...I have a question.
Can the stock wiring harness / electrical system handle / cope with / place nice with a higher-output stator?
Would the factory-installed smoke get out of the electrical system?...
That's a good question!
The only reason to install a high output stator is because farkles have been installed that would over-match the OEM stator output. The electrical farkles should be installed using an ignition switched relay off the battery or be connected directly to the battery. If the farkles are installed this way, the only at risk items are the voltage regulator (R/R), plus the wiring & connectors between the R/R and the battery.
The OEM R/R will handle the extra wattage so it isn't a risk item. Ideally I would like to see the wires between the R/R and battery increased one gauge, and the connectors for these wires upgraded too. The wire/harness upgrade would only be helpful if your added farkles draw all the extra 100 watts nearly 100% of the time.
FWIW, it wouldn't matter to a
stock FJR's electrical system if the stator could put out a million watts, excepting the R/R which would care. The amount of current leaving the R/R is determined solely by the loads, if there is no load, no current will flow, no matter what the available current supply is. The only time the wires between the R/R and the battery would carry more current than it was designed for is when added farkles result in total system draw of more than 490 watts.
One term that electrical engineers use is Ampacity. Ampacity is current rating or current-carrying capacity of a wire or device which it can continuously carry while remaining at or below its maximum temperature rating. The ampacity of wiring includes the following modifiers:
* ambient temperature
* the temperature rating of the wire's insulation
* ability to dissipate heat, dissipation can be compromised if the wires are run near the engine or radiator
* the way the wire is made, qty of strands, size of strands, twisting of the strands, etc
* the length of the wire run
* contact with water or oil
Common wire insulating material will be within its ampacity rating in a range up to 60° - 90°C with an ambient temperature of 30°C. The only time the wiring would have to be upgraded is when a voltage drop along the wire is so great that it no longer supplies sufficient voltage and when this voltage drop causes the temperature to rise above the ampacity rating. Example of exceeded ampacity: Gen II ignition switch
Dunno if this helps
Edited to tack on: I will be stopping at Rick's some time at the end of next week, June 24-26.
