EBK POWER SYSTEM ANALYSIS AND DESIGN
6th Edition
ISBN: 9781305886957
Author: Glover
Publisher: CENGAGE LEARNING - CONSIGNMENT
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Question
Chapter 2, Problem 2.4MCQ
To determine
The condition of the voltage and current phasors for a purely resistive circuit.
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ASK Modulator/Demodulator
U1
VD Signal in
VT out
X1
W
R1
VC Carrier in
w
x2
100K
3
Y1
4
Y2 AD633 Z
VR1
10K
VR1
Multiplier(1)
I
U2
Vx out
X1
W
R3
2
w
x2
In2
100K
3
۲۱
I
Y2 AD633
Z
VR2
R2
10K
C4
100K
VR2
Multiplier(2)
+5V
200p
R5
R6
R101K
ww w
2.7K
22K
1N4148
D1
559
VE out
D+
In(ac)
6 0H
200p
HH
6
VLP out
Vo out
U3
VR
0.01
0.1u
R8
VR3
ww
50K
Envelope Detector
10K
U3
LF356
VR3
LPF
U4Σ
LM311
Comparator
U5
PLL in CS
HH
14 SIGN IN
0.1u
6 CIA
PC1OUT 2
PULSES
PHASE(2)
COMPARATOR OUT 13.
C10
HT
150p R16
ww
R12
VSO
C6
200p
VCO OUT 4
IK
in
R14
C9
18K
10 O
w
7 Cle
H
VLO out
6
15K
VCO
150p
06
11 R1
CD4046
VCO IN 9
VR5
1K
12 R2
0.0047u
C7
I
Demod
C8 out
10
SOURCE
FOLLOWER
R11
100K
INH
COMP IN
5
3
VR4
+5V+12V GND-12V
о
HTO
0.1u
R13
10K
I
PL
VR5
Figure 18-10 KL-94005 module
R15
U6Σ
OP37
BPF
DUC
1. Is the waveform on VT out terminal an ASK modulated signal?
TS
PROD
2. Is the waveform on VT out terminal an OOK modulated signal?
ASK Modulator/Demodulator
U1
VD Signal in
VT out
X1
W
R1
VC Carrier in
w
x2
100K
3
Y1
4
Y2 AD633 Z
VR1
10K
VR1
Multiplier(1)
I
U2
Vx out
X1
W
R3
2
w
x2
In2
100K
3
۲۱
I
Y2 AD633
Z
VR2
R2
10K
C4
100K
VR2
Multiplier(2)
+5V
200p
R5
R6
R101K
ww w
2.7K
22K
1N4148
D1
559
VE out
D+
In(ac)
6 0H
200p
HH
6
VLP out
Vo out
U3
VR
0.01
0.1u
R8
VR3
ww
50K
Envelope Detector
10K
U3
LF356
VR3
LPF
U4Σ
LM311
Comparator
U5
PLL in CS
HH
14 SIGN IN
PC1OUT 2
0.1u
6 CIA
PULSES
PHASE(2)
COMPARATOR
OUT 13
C10
HT
150p R16
ww
R12
VSO
18K
C6
200p
VCO OUT 4
IK
in
R14
C9
10 O
w
H
VLO out
6
7 Cle
15K
VCO
150p
06
11 R1
CD4046
VCO IN 9
VR5
1K
12 R2
0.0047u
C7
I
Demod
C8 out
10
SOURCE
FOLLOWER
R11
100K
INH
COMP IN
5
3
VR4
+5V+12V GND-12V
о
HTO
0.1u
R13
10K
I
PL
Figure 18-10 KL-94005 module
VR5
R15
U6Σ
OP37
BPF
Chapter 2 Solutions
EBK POWER SYSTEM ANALYSIS AND DESIGN
Ch. 2 - The rms value of v(t)=Vmaxcos(t+) is given by a....Ch. 2 - If the rms phasor of a voltage is given by V=12060...Ch. 2 - If a phasor representation of a current is given...Ch. 2 - Prob. 2.4MCQCh. 2 - Prob. 2.5MCQCh. 2 - Prob. 2.6MCQCh. 2 - Prob. 2.7MCQCh. 2 - Prob. 2.8MCQCh. 2 - Prob. 2.9MCQCh. 2 - The average value of a double-frequency sinusoid,...
