1. The circuit shown in the figure is a/an a. XOR gate b. AND gate c. XNOR gate d. OR gate 2. From the circuit shown, if the inputs A and B are both 1, Q3 is/has a. in the active region b. saturated c. at cut-off d. a collector-emitter voltage equal to 0 V 3. From the circuit shown, if the inputs A and B are 1 and 0 respectively, Q3 is/has a. at cut-off b. saturated c. in the active region d. a positive collector-base voltage 4. From the circuit shown, if the inputs A and B are 0 and 1 respectively, Q5 is/has/will| a. a negative base-collector voltage b. a collector-emitter voltage approximately 0 V c. at cut-off d. cause the LED to turn off
1. The circuit shown in the figure is a/an a. XOR gate b. AND gate c. XNOR gate d. OR gate 2. From the circuit shown, if the inputs A and B are both 1, Q3 is/has a. in the active region b. saturated c. at cut-off d. a collector-emitter voltage equal to 0 V 3. From the circuit shown, if the inputs A and B are 1 and 0 respectively, Q3 is/has a. at cut-off b. saturated c. in the active region d. a positive collector-base voltage 4. From the circuit shown, if the inputs A and B are 0 and 1 respectively, Q5 is/has/will| a. a negative base-collector voltage b. a collector-emitter voltage approximately 0 V c. at cut-off d. cause the LED to turn off
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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Question
1. The circuit shown in the figure is a/an
a. XOR gate
b. AND gate
c. XNOR gate
d. OR gate
2. From the circuit shown, if the inputs A and B are both 1, Q3 is/has
a. in the active region
b. saturated
c. at cut-off
d. a collector-emitter voltage equal to 0 V
3. From the circuit shown, if the inputs A and B are 1 and 0 respectively, Q3 is/has
3. From the circuit shown, if the inputs A and B are 1 and 0 respectively, Q3 is/has
a. at cut-off
b. saturated
c. in the active region
d. a positive collector-base voltage
4. From the circuit shown, if the inputs A and B are 0 and 1 respectively, Q5 is/has/will|
4. From the circuit shown, if the inputs A and B are 0 and 1 respectively, Q5 is/has/will|
a. a negative base-collector voltage
b. a collector-emitter voltage approximately 0 V
c. at cut-off
d. cause the LED to turn off
Transcribed Image Text:V1
-5V
$1
Key=A
$2
Key B
R12
3000
Rb1
ww
30002
Q1
Q2
Rc3
3000
Q3
Rc45
www
3000
Q4
LED1
Q5
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