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Last edited by keeney123; 09-14-2015, 01:20 PM. -
Re: Wine Fridge Power Board
I realise it probably won't be of any help in solving the immdiate problem, but I've drawn the area of the circuit that controls the TL494 regulator. ISTM that the regulator gets feedback from the Peltier output, the NTC sensor (via IC2), its own internal 5V reference voltage (?), and IC3 (uC). IC3 is a microcontroller whose function appears to be to monitor the ambient temperature, but I could be wrong about this.
Code:___ Vcc (TL494-12) <---|___|--+---+ | | |+ | === | --- | | | C 5Vref 5Vref === | || + + GND | +--||---+ | | | | || | .-. .-. +------)--| ___ |---+ | | | | | | +-|___|-+ | | | | | | | R | '-' '-' | |8 | | | | 2|\| | +-------+----+ +-----+----|-\ 1 | ___ D | | | | IC2| >-------------+-|___|-->|--> TL494-1 +| NTC .-. | .-. +----|+/ LM358 === | | | | | | 3|/|4 --- +->| | | | | | | | | '-' | '-' | | | +---| | | | === === === | === | GND GND GND | GND | | | +----------+Code:.-------------------------. | | +------|1 14 |-- NC | | IC3 | | o---|2 NC? 13 |-- NC | | uC | | o---|3 NC? 12 |-- NC | | | 5Vref <----+------|4 VCC 11 |------+ | | | || | | === +--||---+----|5 OSC1 | GND | || | | | | _-_ | | +-----+ X1 |___| | | | | - | 10 |-- NC | | || | | | === +--||---+----|6 OSC2 9 |-- NC GND || | | +----|7 ADC in? DAC out? 8 |--->|----> TL494-1 | | | D | '-------------------------' | Link o under | |---------| TO92 IC3? o | o o o | | \ | | | / Temperature | -|--|--|- Sensor ? | | | | | | | +--------------------> 5Vref | | | | | | | .-. | | | | | +-------+ | | | | | '-' | | | +---+ +--+ | | | | .-. .-. --- | | | | --- | | | | | '-' '-' | | | +---+-----+ | === GNDCode:+------------+ | | | --- D | --- +------>|---+-----> Fans / LEDs | | | |+ | | .-. === | .-. | | --- | | | | | | | | | '-' === | '-' D1a L1 | GND | | ___ | | -. ,--+---->|--+----UUU---+------+--o Peltier + | )|( | | | | )|( | |+ | ___ ___ | TR2 )|(-----------)-----+ === +--------|___|--|___|--+--+ | )|( | | --- | | | )|( | | | | .-. | -' '--+---->|--+ +----+---------o Peltier - | | | | | | | | | | +------------| D1b | === | '-' | GND | | | | === | +----------------+ GND D | | V .----------. | - | TL494 | | D | | | +----|<--- IC3 (uC) +---|Vcc | | 12| | | | /| |1 | D | / |-|--------+----|<--- IC2 (LM358) | -< E| | | | \ |-|--+ | 13| \| |2 | | 5Vref <----+----|5Vref | | | +----- 5Vref | | | | | | .-. '----------' | | .-. | | | - | | | | | ^ | | '-' | D | '-' | | | | +------------------+ +---+ | | .-. .-. | | | | | | | | '-' '-' | | === === GND GND (created by AACircuit v1.28.7 beta 02/28/13 www.tech-chat.de)Comment
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Re: Wine Fridge Power Board
The temperature sensor is a thermo-couple and a rheostat controls how cold it gets. I think the thermo-couple is a K type but am not sure. One of the IC s should control the duty cycle of the PWM supply. That way as the frig. gets colder the duty cycle decreases as it approaches the temp that was set. Also, there maybe a LED inside the frig. that stays on all the time. It is just used as a light.Comment
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Re: Wine Fridge Power Board
AFAICT, the offboard temperature sensor (the one inside the fridge) is an NTC thermistor, not a thermocouple. Its resistance, together with the rheostat, forms the bottom end of a potential divider. As the fridge becomes colder, the non-inverting input of the opamp rises, causing the opamp's output to increase. This then causes the Peltier's supply voltage to fall.
