Oct-16-2021 08:26 AM
Oct-17-2021 03:32 PM
BFL13 wrote:
DC-DC in thread about that last Spring it came out that if you used thin wire the draw on the alternator would be 30 amps for a 20 amp output, but if you used fat wire, that draw was much less, but still above 20 of course.
Oct-17-2021 03:06 PM
Oct-17-2021 02:54 PM
BFL13 wrote:
Just pondering all this (to no great effect)
The current to the furnace fan rises with more supply voltage but the current to the input of the DC-DC falls with more supply voltage.
The reason is the furnace fan is not a fixed demand like the DC-DC or inverter's output-- it will take more if you give it more.
The 8531 furnace is rated at 8.2 amps at 12v. So that is the expected "load", but it is not the "Demand". The fan runs faster with more amps if the "Supply" voltage is higher, so the demand is a variable depending on the supply.
The inverter load side is fixed by the load's needed input watts so the "demand" is not a variable. The DC supply tries to meet that demand. As the battery voltage falls the amps drawn go up to maintain the demand watts.
The DC-DC charger has an output set at eg, 20 amps at 14.6 volts, so that is the fixed demand, not a variable. The input supply tries to meet that demand.
However, the input is itself a demand on the engine battery and alternator, which has to meet the input demand for the output demand.
Using fatter wire in the DC-DC input to the battery keeps the amps demand lower with the input voltage higher, so the alternator doesn't need to supply so many amps
The engine battery voltage is somewhat fixed as maintained by the regulator. The supply variable is the alternator amps to meet the demand.
The Dc-Dc charger "size" (output setting demand) has to be chosen, limited to match the alternator "size", where using fatter wire will let you have somewhat more Dc-Dc size for the same alternator.
Oct-17-2021 02:16 PM
MNRon wrote:
Unless I’m missing something, most of responses are missing the point of the issue (as the OP might have with how he’s thinking about this).
I believe the 0.2V drop is not IR from the 8A flowing through wiring to the furnace, but instead is internal voltage drop in the batteries (assuming normal battery connection wires). OP is not measuring 0.2V drop across the wire to the furnace, but sees that drop in battery voltage. Doesn’t sound like a big battery bank, or strong (low internal resistance) batteries like Lithium or Lifeline AGMs. There is a reason that SOC is measured with resting batteries and not under load, any battery will have some voltage drop when sourcing significant current.
To answer the OP question - no, a larger wire to the furnace will not help the situation. Any small IR change by beefing up this wire would have 2nd or 3rd order trivial change in motor draw, fan speed, etc. Better batteries and/or more capacity is the issue you’re dancing around.
Oct-17-2021 01:44 PM
Oct-17-2021 01:17 PM
Oct-17-2021 12:52 PM
MT BOB wrote:
OK,do you have an issue with your furnace? A little background-- yes the motor will slow down when voltage drops, all is normal.You are protected by the sail switch. Manufacturers build them to be in a RV, so they anticipate lower voltages.
They are rated to operate fine and safely down to 10.5 volts. That is why they have 10 volt motors in them.I have seen older Hydroflames run until voltage dropped below 10.0. If you suspect an issue, you must measure the voltage AT the furnace, not on the RV's panel,which reads the battery itself.
Oct-17-2021 12:41 PM
Oct-17-2021 11:49 AM
BFL13 wrote:
Lights dim with lower voltage and also draw fewer amps when dimmed, so that fits.
Slower fan speed in the furnace with lower voltage would get to the point the sail switch would open, so that is the safety there.
My 8531 older furnace says the 12v to it should not be above 13.5v. That is in the manual's section about the flame sensor's microamps, but I can't find a minimum voltage specified for when the blower fan gets too slow.
The furnace does work ok when battery charging is happening and the battery voltage is above 13.5v. I have not measured for voltage at the furnace then. Doug R and the other techs here would know about all that.
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Part 2--
Not sure it is the same thing for how amps work--I am now looking at the DC-DC charger
With the input of that thing, you must use fatter wire to the battery to keep the amps down and the voltage up.
Could relate to the point made above re wasted amps making heat with voltage drop? Fatter wire means the alternator does not have to do extra amps to make that heat?
Oct-17-2021 09:34 AM
time2roll wrote:
Yes the LFP does seem to move a bit more air at 13.4 volts. Amp draw is significantly lower with steady 13+ volts vs. 11.x with the old battery running the kitchen.
Oct-17-2021 09:10 AM
Oct-17-2021 08:56 AM
Gdetrailer wrote:
Will draw slightly MORE current due to less voltage drop, results in motor spinning a bit faster.
RV furnace motor is a DC motor, DC for practical intents can be considered like a resistor since you are not dealing with impedance/inductance like you do with AC devices.
If you want the furnace motor to draw less current, you would need to REDUCE the voltage going to the motor. However, that results in less RPMs for the fan which results in less air flow which results in possibility of overheating the furnace and/or creating a fire hazard..
Oct-17-2021 08:54 AM
Oct-16-2021 03:23 PM