Re: Wine Fridge Power Board

Also, Redwire though the front part looks similarly my schematic does not have a bunch of crossing circuits which allow one to easily understand what is happening and the one crossing circuit up by the bridge circuit has the proper drawing showing it is not connected at that point.

Re: Wine Fridge Power Board

No it is very different than that schematic. It only has two cmos. the other has 4 transistors. Plus the connections are different. The one I did is the exact schematic from the board, and virtual component layout that BudM did of the board. Also, one can see that the polarity of the two caps and two diodes have been connected in the wrong direction. With those components connected wrong the board will not work properly.

Re: Wine Fridge Power Board

The PSU schematic is looking just like post #17 . I'm sorry I can't find a better rez picture.

Re: Wine Fridge Power Board

I guess I did not upload the new schematic so here it is just follow instructions in previous post.

Re: Wine Fridge Power Board

Post 82 had a few mistakes in the schematic. This new schematic of the primary side of the power board is my final schematic and I believe it to be 100% correct according to BudM component layout of your board. Now that I have gotten rid of the confusing lines I believe C5, C10, D7 and D13 are in backwards. You will have to use the Primary side component layout in post 82 in order to find the corresponding parts on the board. Please verify that the polarity of the component layout on C5,C10,D7 and D13 on the board is correct with BudM's component layout. The schematic shows the incorrect polarity of the backward components. In other words the schematic reflects the board as it is wired now, backwards components.

Re: Wine Fridge Power Board

You can always ohm out the schematic with the board to verify both BudM's and my work is correct and get back to us if it is wrong in some way. Always remember to check out other people's work because anyone can make any type of simple mistake. This is a rule I learned from a head physic professor after I did not check another physic professor simple mathematics and he had made an error. The professor that made that error had an IQ of 160. Also, you might want to assign values to the components on the board component layout. You can use the paint program to do this. After that it will be a simple transposition to the schematic. I will also try and perfect the schematic. It is just I can only do so much a day. Especially when I would rather be doing my art work.

Re: Wine Fridge Power Board

Sorry of the above message, capacitors are not in parallel but series. I am still tired from painting the apartment. What an excuse more like I have not done this type of work on a regular basis for years. I am attaching pictures of my work up of BudM's component layout. I believe it to be correct but have not gone over it with fine tooth comb. The number designation of the resistors do not correspond with the same numbers on the top of your board. It is what I found easiest. The rough schematic numbers do correspond with the numbers I assigned with Budm's Schematic.
What I see if the polarity of C5 and D7 are correct I would say they are in backwards

Re: Wine Fridge Power Board

acornish I believe if you measure across the large caps that are connected to the diodes you should read around 108 Volts DC.The Capacitors are in parallel so it does not matter which you measure just observe the polarity of the capacitors the - is negative. If this voltage is not present then I would say something is wrong with the front end of the circuit.

Re: Wine Fridge Power Board

Redwire, I have been working a similar issue with a Hanny board that you refer to above.

Currently I have my board working, but the minute that I attach a Peltier to it, my output voltage drops from about 8.5 VDC to around 1.5 V.

I am still scratching my head trying to figure this out, and 123kenny have been helping, but I am wondering if you have higher resolution versions of the schematics that you post here? They might help me figure out what should be happening.

Thanks-acornish

Re: Wine Fridge Power Board

Thanks Kenney123, I will do that and post the results when I can. Good luck with the repainting and the move. I hope all goes well for you and thank you again for your insightful help.

Re: Wine Fridge Power Board

Yes a schematic would help at this point. I am going to be very busy for about a week. I am repainting my apartment as I am trying to move back to MA where all of my family lives. If you could look at the front circuit or power circuit using BudM component layout to verify the AC is being turned into the DC at the correct voltage. With a scope the AC power circuit one would connect ground of scope to ground of input power. In the IC you can look up the part number and there should be a pin out of the IC. It will have a Ground and a VCC. Once you know where the Ground of the IC is then you can ohm out the ground to a more convenient place to connect the ground of the scope. If you are unfamiliar with a scope it is best to use the Multi-meter until someone can walk you through the steps of the scope.

Re: Wine Fridge Power Board

keeney123

Thanks. WRT to the short, it was rather my fault. When I replaced the transistors I used a conductive thermo-compound (a stupid rookie mistake). To get the board to "work" I re-replaced the transistors (all of them) as well as a number of diodes and resistors that were faulty. I picked up a specific transistor/diode tester to check these out and replaced the "burnt" one with identical parts. As well, I used a NON-conductive thermo-compound when I put it all back together, so no fireworks. It does sound like I have somehow managed to reduce the board's output by half as it should be able to generate 12 VDC (it is a Hanny HYS60-12-KD board).

