Due to its high current gain and collector current it is very commonly used in ‘High power audio circuits or AF amplifiers. The 2SC5200 is a high power NPN transistor originally from Toshiba. Note: Complete Technical Details can be found at the 2SC5200 datasheet given at the end of this page. Collector-Emitter voltage (VCE) is 230 V.Continuous Collector current (IC) is 15A.The transistor is available in TO-264 package and is commonly used Amplifier designs.Ĭontrols the biasing of transistor, Used to turn ON or OFF the transistorĬurrent flows in through collector, normally connected to loadĬurrent Drains out through emitter, normally connected to ground This kind of transistor is used in different applications due to its good amplifying factor, so this transistor is one of the finest solutions to use in power amplifiers.The 2SC5200 is a high power NPN Transistor with a collector to emitter voltage of 230V and collector current of 30A. This transistor is composed of three terminals that are used to connect an external circuit for amplification, switching purposes. Thus, this is all about an overview of a 2N3055 transistor datasheet like pin configuration, features, specifications, application circuit with applications. It may be used in regulated, linear power supplies, low-frequency power converters & audio amplifiers.
#PINS ON A 2N3055 TRANSISTOR SERIES#
The 2N3055 transistor is used as a series pass transistor within linear power supplies and also used in high power and medium-current circuits like DC to AC inverters, low-frequency power converters, audio power amplifiers.
This can also be used with the alternator in an internal combustion engine to control the output of the alternator. This voltage regulator circuit is used in electronic devices to provide a precise amount of voltage & avoid damage. Once the circuit connections are done, test the entire circuit with the help of the LED strips otherwise a multimeter. One end of the clip is connected through the transistor whereas another end is connected through LED Strips. The design of the voltage regulator circuit is a variable resistor, the alligator clip & three LED strips need to connect toward the transistor one by one. So, voltage regulator plays e key role in almost all electronic applications. It works as a buffer to protect the components from damage. So this voltage remains stable for any modifications within input voltage otherwise conditions of load. Once a stable or reliable voltage is necessary then a voltage regulator is used to produce a fixed o/p voltage. A voltage regulator in this circuit is used to change the levels of voltage. This circuit is very simple to build with the necessary components. Generally, a transistor working is that a voltage or current is given to one pair of terminals in the transistor then it controls the flow of current throughout the remaining pair of terminals because the output is higher as compared to input power. Voltage Regulator Circuit with 2N3055 Transistor This circuit can be built with different basic electronic components like 2N3055 transistor, variable resistor-5k, 3 – LED strips which contains 4 LEDs in each strip, and a 12V battery. The simple voltage regulator circuit using a 2N3055 transistor is shown below.
#PINS ON A 2N3055 TRANSISTOR HOW TO#
How to use 2N3055 Transistor/Circuit Diagram? The maximum flow of current allowed by the base is 7A DCĮquivalent 2N3055 transistors are 2N6675, 2N6673, complimentary pair of MJ2955 whereas similar 2N3055 transistors are BUX98, MJ10023 & BDW51.Highest voltage across B (base) & E (emitter) is 7V DC.Max voltage across base & collector is 100V DC.The current allowed by the collector (Max) is 15A DC.Operating temperature ranges from -65✬ to +200✬.Voltage across collector & emitter (Max) is 60V DC.The saturation voltage from collector to emitter is low.It includes an outstanding secure operating region.It has current handling and high power capacity.Includes three layers and three terminals.