Difference between revisions of "Power Supply with an ATX PSU"

From Fixme.ch
Jump to: navigation, search
(Buck converter improvement)
m (closing project)
 
(3 intermediate revisions by the same user not shown)
Line 1: Line 1:
[[Category:Ongoing_Projects]]
+
[[Category:Closed_Projects]]
 
+
= Status =
+
On going...
+
  
 
= Description =
 
= Description =
Create a lab Power Supply with an ATX PSU
+
Create a lab Power Supply from an [https://en.wikipedia.org/wiki/Power_Supply_Unit_%28Computer%29 ATX PSU].
  
 
= Components =
 
= Components =
Line 55: Line 52:
  
  
= Those interested =
+
= People involved =
 
*Fred
 
*Fred
 
*Speredenn
 
*Speredenn
Line 65: Line 62:
  
 
http://www.sinux.net/2011/09/alim-atx.html
 
http://www.sinux.net/2011/09/alim-atx.html
 +
 +
http://www.instructables.com/id/How-To-Build-A-Power-Supply-For-Electronics-Hobby/
  
 
= Pictures =
 
= Pictures =
Line 74: Line 73:
 
= Update: PSU with regulate output =
 
= Update: PSU with regulate output =
  
It is a better idea to have the ATX set up in a box and to use the ATX connector to connect to the banana plugs. Basically, it is then possible to have the 5 usual plugs (GND, +3.3, +5, +12, -12) and add a regulated output (0-12V). The visualization for that regulated output can be analogical.
+
It is a better idea to have the ATX set up in a box and to use the ATX connector to connect to the banana plugs. Basically, it is then possible to have the 5 usual plugs (GND, +3.3, +5, +12, -12) and add a regulated output (0-12V). The visualization for that regulated output can be analogical. However, if the system uses a micro-controller (see Buck converter below), a digital screen could be an option. That would also be great to have a current limiter on that regulated output.
  
That would be great to have a current limiter on that regulated output also.
+
Linear regulators are excluded for this improvement because they dissipate way to much energy. A [https://en.wikipedia.org/wiki/Switched-mode_power_supply switch-mode power supply] approach is favored. So far, a [https://en.wikipedia.org/wiki/Buck_converter Buck converter] is considered.
Linear regulators are excluded for this improvement because they dissipate way to much energy. A switch-mode power supply approach is favored <https://en.wikipedia.org/wiki/Switched-mode_power_supply>. So far, a Buck converter is considered : https://en.wikipedia.org/wiki/Buck_converter
+
  
 
= Options =
 
= Options =

Latest revision as of 12:54, 4 February 2012


Description

Create a lab Power Supply from an ATX PSU.

Components

Shop Article N° Description Unit price (CHF)
Distrelec 100538 Laboratory socket black ø 4 mm 4.-
Distrelec 100540 Laboratory socket red ø 4 mm 4.-
Distrelec 100546 Laboratory socket green ø 4 mm 4.-
Distrelec 100544 Laboratory socket yellow ø 4 mm 4.-
Distrelec 100542 Laboratory socket blue ø 4 mm 4.-


Price

Depends of connectors number and of availability of an old working ATX PSU.

Voltage

  • +5VDC
  • +3.3VDC
  • +12VDC
  • -12VDC


People involved

  • Fred
  • Speredenn

Links

http://www.semageek.com/diy-transformer-une-alimentation-atx-en-alimentation-de-laboratoire/

http://pinouts.ru/Power/atxpower_pinout.shtml

http://www.sinux.net/2011/09/alim-atx.html

http://www.instructables.com/id/How-To-Build-A-Power-Supply-For-Electronics-Hobby/

Pictures

PSU 1.JPG PSU 2.JPG PSU 3.JPG PSU 4.JPG

Update: PSU with regulate output

It is a better idea to have the ATX set up in a box and to use the ATX connector to connect to the banana plugs. Basically, it is then possible to have the 5 usual plugs (GND, +3.3, +5, +12, -12) and add a regulated output (0-12V). The visualization for that regulated output can be analogical. However, if the system uses a micro-controller (see Buck converter below), a digital screen could be an option. That would also be great to have a current limiter on that regulated output.

Linear regulators are excluded for this improvement because they dissipate way to much energy. A switch-mode power supply approach is favored. So far, a Buck converter is considered.

Options

I suppose it is good to have at least 2 LEDs, a red and a green, each with a 220Ω resistor in series. turning on the PSU can be done with a SPDT switch, that is: on1 - on2.

  • red LED is between on1 and purple (standby 5V)
  • green LED is between grey (power OK) and on2 (or GND, for that matter)
  • green cable is soldered onto on2
  • middle point of the SPDT switch is on GND

this has the following consequences:

  • when PSU is on mains and switched off, the red LED is on
  • when flipping the switch, PSU turns on ; after about a second the green LED lights, indicating all is good.

I feel like wasting time, so here's some crappy ASCII art for this:

green-----------------
            (grn)    |
grey----R----|>|--o  o--------ON2
                  |          /      ←{ this here is the SPDT switch }
GND---------------o--------o/
            (red)
purple--R----|>|--------------ON1

Components

Shop Article N° Description Unit price (CHF)
Distrelec 679017 24-pin (NT) – 20-pin (MB) 12.-
Distrelec 100536 Laboratory socket light-gray ø 4 mm 4.-