3º EasyCooler Cellar Repair 8 Model bottles 4092640045 FX-101 PCB120515K1 plate SH14387 12.05.06

In July 2014 eu I spoke here on Skooter Blog about Adega EasyCooler de 8 bottles I purchased to store chocolates. In mid- 2018 it stopped working, but I ended up fixing it by replacing all the electrolytic capacitors, as I have already reported here on the blog.

In February 2020 the same problem reoccurred. This time I changed 15 of 17 capacitors. I just didn't change the two biggest ones., from the source, that are harder to find locally. It started working again.

Now, in January 2022, once again the problem reoccurred: cellar beeping, display fraco, high temperature, unable to reach the set temperature, even with the ambient temperature being not too far from it.

Apparently the problem recurs every one and a half to two years, which indicates that there is some other faulty component or a design flaw that stresses the capacitors too much. But it's the kind of thing that goes a little beyond my knowledge.

I had already bought a couple of each capacitors I needed (of 15 more common) when I did the second repair, so i already had them all to exchange again. But this time I used a different strategy to try to better understand the problem.

For each capacitor removed I did the test with the BSIDE ESR02 Pro, which I've also talked about here on Skooter Blog, and wrote down the results. For each capacitor added I put the plate in the cellar again and tested. did a good job, but at least it gave me a bigger picture of the problem.

Here are the results I got for each capacitor in the tests with the BSIDE ESR02 Pro:

Capacitor Here are the results I got for each capacitor in the tests with the Here are the results I got for each capacitor in the tests with the Here are the results I got for each capacitor in the tests with the Here are the results I got for each capacitor in the tests with the ESR
Ca2 22 μF 35 In 26,01 μF 1,5 % 0,52 AZ
C201 47 μF 25 In 47,34 μF 3,0 % 0,76 AZ
The 4,7 μF 50 In 5316 nF 4,7 % 17 AZ
CB 1 μF 63 In 1003 nF 1,9 % 7,4 AZ
C202 1 μF 63 In 996,5 nF 1,2 % 6,4 AZ
C206 47 μF 25 In 47,17 μF 9,3 % 15 AZ
Here are the results I got for each capacitor in the tests with the 47 μF 25 In 18,07 μF 29 % 0,14 Here are the results I got for each capacitor in the tests with the
C4 1 μF 63 In 960,7 nF 2,3 % 8,6 AZ
C5 22 μF 35 In 24,98 μF 2,2 % 0,56 AZ
C8 47 μF 25 In 41,26 μF 17 % 0,14 AZ
C10 2200 μF 16 In 2146 μF 3,2 % 0,00 AZ
C7 1 μF 63 In 962,2 nF 2,0 % 8,0 AZ
C14 4,7 μF 50 In 5241 nF 4,9 % 21 AZ
C13 4,7 μF 50 In 4554 nF 1,5 % 4,3 AZ
C9 4,7 μF 50 In 4736 nF 1,2 % 5,5 AZ

Here are the results I got for each capacitor in the tests with the, Here are the results I got for each capacitor in the tests with the. Here are the results I got for each capacitor in the tests with the:

  • 2 from 120 µF 250 In
  • 1 from 2200 µF 16 In
  • 4 from 47 µF 25 In
  • 4 from 1 µF 50 In
  • 4 from 4,7 µF 50 In
  • 2 from 22 µF 25 In

Here are the results I got for each capacitor in the tests with the 22 µF and 1 μF.

Here are the results I got for each capacitor in the tests with the, Here are the results I got for each capacitor in the tests with the. Here are the results I got for each capacitor in the tests with the: 1) Here are the results I got for each capacitor in the tests with the, Here are the results I got for each capacitor in the tests with the; 2) changing the C8 got everything back to perfect working order.

Moreover, changing the C8 got everything back to perfect working order: changing the C8 got everything back to perfect working order, changing the C8 got everything back to perfect working order (in seconds), changing the C8 got everything back to perfect working order. changing the C8 got everything back to perfect working order. changing the C8 got everything back to perfect working order, changing the C8 got everything back to perfect working order.

changing the C8 got everything back to perfect working order. changing the C8 got everything back to perfect working order, changing the C8 got everything back to perfect working order (18° C), changing the C8 got everything back to perfect working order. Coincidence or not, Coincidence or not.

Coincidence or not, Coincidence or not, Coincidence or not, Coincidence or not. Coincidence or not, Coincidence or not: 47 Coincidence or not. Coincidence or not Coincidence or not. Coincidence or not 47 Coincidence or not, Coincidence or not.

Coincidence or not, Coincidence or not. Give way, I went ahead and bought Japanese capacitors to put in the cellar. I went ahead and bought Japanese capacitors to put in the cellar I went ahead and bought Japanese capacitors to put in the cellar I went ahead and bought Japanese capacitors to put in the cellar 17 I went ahead and bought Japanese capacitors to put in the cellar, I went ahead and bought Japanese capacitors to put in the cellar(I went ahead and bought Japanese capacitors to put in the cellar), I went ahead and bought Japanese capacitors to put in the cellar. I went ahead and bought Japanese capacitors to put in the cellar.

I went ahead and bought Japanese capacitors to put in the cellar. Later, I went ahead and bought Japanese capacitors to put in the cellar, I went ahead and bought Japanese capacitors to put in the cellar, I went ahead and bought Japanese capacitors to put in the cellar 47 Coincidence or not, I acquired in 47 μF e 50V.

I went ahead and bought Japanese capacitors to put in the cellar: US$ 25,18 I went ahead and bought Japanese capacitors to put in the cellar “I went ahead and bought Japanese capacitors to put in the cellar”, I went ahead and bought Japanese capacitors to put in the cellar, I went ahead and bought Japanese capacitors to put in the cellar 11,19. I went ahead and bought Japanese capacitors to put in the cellar 10, pois é o mínimo que vendem no caso dos mais baratos. Só os mais caros eu acabei adquirindo em menor quantidade.

Agora é aguardar os capacitores japoneses chegarem e observar quanto tempo a adega vai funcionar até o próximo defeito. Confira uma foto e um vídeo com várias fotos do serviço:

EasyCooler Winery Board 8 Model bottles 4092640045 FX-101 PCB120515K1 plate SH14387 12.05.06

EasyCooler Winery Board 8 Model bottles 4092640045 FX-101 PCB120515K1 plate SH14387 12.05.06

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Felipe

Hello, como é uma fonte chaveada o ideal é buscar capacitores para temperatura de 105°C e com low ESR, estes capacitores normalmente conseguem processar uma corrente eficaz maior.

V K

Hello, my fridge also recently broke and I identified the C16 capacitor (the large red one) to be faulty (it partially melted). By any chance, do you have the nominal capacity of the C16 ? As mine melted, I cannot read the inscription anymore. Thanks !

Last edited on 3 dias atrás por V K
V K

AlrightThanks for checking

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