Difference between revisions of "The 723 Voltage Regulator"

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The main IC: LM723 is specified at temperatures from -55°C to +125°C.  This chip is a little harder to find, and is more expensive than the LM723C which is exactly the same (as far as I know) but for the temperature spec which is from 0°C to +70°C.
 
The main IC: LM723 is specified at temperatures from -55°C to +125°C.  This chip is a little harder to find, and is more expensive than the LM723C which is exactly the same (as far as I know) but for the temperature spec which is from 0°C to +70°C.
  
The document: “The Many Talented 723" by Glen Prescott was my introduction to using the 723.  I have been unable to find out anything about the author or where the article was published.  Therefore obtaining permission to publish it has been impossible.  If anyone reading this has any knowledge of the document, please leave a word here and let me know, so I can attempt to get permission to publish it here.
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The document: “The Many Talented 723" by Glen Prescott was my introduction to using the 723.  The article was published in the August 1979 edition of 73 Magazine, and may be viewed at archive.org here: [http://archive.org/stream/73-magazine-1979-08/08_August_1979#page/n65/mode/2up]
  
 
“[[My Experience With The 723]]”  by Roger Furer is my own story of the different regulator circuits I’ve built with it and includes links to schematics and PC Board layouts.  (Coming Soon)
 
“[[My Experience With The 723]]”  by Roger Furer is my own story of the different regulator circuits I’ve built with it and includes links to schematics and PC Board layouts.  (Coming Soon)
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there are more, but you get the idea.
 
there are more, but you get the idea.
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== further reading ==
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* [http://www.midcoast.com.au/~paulb/faq_723.html "Power supply design with the LM723"] by Paul B. Webster VK2BZC
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* [http://www.circuitcellar.com/archives/viewable/Popov206/2.html "Smart Power: An Intelligent Power Supply for Embedded Systems"] by Alexander Popov & Jordan Popov, "Circuit Cellar" September 2007; uses a LM723 voltage regulator.
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[[Category:Components]]

Revision as of 12:37, 19 April 2012

The 723 Voltage Regulator

UA723CN Symbol.gif

Description:

The 723 is ancient in the world of IC voltage regulators. It is a 14-pin IC that needs some outboard components to tell it what to do. By itself it isn’t that impressive with a current capacity of 150mA, but with the addition of an external series pass transistor it can control whatever current the transistor can handle. It is designed primarily to be used as a positive regulator, but it can also be made to function as a negative regulator. In addition, although it is rated to 37 volts, it can be used in a “floating” mode and regulate voltages above that limit. All in all, I’ve found it to be a very stable, precise, and versatile device.

The main IC: LM723 is specified at temperatures from -55°C to +125°C. This chip is a little harder to find, and is more expensive than the LM723C which is exactly the same (as far as I know) but for the temperature spec which is from 0°C to +70°C.

The document: “The Many Talented 723" by Glen Prescott was my introduction to using the 723. The article was published in the August 1979 edition of 73 Magazine, and may be viewed at archive.org here: [1]

My Experience With The 723” by Roger Furer is my own story of the different regulator circuits I’ve built with it and includes links to schematics and PC Board layouts. (Coming Soon)

Documents:

Several companies manufacture the LM723, but the data sheets are pretty much the same.

Texas Instruments calls it the µA723: [2]

National Semiconductor calls it the LM723 and LM723C (reduced temperature version) [3]

On Semiconductor never heard of it, but ST Microelectronics makes the LM723 (with various suffixes) [4]

Footprints:

It is available as a 14-pin DIP from everyone. In a metal can: H10C from National, and as an SO-14 from STM and TI. There may be other packages available from other manufacturers, but I limited my search to these three. Note that only the DIP-14 package has the Vz pin--the output from the zener diode which is used for negative regulators. The metal can and the flat-pack do not have enough pins and so they skip this one.

Manufacturer Info:

Note: The LM723C is identical to the LM723 except that the LM723C has its performance guaranteed over a 0̊C to +70̊C temperature range, instead of −55̊C to +125̊C.


National Semiconductor part # :

LM723H, LM723H/883, or LM723CH : Metal Can Package (H), NS Package H10C

LM723J/883 : Ceramic Dual-In-Line Package (J), NS Package J14A

LM723CN : Molded Dual-In-Line Package (N), NS Package N14A


ST Microelectronics part # :

LM723N : DIP-14

LM723CN : DIP-14

LM723CD : SO-14


Texas Instruments part # :

µA723CN : Plastic DIP (N),

µA723CD : Small Outline (D)


NTE makes a substitute: NTE923

Supplier Info:

Jameco

Major Brands

LM723CN, DIP-14, Jameco part# : 24467, price: 1+ 0.34

LM723H, TO-5, Jameco part# : 301719, price: 1+ 3.69

Texas Instruments

UA723CDE4 Jameco part# : 1129851, price: 50+ 0.319

UA723CNE4 Jameco part# : 1129914, price: 1000+ 0.295


National Semiconductor

LM723CN/NOPB Jameco part# : 840691, price: 10+ 0.482


Mouser

Fairchild Semiconductor

KA723, DIP-14 Mouser part# : 512-KA723, price: 1+ .67

KA723DTF, SOP-14 Mouser part# : 512-KA723DTF, price: 1+ .67


ST Microelectronics

LM723CD, SO-14 Mouser part# : 511-LM723CD, price: 1+ .38

LM723CN, DIP-14 Mouser part# : 511-LM723CN, price: 1+ .32

LM723N, DIP-14 Mouser part# : 511-LM723N, price: 1+ .64

Texas Instruments UA723CN, DIP-14 Mouser part# : 595-UA723CN, price: 1+ .53


Digikey

National Semiconductor

LM723CH/NOPB, TO-5 Digikey part # : LM723CH-ND, price: 1+ 5.48

LM723H, TO-5 Digikey part # : LM723H-ND, price: 1+ 5.48

LM723CN/NOPB, DIP-14 Digikey part # : LM723CNNS-ND, price: 1+ 1.12


ST Microelectronics

LM723N, DIP-14 Digikey part # : 497-4268-5-ND, price: 1+ 0.99

LM723CD, 14-SOIC Digikey part # : 497-1595-5-ND, price: 1+ 0.86


there are more, but you get the idea.

further reading