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Theory & Procedure, Transistor Characteristics | Physics Class 12 - NEET PDF Download

Our Objective:

To study the static characteristic of a transistor (Common Emitter Configuration)

The Theory:

A transistor is a semiconductor device used to amplify or switch electronic signals and electrical power. It is composed of semiconductor material with at least three terminals for connection to an external circuit. A voltage or current applied to one pair of the transistor's terminals changes the current through another pair of terminals. Because the controlled (output) power can be higher than the controlling (input) power, a transistor can amplify a signal.

Bipolar Junction Transistors

Bipolar Junction Transistors are transistors which are made up of 3 regions, the base, the collector, and the emitter. A small current entering in the base region of the transistor causes a much larger current flow from the emitter to the collector region. Bipolar junction transistors come in two main types, npn and pnp. A npn transistor is one in which the majority current carrier are electrons. Electron flowing from the emitter to the collector forms the base of the majority of current flow through the transistor. The other type of charge,holes, are a minority. pnp transistors are the opposite. In pnp transistors, the majority current carriers are holes.

The circuit diagram for npn transistor is shown below.

Theory & Procedure, Transistor Characteristics | Physics Class 12 - NEET

Transistor characteristics:

1) Input characteristics

Keeping the collector- emitter (VCE) voltage constant, the base- emitter (VBE) voltage is increased from 0 and the corresponding base current (IB) values are noted. This is repeated for increasing values of VCE. The family of curve obtained by plotting IB against VBE for each VCE value is called input characteristics.

                                    Theory & Procedure, Transistor Characteristics | Physics Class 12 - NEET

2) Output Characteristics

By keeping the base current (IB) constant, collector- emitter (VCE) voltage is varied and the corresponding IC values are obtained. This is repeated for increasing values of IB. The family of curves obtained by plotting IC against VCE for each value of IB is called output characteristics.

                                    Theory & Procedure, Transistor Characteristics | Physics Class 12 - NEET

Learning Outcomes:

Students understand the following terms:

  • Transistor
  • pnp and npn transistors
  • Transistor characteristics

Students will be able to do the experiment, once they understand the procedure.

Material required:

  • Rheostat
  • Voltmeter
  • Ammeter
  • Battery
  • One way key
  • Transistor
  • Bread board

Real Lab Procedure:

  • Connections are made as shown in the circuit diagram.

    Theory & Procedure, Transistor Characteristics | Physics Class 12 - NEET

  • The rheostat Rh1 is used to vary base voltage (input voltage) VBE and it is read from voltmeter V1. The base current (input current) IB is measured using a microammeter (µA). The collector voltage (output voltage) VCE is varied using the rheostat Rh2 and readings are noted from voltmeter V2. The collector current (output current) IC is measured by the milliammeter (mA).

Input Characteristics

  • The collector voltage VCE is kept constant (eg. 1V) by adjusting the rheostat Rh2.
  • The base voltage VBE is varied from zero by adjusting the rheostat Rh1.
  • The base current IB is noted in each step.
  • A graph is drawn with VBE along X-axis and IB along Y-axis.
  • The experiment is repeated with VCE kept constant say 2V, 3V, 4V etc. and corresponding graphs are plotted. 

                                   Theory & Procedure, Transistor Characteristics | Physics Class 12 - NEET           

Output characteristics

  • The base current IB is kept constant (eg. 20µA) by adjusting the rheostat Rh1.
  • Now the collector voltage is increased by adjusting the rheostat Rh2.
  • The corresponding collector current IC is noted.
  • A graph is drawn with VCE along X-axis and IC along Y-axis.
  • The experiment is repeated with keeping IB constant, say 40µA, 60µA, 80µA etc and similar graphs are plotted.

                                     Theory & Procedure, Transistor Characteristics | Physics Class 12 - NEET

Observations:

Input characteristics

VCE (1V)
VBE (V)
 
 
 
IB (μA)
 
 
 
VCE (2V)
 
 
 
 
VCE (3V)
 
 
 
 
VCE (4 V)
 
 
 
 


Output characteristics

IB (μA)
VCE (V)
 
 
 
IC (mA)
 
 
 
IB (μA)
 
 
 
 
IB (μA)
 
 
 
 
IB (μA)
 
 
 
 


Results:

The graphs shows the input and output characteristics of a transistor.

The document Theory & Procedure, Transistor Characteristics | Physics Class 12 - NEET is a part of the NEET Course Physics Class 12.
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FAQs on Theory & Procedure, Transistor Characteristics - Physics Class 12 - NEET

1. What is the theory behind transistor characteristics?
Ans. Transistor characteristics refer to the behaviors and properties of a transistor that determine its performance. The theory behind transistor characteristics involves understanding the relationship between voltage, current, and resistance in a transistor. It includes concepts such as base-emitter voltage, collector current, and the amplification factor. These characteristics help in analyzing and designing transistor circuits.
2. How can I determine the base-emitter voltage of a transistor?
Ans. The base-emitter voltage of a transistor can be determined by using a multimeter in diode mode. Connect the positive terminal of the multimeter to the base terminal and the negative terminal to the emitter terminal. The multimeter will display the forward voltage drop across the base-emitter junction, which represents the base-emitter voltage.
3. What are the common methods to measure collector current in a transistor?
Ans. There are several methods to measure collector current in a transistor. One common method is using a multimeter in ammeter mode. In this method, the collector-emitter path of the transistor is interrupted, and the ammeter is connected in series to measure the current flowing through the collector. Another method involves using a current mirror circuit to replicate the collector current and measuring it using a separate ammeter.
4. How does the amplification factor affect the performance of a transistor?
Ans. The amplification factor, also known as the beta (β) value, determines the amplification capability of a transistor. It represents the ratio of the change in collector current to the change in base current. A higher amplification factor indicates a higher amplification capability, which is desirable for transistor applications such as amplifiers. It determines the gain of the transistor circuit and influences its overall performance.
5. What is the procedure to analyze the output characteristics of a transistor?
Ans. To analyze the output characteristics of a transistor, the following steps can be followed: 1. Set up the transistor in a suitable circuit configuration. 2. Apply a range of input voltages or currents to the base terminal. 3. Measure the corresponding output current or voltage at the collector terminal. 4. Plot the measured values on a graph with the input on the x-axis and the output on the y-axis. 5. Analyze the shape and behavior of the graph to understand the output characteristics of the transistor, such as saturation region, cutoff region, and active region.
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