wireweinie
FOUNDER
Palmer, AK
Just ran into, what I consider, an improper master switch set up a few days ago. This was on a Supercub with a B&C charging system installed. One of the complaints was that on shutting off the master switch, with the engine running, the electric gauges were staying on. Upon inspection, I found the master switch was a single pole type that only activated the battery solenoid. I also found the 'field wire' running directly from the field breaker to terminal #6 on the voltage regulator. What was happening was, when the battery solenoid was opened (master off) the alternator was still supplying power to the bus. This power was going back to the regulator, through the field breaker, keeping the alternator on line.
The fix is simple although the installation can be a b*&^%. Install a double pole master switch. Look at the attached diagram for this regulator. The correct way to install a master switch is shown on the wire that goes from the 5 amp field breaker to the #6 terminal on the reg. Route the wire from the breaker to one half of the double pole switch and from that same half of the switch out to the #6 terminal. That way, when the engine is running, EITHER turning off the master switch OR pulling the field breaker will physically open the path for power to the regulator. Remember that a double pole switch is actually two switches in one housing. Turning the switch 'off' will open the field circuit, on one half, and open the master solenoid control circuit on the other side.
On a side note, If you have a voltage sensing terminal on your system, like terminal #3 on the B&C diagram, make sure that terminal is connected to the bus bar. We found that terminal jumpered to terminal #6 on this aircraft. This works 'okay' while every thing is new and shiny. But as the field breaker ages and the terminals start to tarnish, there will be a voltage drop between the bus bar and terminal #6. That means the reg will sense low voltage and start to increase the voltage coming out of the alternator. High voltage (15.1 volts) was another complaint on this aircraft. The customer installed a fused wire directly from the bus bar to terminal #3, as per the diagram, and the problem was fixed.
My observation is that some people overthink wiring. If you don't have experience with DC wiring and controls, PLEASE!, ask questions. You may have discovered a new, neat way of wiring. But on the other hand you may simply not know why something is done a certain way. So ask away. No tech worth his salt will give you grief for trying to learn.
Web
The fix is simple although the installation can be a b*&^%. Install a double pole master switch. Look at the attached diagram for this regulator. The correct way to install a master switch is shown on the wire that goes from the 5 amp field breaker to the #6 terminal on the reg. Route the wire from the breaker to one half of the double pole switch and from that same half of the switch out to the #6 terminal. That way, when the engine is running, EITHER turning off the master switch OR pulling the field breaker will physically open the path for power to the regulator. Remember that a double pole switch is actually two switches in one housing. Turning the switch 'off' will open the field circuit, on one half, and open the master solenoid control circuit on the other side.
On a side note, If you have a voltage sensing terminal on your system, like terminal #3 on the B&C diagram, make sure that terminal is connected to the bus bar. We found that terminal jumpered to terminal #6 on this aircraft. This works 'okay' while every thing is new and shiny. But as the field breaker ages and the terminals start to tarnish, there will be a voltage drop between the bus bar and terminal #6. That means the reg will sense low voltage and start to increase the voltage coming out of the alternator. High voltage (15.1 volts) was another complaint on this aircraft. The customer installed a fused wire directly from the bus bar to terminal #3, as per the diagram, and the problem was fixed.
My observation is that some people overthink wiring. If you don't have experience with DC wiring and controls, PLEASE!, ask questions. You may have discovered a new, neat way of wiring. But on the other hand you may simply not know why something is done a certain way. So ask away. No tech worth his salt will give you grief for trying to learn.
Web