I will see what I can come up with for a schematic and post it when I can. With respect to an Oscilloscope, I do have one, but can't say that I am proficient with using it. I have mentioned in the past that I deal with a lot of "surplus" equipment and someone was getting rid of a Hitachi V-212 20 mHz 'scope, so I "recovered" it. I am still in the processes of learning how to use it. If I knew where to connect it to the board, it might provide some useful information.

Could I somehow have damaged the switching transformer(s) (there appear to be two) when things shorted out?

Thanks again for the help-A

Re: Wine Fridge Power Board

So what did you do to get rid of the short? This is where I would start. If you replaced something to allow the board to work you may have not gotten all of the problem. I would make sure the transistors are both good. I think BudM supplied you with the from end of the circuit. Now it maybe a good idea to develop a schematic so we can look at exactly which components are doing what. I know the basic concept of what is happening but my memory of exactly what is happening is vague. Basically you need the AC to be rectified to DC. This DC is then pulse width modulated and then the thermal couple along with rheostat that controls the inside temperature are used to create a duty cycle of the pulsating DC. Near the end of the circuitry just before the DC is connected to the fan and Peltier there is a transformer that charges up and then is turned off creating a collapsing voltage in the reverse direction. This Transformer is called a switching transformer. So anything along this line could be bad to create a faulty circuit. So if you check out the front or the power section of the circuit. The diodes, transistor, Capacitors, IC power voltage and can not find a problem with them then a Schematic will be needed. This will give a whole functioning view of the circuit. At this time one will break down the circuit and test the various part. Some of this can be done with just a multimeter, but to be able to look at the signals one needs a Oscilloscope to verify they are correct and have a correct timing.

Re: Wine Fridge Power Board

Keeney123, yes you are correct, both the fans and the Peltier are rated for 12v DC. Any idea why the board's out put is so low? At best I will see 6v, but with the Peltier attached this drops to less than 2.

Thanks again A

Re: Wine Fridge Power Board

I am thinking the Peltiers should be getting 12 Volts DC? Same with the fans. See if you can see a voltage rating on the fans.

Re: Wine Fridge Power Board

So, I am back at this again after a bit of a break. The good news is that the board now works. The fans turn as they should and everything is behaving itself. The board puts out about 5.5 to 6 V when measured at the point where the peltier unit connects.

However, the "bad" news. When I connect the peltier unit, the fans stop and the output voltage drops to about 1.6 V.

I know that the peltier works as I have tested it with an independent 5 V power supply and it gets very warm and very cold as it should.

I have tired disconnecting the wires from the temperature sensor in the fridge and the LED light in the fridge, but this does not affect anything. Voltage is fine with no peltier unit, but drops when the unit is connect. I should mention that I have test the board with several "good" peltier units and it consistently acts this way.

Anyway, any thoughts or suggestions as to why the power board "throttles" down when the load is connected to it.

Thanks again Anthony

Re: Wine Fridge Power Board

Thanks again-I had wondered about that second transistor as it did appear connected to the board. I will continue looking for the short.

Re: Wine Fridge Power Board

I would not think that this would cause a short on your board, but it will not hurt to reconnect it and again make sure that the heat sink on that transistor does not electrically connect to the tab. The other transistors tab is electrically connected on the bottom of the board with a land so I would think this transistor does not need the pad and the insulated insert that goes through the hole in the tab that the screw goes through. Instead of just replacing parts you will need to find out what is shorted as I have already stated.

Re: Wine Fridge Power Board

oops, my question in the second paragraph should have read:

"Could the lack of connection between the heat sink and the COLLECTOR on the upper transistor be part of the problem". I typed emitter by mistake.

Re: Wine Fridge Power Board

kc8adu,

OK, I have added a rubber insulator, however the tab of the transformer is still electrically connected to the heat sink. Referring to my image of the back of the board, the lower transistor's collector is connected to the heat sink. This is not the case with the upper transistor, which is isolated due to the "scratches" put in the board. Again, these were there when the unit came to me.

Could the lack of connection between the heat sink and the emitter on the upper transistor be part of the problem?

Secondly, when the unit arced, could that have fried something on the secondary side that I should be checking?

Thanks again-