Caduta di tensione e portata: quando serve un cavo oltre il minimo
Distinguere portata termica e caduta di tensione con NEC 310.16, NEC 210.19, NEC 215.2 e IEC 60364.
La portata dice se il conduttore si scalda troppo. La caduta di tensione dice se il carico riceve tensione sufficiente. Nei percorsi lunghi servono entrambe.
This localized field guide uses the same engineering baseline as the English source: ampacity is checked with NEC 310.16 and related adjustment rules, while voltage drop is checked against practical branch and feeder targets. For public references, review the National Electrical Code, electrical wiring, and the International Electrotechnical Commission.
Ampacity tells you whether the conductor survives thermally. It does not prove that a 120 V load 140 ft away receives healthy voltage.
— Hommer Zhao, Technical Director
Caduta di tensione e portata: quando serve un cavo oltre il minimo
Prima si verifica la parte termica: NEC 310.16, terminali, temperatura ambiente e raggruppamento. Un 12 AWG su 20 A puo essere ammesso ma non performante a distanza.
Poi si calcola il percorso reale. A 120 V, 16 A e 120 ft, 12 AWG rame arriva a circa 5,1%; spesso e meglio 10 AWG.
| Circuit | Minimum | Distance/load | Better move |
|---|---|---|---|
| 120 V branch | 12 AWG Cu / 20 A | 16 A at 120 ft | 10 AWG for about 3% |
| 240 V EVSE | 8 AWG Cu / 40 A | 32 A at 170 ft | Check feeder budget |
| Detached feeder | 6 AWG Cu / 60 A | 48 A at 180 ft | Use 4 AWG Cu or compare Al |
| 230 V motor | 10 AWG Cu / 30 A | 24 A at 210 ft | Check 8 AWG and startup |
| 277 V lighting | 12 AWG Cu / 20 A | 12 A at 220 ft | Grouping may control |
When a 20 A branch circuit passes 100 ft at 120 V, calculate it instead of relying on habit. The performance answer is often 10 AWG even when 12 AWG is the familiar minimum.
— Hommer Zhao, Technical Director
NEC / IEC checkpoints
NEC 310.16, NEC 310.15, NEC 210.19(A)(1), NEC 215.2(A)(1), NEC 430, and IEC 60364-5-52 should be reviewed together. Ampacity is the safety floor; voltage drop is the performance check.
A practical job record should show volts, amps, one-way distance, conductor material, selected conductor size, and calculated voltage drop. Those six values explain why a design uses a larger conductor than the breaker-size minimum.
In review, four numbers expose weak designs quickly: volts, amps, one-way feet, and conductor material. If they are visible, bad voltage-drop assumptions cannot hide.
— Hommer Zhao, Technical Director
FAQ
Can ampacity pass while voltage drop fails?
Yes. A 12 AWG copper conductor can be legal on a 20 A circuit, while 120 V at 16 A over 120 ft can exceed a 3% branch-circuit target.
Do I need a larger breaker when I upsize wire?
No. A 20 A circuit can use 10 AWG copper for voltage drop and still remain protected by a 20 A breaker.
Which NEC checks come first?
Start with NEC 310.16 and NEC 310.15 for ampacity, then check NEC 210.19(A)(1) and NEC 215.2(A)(1) voltage-drop guidance.
When does voltage drop usually control?
It often controls 120 V branches above 75 to 100 ft, long 240 V equipment circuits, and feeders that must preserve a 5% total budget.
How does IEC practice compare?
IEC 60364-5-52 also coordinates installation method, grouping, ambient correction, conductor size, and allowable voltage drop.
What numbers should I document?
Record voltage, load current, one-way distance, conductor material, conductor size, and calculated drop percentage.
Confronta la sezione minima e quella superiore prima di ordinare il cavo.
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