How much voltage drop is acceptable on a 24 V DC control circuit?

A 5 percent limit is often a practical maximum for 24 V DC control wiring because it leaves about 22.8 V at the load. Many PLC inputs and sensors tolerate 20.4 V to 28.8 V, but solenoids and relays should be checked against their pickup voltage.

Do I calculate 24 V DC voltage drop with one-way or round-trip length?

Use the round-trip conductor path for two-wire DC circuits. If the device is 180 ft from the power supply, the current travels about 360 ft through the positive and 0 V conductors, even though the physical route is 180 ft one way.

Does NEC Article 725 replace voltage-drop calculation for Class 2 wiring?

No. NEC Article 725 covers Class 1, Class 2, and Class 3 circuit installation requirements, but it does not guarantee delivered voltage. A Class 2 24 V circuit still needs conductor resistance checked when the load is far from the supply.

What wire size should I use for a 24 V DC solenoid 150 ft away?

For a 0.7 A solenoid at 150 ft one way, 18 AWG copper can drop about 1.9 V, or 7.9 percent. Moving to 16 AWG reduces the drop to about 1.2 V, or 5.0 percent, and 14 AWG gives more margin.

Why do PLC inputs work while solenoids fail on the same 24 V supply?

PLC inputs may draw only 3 mA to 10 mA, so voltage drop is tiny. A solenoid or relay coil may draw 0.3 A to 1.0 A, making the same 200 ft route a real voltage-drop problem.

When is a local 24 V power supply better than larger control cable?

A local power supply often wins when several loads share a route longer than 200 ft or total current exceeds about 2 A. Feed the local supply with an AC branch circuit, then keep the 24 V DC device wiring short.

24 V DC Spannungsfall in Steuerkreisen: SPS-Eingaenge, Sensoren, Relais und Magnetventile

Ein 24 V DC Steuerkreis versorgt SPS-Eingaenge, Sensoren, Relais und Magnetventile. 2 V Verlust sind hier 8,3% und koennen Anzugsprobleme verursachen.

Kurz gefasst

24 V DC: 2 V = 8.3% voltage loss.
Bei zweiadrigen DC-Kreisen zaehlt Hin- und Rueckleiter. 150 ft Entfernung bedeuten etwa 300 ft elektrischen Leiterweg.
Use 3% to 5% as a practical design target.
Check NEC 725, IEC 60204-1, and IEC 61131-2 beside the math.

24 V DC Spannungsfall in Steuerkreisen: SPS-Eingaenge, Sensoren, Relais und Magnetventile

Bei zweiadrigen DC-Kreisen zaehlt Hin- und Rueckleiter. 150 ft Entfernung bedeuten etwa 300 ft elektrischen Leiterweg.

Ein 0,7 A Magnetventil auf 150 ft mit 18 AWG Kupfer verliert etwa 1,34 V; am Verbraucher bleiben rund 22,66 V.

NEC 725 behandelt Class 1/2/3, IEC 60204-1 Maschinen und IEC 61131-2 SPS-I/O. Der Spannungsfall bleibt eine separate Funktionspruefung.

NEC and IEC references define the installation context; delivered voltage is still a circuit-performance calculation.

24 V DC load comparison

Device	Current	150 ft, 18 AWG	Decision
PLC input	3-10 mA	<0.02 V	Noise and threshold matter most
Sensor	20-60 mA	0.04-0.12 V	Check output loading
Relay coil	80-200 mA	0.15-0.38 V	Check pickup voltage
Solenoid	300-700 mA	0.57-1.34 V	Often controls wire size
Valve group	1-3 A	1.9-5.7 V	Consider larger feed or local supply

Practical checks

Calculate the worst simultaneous current, include shared 0 V conductors, compare 18 AWG, 16 AWG, and 14 AWG, then decide whether a local 24 V supply is cleaner than a larger cable. A 24 V circuit should be checked at the device terminals, not only at the power supply.

Dokumentieren Sie Spannung, Laenge, Querschnitt, Gleichzeitigkeit und Mindestspannung am Verbraucher.

DC Calculator Wire Resistance Contact

24 V DC Spannungsfall in Steuerkreisen: SPS-Eingaenge, Sensoren, Relais und Magnetventile

Kurz gefasst

24 V DC Spannungsfall in Steuerkreisen: SPS-Eingaenge, Sensoren, Relais und Magnetventile

24 V DC load comparison

Practical checks

Start Calculating

Related Articles

Spannungsfall und Strombelastbarkeit: wann groessere Leiter noetig sind

Conduit Fill and Derating: Voltage Drop Planning for Crowded Raceways

Long Branch Circuit Voltage Drop: Wire Size, Distance, and NEC/IEC Limits