Introductory Circuit Analysis (13th Edition)
13th Edition
ISBN: 9780133923605
Author: Robert L. Boylestad
Publisher: PEARSON
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- Draw the circuit diagram with shape of signal after transformer, after bridge rectifier, with capacitor and with voltage regulator.arrow_forwardExercises: 1. A full-wave bridge rectifier isolated from the 220 V rms power line by a transformer. Assuming the diode voltage drops are 0.7 V. i. What turns ratio should the transformer have in order to produce an average current of 1A in a 10 load? ii. What is the average current in each diode under the conditions of (i)? iii. What minimum PIV rating should each diode have? iv. How much power is dissipated by each diode? 2. A full-wave bridge rectifier is operated from a 50 Hz, 220 V rms line. It has a 100 μF filter capacitor and a 2 k 2 load. Neglect diode voltage drops. i. What is the percent ripple? ii. What is the average current in the load?arrow_forwardA 2500-V, 2-A, dc power supply is to be designed with a ripple voltage ≤ 0.5 percent. Assume that a half-wave rectifier circuit (60 Hz) with a capacitor filter is used. (a) What is the size of the filter capacitor C? (b) What is the minimum PIV rating for the diode? (c) What is the rms value of the transformer voltage needed for the rectifier? (d) What is the peak value of the repetitive current in the diode? (e) What is the surge current at t =0+?arrow_forward
- PROBLEM SET 1. Derive the formula for the RMS value for the following a) b) 3m 2. Design a rectifier fed from 220-V line through a step-down transformer. The load requires an average voltage of 9 V and average power of 2.5 W. Use each of the three circuits: half-wave, center-tapped full-wave and bridge type full-wave. 3. Following the analysis applied to the half-wave rectifier with capacitor filter, show how to arrive at the output waveform for a center-tapped full-wave with filter capacitor. See output waveform on page 90. 4. Given: Half-wave rectifier; transformer secondary voltage = 32 V; Capacitance 4700 µF; average load voltage 18 V. Determine ripple factor and average load current 5. Design a half-wave rectifier with a capacitor filter that will deliver to the load an average voltage is 15 V at 280 mA. Ripple should not be higher than 5%. 6. Given: The input to a voltage regulator circuit varies from 11.4 to 12.2 V. The load voltage is to be maintained at 9.1V with maximum…arrow_forwardDraw the circuits, voltage and current plot of: a. A halfwave rectifier with capacitor filter b. A fullwave rectifier with capacitor filter c. A Full wave rectifier with center tap transformer and derive the equations of all of themarrow_forwardL, m, n is only needed plsarrow_forward
- s/ Introduction to Electronic Analysis and Design - CE255/EE255 - 01 - Spring : One of the disadvantages of the Full-wave 2-diode rectifier circuit is Select one: a. it reduces the output with double the forward diode voltage drop. b. PIV equals to the supply voltage c. the need to use a center-tapped transformer.arrow_forwardDesign a full-wave bridge type power supply. Design the transformer, filter and regulator section. For the rectifier part, choose diode with appropriate PIV rating. Use standard values for your design. The output dc voltage should be 7.5 V and the Maximum output power be 20 mW.arrow_forwardCreate a rectifier circuit that provides an output of 100vdc by using the following circuit: a. Half Wave Rectifier In each circuit, calculate the following if the power is taken from a 220V line AC supply a. transformer peak voltage rating b. diode PIV ratings c. transformer turns ratioarrow_forward
- ans fast pleasearrow_forwardThe main advantage of a bridge rectifier using tha same input transformer as a full-ave rectifier is that _______________. a) İt will double the output voltage. b) less current is required fort he diodes to conduct. c) the ripple frequency is twice that of the full wave rectifier. d) the ripple frequency is on-half that of the full wave rectifier.arrow_forwardClipping Circuits is vertically shifted of the output signal when a positive DC component applied to the input signal. True False Half - wave rectifier consists of center-tapped transformer attached with two diodes True False Bridge of four resistors can function as a normal full- wave rectifier. True Falsearrow_forward
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