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Blog 555 Timer Voltage Inverter
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  • Author Author: fmilburn
  • Date Created: 28 Nov 2018 7:30 AM Date Created
  • Views 103208 views
  • Likes 15 likes
  • Comments 9 comments
  • backtoanalogch
  • lm2662
  • back to college
  • 555 timer
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555 Timer Voltage Inverter

fmilburn
fmilburn
28 Nov 2018

I still have work to do on my Kelvin (4-wire) Milliohm Meter project, one item of which is to improve the accuracy of the meter when measuring below 3 milliohms.  I suspect the problem may be that the instrument amp is too close to the ground rail.  To correct this I ordered a LM2662 which is a CMOS charge pump that can act as a voltage doubler or as a voltage inverter.  This will allow me to create a negative rail which hopefully will improve accuracy.

 

I was brushing up on how charge pumps / voltage inverters work and decided to do a little mini project this evening with a 555 timer (newer version which can operate down to 2V and frequencies to 2MHz) to create my own voltage inverter.  Here is the circuit:

image

Note:  Although I am not using polarized capacitors they are being indicated on the circuit diagram for clarification should they be used.  I connected it up on a breadboard using parts I had on hand and powered with 3V3 from my bench power supply.

    1. R1 = 1k
    2. R2 = 6.8k
    3. C1 = 100p
    4. C2 = 0.1u
    5. C3,C4 = 2.2u
    6. D1,D2 = IN4001

I need to order some Schottky diodes :-).  Lo, and behold, it worked (at least with no load).  Here is the output with the oscilloscope probing pin 3 of the 555 Timer and the -3V3 output.

image

The 555 timer is providing a  3V3 507KHz square wave with roughly 54% duty as seen on the yellow trace.  The calculated frequency for the 555 Timer output was much higher but I expect my breadboard is adding capacitance and throwing off the calculation.  The blue trace is the negative output measured to be -2.72V.  The DC output with 20 mV divisions is shown in the next oscilloscope screen shot.

image

The noise is all within a 20mV band.  And here is what the breadboard looks like:

image

The pencil is pointing at the LM2662 that I bought for the project.

 

It should be noted that the circuit with the listed components gives poor response unless the load is very light.  See the simulation by Jon Clift in the comments as well as new experiments by me.  The following table gives experimental results for different loads.

Load (Ohms) Pin 3 Square Wave Ouput (V) Circuit Output (V)
No Load 3.3 V -2.7 V
33k Ohms 3 V -2.1 V
3.3k Ohms 2 V -0.6 V
1k Ohms 1.8 V -0.2 V

 

 

Charge pumps and voltage inverters seemed like magic at first and it took me a while to catch on to what was happening (mechanical engineer here).  I may order some Schottky diodes and inductors to explore other topologies when I have a bit more time.  Comments always welcome.

 

EDIT:  2018-11-28  Realized I did not label all the pins on the schematic and updated it.  Showed polarity in case electrolytic or tantalum capacitors are used.  Added the load table from the Comments below.  Clarified 555 Timer version and Diodes used.

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Top Comments

  • jc2048
    jc2048 over 6 years ago +7
    The datasheet for the original 555 characterises it for 5 to 15V supply and up to 100kHz. It obviously works for you like this - just saying for anyone else who tries it and maybe doesn't get such good…
  • shabaz
    shabaz over 6 years ago +7
    That's awesome : ) I was just looking a couple of evenings ago for a voltage doubling or tripling circuit for some other project, and had come to the conclusion that I couldn't do it cheaper than a 555…
  • 14rhb
    14rhb over 6 years ago +6
    Hi Frank, Great to see the 555 is still getting used to real effect. You've got a good output there and I'd be interested to see how it performs with some loading. If you design anything using the Texas…
  • foohoa
    foohoa over 6 years ago

    U can add in the power transistor to boost up the load handle

    My teacher have this concept really long time ago, that time doesn't even have inverter aircond, we test it using light bulb and it save around 30% of current with same bright

    And because of the inverter technology didn't implement, so this project just KIV

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  • fmilburn
    fmilburn over 6 years ago in reply to jw0752

    Hi John,

    This is an area where I don't have much knowledge but the good thing about that is I am on the steep part of the learning curve and that makes it extra rewarding.  It is great that it gets this much interest - especially from such knowledgeable people :-)

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  • jw0752
    jw0752 over 6 years ago

    Hi Frank,

     

    Seems that there is a lot of interest in doing electronics on this forum image. Thanks for a great post and don't you love the wealth of info in the comments afterwards.

     

    John

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  • fmilburn
    fmilburn over 6 years ago in reply to shabaz

    Hi Shabaz,

    It really is an interesting area.  These simple projects can be very satisfying and give a lot of insight.  Maybe I should try making the oscillator from discrete components as well :-).

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  • fmilburn
    fmilburn over 6 years ago in reply to jc2048

    Hi Jon,

    Thanks for simulating this.  Good point on the capabilities of the 555, I should have stated that I am using the TCL555CP which is good down to 2V input and frequencies up to 2MHz.  As you and Rod suspect, this circuit does not work well unless very lightly loaded - at least in the form I currently have it.   I used the IN4001 because I had them on hand.  Here are the results of tests with increasing load.

    No Load

    image

    33k Resistor

    image

    3.3k Resistor

    image

    1k Resistor

    image

    Summarized

    No Load:  3.3V square wave and -2.7V output

    33k Ohm:  3V square wave and -2.1V output

    3.3k Ohm: 2V square wave and -0.6V output

    1k Ohm: 1.8V square wave and -0.2V output

     

    This is pretty interesting stuff and I must return to it when I get some time....  I considered soldering my LM2662 up to an adapter and trying it out but need to save it for the other project.  Will definitely put some additional stuff in my next basket to explore some more.  Also need to start using the simulator more.

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