The TO92 packaged device adjacent to IC3 appears to be a second temperature sensor. I believe it senses the ambient room temperature. I would very much like to see its markings, but for some reason it has been removed from the PCB.Comment
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Re: Wine Fridge Power Board
I was just going by the one I was repairing frig. about 6 months ago. They all must be a little different.The problem I had was the Peltiers could not withstand more than 2.4 amps of current at 12 volts DC. I bought them from China. Another person had the wine cooler, in a earlier post he bought American Peltiers that were driving at 6.5 Amps of current at 12 volts and they were removing the heat, but then something happen and they stop getting hot and never cool much down below 68 f. I guess he gave up. I think what happen is the Peltiers failed. I have yet to see one of these things really work. Those Peltiers are rather small to remove 1.5 cubic feet of heat. I believe the power supplies are big enough to drive them.Comment
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Re: Wine Fridge Power Board
If I were testing this PCB on the bench, I would replace the Peltier cooler with a 12V dummy load. I would also lift the two diodes that feed pin #1 of the TL494 from IC2 and IC3. This will allow the supply to reach its full design voltage. Let's call this voltage Vp.
I would then reconnect the diode from IC2 and substitute a dummy resistor for the NTC/rheostat. Typical thermistors will have a resistance of 10K or 5K at 25degC, and a much higher resistance at 0degC. I would then vary the resistance between these two settings (or -10C to +40C) while observing the Peltier output voltage. The voltage should be less than or equal to Vp, never greater. I expect that the voltage should fall as the temperature falls.
Next I would examine the effect of ambient temperature by reconnecting IC3 and heating or cooling the TO92 device (with spray freeze or a hair dryer). Do this with the NTC set at 25degC. As before, the voltage should be less than or equal to Vp, never greater.Comment
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Re: Wine Fridge Power Board
The Peltiers are a big problem with these cooler. First the Chinese ones one can connect a ATX 12 volt power supply directly to them and without putting them in the unit they will draw maximum amperage. The Manufacturer claims they are capable of drawing 6.5 amps at 12 volts DC. My measuring them for current outside of the heat sink the maximum they will draw if 2.6 amps. If you let them continue to draw that current they will burn out. I have tested them. Actually if you look at there graph you will see they are only capable of drawing about 4.5 amps at 12 volts. As the surface become the same temperature on each side the draw of current becomes less until they equal practically 0 Amps. The Black & Decker unit I tried to repair was not even listed on the B&D site and I read that they did not even support repairing their thermo-electric frig. I though perhaps the US supplier would have better quality Peltiers and I guess they do as one person bought these and was able to obtain 6.5 Amps of current out of them and they actually had a high heat output until something happen and they no longer drew out heat. Of course 6.5 amps was a lot and perhaps they could not hold up to that. The other problem is cost of them. The Chinese sell them for about $3 a piece, but they do not work. The US sells them for minimum $21 each which prohibits buying them as $42 dollar investment in a cooler one can by used for $60. The problem is not so much testing the power supply and temperature control as it is can these two Peltier actually cool 1.5 cubic foot of air from 70 F down to 37 F. and if the ambient is greater than 70F are the Peltiers incapable of overcoming that temp. These numbers are in the specifications of the frig. I was working on and 70F to 37F were maximum ratings. They also say that it will take at least 10 hours to do this. They also say if you open the door frequently, more than one time a hour, the inside will heat up again and will take time to re-cool again. This is the problem. Perhaps if one were only cooling off enough area just for a sandwich and coke that might work. One would have to figure out how many BTUs each Peltier is really capable of cooling.Comment
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Re: Wine Fridge Power Board
according my resistors and the pictures, i get this:
R34 10ohms 5%
R35 2ohms 5%
R36 2.7kohms 5%
R35 = R38
R34 = R37
R36 = R39Last edited by dunkel; 09-19-2015, 08:41 AM.Comment
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Re: Wine Fridge Power Board
Updated schematic as of dunkel observation of his board. Value resistor changed R 34, R35 and R36Attached FilesComment
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Re: Wine Fridge Power Board
I can't identify the transistor. I found two candidates with similar specs, but they have different pinouts. I don't know if the difference is real, or whether there is an error in the datasheet. IME the BCE pinout is the commonest one.
