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Related

bench power supply

aster94
aster94 over 9 years ago

hello,

 

I started drawing in eagle this afternoon to make my first home made pbc board for a bench power supply that with an input of 12V/5A will have two output of 12V, 5V, 3.3V and an adjustable voltage (lm317)

the switches are these with ground in the middle

565935243_150.jpg

I hope that the schematic is clear (it is also in the attachments), maybe you could give me some hint or advice about something that i m doing wrong

about the .brd i didn't route it since maybe you will say me to modify my schematic

 

thanks in advance

 

Immagine.png

Attachments:
bps.rar
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  • aster94
    0 aster94 over 9 years ago

    finally I'm back! looking a little bit around i found that the lm317 is not the best IC to use in parallel: LM317 in parallel - Answered -> LM2596 circuit question  so i will just be happy with its <1.5A

     

    i draw again the circuit with your precious suggestions:

     

    image

     

    now i have the input of 12V filtered by a 1000uF electrolityc and a 0.1uF ceramic capacitators with:

    -"high" current output with the lm317 (i think that now it is correctly wired)

    -low current output where i could choose between 12/5/3.3 volts

     

    the ammeter/voltmater that i am using is this: https://it.aliexpress.com/item/1pcs-DC-100V-10A-Voltmeter-Ammeter-Blue-Red-LED-Amp-Dual-Digital-Volt-Meter-Gauge-Voltage… as i said before it's the same that jw0752 is using

     

    i think that i could start to draw the board, anyone have any suggestion?

     

    about the power supply from the 220V I was undecided between: https://it.aliexpress.com/item/Free-shipping-2pcs-lot-Power-adapter-EU-UK-AU-US-AC110-220V-to-DC12V-2A-led/1806497704.ht…  and https://it.aliexpress.com/item/New-24W-Regulated-Switching-Power-Supply-LED-Driver-Lighting-Transformer-For-LED-Strip-Li…

    the second one is far away better, isn't it?

     

    EDIT: i was thinking that maybe the ams1117 would stay in a safer position if i use the Vout from the lm7805, correct?

    EDIT2: instead of all these output caps (3,4,5,6,7,8) wouldn't be better if a just put a 100nF ceramic cap before every output? or do you think i will need more filtering?

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  • mcb1
    0 mcb1 over 9 years ago in reply to aster94

    As COMPACT said the regulators need some voltage above their output.

    A good rule of thumb is 2v.

     

    Rather than go ot the 24v supply, many of the power bricks for laptops are 15v and have more than 2A capability.

    That assumes you want to have the adjustable voltage got from zero to 12v.

     

     

    Also a minor difference but if you can the voltmeter input should be on the Output of the ammeter.

    Most ammeters use a small resistance in series and measure the voltage across it to derive the current figure, some are negliglble but others are higher.

     

    You will need to be very disciplined when using the fixed output switch. You really don't want to have 5v (or worse) into a 3v3 device

     

    Otherwise it looks like it will work.

     

    Mark

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  • aster94
    0 aster94 over 9 years ago in reply to mcb1

    I m quite sure that i have somewhere a 19v 2a, stupid me that i didn t thought to use it before. And now that i am using more than 12v i will need to put the ams1117 after the lm7805 for sure

     

    I will move the voltmeter input as you said, thanks

    Do you have any suggestion about all these capacitators? Maybe just a 0.1uF ceramic in the input and one identical at both outputs will be ok

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  • COMPACT
    0 COMPACT over 9 years ago in reply to COMPACT

    As for PCB layouts of Linear regulators search for "S100 boards" on the Internet.

    There you will find lots of examples.

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  • COMPACT
    0 COMPACT over 9 years ago in reply to mcb1

    image

    Here is an example of what I mean.

    8V in from a regulated power supply being output as 5VDC using an LM7805 Linear Regulator.

    (The current limit has been set to 50mA on the bench power supply as not to risk melting the breadboard or voltage regulator without a heatsink.)

    The most important point here is that the circuit works!

     

    The test apparatus on the left is a TENMA bench power supply; it is a beauty of a unit and can be remotely controlled by a computer.

    The test apparatus on the right is a DC Electronic Load; it provides a test load for the regulator output whilst acting voltmeter and ammeter.

     

    If you look at the numbers on the apparatus; you'll notice that the input power used is greater than the power being output; the missing power is expelled as heat!

     

    "Wherever I lay my cap, that's my home". - Paul Young

    "You can keep your cap on" - Joe Cocker

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  • COMPACT
    0 COMPACT over 9 years ago in reply to mcb1

    image

    Here is an example of what I mean.

    8V in from a regulated power supply being output as 5VDC using an LM7805 Linear Regulator.

    (The current limit has been set to 50mA on the bench power supply as not to risk melting the breadboard or voltage regulator without a heatsink.)

    The most important point here is that the circuit works!

     

    The test apparatus on the left is a TENMA bench power supply; it is a beauty of a unit and can be remotely controlled by a computer.

    The test apparatus on the right is a DC Electronic Load; it provides a test load for the regulator output whilst acting voltmeter and ammeter.

     

    If you look at the numbers on the apparatus; you'll notice that the input power used is greater than the power being output; the missing power is expelled as heat!

     

    "Wherever I lay my cap, that's my home". - Paul Young

    "You can keep your cap on" - Joe Cocker

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  • COMPACT
    0 COMPACT over 9 years ago in reply to COMPACT

    As for PCB layouts of Linear regulators search for "S100 boards" on the Internet.

    There you will find lots of examples.

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