Part B: 1. 2. 3. Circuit A 1. Connect the circuit below. Circuit B 2. Conclusion: 3. 4. Circuit B Measure the voltage drop across the resistor and across the diode and record them on the table below. 5 V Use Ohm's law to calculate the current in circuit A and record it in the table below. (hint: You have the voltage and resistance - find the current) 1kQ2 Total Voltage Voltage across resistor Voltage across LED Current Current Total through Through Current LED resistor Based on information from class, which configuration is forward biased and why? For each circuit, explain the value of the voltage drop across the resistor. Is there a current present? Why? Identify the Anode and Cathode of the Diode. Explain how you can tell both visually and by its operation in the circuit. Comment on the differences between the two circuits and the effect the diode has in each circuit.

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...
Question

Please help me with these diode questions

 

Part B:
1.
2.
3.
Circuit A
1.
Connect the circuit below.
Circuit B
2.
Conclusion:
3.
4.
Circuit B
Measure the voltage drop across the resistor and across the diode and record them
on the table below.
5 V
Use Ohm's law to calculate the current in circuit A and record it in the table below.
(hint: You have the voltage and resistance - find the current)
1kQ
Total
Voltage
Voltage
across
resistor
Voltage
across
LED
Current Current
through Through
resistor LED
Total
Current
Based on information from class, which configuration is forward biased and why?
For each circuit, explain the value of the voltage drop across the resistor. Is there a
current present? Why?
Identify the Anode and Cathode of the Diode. Explain how you can tell both visually
and by its operation in the circuit.
Comment on the differences between the two circuits and the effect the diode has in
each circuit.
Transcribed Image Text:Part B: 1. 2. 3. Circuit A 1. Connect the circuit below. Circuit B 2. Conclusion: 3. 4. Circuit B Measure the voltage drop across the resistor and across the diode and record them on the table below. 5 V Use Ohm's law to calculate the current in circuit A and record it in the table below. (hint: You have the voltage and resistance - find the current) 1kQ Total Voltage Voltage across resistor Voltage across LED Current Current through Through resistor LED Total Current Based on information from class, which configuration is forward biased and why? For each circuit, explain the value of the voltage drop across the resistor. Is there a current present? Why? Identify the Anode and Cathode of the Diode. Explain how you can tell both visually and by its operation in the circuit. Comment on the differences between the two circuits and the effect the diode has in each circuit.
Lab - The diode
PURPOSE: To study the current control characteristics of a diode.
OBJECTIVES:
Identify forward and reverse bias diodes in a circuit.
Use the test equipment to aid in the investigation of diodes.
The diode is a device used to control current. It conducts current only in one direction. There are
two basic ways that it can be connected in a circuit to produce different results, forward bias
and reverse bias.
Low power small signal diodes, Zener diodes, photodiodes and light emitting diodes are just a
few examples of diodes. In this lab you will use Light Emitting Diodes (LEDs) to investigate the
two different connections of a diode and their effects on a circuit.
PROCEDURE:
Part A:
1.
2.
3.
Connect the circuit shown below.
5V
1kQ
Circuit A
Measure the voltage drop across the resistor and across the diode and record
them on the table below.
Use Ohm's law to calculate the current in circuit A and record it in the table
below. (hint: You have the voltage and resistance - find the current)
Transcribed Image Text:Lab - The diode PURPOSE: To study the current control characteristics of a diode. OBJECTIVES: Identify forward and reverse bias diodes in a circuit. Use the test equipment to aid in the investigation of diodes. The diode is a device used to control current. It conducts current only in one direction. There are two basic ways that it can be connected in a circuit to produce different results, forward bias and reverse bias. Low power small signal diodes, Zener diodes, photodiodes and light emitting diodes are just a few examples of diodes. In this lab you will use Light Emitting Diodes (LEDs) to investigate the two different connections of a diode and their effects on a circuit. PROCEDURE: Part A: 1. 2. 3. Connect the circuit shown below. 5V 1kQ Circuit A Measure the voltage drop across the resistor and across the diode and record them on the table below. Use Ohm's law to calculate the current in circuit A and record it in the table below. (hint: You have the voltage and resistance - find the current)
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