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77' - 318 - No aftermarket electrical BS, only very basic factory options.
There must be something I'm overlooking...
Problem: Electrical functions as expected at driving speeds. At idle (750rpm) the amp gauge reads as normal with everything off, but moves into the discharge side of the amp gauge with any draw whatsoever. Even the turn signals move the gauge over to the discharge side in time with a flash. The more items you turn on, the more noticable (slow operation, dim lights) the draw becomes and the further the needle moves into the discharge side of the gauge. No particular item (heater fan, lights, wipers) seems to be the obvious culprit. With everything on, the turns signals flash so slowly, I'd consider it a safety hazard. Give it just a little gas and everything speeds up, maybe even too fast. I'm guessing that's the increase in voltage as the battery recharges.
At the battery you get 14.75v at idle; 12.25 with everything on. You get the usual rise in voltage (16v but not up to 17v) and a gradual decrease after starting the engine. As I understand it, that is normal operation.
What I have done:
- Checked for shorts. I get a .01-.02v draw between the positive battery post and the positive cable when disconnected. I'm guessing that's not enough to cause my problem, maybe even normal. Feel free to correct me on that one.
- I replaced the voltage regulator and alternator - no effect.
- I checked for charging feedback between the negative battery post and the block,frame, radiator. None noted.
- I inspected all the wiring under the dash. Checked all connectors under the dash and at the firewall. Amazingly good condition; absolutely no sign of corrosion, heat damage, or dirt. Just the same, I cleaned them all with contact cleaner and coated everything with dielectric grease and reassembled them. No effect.
***Yes, I'm aware of the bias against amp gauges, and the recommended bypass procedure. I have a hard time believing it came from the factory as crap. It's been in there for 33 years. With regular inspection and maintenance, I don't see it as a ticking time bomb. I attribute the common complaints of fires, heat damage, burnt wiring/gauges and corrosion to poor user maintenance and the addition of unneeded overload of electrical accessories - not unreasonable design standards. I'd like to treat the ingrown toenail, not cut off the toe.
I'm leaning toward removing the alternator and voltmeter and taking them back to NAPA for testing.
Can you think of anything I'm missing?
Thanks for your help.
There must be something I'm overlooking...
Problem: Electrical functions as expected at driving speeds. At idle (750rpm) the amp gauge reads as normal with everything off, but moves into the discharge side of the amp gauge with any draw whatsoever. Even the turn signals move the gauge over to the discharge side in time with a flash. The more items you turn on, the more noticable (slow operation, dim lights) the draw becomes and the further the needle moves into the discharge side of the gauge. No particular item (heater fan, lights, wipers) seems to be the obvious culprit. With everything on, the turns signals flash so slowly, I'd consider it a safety hazard. Give it just a little gas and everything speeds up, maybe even too fast. I'm guessing that's the increase in voltage as the battery recharges.
At the battery you get 14.75v at idle; 12.25 with everything on. You get the usual rise in voltage (16v but not up to 17v) and a gradual decrease after starting the engine. As I understand it, that is normal operation.
What I have done:
- Checked for shorts. I get a .01-.02v draw between the positive battery post and the positive cable when disconnected. I'm guessing that's not enough to cause my problem, maybe even normal. Feel free to correct me on that one.
- I replaced the voltage regulator and alternator - no effect.
- I checked for charging feedback between the negative battery post and the block,frame, radiator. None noted.
- I inspected all the wiring under the dash. Checked all connectors under the dash and at the firewall. Amazingly good condition; absolutely no sign of corrosion, heat damage, or dirt. Just the same, I cleaned them all with contact cleaner and coated everything with dielectric grease and reassembled them. No effect.
***Yes, I'm aware of the bias against amp gauges, and the recommended bypass procedure. I have a hard time believing it came from the factory as crap. It's been in there for 33 years. With regular inspection and maintenance, I don't see it as a ticking time bomb. I attribute the common complaints of fires, heat damage, burnt wiring/gauges and corrosion to poor user maintenance and the addition of unneeded overload of electrical accessories - not unreasonable design standards. I'd like to treat the ingrown toenail, not cut off the toe.
I'm leaning toward removing the alternator and voltmeter and taking them back to NAPA for testing.
Can you think of anything I'm missing?
Thanks for your help.
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