Transformer Sizing Calculator for Michigan
NEC 2017 transformer sizing math for EV charger installers working in Michigan.
DCFC and large workplace EV deployments in Michigan typically need a dedicated 480 V three-phase service, which means sizing a pad-mount or dry-type transformer against the connected charger load plus the NEC 2017 continuous-load multiplier.
Worked example for Michigan
A 350 kW DC fast charger draws roughly 421 A at 480 V three-phase. Applying the 125% continuous-load factor (350 × 1.25 ≈ 438 kVA), then rounding up to the next standard transformer rating gives a 450 kVA minimum. Michigan's 88°F summer ambient does not directly derate the transformer, but it does push the secondary feeder ampacity down by 0.88× — so the secondary copper has to be sized accordingly.
Code & Utilities
EV installations in Michigan are governed by the 2017 National Electrical Code, in force since 2020. That includes Article 625 EVSE rules and the 125% continuous-load factor on charging branch circuits, though some 2020-cycle changes (like expanded EMS provisions) are not yet enforced statewide.
In Michigan, you'll most often interconnect with DTE Energy, Consumers Energy, Indiana Michigan Power. Their make-ready, time-of-use, and demand-charge structures vary widely; pull the specific tariff before sizing service equipment.
Climate & Ampacity
Michigan's representative summer design ambient is around 88°F, which yields a 0.88× ampacity correction factor at 75°C terminations per NEC 310.15(B)(1). Because the correction is below 0.9, conductors that "look fine" on a 30°C ampacity table will not carry their nameplate current here — always derate explicitly.
Michigan takeaway
Coordinate primary-side voltage, impedance, and fault-current specs with DTE Energy early — interconnection lead times for new pad-mounts in Michigan can run 6-12 months on commercial DCFC sites.