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IRF540N MOSFET: 100V N-Channel Power MOSFET Explained

Artikel Details

IRF540N Overview

The IRF540N sits in the sweet spot of power MOSFETs-offering a 100 V rating, solid 33 A current capability, and low on-resistance in a rugged TO-220 package. It's a dependable choice for switching loads, building DC-DC converters, and replacing electromechanical relays with efficient solid-state control.

What Is a Power MOSFET?

A power MOSFET (Metal-Oxide-Semiconductor Field-Effect Transistor) is a voltage-controlled switch optimized to handle higher voltages and currents than small-signal MOSFETs. Compared with BJTs, MOSFETs offer faster switching, simpler drive (voltage-driven gate), and higher efficiency in PWM applications. The IRF540N is an N-channel enhancement-mode device that turns on when its gate is driven positive relative to its source.

Features

100 V drain-source rating for wide headroom in 24–48 V systems.
Low R_DS(on) ≈ 44 mΩ at V_GS=10 V for efficient conduction.
33 A continuous drain current (110 A pulsed) with proper cooling.
Fast switching suitable for PWM motor drives and LED regulation.
Rugged, avalanche-rated silicon for harsh power environments.
Standard TO-220 with isolated heatsink mounting options.

Pinout & Package (TO-220)

IRF540N uses a standard TO-220 with three leads:

Gate (G) - control terminal
Drain (D) - connects to the load
Source (S) - reference/ground

Key Specifications

Parameter	Value
Type	N-Channel Enhancement MOSFET
Package	TO-220
V_DS (Drain-Source Voltage)	100 V
I_D (Continuous Drain Current, 25 °C)	33 A
I_D,pulse (Pulsed)	110 A
R_DS(on) (@ V_GS=10 V)	≈ 44 mΩ
V_GS(th) (Gate Threshold)	2.0 – 4.0 V
V_GS (Max)	±20 V
P_D (Power Dissipation)	150 W
Q_g (Total Gate Charge)	~67 nC
T_J (Operating Junction)	−55 °C to +175 °C

Note: Specs can vary slightly by manufacturer; check the latest datasheet for your exact device.

How It Works

IRF540N is an enhancement-mode N-channel device. When V_GS > V_th, a conductive channel forms and current flows from Drain to Source. With a 10 V gate drive, it achieves low R_DS(on) for efficient switching. Because the gate is voltage-controlled with high input impedance, steady-state drive current is near zero; however, charging/discharging the gate capacitance during PWM requires adequate peak current (use a proper gate driver for fast edges).

Circuit Examples

Low-Side Switch (PWM Motor/LED)

 +V (12–48V)
   │
  Load
   │
  Drain ─ IRF540N ─ Source → GND
             ▲
            Gate ← 10 V gate driver / PWM

Add a flyback diode across inductive loads (motor/relay): cathode to +V, anode to the Drain/Load node.
Use a gate resistor (10–100 Ω) and a pull-down (100 kΩ) to keep the gate defined when idle.

High-Side with N-MOS (Bootstrapped Driver)

For high-side switching above supply, use a dedicated high-side driver IC (bootstrap type) or consider a P-channel MOSFET for simpler low-voltage rails.

Thermal & Efficiency Notes

Heatsinking: Conduction loss P≈I²·R_DS(on) can be significant (e.g., 20 A → ~8.8 W). Use a proper heatsink and thermal interface.
Gate Drive: A driver with strong source/sink current reduces switching loss and heating.
Layout: Keep loops tight; add snubbers/TVS for inductive noise suppression.

IRF540N vs IRL540N

Feature	IRF540N	IRL540N
Gate Type	Standard (needs ~10 V)	Logic-level (works at 4–5 V)
R_DS(on)	≈ 44 mΩ @ 10 V	≈ 77 mΩ @ 4–5 V
Best Use	Higher voltage/current with driver	Direct MCU drive, low-voltage rails

Tip: If your controller outputs only 5 V, choose IRL540N or add a gate driver.

Equivalents & Alternatives

Model	Notes
IRF540	Earlier variant; slightly higher R_DS(on)
IRL540N	Logic-level gate; easier with 5 V logic
IRFZ44N	55 V / 49 A; common for low-voltage systems
STP55NF06	60 V / 55 A; low R_DS(on)
IRF640N	200 V / 18 A; higher voltage option
FQP30N06L	60 V logic-level by ON/Diodes Inc.

How to Test IRF540N with a Multimeter

Meter in Diode Test mode. Measure Drain→Source (D→S): should read OL.
Briefly touch Gate to Drain to charge the gate. D→S should now show conduction.
Short Gate to Source to discharge; D→S returns to OL.

This quick check validates gate control and channel formation. For precise R_DS(on), test under known current with a bench supply.

Frequently Asked Questions

What's the maximum voltage of IRF540N?

100 V across Drain-Source (V_DS).

Can I drive it from Arduino?

Use a gate driver or choose IRL540N for direct 5 V drive.

Do I need a heatsink?

Yes, for continuous currents or high duty cycles; calculate losses and keep junction temperature within limits.

Why add a diode across a motor/relay?

To clamp inductive kickback and protect the MOSFET during turn-off.

Is IRF540N suitable for high-side switching?

Use a dedicated high-side driver or consider a P-channel MOSFET for low-voltage rails.

Where to Buy IRF540N

Source from reputable suppliers to ensure genuine parts and consistent performance.

Buy from Bomkey

Buy on Amazon

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