2SK3548 Transistor Pinout, Equivalents, Features, Applications and Other Details

2SK3548 is an N-channel MOSFET available in a TO-220 package. This post explains the transistor pinout, equivalents, features, applications, and other details about this device.

Advertisements

Advertisements

 

 

Features / Technical Specifications:

  • Package Type: TO-220AB
  • Transistor Type: N Channel
  • Max Voltage Applied From Drain to Source: 900V
  • Max Gate to Source Voltage: ±30V
  • Max Continues Drain Current is : 10A
  • Max Pulsed Drain Current is: ±40V
  • Max Power Dissipation is: 180W
  • Max Drain to Source Resistance in ON State (RDS on): 40
  • Max Storage & Operating temperature Should Be: -55 to +150 Centigrade

 

Replacement and Equivalent:

K1358, 9N90, 2SK4023, 2SK3766, 2SK3798, 2SK4003, 2SK4014, 2SK4106, 2SK3843, 2SK3799

 

2SK3548 Transistors Explained / Description:

2SK3548 is an N channel MOSFET available in TO-3P package. The pin layout of the transistor is as follows: the first pin is “Gate”, second pin is “Drain” and the third pin is “Source”.  Considering the absolute maximum ratings of the MOSFET the drain-to-source voltage is 900V, continuous drain current is 10A, pulsed drain current is ±40V, gate-source voltage is ±30V, power dissipation is 180W and max storage and operating temperature is from -55 to +150 °C.

Understanding the features of this MOSFET, one of the main feature of this MOSFET is its drain-to-source voltage of 900V, which means it can supply upto 900V to the load. Another good feature is its 10A current capability, the low RDS(on) resistance of 1.4 Ohms improves it performance by reducing power losses, voltage drop and heat generation, the rapid turn on time of typical 23ns and turn off time of 17ns makes it ideal to use in SMPS, PWM and other high frequency applications, etc. All these features make it a reliable transistor for many commercial and industrial applications.

 

Where We Can Use it & How to Use:

2SK3548 can be used in many commercial and industrial applications such as controller circuits, industrial automation, power electronics, amplification, lighting, automotive, switching, etc. The detailed list of its applications can be found under the “Applications” heading below.

For using the MOSFET first understand that the minimum voltage to open the MOSFET is 3.0V but on that voltage it will not become fully ON but only a little and you will get little current at its output. To achieve its full current at its ouput you will have to provide at least 10V to its gate. But it is suggested to not use it to its max current which is 10A and stay 20% below and only use 8A.

 

Applications:

Inverters

Solar Inverters

UPS

Computer Power Supplies

Motor Drivers

UPS Systems

Audio Amplifiers

Light Control Systems

Motor Control (Fans, Pumps, compressors etc.)

Voltage Regulators

Switching Power Supplies (Telecommunications Supplies, LED Drivers etc.)

DC to DC Converters

Motor Control (Fans, Pumps, compressors etc.)

 

Safe Operating Guidelines 

Here are some safe operating guidelines for the MOSFET.

  • Do not use it to its absolute maximum ratings and stay at least 20% below from these ratings.
  • So the maximum continuous drain current is 10A but according to the 20% rule only use 8A.
  • Max drain to source voltage is 900V so by following the 20% rule do not drive load of more than 720V
  • Always use a suitable heatsink.
  • Storage and operating temperature should be between these limits -55°C to +150 °C.

 

Datasheet:

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

https://mobilluk.com.ua/wp-content/uploads/2023/09/datasheet.pdf?srsltid=AfmBOoqLblarvJ_8UKloUD0AA6yD6cN6bXysID6kpqmFD4SZwEWEYnji

You may also like...

Leave a Reply

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