Introductory Circuit Analysis (13th Edition)
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ISBN: 9780133923605
Author: Robert L. Boylestad
Publisher: PEARSON
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Transcribed Image Text:1. For a 60Hz, 9Vms
AC input, with
250 Ohms load, determine VDc across the load, for FWR power supply, (show the required
circuit). Draw the waveform on the load.
2. If C=200uf, filter capacitor is applied across the load: Calculate Vpp ripple and VDc, for the load.
3. Determine PIV on the diodes
4. If one of the diodes become open, what would be VDc and V,
load.
across the load, with & without capacitor. Draw the waveform on the
fms,
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- Consider the circuit shown below. A string of four identical diodes is used so that Vo = 2.8V when IL = 0, and Vo changes by 16 mV per 1mA of load current. Assume n=1.7. (i) Find the small signal (incremental) resistance rd for each diode. (ii) Find the value of R.arrow_forwardMake a sketch of the I–V characteristic curve for a diode with Is = 0.02 pA for VD values from zero to 0.7 V. Use the approximation ID = Is e^(Vd/VT) What is the slope of a line tangent to the curve at ID = 2 mA?arrow_forwardPlease find the correct answer by solving the problemarrow_forward
- A Full-wave bridge rectifier Circuit contains 4 Germanium diodes Cuse the Constant voltage drop model with VD = 0.30) driving ac a Load resistance of 10 kur. An Source with a Peak value of 4ou at bottz Vortage Source with a applied to the Circuit. a DIS 2 Determine the de value of the output wave form Determine the value of the Capacitor In uf needed to limit the output ripple vortage to 0.5 V if the Peak output voltage is equal to Upic -2VDarrow_forwardb. Calculate the following about the circuit in the figure (If silicon diodes are employed in the rectification);i. the peak value of the output voltage considering the drop across each diode, Vpk.ii. the average voltage, Vdc. iii. The current through the load resistor, IL.iv. The current diode, Id.v. The frequency of the output signal, Fout.vi. Calculate the efficiency of the full wave rectifier expressed in percentage. vii. Sketch a graph of the input and output voltage against time.arrow_forwardAssume now that the diode D1 is forward biased. Represent the diode with the constant voltage drop model (0.7V) and determine the expression (or value) for the voltage that appears across the diode, VD. This gives you the other part of the transfer function.arrow_forward
- Consider the half-wave rectifier shown below. It needs to deliver 0.1 A and an average of 15 V to a load. The source is 60 Hz and the diode has a 0.7 V drop. The allowable ripple is no more than 0.4 V (2.5%). Find: Peak AC voltage Vm of the source a) b) The minimum value of the smoothing capacitor(s) c) Comment on the type of capacitor and its/their values you would use for this amount of capacitance vs(t) K Load ULarrow_forward. A half-wave rectifier is needed to supply 15-V dc to a load that draws an average current of 300 mA. The peak-to-peak ripple is required to be 0.2 V or less. What is the minimum value allowed for the smoothing capacitance?arrow_forwardPlease answer (d), (e), and (f). Part (d) is mislabeled as the second part (c).arrow_forward
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