Unit 7 Multivibrator (Using Transistor) By Dr. Meenakshi Rana.pdf
- 1. Semiconductor Devices, Analog and Digital Electronics Department of Physics Uttarakhand Open University, Haldwani Dr. Meenakshi Rana BLOCK – I SEMICONDUCTOR DIODES, TRANSISTORS AND AMPLIFIERS UNIT 7: Multivibrators (Using Transistors)
- 2. Content 1. Introduction 2. Invention of multivibrator 3. Classification of multivibrator Astable Monostable Bistable 1. Applications of multivibrator 2. Some useful link
- 3. Objective After studying this unit, you should be able to- 1. Define multivibrator 2. Classification of Basic multivibrator 3. Understand the Basic Concept of multivibrator 4. Get Knowledge About the Condition for Oscillator 5. Application of multivibrator
- 4. •A multivibrator is an electronic circuit that is used to implement two state systems like oscillators, timers and flip-flops. •It is characterized by two amplifying devices (transistors or other devices) cross- coupled by resistors or capacitors Introduction Invention of Multivibrator A vacuum tube Abraham-Bloch multivibrator oscillator, France, 1920. Henri Abraham and Eugene Bloch described the first multivibrator circuit in 1920, also called a plate-coupled multivibrator. It was made from vacuum tubes and its harmonics are being used to calibrate a wavemeter .
- 5. There are three types of multivibrator circuits depending on the circuit operation: Astable – neither state is stable. Monostable - one of the states is stable, but the other is not. Bistable – it remains in either state indefinitely. Classification of Multivibrator
- 6. Astable Astable Multivibrator A Multivibrator that generates square waveform without using external triggering pulse is known as Astable multivibrator. It also known as Free-running Multivibrator .
- 7. This astable circuit consists of two transistors, a cross coupled Feedback network, and two capacitors and four resistors. Circuit diagram of Astable Multivibrator
- 8. Consider Q1 is ON and Q2 is OFF: VCC drops across RL 1. Hence, VC1 = 0 and point A is at ground potential and Vc2=Vcc. C1 discharging and C2 charging. Astable Multivibrator
- 9. Consider Q2 is ON and Q1 is OFF: VCC drops across RL 2. Hence, VC2 = 0 and point B is at ground potential and Vc1=Vcc. C2 discharging and C1 charging.
- 11. It can be proved that off-time for Q1 is T1 = 0.69 R1C2 and that for Q2 is T2 = 0.69 R2C1. Hence, total time-period of the wave is T = T1 + T2 = 0.69 (R1C2 + R2C1) If R1 = R2 = R and C1 = C2 = C i.e. the two stages are symmetrical, then T = 1.38 RC It is given by the reciprocal of time period, Used in applications where low clock frequency clock pulse train is required. Relaxation oscillators, which are parts of vehicle indicator lights, early oscilloscopes and television receivers. Timing signals. Application Frequency of Oscillation
- 12. A Multivibrator which has one stable state and one temporary quasi- stable state and level transition depends on external triggering pulse is known as Monostable Multivibrator. Monostable Multivibrator
- 13. Circuit diagram of Monostable Multivibrator
- 14. When the circuit is switched ON, transistor Q1 will be OFF and Q2 will be ON. Capacitor C1 gets charged during this state. When a positive trigger is applied to the base of transistor Q1 it turns ON, which turns OFF the transistor Q2 Monostable Multivibrator
- 15. Capacitor C1 starts discharging during this state. Transistor Q1 remains in ON state due the positive voltage from the collector of transistor Q2 which is in OFF state. Transistor Q2 remains in OFF state until the capacitor C1 discharges completely. When the capacitor C1 discharged completely, transistor Q2 turns ON, which turns transistor Q1 OFF.
- 16. Monostable Multivibrator are used in analog systems to control an output signal frequency. To synchronize the line and frame rate of television broadcasts. To hold output voltages in its unstable state for a certain period of time. To moderate the tunes of different octaves with electronic organs. Application
- 17. A multivibrator that has two absolute stable state and can stay in one of two states indefinitely is known as Bi-stable multivibrator. It changes it state when it gets triggering pulse and stay in that state until it gets another triggering pulse. Bi-stable Multivibrator
- 18. When VCC is applied, one transistor will start conducting slightly more than that of the other. Let Q2 be ON and Q1 be OFF. When Q2 is ON, The potential at the collector of Q2 decreases, which in turn will decrease the potential at the base of Q1 due to potential divider action of R1 and R2. The potential at the collector of Q1 increases which in turn further increases the base to emitter voltage at the base of Q2. The voltage at the collector of Q2 further decreases, which in turn further reduces the voltage at the base of Q1. This action will continue till Q2 becomes fully saturated and Q1 becomes fully cutoff. Thus the stable state of binary is such that one device remains in cut-off and other device remains at saturation. It will be in that state until the triggering pulse is applied to it. It has two stable states. For every transition of states triggering is required. At a time only one device will be conducting.
- 19. It is used for the performance of many digital operations such as counting and storing binary information. It is also used in the generation and processing of pulse-type waveforms. It is widely used in digital logic and computer memory Application
- 21. Thanks