9.15 One of the more interesting applications of a diode,based on the diode equation, is an electronicthermometer. The concept is based on the empiricalobservation that if the current through a diode is nearlyconstant, the offset voltage is nearly a linear functionof the temperature, as shown in Figure P9.15(a).a. Show that ip in the circuit of Figure P9.15(b) isnearly constant in the face of variations in the diodevoltage, vp. This can be done by computing thepercent change in in for a given percent change invp. Assume that vp changes by 10 percent, from0.6 to 0.66 V.b. On the basis of the graph of Figure P9.15(a), writean equation for vp (T°) of the formvp = a T° +BV,(V)0.80.60.40.20°50°100°T ("C)(a)10 k215 V

(a) Write the expression for the current iD in the circuit.

Answered: 9.15 One of the more interesting…

Introductory Circuit Analysis (13th Edition)

13th Edition

ISBN:9780133923605

Author:Robert L. Boylestad

Publisher:Robert L. Boylestad

Chapter1: Introduction

Section: Chapter Questions

Problem 1P: Visit your local library (at school or home) and describe the extent to which it provides literature...

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Similar questions

Consider the voltage regulator shown in Figure P9.28. The source voltage Vs varies from 10 to 14 V, and the load current iL varies from 50 to 100 mA. Assume that the Zener diode is ideal. Determine the largest value allowed for the resistance Rs so that the load voltage vL remains constant with variations in load current and source voltage. Determine the maximum power dissipation in Rs.
What is an ideal diode? Draw its volt–ampere characteristic. After solving a circuit with ideal diodes, what check is necessary for diodes initially assumed to be on? Off?
Show the downward shift of the output signal with the series capacitor and diode.Clampers or DC restorers are clamp a peak of a waveform to a specific DC level comparedwith a capacitively coupled signal which swings about its average DC level (usually 0V).If the diode is removed from the clamper, it defaults to a simple coupling capacitor– noWhat is the clamp voltage? And, which peak gets clamped? Why is this so? Voltage values: Capasitor value: 1000 pFDC offset: 0 VAmplitude: 5 VFreq: 1 KHz
Suppose we have a 10-Hz sinusoidal voltage source, vin(t). Draw the diagram of a circuit that clamps the positive peaks to -4 V. The circuit should be composed of ideal diodes, dc voltage sources, and other components as needed. List any constraints that should be observed in selecting component values. Be sure to label the terminals across which the clamped output waveform vo(t) appears.
Consider the circuit of Figure P9.9. Determinewhether the diode is conducting or not. Assume thatthe diode is an ideal diode. Consider: VC = 10 V and VB = 15 V. (Ignore the values in the figure)
Consider the circuit of Figure P9.9. Determinewhether the diode is conducting or not. Assume thatthe diode is an ideal diode. Consider: VC = 15 V (Ignore the value in the figure)
Suppose we have a 10-V-peak sinusoidal voltage source. Draw the diagram of a circuit that clips off the part of the sinusoid above 5 V and below -4 V. The circuit should be composed of ideal diodes, dc voltage sources, and other components as needed. Be sure to label the terminals across which the clipped output waveform vo(t) appears.
Draw the circuit diagram of a single phase full-wave uncontrolledrectifier with R-load. Describe its principle of operation. Draw thewaveforms of: input voltage, voltage across the load, current throughthe diodes and their voltage. Write the expressions for: the averageoutput voltage Vd, the maximum reverse voltage across the diode and thestandard transformer power. Describe what the difference will be if acapacitor is added in parallel with the load at the output.
Sketch the transfer characteristic (vo versus vin) to scale for the circuit shown in Figure P9.64. Assume that the diode is ideal.
Determine the value that the unknown emf (E) must have so that the potential V12 = 9v
Design a clamp circuit to clamp the negative extreme of a periodic input waveform to -5 V. Use diodes, Zener diodes, and resistors of any values required. Assume a 0.6-V forward drop for all diodes and that the Zener diodes have an ideal characteristic in the breakdown region. Power-supply voltages of ±15 V are available. Repeat Problem P9.75 for a clamp voltage of +5 V.
Consider the circuit of Figure P9.9. Determinewhether the diode is conducting or not. Assume thatthe diode is an ideal diode.

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