![InnoSwitch-EP Schematic Figure 1. Typical Application/Performance.](/sites/default/files/styles/product_image/public/images/schematics/innoswitch-ep_schematic.jpg?itok=S2gMeObI)
![InnoSwitch-EP in eSOP-R16B Package InnoSwitch-EP in eSOP-R16B Package](/sites/default/files/styles/product_image/public/images/products/innoswitch-ep_package_3.png?itok=Pafx8Mg0)
![InnoSwitch-EP Schematic Figure 1. Typical Application/Performance.](/sites/default/files/styles/teaser_thumb/public/images/schematics/innoswitch-ep_schematic.jpg?itok=QmN1LEkb)
![InnoSwitch-EP in eSOP-R16B Package InnoSwitch-EP in eSOP-R16B Package](/sites/default/files/styles/teaser_thumb/public/images/products/innoswitch-ep_package_3.png?itok=DIoX2sjC)
InnoSwitch-EP
Off-Line CV/CC Flyback Switcher IC with Integrated MOSFET, Sync-Rect and Feedback
Off-Line CV/CC Flyback Switcher IC with Integrated MOSFET, Sync-Rect and Feedback
The InnoSwitch™-EP family of ICs dramatically simplify the development and manufacturing of low-voltage, high current power supplies, particularly those in compact enclosures or with high efficiency requirements. The InnoSwitch-EP architecture is revolutionary in that the devices incorporate both primary and secondary controllers, with sense elements and a safety-rated feedback mechanism into a single IC.
Close component proximity and innovative use of the integrated communication link permit accurate control of a secondary-side synchronous rectification MOSFET and optimization of primary-side switching to maintain high efficiency across the entire load range. Additionally, the minimal DC bias requirements of the link, enable the system to achieve less than 10 mW no-load to maximize efficiency in standby.
(An audio-only version of this presentation is also available for download here.)