Analog & Digital Electronics Course No: PH-218



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Analog & Digital Electronics Course No: PH-18 Lec 3: Rectifier and Clipper circuits Course nstructors: Dr. A. P. VAJPEY Department of Physics, ndian nstitute of Technology Guwahati, ndia 1

Rectifier Circuits: AC to DC conversion Role of different circuit components Transformer: Step down AC voltage amplitude to the desired DC voltage (by selecting an appropriate turn ratio N 1 /N for the transformer) solate equipment from power-line Rectifier: converts an ac input to a unipolar output Filter: convert the pulsating input to a nearly constant dc output Regulator: Reduce the ripple of the dc voltage

Semiconductor diode: Few Applications Rectifiers Since a diode p-n junction conducts in one direction but not in the reverse direction, diodes can be used to convert ac voltages into dc voltages. deal diode approximation 3

Half wave Rectifier: n positive half cycle, D is forward biased and conducts. Thus the output voltage is same as the input voltage. n the negative half cycle, D is reverse biased, and therefore output voltage is zero Efficiency of half wave rectifier: The ratio of dc power output to the applied input a.c power is known as rectifier efficiency, denoted by η. Max efficiency = 40.6% R η = 0. 406 r + R f L L PV= V s Tutorial Problem1: Prove the expression for a half wave rectifier efficiency and explain What happened to the remaining 60%. 4

Full Wave Rectifier: n the first half cycle D 1 is forward biased and conducts. But D is reverse biased and does not conduct. n the second half cycle D is forward biased, and conducts and D 1 is reverse biased. PV= V s -V D R η = 0. 81 r + R Disadvantage: 1. Difficult to locate the centre tap on the secondary winding.. The dc output is small as each diode utilise only half of the secondary voltage. f L L 5

Full Wave Bridge Rectifier: Positive V s : Negative V s : Current always flows in one direction through the load resistance R, regardless of whether v S is positive or negative. n the positive half cycle, D 1 & D are forward biased and D 3 & D 4 are reverse biased. n the negative half cycle, D 3 & D 3 are forward biased, and D 1 & D are reverse biased. 6

Full Wave Bridge Rectifier: Disadvantage: The main disadvantage is that it requires four diodes. When low dc voltage is required then secondary voltage is low and diodes drop (1.4V) becomes significant. Therefore, for low dc output, -pulse center tap rectifier is used because only one diode drop is there. Advantages: The need for the centre tapped transformer is eliminated. PV is about half the value for full wave rectifier with a center tapped transformer so diodes with lower breakdown voltage can be used hence cheaper. The output is twice that of the centre tap circuit for the same secondary voltage. 7

Ripple factor of diode rectifier: The effectiveness of a rectifier depends upon the magnitude of ac component in the output; smaller the ac component, the more effective is the rectifier. Ripple factor is a measure of effectiveness of a rectifier circuit and defined as a ratio of rms value of ac component to the dc component in the rectifier output. = + dc dc ac Ripplefact or = ac rms rms dc ac = 1 dc = For half wave rectifier: m Ripple factor = 1.1 = m rms dc For full wave rectifier: m m Ripple factor = 0.48 rms = dc = Π Π 8

Clippers: Clippers are the circuit that employ diodes to remove a portion of an input signal without distorting the remaining part of the applied waveform. A clipper can serve as a protective measure, preventing a signal from exceeding the clip limits. A practical application of a clipper is to prevent an amplified speech signal from overdriving a radio transmitter. Over driving the transmitter generates spurious radio signals which causes interference with other stations. The clipper is a protective measure. Reference: http://www.allaboutcircuits.com/vol_3/chpt_3/6.html 9

Clipper Circuit - 1: f v i < V R, diode is reversed biased and does not conduct. Therefore, v o = v i and, if v i > V R, diode is forward biased and thus, v o = V R. Clipper Circuit : f v i > V R, diode is reverse biased. v o = v i and, f v i < V R, diode is forward biased. v o = V R 10

Clipper Circuit 3: 11

Clipper Circuits: 1

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