Is your current refrigerator working? It sounds like you are going to replace it.
It's my understanding that all the small refrigerators run on something like 18 VAC so they all have transformers to drop the voltage down from 120 VAC to 18 VAC or inverters to convert 12 VDC to 18 VAC. I'll check this out more this weekend. A relay circuit detects shore power and switches.
I have a 12 VDC unit and would like to have it run on 120 VAC while on the dock and automatically switch to 12 VDC when shore power disconnected. My Norcold on a previous boat worked that way.
UPDATE: So I stand corrected...compressor runs in 15 ~ 25 VAC. If you look at page 11 of 16 in this document you see that at this Norcold compressor runs on 15 ~ 25 VAC internally with multiple inverters in the system. Note SPDT relay drawn incorrectly - contact should switch between battery/inverter. Coil is correct.
First stage is 12 to 32 VDC from batteries or 85 ~132 VAC converted into 24 VDC.
Second stage is DC/DC converter taking above and converting it to 44.5 ~ 55 VDC.
Third stage is an inverter to produce 15 VAC ~ 25 VAC across compressor (see page 5 of 16).
Now I have a 12 VDC only unit. I'm not sure if it can be converted or is it worth it to do.
This all backtracks to where the manufacturers get the compressor motors from. I'll bet my 12 VDC refrigerator uses a inverter to power a 24 VAC compressor.
This typical of where all the marine electronics are going. Not so much refrigerator technology but all the other digital components require "clean" power so they "make their own" with internal inverters and switching power supplies. Garmin units can run on anything from 10 VDC to 36 VDC without having to flip a switch. Common with other manufacturers. Problems with some radios being 12 VDC only.
This might explain why a 12 VDC / 120 VAC refrigerator is so expensive!
If your are really to determined to have a 12 VDC / 120 VAC automatic switch system you need a 120 VAC DPDT relay and a 120 VAC 12 VDC 10 amp or better power supply. When on shore power the relay is "picked up" and powers the 12 VDC power supply. When no shore power the battery powers the refrigerator.
These refrigerators draw draw 10 to 15 amps at 12 VDC!
norcold.com
I don't have a generator on my boat. I never shut the engines down. The F-150's are my generator to keep the batteries up. If you are counting on your house battery alone to keep your refrigerator working for a long day its not going to happen!
For now I'll stick with my 12 VDC refrigerator. The only problem with that is when I'm on shore power my ProMariner charger is supplying 10 amps intermittently to run the refrigerator plus bait well pumps. I have had fuse issues with this charger that were.discussed in another thread. Quick look at Amazon and I can get a 120 VAC to 12 VDC 15 amp switching power for $20.
And a 120 VAC DPDT relay for $10.
So for $30 you can add dual power to your 12 VDC refrigerator. I may do this project but not this year.
If you have a 120 VAC refrigerator and decide to go dual power you can use the same relay and a 300 watt power inverter. That will power a 120 VAC 2.5 amp load and will draw 25 amps! Maybe you could get away with a 200 watt power inverter. That will power a 120 VAC 1.7 amp load and will draw 16.7 amps! That's a lot of amps in either case. You would be better off running your generator.
