News Release
News Release:July.31,2008
SANYO Announces new MOSFET Series lineup
that achieve industry's Top-level*1
in Low ON resistance
Specifically designed for Lithium-ion Battery Protection Circuits
requiring low ON resistance
| Products | EFC4601R/EMH2407/ECH8651R Totally 11 types |
|---|---|
| Sample Available | Aug. 2008 |
| Production begins | Sept. 2008 sequentially. 45Million Pcs/Month (peak season) |
SANYO Semiconductor Co., Ltd. announces the development of 11 new models of the N-channel MOSFET Series best suited for lithium-ion battery protection circuits. The new models achieve the industry's highest-level low ON resistance characteristic in a small and thin package made possible by SANYO's original unique technology. Samples are available in August 2008, and production begins in September 2008.
This series introduces 11 new models ranging from molded products to CSP (Chip Size Package) products meeting the needs of various lithium-ion battery protection circuits.This lineup utilizes lead-free and halogen-free design, meaning less environmental impact. Further energy saving is achieved through its high-performance external leads as well as a savings in resources (raw materials) as a result of its compact and thin package.
Product Main Features
- Power saving achieved by industry's top-level*1 Low ON resistance
- Provides 70% reduction (compared with SANYO ECH8) in mount area and 40% reduction in mount height (=0.55mm) due to adoption of CSP structure*2
- Wide range of lineup centered around 24V
*1: as of July 31, 2008. ECH8651R: 10.5mΩ, EMH2407; 19mΩ
*2: CSP structure is adopted for EFCP series
* Please note that the information described herein, including price and specification is based on the press release as of July 23, 2008, which may differ from the latest information.
*The information presented in this press release, including device specifications, is current as of the date of this press release.
Note, however, that this information is subject to change without notice and thus at later dates the current state may differ in
certain details from the content presented here.
