N-Channel MOSFET

A voltage-controlled transistor where gate voltage controls drain–source current. N-channel MOSFETs turn on when gate voltage exceeds the threshold, making them ideal for low-side switching, motor drivers, and power converters.

Properties

Property	Description	Default	Range
Vgs_th	Gate–source threshold voltage — minimum gate voltage to turn on (V)	2.5 V	0.5 V – 6 V
Id_max	Maximum continuous drain current (A)	10 A	0.1 A – 500 A
Vds_max	Maximum drain–source voltage (V)	60 V	5 V – 1 200 V
Rds_on	On-state drain–source resistance when fully enhanced (Ω)	0.1 Ω	0.001 Ω – 10 Ω

Simulation behavior

When Vgs >= Vgs_th the MOSFET enters the on state and the drain–source path is modeled as Rds_on. When Vgs < Vgs_th the device is off and no current flows (except leakage, which is not modeled).

Failure is triggered when Id > Id_max or Vds > Vds_max. Power dissipation in the on state is Id² × Rds_on.

Tips

• A logic-level MOSFET has a low Vgs_th (1–2 V) and can be driven directly from a 3.3 V or 5 V microcontroller output without a gate driver.
• Lower Rds_on reduces conduction losses — important for high-current applications. Set it to 10 mΩ to model a modern power MOSFET.
• The gate draws no DC current (infinite input impedance), so no gate resistor is required for DC operation — but a small resistor (10–100 Ω) is good practice to damp oscillations.

---

Related pages

Component PropertiesHow to edit properties for any component→SimulationRun the physics simulation→P-Channel MOSFETComplementary MOSFET type→