Fixed voltage regulator problem

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SUMMARY

The LM7805 and LM7809 voltage regulators typically output voltages slightly below their nominal values, with the LM7805 providing around 4.9V instead of 5V and the LM7809 outputting approximately 8.8V instead of 9V. This behavior is normal due to the non-precision nature of these devices, which are specified to operate within a range of 4.8V to 5.2V for the LM7805. Variations in output voltage can result from manufacturing tolerances and internal losses, and users are advised to ensure proper circuit conditions, including adequate input voltage and heat dissipation, to optimize performance.

PREREQUISITES
  • Understanding of linear voltage regulators, specifically LM7805 and LM7809
  • Basic knowledge of voltage measurement techniques and multimeter usage
  • Familiarity with electrical circuit design principles
  • Awareness of thermal management in electronic components
NEXT STEPS
  • Research the specifications and performance characteristics of LM7805 and LM7809 voltage regulators
  • Learn about the LM317K adjustable voltage regulator and its applications
  • Investigate the effects of temperature on voltage regulator performance
  • Explore alternative precision voltage regulators for critical applications
USEFUL FOR

Electronics engineers, hobbyists working with voltage regulation, and anyone involved in designing or troubleshooting circuits that utilize LM7805 and LM7809 voltage regulators.

elecz
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Why does LM7805 and LM7809 give less voltage? Practically LM7805 is giving 4.9V instead of 5 and 7809 is giving 8.8V. Can anyone please tell me the reason?
 
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That is normal. These are not precision devices. There is usually some variation from the nominal voltage.

It is possible to boost the voltage with a couple of resistors, or you could use a LM317K and adjust it to whatever voltage you like.
 
But I want to know the exact reason why this happens. Is this because of some internal loses?
 
It doesn't always happen. A 7805 will give an output voltage close to 5V. but some will give you a voltage slightly less and some slightly more than that. It has to do with how they are fabricated etc.
Note: if you test several 7805 and they all give a voltage slightly lower than 5V there is either something wrong with your circuit, or the voltmeter you are using.
 
7805 is speced at 4.8 V min, 5.2 V max.
 
What model meter are you using?

Bob S said:
7805 is speced at 4.8 V min, 5.2 V max.

True, but I've never had a 7805 be even as far off as 4.900V before.
 
Topher925 said:
What model meter are you using?



True, but I've never had a 7805 be even as far off as 4.900V before.

I thought the same thing.
 
maybe it's what you're feeding it?
 
They are not precision, they vary widely. 8.8 for a 9 sounds pretty good to me! The only strange thing is they both go below. Are you drawing the max current? Do it get hot? You have heat sink on it? Make sure you have at least 3V head room.( for 7805, the input need to be something like 8V, read the spec to be sure.)

I had seen those regulator get hot even under light load. I am not exactly a fan of these regulators.
 
  • #10
4.9 volts instead of 5.000 is only a 2% error and these things are produced in millions for a few cents each.

It just reflects the difficulty of accurate doping of materials, particularly for the voltage reference inside these ICs.
It is the same reason that transistor gain varies so much for the one type of transistor.

A 2% error isn't going to make any difference for many circuits (especially digital ones).
If it will make a difference, you can get better regulators or variable regulators.

I have tried to trace oscillator drift and found it was due to the change in voltage output of these regulators with temperature. They need a heatsink, but seldom get one.
 
  • #11
true, as BOB said. its SPECED! nothing to do with the voltmeter. read the data sheet, don't complicate things
 

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