Material Needed: 2- IN4001 Silicon Diodes 1- 1K resistor 1 - 10K resistor 1k Ohm (A) IN4001 ELECTRONIC WORKBENCH OUTP DATA SWI (B] IN4001 B DATA SW2 Figure 3.1 Procedure : 1. Wire the circuit shown in Figure 3.1. The inputs A and B come from DATA SWITCHES SW1 and SW2. You will measure the output voltage C with respect to ground. 2. Using SW1 and SW2, apply the input voltages indicated in Table I to the logic gate. For each set of inputs, monitor the output voltage and record in Table I. 3. Using positive logic assignments, convert the voltage levels in Table I into binary 1's and 0's and transfer to Table II Table I Table |I Table III A C A OV OV OV +5V +5V OV +5V +5V 4. Study Table Il and determine the logic function being performed. Logic Function Convert the voltage levels in Table I into 1's and 0's using negative logic assignment and transfer to Table III. NEGATIVE LOGIC is that the logic is zero (0) if voltage is above 3 volts and logic one (1) if the voltage is below 2 volts. 5. Study Table IIlI and determine the logic function being performed. Logic Function 平
Material Needed: 2- IN4001 Silicon Diodes 1- 1K resistor 1 - 10K resistor 1k Ohm (A) IN4001 ELECTRONIC WORKBENCH OUTP DATA SWI (B] IN4001 B DATA SW2 Figure 3.1 Procedure : 1. Wire the circuit shown in Figure 3.1. The inputs A and B come from DATA SWITCHES SW1 and SW2. You will measure the output voltage C with respect to ground. 2. Using SW1 and SW2, apply the input voltages indicated in Table I to the logic gate. For each set of inputs, monitor the output voltage and record in Table I. 3. Using positive logic assignments, convert the voltage levels in Table I into binary 1's and 0's and transfer to Table II Table I Table |I Table III A C A OV OV OV +5V +5V OV +5V +5V 4. Study Table Il and determine the logic function being performed. Logic Function Convert the voltage levels in Table I into 1's and 0's using negative logic assignment and transfer to Table III. NEGATIVE LOGIC is that the logic is zero (0) if voltage is above 3 volts and logic one (1) if the voltage is below 2 volts. 5. Study Table IIlI and determine the logic function being performed. Logic Function 平
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...
Related questions
Question
![+Vcc
Material Needed :
2- IN4001 Silicon Diodes
1 - 1K resistor
1- 10K resistor
1k Ohm
(A]
IN4001
A
ELECTRONIC WORKBENCH
OUTPUT
DATA SW1
[B]
IN4001
B
DATA SW2
Figure 3.1
Procedure :
1. Wire the circuit shown in Figure 3.1. The inputs A and B come from DATA SWITCHES SW1
and SW2. You will measure the output voltage C with respect to ground.
2. Using SW1 and SW2, apply the input voltages indicated in Table I to the logic gate. For
each set of inputs, monitor the output voltage and record in Table I.
3. Using positive logic assignments, convert the voltage levels in Table I into binary 1's and O's
and transfer to Table II
Table I
Table II
Table III
A
В
A
B
A
B
OV
OV
OV
+5V
+5V
OV
+5V
+5V
4. Study Table Il and determine the logic function being performed.
Logic Function
Convert the voltage levels in Table I into 1's and O's using negative logic assignment and
transfer to Table III.
NEGATIVE LOGIC is that the logic is zero (0) if voltage is above 3 volts and logic one
(1) if the voltage is below 2 volts.
5. Study Table IIl and determine the logic function being performed.
Logic Function](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2Fee8f227f-44e4-4078-b339-a9aa131322cd%2F3d158ded-eae0-4c1d-8aa4-d4d0cb7ccacb%2F7012e6_processed.jpeg&w=3840&q=75)
Transcribed Image Text:+Vcc
Material Needed :
2- IN4001 Silicon Diodes
1 - 1K resistor
1- 10K resistor
1k Ohm
(A]
IN4001
A
ELECTRONIC WORKBENCH
OUTPUT
DATA SW1
[B]
IN4001
B
DATA SW2
Figure 3.1
Procedure :
1. Wire the circuit shown in Figure 3.1. The inputs A and B come from DATA SWITCHES SW1
and SW2. You will measure the output voltage C with respect to ground.
2. Using SW1 and SW2, apply the input voltages indicated in Table I to the logic gate. For
each set of inputs, monitor the output voltage and record in Table I.
3. Using positive logic assignments, convert the voltage levels in Table I into binary 1's and O's
and transfer to Table II
Table I
Table II
Table III
A
В
A
B
A
B
OV
OV
OV
+5V
+5V
OV
+5V
+5V
4. Study Table Il and determine the logic function being performed.
Logic Function
Convert the voltage levels in Table I into 1's and O's using negative logic assignment and
transfer to Table III.
NEGATIVE LOGIC is that the logic is zero (0) if voltage is above 3 volts and logic one
(1) if the voltage is below 2 volts.
5. Study Table IIl and determine the logic function being performed.
Logic Function
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