FQP30N06L Transistor Pinout, Equivalents, Applications and More

FQP30N06L is an N Channel logic MOSFET. It is a very useful transistor and can be used in variety of applications. Today we are going to discuss about FQP30N06L transistor pinout, equivalents, applications, where and how to use this transistor and also other details about this device.


FQP30N06L Transistor Pinout, Equivalents, Applications



Features / Technical Specifications:

  • Package Type: TO-220
  • Transistor Type: Logic N Channel MOSFET
  • Max Voltage Applied From Drain to Source: 60V
  • Max Gate to Source Voltage: ±20V
  • Max Continues Drain Current is : 32A
  • Drain to Source Resistance in ON State: 35 mΩ (Max.)
  • Max Pulsed Drain Current is: 128A
  • Max Power Dissipation is: 79W
  • Max Storage & Operating temperature Should Be: -55 to +175 Centigrade


Replacement and Equivalent:

IRLZ34N, IRLZ40, RFP25N05L, RFP30N06LE, STP36N05L, 2SK1910, 2SK972, BUZ12AL, IRLSZ44


FQP30N06L Transistor Explained / Description:

FQP30N06L or 30N06L is an N channel MOSFET manufactured in TO-220 package. It is a DMOS technology transistor, by using this technology the engineers of this design got success in minimizing on state resistance, got success in achieving good switching performance and also high pulse capability.

The primary applications for this transistor is designed for are DC to DC conversion, efficient switching and controlling in wide variety of portable and battery operated circuits.

Some of the main features of the transistor are low gate charge, very low on state resistance, low Crss, high switching speed, avalanche tested hundred percent, upto 175°C junction temperature etc.

The also has very interesting specs which are upto 32A continuous drain current, upto 60V drain to source voltage, max RDS-on resistance is only 35 mΩ max, max pulsed drain current is 128A and max power dissipation is 79W.


Where We Can Use it & How to Use:

FQP30N06L or 30N06L is primarily designed for DC to DC conversion for variety of application and switching and controlling loads in portable and battery operated applications but it is not limited to only these uses and can be used in wide variety of other applications. Moreover it can be directly derived from the integrated circuits and also from the electronic platforms like arduino and raspberry pi. Other uses of the transistor can be DC motor control, DC power supplies etc.



Battery Charger Circuits

BMS Circuits

Solar Battery Chargers

UPS Circuits

DC Power Supplies

Motor Drivers

And Variety of Switching Applications


Safe Operating Guidelines / Absolute Maximum Ratings:

Follow these guidelines to safely operate the transistor and get long term stable performance with it. Do not use the transistor on its absolute maximum ratings and always stay 20% below from its absolute max ratings. The maximum continuous drain current of the transistor is 32A therefore do not drive load of more than 25.6A. The maximum drain to source voltage is 60V therefore do not drive load of more than 48V. Use a suitable heatsink with the transistor and always store or operate the transistor in temperature above -55°C and below +175 °C.



To Download the datasheet just copy and paste the below link in your browser.


You may also like...

Leave a Reply

Your email address will not be published. Required fields are marked *