Hi
@Boots in Action,
all correct except:
Pin 8 is not used in the standard Jayco wiring. Refer to the pdf relating to 12-pin wiring that I posted earlier. This is exactly how my van came wired from the factory (and still is).
Pin 2 goes only to the Setec Aux in. From there, within the Setec it will charge the battery if fitted and supply 12V to power the van if a battery is not fitted (or if the battery isolation switch is inadvertently left off).
The original thinking at Jayco, when it was not common for a battery to be fitted to the van, was to enable the car to supply 12V to the van when off grid (stopping overnight on the way to a caravan park). So, pin 2 needed to be hot even when the engine was not running. Naturally, this was really only intended to power a light or two and light the stove. But that was way before 12V television, charging multiple phones and tablets, fans, fridge fans, etc became common.
Still a trick for new players with a van battery is to pull up for a quick overnight, leave the tug connected, leave the battery switch off, and bask in the warm glow of having a van full of 12V, only to discover the next morning that all that lovely 12V was coming courtesy of the car battery which now has insufficient charge left in it to start the car. I suppose, to be on the safe side, if a van battery is fitted, it would be prudent to disconnect the 12V plug to ensure the car battery is not discharging into the van. I don't bother, since 1: I know what I am doing, 2: our 12V usage at night is minimal, and 3: I will eventually live to regret making statement 1!!!! Although with lockdowns and the inability to even consider when we might go camping again, I would probably love to be in a position where my only worry was a flat car battery and no phone signal to ring the RACV.
Continuing:
There are only two wires on the heavy duty pins of the 12 pin plug, pin 9 for the fridge 12V, and pin 10 for the fridge ground.
take care
Mike
Thanks Mike
@mikerezny for the clear explanation of how connections from tug to trailer/van have evolved over the years owing to necessity and demand for extra features.
In the first place, a 7 pin plug was really only suitable for box trailers and the like. Having only 7 circuits, there was no line for 12 volt power to be carried from tug to van, only for indicators, stop lights, brake and width lights etc. Then someone decided to use pin 2 (hijacking the reversing light circuit). This saved running an extra separate line from tug battery to van. The only problem there that I could see was that it would have been necessary to have (while still hitched up) the engine running, the ignition switched on, or switch on Accessories. All these meant that the keys had to stay in the ignition to keep pin 2 "hot" for lights in van to operate if you did not have a van battery. Take keys out, or turn off switch, and no power to reversing light circuit!!! Otherwise, run a separate power line from tug battery to connections on van for lights etc Now 8 circuits involved!! . At that stage there was no thought or provision for a separate battery in van or to charge it from tug.
Then came the need to run electrical equipment in van whilst driving - the fridge among them. But all circuits are now utilised, so enter the time of separate circuit from tug to van fridge using high current cable and Anderson plugs. My van started with a 7 pin plug and extra wiring for fridge with Anderson plugs and heavier wiring. And then, came the requirement to put some charge into van battery from tug electrical system. Using the old pin 2 with only a light wire (AWG 12 as suggested by Jayco) over at least 7 metres with that sort of resistance and then through a power diode (with its inherent voltage drop) meant that the charging of van battery was extremely limited, no matter how long or far you travelled. Then to make matters worse, tug manufacturers decided to do away with fixed voltage regulators on alternator outputs in the name of greater vehicle efficiency, and introduce "smart" alternators with temperature or electronic controls with lower voltages. That made it even harder to charge van battery from tug!! Enter the necessity and need for DC-DC chargers. No extra circuits but more wiring to have installed.
While these changes were going on, the introduction of a 12 pin connector came into its own. It had the usually 7 pin arrangement for vans and tugs such as indicators brakes, stop lights etc) PLUS an extra 5 heavy duty connectors for fridge power and battery charging too if pin 2 was no longer used. Now we have at least 9 circuits (in its simplest form) between tug and van which meant that extra wiring was needed in tug harness, disregarding any control equipment in the lines!!! And even then, not all circuits/pins are utilized!!!
Whilst tug and van manufactures may have their own recommendations for hookups, many of us have used our own electrical skills to improve the system by modifying the wiring connections. Whilst I believe that I have good electrical knowledge on 12 volt wiring, I am finding out that it is not so hot on van wiring without a circuit diagram!!
However, I seem to have "stumbled into accuracy" with my setup as below.
Fridge is still connected between tug and van by separate dedicated lines with Anderson plugs and via VSR.
Pin 2 on tug is still operational and allows reversing lights to operate when connected to my box trailer with 7 pin plug connecting to the lower half of my 12 pin socket on tug. On van, I have no connection to pin 2 and hence no power from tug to van battery in that circuit to Setec , nor through the power diode to prevent battery leakage to tug battery and protect wiring. And power to battery from tug is now direct to battery +ve pin 8, just like connecting a 12 volt solar panel across battery terminals. This should provide a higher voltage and more direct current to charge battery. The negative return is via pin 10 direct from battery.
Now two things are important here. Van battery charging is controlled by tug alternator (fixed voltage type) and as no power diode in this circuit, feed back leakage from van battery to tug battery is eliminated by the voltage sensing regulator which breaks this circuit when tug battery voltage drops to 12.6 volts or lower. This would definitely occur when tug starter circuit operated. The VSR re-connects the line to charge van battery when tug voltage reaches 13.2 volts or higher. All my heavy current wiring coming from battery goes through a 80A fuze (auto reset), then through the VSR before going to their separate fused circuits and different pins. All wiring is AWG 8, to minimise voltage losses and maximise current carrying capacity.
So summing up, I still have my reversing lights working, believe I have improved van battery charging, but fear that I will never be able to run without battery in van, or run fridge from 12 volt battery in van, something I am not contemplating at all. No problems since making these mods a couple of years ago.
Over to you Mike for your critique.
Cheers
