Wire sizing chart, Example, Caution: abyc interrupt – Blue Sea Systems 8693 Triple Battery Bank Management Panel User Manual
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Wire Sizing Chart
1. Calculate the maximum sustained amperage of the circuit. Measure the
length of the circuit from the power source to the load and back.
2. Calculate Famps (Feet x amps). Multiply circuit length by max. current.
3. Base the wire on either the 3% or 10% voltage drop. In general, items
which affect the safe operation of the boat and its passengers (running
lights, bilge blowers, electronics) use 3%; all other loads use 10%.
4. Are the circuit runs in an engine space or non engine space?
5. Starting in the Famps column with the right voltage and voltage drop,
run down the list until arriving at a value which is greater than the
calculated
Famps. Move left to the Ampacity column to verify that the
total amperage of the circuit does not exceed the maximum allowable
amperage of the wire size for that row. If it does, move down until the
wire ampacity exceeds the circuit amperage. Finally, move left to the
wire size column to select the wire size.
Example
A 12 volt system at 10% drop with a 40’ circuit x 45 amps = 1800 Famps.
A wire size of 8 is required.
Note: For wire with 105°C insulation rating and AWG wire sizes.
Chart courtesy of the West Advisor
Caution: ABYC Interrupt
In certain circumstances, main DC circuit breakers may have to break
very high amperages. The ability of a circuit breaker to safely break high
amperage is its Ampere Interrupt Capacity (AIC) rating. The required AIC is
a function of a battery’s Cold Cranking Amperes (CCA) capacity. According
to ABYC E-11 standards, circuit breakers shall have a DC voltage rating
of not less than the nominal system voltage, be capable of an interrupting
capacity according to the values in the table below, and remain operable
after the fault. For example, a boat with a group 24 or 27 battery may have
as much as 650 CCA. The DC main circuit breaker for this circuit must have
an AIC rating of 1500 Amperes.
Blue Sea Systems Battery Management Panels contain thermal (push
button reset) circuit breakers rated at 15A. These circuit breakers are
suitable for 24-hour circuits connected directly to 12V or 24V battery banks
with CCA capacities up to and including 650 CCA.
Installation of this panel in systems with battery banks of 660A or higher
should include an additional fuse or circuit breaker of appropriate interrupt
capacity in the line between the battery bank and the pushbutton circuit
breakers to comply with ABYC E-11 and NFPA 302.
DC voltage rating
CCA of all
connected
batteries
Ampere Interrupt Capacity (AIC)
Main Circuit
Breaker (Amperes)
Branch Circuit
Breaker(Amperes)
12 Volt and 24 Volt
650 or less
1500
750
651-1100
3000
750
over 1100
5000
2500
32 Volts
1250 or less
3000
1500
over 1250
5000
2500
Wiring Diagram
Triple Battery Main Distribution Panel
PN 8689
GND SI LED
2
1
2
2
1
1
HOUSE
ENGINE 2
ENGINE 1
100A
TO 24 HOUR CIRCUITS
TO DC HOUSE DISTRIBUTION
PANEL OR HIGH AMP DC LOAD
LED
LED
LED
LED
LED
LED
LED
DC NEGATIVE
DISTRIBUTION BUS
ENGINE 2
ENGINE 1
7610 ACR
7610 ACR
GND SI LED
1
2
DC NEGATIVE
DISTRIBUTION BUS
ENGINE 1
2
1
1
100A
2
1
2
ENGINE 2
HOUSE
TO 24 HOUR CIRCUITS
TO DC HOUSE DISTRIBUTION
PANEL OR HIGH AMP DC LOAD
ENGINE 1
ENGINE 2
LED
LED
LED
LED
LED
LED
LED
LED
LED
LED
LED
GND SI LED
7610 ACR
7610 ACR
GND SI LED
2
1
Wiring Diagram
Triple Battery Main Distribution Panel
PN 8693