sonex1374 wrote:Darrick,
Two things come to mind about your AeroVee voltage regulator failure situation.
First, the fuse should have a margin over the current it typically sees. Fuses can "wear out" so to speak, sort of like bending a piece of metal back and forth until it cracks from fatigue. Loading the fuse to it's nominal rating thru many cycles can hammer away at it until it finally fails. Just like with many other things, it's good to have a cushion built in. Replace the fuse with a 25 or 30 amp and that will provide the cushion, while still protecting the wire from burning up in a dead-short situation.
Secondly, You need some sort of low voltage monitoring on your panel. I'd recommend using either a dedicated low-voltage light that activates or an alarm programed into your EFIS. If you use an alternator disconnect relay like in the AeroElectric Connection recommended diagrams (or also contained in the new B&C regulator) then you can really easily have an alternator-disconnect light to tell you the alternator is offline and warn you in advance that you'll be drawing down your battery from here on out.
Now for a few words about voltage regulators and EarthX batteries...
Voltage regulators can fail in two ways: fail to provide output at the correct voltage (e.g. to regulate); and fail to rectify the AC input into a DC output (e.g. to rectify the alternator signal). In practice, two failure modes are by far the most common: 1) output at excessive voltage, 2) no output at all. The crowbar over-voltage protection takes care of the excessive voltage failure mode by immediately disconnecting the runaway alternator from the instruments before any damage can occur. The alternator-offline light or the low-voltage light/EFIS warning will notify the pilot that the alternator is not outputting anything.
These two warning/notification approaches used together pretty much have you covered. If you skip one or the other, the pilot must monitor the state of the electrical system much more closely to detect either of those problems. In the case of the over-voltage situation, you might have anywhere from a couple seconds to perhaps a minute before excessive voltage does any damage, and if you're not looking at the volt meter you just might miss the window of opportunity to intervene and avoid damage.
If the alternator goes offline you'll have more time to notice as the battery slowly depletes itself and the voltage falls, but in the case of a lithium EarthX battery the voltage stays relatively the same until the battery is at like 10% of it's energy remaining (making it hard to see just how low on juice the battery really is). You'll have to make the connection the battery is going flat in a pretty narrow time frame before the battery's internal protection kicks in and shuts it off.
You can see in the graphic above that the voltage on an EarthX drops from about 13 volts to 12 volts at the 90% expended state, while a lead acid battery goes from about 12.8 volts to about 11 volts at the same 90% state. Not only is there less overall decrease in voltage on an EarthX, but you can't use the same numbers as a low-voltage warning point to signify the battery is getting low (EarthX needs to warn about 12.3 while a lead-acid should warn about 11.6). Just a few other considerations to understand when using different batteries.
Again, having some automation do this monitoring and warning for you allows more time flying for flying and less time monitoring.
Jeff
Area 51% wrote:...[snip] I just installed an EarthX 680C. In the brochure it promised both low AND high voltage protection with a fault light that would indicate either failure.
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