How do you size wire for an EV charger?

EV charging loads are generally treated as continuous loads, so the branch-circuit conductor and overcurrent device are commonly sized at 125% of the EVSE output current before checking derating and voltage drop.

What breaker size is needed for a 48 amp EV charger?

A 48 amp EVSE typically has a 60 amp continuous-load basis because 48 amps times 125% equals 60 amps. Final sizing still depends on the charger instructions, conductor material, terminals, derating, and local code.

Can this calculator replace an electrician or permit review?

No. It is a planning tool. EV charger circuits must follow the equipment installation manual, the locally adopted electrical code, permit requirements, grounding, GFCI rules, and utility or panel capacity limits.

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EV Charger Tool

EV Charger Wire Size Calculator

// SIZE EVSE BRANCH-CIRCUIT WIRE, BREAKER, AND VOLTAGE DROP FROM CHARGER CURRENT, RUN LENGTH, MATERIAL, AND DERATING INPUTS //

EVSE_INPUTS

EVSE Output Current

Charger output in amps.

Circuit Voltage

One-Way Length

Panel to charger, in feet.

Conductor Material

Terminal Rating

Current-Carrying Conductors

Ambient Temp

Degrees C.

Target Drop

Percent voltage drop.

EV_CHARGER_RESULT

Minimum Breaker

60 A

Based on 125% of EVSE output current.

Recommended Wire

6 AWG

copper, 13.3 mm2

EV load basis

60.0 A

Charger power

11.5 kW

Derating factor

100%

Voltage drop

1.47%

6 AWG passes the continuous-load ampacity screen, the selected breaker check, and the 3.00% voltage-drop target.

AMPACITY_BASIS

EVSE output is treated as a continuous load, so the calculator uses 125% of charger current for the ampacity and breaker screen.

Conductor ampacity uses common NEC Table 310.16 values with simplified ambient and current-carrying conductor adjustments.

Small-conductor overcurrent limits are screened for 14, 12, and 10 AWG where applicable.

VOLTAGE_DROP

The voltage-drop estimate uses charger current, conductor resistance, and round-trip circuit length.

Voltage drop is a performance target, not the same thing as minimum safety ampacity. Long garage, driveway, and parking-area runs may need upsizing.

Ampacity-only first passing size: 6 AWG.

FIELD_CHECKS

Verify the charger installation manual, terminal ratings, insulation type, conduit fill, grounding, GFCI protection, and local amendments.

Confirm panel capacity and load calculations before adding EV charging. A larger conductor does not solve an overloaded service or feeder.

Estimated drop on selected size: 3.54 V.

Voltage Drop Calculator

Check long EV charger runs when voltage drop, not ampacity, controls the wire size.

Ampacity Calculator

Review conductor ampacity with insulation, ambient temperature, and raceway derating.

Conduit Fill Calculator

Verify raceway fill for EV charger conductors and equipment grounding conductors.

Cable Size Calculator

Run a general cable-sizing check for feeders, subpanels, and branch circuits.

Wire Resistance Calculator

Estimate resistance and heat loss for a selected conductor size.

Wire Weight Calculator

Estimate copper or aluminum weight for long garage, driveway, and parking runs.