I thought one of the benefits of the VP-X is that you can see all the current draws? I can pull the VP-X screen up in the air or on the ground and see what each device is drawing and then decide to shed as needed.
DBRV10 spoke to this issue, but I'll discuss all three possible shunt locations, and why (IMO) "A" is the best choice.
"C" tells you what the aircraft load is - that's essentially what the VP-X does, if you have one, and the VP-X also gives you individual current draws. If you don't have a VP-X, you don't get the individual draws, but by turning things off and watching the total draw, you can determine what individual draws are. 99.9% of the time, you don't care what the individual draw is - even in an emergency, if you've done this test once, you know what the big draws are and which to turn off (lights, mostly). This position ("C") is essentially useless in normal use if you designed your electrical system correctly so that you're never pulling more than 80% of your alternator output on a constant basis. "C" would only be useful if you didn't "design" your electrical system, and just threw a bunch of electrical components at the airplane without considering the ability of the alternator to drive them. In which case, I'd argue that the right answer is to redesign your system, not put the shunt in a less than optimal location.
"B" tells you the alternator output - this is the total of the aircraft load added to the battery charging current. It's not particularly useful, again, if one has designed one's electrical system correctly so that in normal use with a charged battery, the constant load (not intermittent stuff, like gear retract, flaps, etc.) is below 80% of the alternator output capacity. You don't need to watch the alternator output current to know if your alternator is healthy and working correctly - the voltmeter will tell you that. If the voltage is 14.2V - 14.5V, or whatever you set your regulator to, then your alternator is working. If it's ~13V or below, or 15V or above, then it's not.
"A" is the most useful because it tells you the health of your battery. Since the voltmeter tells you the health of your alternator, and you've designed your system correctly so that it doesn't overload the alternator output, you only need an additional indicator for battery health. "A" provides that. Right after starting, there will be a high positive current INTO the battery as it recharges. After a few seconds to a few minutes, depending upon battery size and type, the current into or out of the battery will be about zero, when the battery is again fully charged. If the current INTO the battery stays high, so that it's always charging, you've got a sick battery. If the current OUT of the battery is anything more than an amp or three, you've probably also got a low voltage indication and your alternator or regulator are on the fritz. If you see -1 to 1 Amp on a regular basis, you have a healthy battery.
I'm with DBRV10 - "A" is the most useful position for a current measuring shunt, and what I recommend to all my customers when I'm installing a system in their plane.
