ Rdc ELC09D.
This is 470 μH ±10% Ferrite Leaded Inductor 390mA Idc 980mΩ Rdc ELC09D manufactured by Panasonic. The manufacturer part number is ELC09D471F. Its diameter is 9.5mm. The given dimensions of the product include 9.5 (dia.) x 8.9mm. The product is available in radial configuration. It allows up to 980mω maximum DC resistance. While it carries 390ma of maximum DC current. The product elc09d, is a highly preferred choice for users. In addition, the height is 8.9mm. The core is manufactured from highly durable and reliable ferrite materials. The product has a 470 μh inductance value. The lead features 5mm pitch. It features ±10% of tolerance value.
Reviews