Leitfaden zur Kabeldimensionierung fuer gewerbliche Waeschereien
// DIMENSIONIEREN SIE WASCHSCHLEUDERN, TROCKNER, MANGELN, HEIZUNGEN UND VERTEILUNGEN MIT NEC, SPANNUNGSFALL UND IEC. //
Dimensionieren Sie Waschschleudern, Trockner, Mangeln, Heizungen und Verteilungen mit NEC, Spannungsfall und IEC. The first step is always the nameplate: voltage, phase, MCA, MOCP, kW, motor current, conductor material and installation limits.
Beginnen Sie mit dem Typenschild jeder Maschine, nicht mit einer pauschalen Tabelle.
Pruefen Sie Strombelastbarkeit, Klemmen, Dauerlast, Motor und Spannungsfall getrennt.
Bei 208 V koennen lange Leitungswege groessere Querschnitte erfordern.
Behandeln Sie Trockner, Waschschleudern, Mangeln und Hilfsheizungen getrennt.
208 V dryer, 48 A, 145 ft
6 AWG copper is a starting screen, but 4 AWG may be required for a 3 percent voltage-drop target.
Kurz gefasst
- Beginnen Sie mit dem Typenschild jeder Maschine, nicht mit einer pauschalen Tabelle.
- Pruefen Sie Strombelastbarkeit, Klemmen, Dauerlast, Motor und Spannungsfall getrennt.
- Bei 208 V koennen lange Leitungswege groessere Querschnitte erfordern.
- Behandeln Sie Trockner, Waschschleudern, Mangeln und Hilfsheizungen getrennt.
- Bei IEC-Projekten IEC 60364-5-52 und IEC 60364-4-43 pruefen.
commercialLaundryWireSizingPage.definitionsTitle
MCA
MCA is the minimum circuit ampacity used to size branch-circuit conductors.
MOCP
MOCP is the largest overcurrent device allowed by the equipment instructions.
Continuous load
A continuous load can require 125 percent sizing when it runs 3 hours or more.
commercialLaundryWireSizingPage.workflowTitle
1
Read every equipment nameplate and installation manual.
2
Separate resistance heat, motor, VFD, control and support loads.
3
Select conductors with NEC 310.16 and terminal limits from NEC 110.14(C).
4
Check appliance and motor rules in NEC 422 and NEC 430.
Rechenbeispiele
208 V dryer, 48 A, 145 ft
Replace these values with real nameplate data.
6 AWG copper is a starting screen, but 4 AWG may be required for a 3 percent voltage-drop target.
480 V washer extractor, 27 A MCA
Replace these values with real nameplate data.
Start around 10 AWG copper if derating and terminals allow, then verify VFD input and 40 A MOCP.
120 A continuous ironer
Replace these values with real nameplate data.
120 A x 125 percent = 150 A basis before conductor selection where continuous-load rules apply.
Lasten im Vergleich
| Equipment | Load | Code | Initial conductor | Field check |
|---|---|---|---|---|
| Electric dryer;208-240 V, 40-80 A;NEC 422 / 310.16;8-4 AWG Cu;Check duty, terminals, and voltage drop past 100 ft. | Washer extractor;480 V 3-phase, 15-40 A;NEC 430 / IEC 60364;12-8 AWG Cu;Confirm VFD input current and short-circuit rating. | Flatwork ironer;60-150 A heat + motors;NEC 422 / feeder rules;6 AWG-1/0 Cu;Treat heat as high-duty load. | Booster heater;30-125 A support load;NEC 422 / 424;10-1 AWG Cu;Check continuous operation during wash cycles. | Laundry feeder;100-600 A mixed loads;NEC 215.2 / 220;Calculated feeder;Check neutral, grounding, panels, and voltage drop. |
Wichtige Normbezüge
Leitfaden zur Kabeldimensionierung fuer gewerbliche Waeschereien: NEC 110.14(C), 210.19(A), 215.2(A), 310.16, Article 422, Article 430 and IEC 60364-5-52 are checked separately. National Electrical Code, IEC 60364 and three-phase electric power are the main reference entities for this design.
NEC 422
Leitfaden zur Kabeldimensionierung fuer gewerbliche Waeschereien: NEC 110.14(C), 210.19(A), 215.2(A), 310.16, Article 422, Article 430 and IEC 60364-5-52 are checked separately. National Electrical Code, IEC 60364 and three-phase electric power are the main reference entities for this design.
NEC 430
Dimensionieren Sie Waschschleudern, Trockner, Mangeln, Heizungen und Verteilungen mit NEC, Spannungsfall und IEC.
NEC 210, 215, 220, 310
Dimensionieren Sie Waschschleudern, Trockner, Mangeln, Heizungen und Verteilungen mit NEC, Spannungsfall und IEC.
IEC 60364 / IEC 60228
Bei IEC-Projekten IEC 60364-5-52 und IEC 60364-4-43 pruefen.
Praxisfall
- A 208Y/120 V laundry had six 48 A dryers, four 22 A washer extractors, a 36 A booster heater and small 120 V controls. The farthest equipment was 155 ft from the panel.,The revised design moved distribution closer, upsized two long dryer circuits to 4 AWG copper and separated VFD circuits from high-heat circuits. The lesson is that voltage drop can govern after ampacity passes.
- Using a residential dryer rule.
- Ignoring MCA and MOCP.
- Using 90C insulation ampacity as the final value.
- Forgetting raceway derating.
- Skipping voltage drop on long 208 V heat loads.
FAQ
What conductor is common for a 60 A dryer?
6 AWG copper is common, but 4 AWG may be needed for 120-150 ft runs or derating.
Are washer extractors motors or appliances?
Use the nameplate MCA/MOCP first, then review NEC 430 for motor and VFD details.
What voltage drop target is practical?
Many designs use about 3 percent branch and 5 percent total, 6 V at 208 V is already 2.9 percent.
Can several dryers share one feeder?
Yes, when simultaneous load, neutral, grounding and overcurrent protection are calculated.
How does IEC differ?
IEC projects use metric conductor sizes and IEC 60364-5-52 installation methods, grouping and voltage-drop checks.
When should conductors be upsized?
Upsize for voltage drop, ambient correction, conductor-count derating, terminal limits or future replacement.
Waescherei-Verteilung pruefen lassen?
Use the calculators for a first screen, then contact us for long runs, dense raceways, mixed voltages or high-duty equipment.