C6012 Transistor – 1700V, 15A, NPN, Pinout, 2SC6012 ( PDF )

Part Number: C6012, 2SC6012

Function: 1700V, 15A, NPN Transistor

Package: TOP-3E-A1 Type

Manufacturer: Panasonic Semiconductor

Images:C6012 pdf pinout

Description

C6012 is 1700V, 15A, Silicon NPN triple diffusion mesa type transistor. A NPN transistor is a type of bipolar junction transistor (BJT) that consists of two n-type semiconductor materials separated by a single p-type material.

The NPN transistor is used to amplify or switch electronic signals and is widely used in many electronic circuits. It works by controlling the current flow between the collector and emitter terminals through the base terminal.

When a small current is applied to the base, it controls a much larger current between the collector and emitter, making the NPN transistor an effective amplifier or switch.

Characteristics:

1. Bipolar Junction: NPN transistors are bipolar junction transistors (BJT), meaning they have a structure consisting of three regions of alternating P-type and N-type semiconductors.

2. Current Amplification: NPN transistors are designed to amplify electrical current, and can be used in a wide range of electronic applications such as amplifiers, switches, and oscillators.

3. Forward Biased: In order to operate, the base-emitter junction of an NPN transistor must be forward biased, meaning that the base must be connected to a positive voltage relative to the emitter.

Features

1. High breakdown voltage, and high reliability through the use of a glass passivation layer

2. High-speed switching

3. Wide safe oeration area

 

C6012 datasheet transistor

 

Absolute maximum ratings ( Ta=25°C )

1. Collector to Base Voltage: Vcbo = 1700 V

2. Collector to Emitter Voltage: Vceo = 1700 V

3. Emitter to Base Voltage: Vebo = 7 V

4. Collector Current: Ic = 15 A

5. Collector Dissipation : Pc = 3 W

6. Junction Temperature: Tj = 150°C

7. Storage Temperature: Tsg = -55 ~ +150°C

 

Applications:

1. For horizontal deflection output

 

C6012 PDF Datasheet

Related articles across the web