Difference between revisions of "Switching regulator"

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(low-voltage boost circuit)
(→‎further reading: yet another "Switching power supply topology review")
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* [http://www.edn.com/article/CA6335301.html "JFET-based dc/dc converter operates from 300-mV supply"] by Jim Williams 2006
 
* [http://www.edn.com/article/CA6335301.html "JFET-based dc/dc converter operates from 300-mV supply"] by Jim Williams 2006
 
* [http://electronicdesign.com/Articles/ArticleID/15420/15420.html "Germanium Dual-Boost Starts At 260 mV"] by Clayton B. Grantham 2007
 
* [http://electronicdesign.com/Articles/ArticleID/15420/15420.html "Germanium Dual-Boost Starts At 260 mV"] by Clayton B. Grantham 2007
 +
* [http://focus.ti.com/lit/ml/slup067/slup067.pdf "Switching power supply topology review"] by Lloyd H. Dixon, Jr. 2001

Revision as of 22:37, 13 June 2009

A "voltage regulator" is designed to hold a constant output voltage.

A "switching voltage regulator", usually called a switching regulator, also called a DC to DC converter, accomplishes this goal by rapidly switching a transistor from full on and full off.

A "linear voltage regulator", usually called a "linear regulator", accomplishes the same goal by holding a transistor in its active region, somewhere between full on or full off.

The 723 Voltage Regulator can be used as either a linear or a switching regulator.

The Linuxstamp uses a the LTC3407-3 switching regulator.

The ARMUS Embedded Linux Board uses ...

The MCP1252/3 Flyback Switching Regulators can generate an output voltage greater than the input voltage -- something impossible with linear voltage regulators.

further reading