BJT TOP50: 2N2222 | 2N3055 | BC547 | 2N3904 | 2N2222A | BC107 | C945 | BC548 | BD139 | 8050 | S8050 | BC557 | BC337 | TIP31 | D882 | AC128 | BC108 | S9014 | C1815 | BD140 | 2N3906 | S8550 | 8550 | 2SC945 | 2SC5200 | BC547B | 2N5551 | MJE13003 | 9014 | BC549 | BC148 | TIP122 | 9013 | 2N2907 | BC558 | BC327 | C102 | A733 | 2SC1815 | 2N60C | 2N222 | 2N4401 | BC109 | BD135 | S9013 | BC546 | A1015 | 9012 | 431 | 2N3773 |

MOSFET TOP30: IRF3205 | IRFZ44N | IRF740 | IRF540 | IRF840 | BS170 | IRFZ44 | IRF640 | IRF540N | 2N7000 | IRF630 | IRFP460 | IRFZ46N | IRF530 | IRF1404 | IRF3710 | IRFZ34N | IRFP250 | BUZ11 | RFP50N06 | IRF520 | IRFP450 | IRFB3306 | IRF510 | IRF830 | 2N5484 | IRF730 | IRF150 | STF5N52U | IRF2807 |

IGBT TOP15: IRGP4086 | CT60AM-18F | FGPF4633 | G40N60B3 | IRG7IC28U | G20N60B3D | IXGR40N60C2D1 | G7N60C3D | RJP30H1DPD | IKW50N60H3 | 10N40F1D | GT60M303 | FGH40N60SFD | IRG4BC30W-S | IRG4PC50UD |

Persamaan Transistor Horizontal. BU2508 BU2520 D1557 D2553 D1779 C1881 D1879 D2901 C6089 C6090 C1880 C5250 C5296 C5586 D2499 D1453 D1554 D1555 D1878 D1911 D1651 D233 (aiwa) MD2009 C5299 C5339 D2102 ST1803 D2331 D1877 C4769 D1555 LG Slim 21 in C5149, C5296, C5885. C6090, C6092, C6093, TT2138, TT2140, TT2222, J6810, D2499, BU2520AF. Persamaan transistor 2n 5401 dan 2n5551 manufacturers and persamaan transistor 2n 5401 dan 2n5551 suppliers Directory - Find persamaan transistor 2n 5401 dan 2n5551 Manufacturers, Exporters and persamaan transistor 2n 5401 dan 2n5551 suppliers on ECOL.com.

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2N5401 is a PNP transistor designed specifically for high voltage - low power switching applications and amplifications. The NPN complementary for the device is 2N5551 and is available in TO-92, SOT54.

Pin Configuration

2N5401 has three pins like any other transistor namely EMITTER, BASE and COLLECTOR.

Persamaan transistor 2n5401

Pin

Name

Function

1

Emitter

Current flows in to the device through this pin

2

Base

Base is used for triggering transistor ON and OFF

3

Collector

Current flows out of this pin

2N5401 Features and Electrical characteristics

  • Available in Pb−Free package
  • High collector breakdown voltage
  • With DC Current Gain (hFE) up to 100
  • Maximum voltage across collector and emitter: 150V
  • Maximum current allowed trough collector: 600mA
  • Maximum voltage across collector and base: 160 V
  • Maximum voltage across base and emitter: 5V
  • Operating temperature range: -55ºC to +150ºC
  • Maximum power dissipation : 0.62 W

Similar Transistors

2N5551 (NPN), MPSA92, MPSA93, BF723, 2N5096

2N5401 Transistor Overview

Persamaan

2N5401 is specifically designed to be used in high voltage applications where load consumes very less power (i.e. Current drawn by load is low). These types of circuits can be seen in telephone systems. It can also be used when you want a simple switching device for high voltage loads. Also the component is cheap and easy to work with.

Persamaan

How to Use 2N5401 Transistor?

2N5401 can be used like any general purpose PNP transistor but for sake of understanding the device working let us consider a simple application circuit as shown below.

In the above circuit we are using 2N5401 as a simple switching device and the switching load being small DC motor. The button here is for providing the trigger to the transistor and 10KΩ resistor is for limiting the current to base and to avoid breaching maximum voltage allowed at the base. The circuit is powered from a negative voltage source of -5V DC as shown in diagram.

Before going for working let us revise the typical characteristics of a PNP transistor:

  • The device does not conduct when the current does not flow out of the base of the transistor or the device conducts only when the base current that flows out of the device reaches a threshold.
  • The current flow through collector is determined by the base current to a certain point. So with higher the gate current we have lower conduction resistance and higher the collector current.
  • The PNP transistor conducts only when a threshold current flows out the base, so the instant the base current reaches zero the device stops conducting.

Consider the button is not pressed: When the button is not pressed there will be no base current and with no base current the transistor will not conduct based on the characteristics of PNP transistor. When the transistor does not conduct the entire voltage appears across it and the motor will be OFF.

Consider the button is pressed: When the button is pressed, the base of 2N5401 will be connected to negative power supply and so there will be a path for the current flow. When the base current flows out from the device it will start conducting as stated in characteristics. In the presence of this collector current flow a voltage appears across the motor connected in series with collector pin. In the presence of the voltage the motor will start rotating and it will stay like that until the button is released. The moment the button is released the base current will reaches zero, there by turning OFF the transistor and the motor.

In this way we can turn motor ON and OFF by using simple button as a trigger and 2N5401 as switching device. In high speed switching the trigger is provided by microcontroller instead of button.

Data Persamaan Transistor

Applications

  • General purpose switching and amplification
  • Telephony applications
  • High voltage application

2D-Model

Persamaan Transistor 5401 Definition