RS6512 Datasheet, PDF(1/10 Page) Orister Corporation – 2A, 20V, 400KHz DC/DC Asynchronous Step‐Down Converter

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RS6512 Datasheet, PDF (1/10 Pages) Orister Corporation – 2A, 20V, 400KHz DC/DC Asynchronous Step‐Down Converter

RS6512

2A, 20V, 400KHz DC/DC Asynchronous StepâDown Converter

Page No. : 1/10

General Description

The RS6512 is a highâefficiency asynchronous stepâdown DC/DC converter that can deliver up to 2A output current from

4.75V to 20V input supply. The RS6512's current mode architecture and external compensation allow the transient

response to be optimized over a wide range of loads and output capacitors. Cycleâbyâcycle current limit provides protection

against shorted outputs and thermal shutdown protection.

The RS6512 also provides output under voltage protection and thermal shutdown protection. The low current (<30Î¼A)

shutdown mode provides output disconnection, enabling easy power management in batteryâpowered systems.

Features

â 2A Output Current

â Up to 93% Efficiency

â Integrated 100mÎ© Power MOSFET Switches

â Fixed 400KHz Frequency

â CycleâbyâCycle Over Current Protection

â Thermal Shutdown function

â Wide 4.75V to 20V Operating Input Range

â Output Adjustable from 1.23V to 18V

â Programmable Under Voltage Lockout

â Available in an SOPâ8 Package

â RoHS Compliant and 100% Lead (Pb)âFree and Green

(Halogen Free with Commercial Standard)

Applications

â PC Motherboard, Graphic Card

â LCD Monitor

â SetâTop Boxes

â DVDâVideo Player

â Telecom Equipment

â ADSL Modem

â Printer and other Peripheral Equipment

â Microprocessor core supply

â Networking power supply

â PreâRegulator for Linear Regulators

â Green Electronics/Appliances

Application Circuits

INPUT

4.75V to 21V

10uF/35V C1

CERAMIC x2

OFF ON

2 IN

SW 3

8 NC

FB 5

4 GND COMP 6

RS6512âADS

10nF

15uH

B340A

C6 (Optional)

5.6KÎ© 8.2nF

16.9KÎ© 1%

OUTPUT

3.3V/2A

10KÎ© 1%

22uF/6.3V

CERAMIC x2

This integrated circuit can be damaged by ESD. Orister Corporation recommends that all integrated circuits be handled with

appropriate precautions. Failure to observe proper handling and installation procedures can cause damage.

ESD damage can range from subtle performance degradation to complete device failure. Precision integrated circuits may be more

susceptible to damage because very small parametric changes could cause the device not to meet its published specifications.

DSâRS6512â07 February, 2010

www.Orister.com

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