BTW, the circuit diagram is drawn with FETS, but the markings suggest that T6 and T7 are NPN transistors. Can you confirm this by testing the B-E and B-C junctions with your meter's diode test? This will also verify the pinout.
What is also strange is that there are diodes between C-E (or D-S) in the circuit, but each of my candidates has an integrated C-E diode.
STT13005D, STMicroelectronics, fast switching NPN transistor, 2A, 700V, Veb = 9V, hfe(min) = 8, SOT-32, integrated CE diode:
APT13005D, Diodes Inc, 700V, 4A, Veb = 9V, hfe = 8, integrated CE diode:
As for D12 and D10, I would think that they would need to be fast switching diodes. ISTM that a current rating of 1A would be more than enough.Code:STT13005D APT13005D |-----| |-----| | O | | O | |_____| |_____| | | | | | | | | | | | | E C B B C E
max base current = IC(max) / hfe(min) = 4A / 8 = 0.5A
Can you tell us the markings on the TO92 device next to IC3?
Can you also tell us the resistance between R34 and the source/emitter pin of T7? I believe there may be an error in the circuit diagram in this area.Last edited by fzabkar; 09-19-2015, 03:21 PM.Comment
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Re: Wine Fridge Power Board
Hello, I cant find any TO92.
and I think the resistance in the emitter of T7 is my R36
R35 goes to the Base )having in mind this transistor is like the BUL39Q i think i found as replacement but I also wanted to know if i can change it to MJE13007 because on the same thread i found i can use both but now im not sure.Comment
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Re: Wine Fridge Power Board
This is my IC3Attached FilesComment
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Re: Wine Fridge Power Board
If there is no TO92, then I can't see the purpose of IC3. AISI, IC3 has a single output but no inputs, yet it controls the TL494 in some way ???
I understand where R35 and R36 go. I want to know where R34 goes. In the diagram it connects to B- via the transformer winding. I believe that the other end of the transformer winding should connect to the emitter of T7, not B-.
As for your question regarding the transistor, please tell us the pinout of the original transistors. Is it BCE or ECB, and have you confirmed that it tests like an NPN transistor, not a MOSFET?Last edited by fzabkar; 09-19-2015, 04:26 PM.Comment
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Re: Wine Fridge Power Board
The MJE13005G appears to be similar in specs to the others:
https://cdn.badcaps-static.com/pdfs/...8910f762a5.pdf
Its pinout is BCE (left to right). The MJE13007 is a higher current, higher wattage version of the MJE13005G, so ISTM that it should be a good choice, provided that the pinout is correct. Just make sure to use heatsink insulation if necessary. I also notice that neither transistor has a CE diode, so that explains the one on the PCB.Comment
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Re: Wine Fridge Power Board
Yes, I remember replacing this on the board I had, it can be done with the MJE13007. Of course I modified the board to try and get more power out of it because I thought the power supply was not driving hard enough because the inline current measurement only got to 2.4 Amps at 12V per Peltier. Bud M kept telling me to use a 12volt car battery to see if the Peltiers would drive harder. He was right. Although, I used an 12V ATX directly to the Peltiers and they would not drive more than 2.4 Amps. I left this set up over night and the temperature only got to 68 F.Last edited by keeney123; 09-19-2015, 05:22 PM.Comment
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Re: Wine Fridge Power Board
You can calculate the maximum design output of the PSU by measuring the resistances in each of the potential dividers attached to pins 1 and 2 of the TL494. If the figure turns out to be 12V, then that would point to unsuitable Peltiers. Alternatively, if you want to crank up the voltage, you could increase the value of either of the two resistors in the upper part of the potential divider attached to pin 2 of the TL494.Last edited by fzabkar; 09-20-2015, 01:30 AM.Comment
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Re: Wine Fridge Power Board
Here is a PSU circuit that uses two MJE13007 transistors in a similar configuration:
http://320volt.com/wp-content/upload...e13007-v13.png
The diodes in the base circuit are general purpose signal types (1N4148). The polarities of the diodes and electrolytics match the circuit drawn by keeney123. However, the positions of the windings confirm that there is an error in our circuit diagram. Note that there is also a missing B- reference at the emitter of Q2 in the ATX circuit. :-)Last edited by fzabkar; 09-20-2015, 03:05 AM.Comment
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