Ch. 2 - The power factor for an inductive circuit (R-L...Ch. 2 - The power factor for a capacitive circuit (R-C...Ch. 2 - Prob. 2.13MCQCh. 2 - The instantaneous power absorbed by the load in a...Ch. 2 - Prob. 2.15MCQCh. 2 - With generator conyention, where the current...Ch. 2 - Consider the load convention that is used for the...Ch. 2 - Prob. 2.18MCQCh. 2 - The admittance of the impedance j12 is given by...Ch. 2 - Consider Figure 2.9 of the text, Let the nodal...Ch. 2 - The three-phase source line-to-neutral voltages...Ch. 2 - In a balanced three-phase Y-connected system with...Ch. 2 - In a balanced system, the phasor sum of the...Ch. 2 - Consider a three-phase Y-connected source feeding...Ch. 2 - For a balanced- load supplied by a balanced...Ch. 2 - A balanced -load can be converted to an...Ch. 2 - When working with balanced three-phase circuits,...Ch. 2 - The total instantaneous power delivered by a...Ch. 2 - The total instantaneous power absorbed by a...Ch. 2 - Under balanced operating conditions, consider the...Ch. 2 - One advantage of balanced three-phase systems over...Ch. 2 - While the instantaneous electric power delivered...Ch. 2 - Given the complex numbers A1=630 and A2=4+j5, (a)...Ch. 2 - Convert the following instantaneous currents to...Ch. 2 - The instantaneous voltage across a circuit element...Ch. 2 - For the single-phase circuit shown in Figure...Ch. 2 - A 60Hz, single-phase source with V=27730 volts is...Ch. 2 - (a) Transform v(t)=75cos(377t15) to phasor form....Ch. 2 - Let a 100V sinusoidal source be connected to a...Ch. 2 - Consider the circuit shown in Figure 2.23 in time...Ch. 2 - For the circuit shown in Figure 2.24, compute the...Ch. 2 - For the circuit element of Problem 2.3, calculate...Ch. 2 - Prob. 2.11PCh. 2 - The voltage v(t)=359.3cos(t)volts is applied to a...Ch. 2 - Prob. 2.13PCh. 2 - A single-phase source is applied to a...Ch. 2 - Let a voltage source v(t)=4cos(t+60) be connected...Ch. 2 - A single-phase, 120V(rms),60Hz source supplies...Ch. 2 - Consider a load impedance of Z=jwL connected to a...Ch. 2 - Let a series RLC network be connected to a source...Ch. 2 - Consider a single-phase load with an applied...Ch. 2 - A circuit consists of two impedances, Z1=2030 and...Ch. 2 - An industrial plant consisting primarily of...Ch. 2 - The real power delivered by a source to two...Ch. 2 - A single-phase source has a terminal voltage...Ch. 2 - A source supplies power to the following three...Ch. 2 - Consider the series RLC circuit of Problem 2.7 and...Ch. 2 - A small manufacturing plant is located 2 km down a...Ch. 2 - An industrial load consisting of a bank of...Ch. 2 - Three loads are connected in parallel across a...Ch. 2 - Prob. 2.29PCh. 2 - Figure 2.26 shows three loads connected in...Ch. 2 - Consider two interconnected voltage sources...Ch. 2 - Prob. 2.35PCh. 2 - Prob. 2.36PCh. 2 - Prob. 2.37PCh. 2 - Prob. 2.38PCh. 2 - Prob. 2.39PCh. 2 - A balanced three-phase 240-V source supplies a...Ch. 2 - Prob. 2.41PCh. 2 - A balanced -connected impedance load with (12+j9)...Ch. 2 - A three-phase line, which has an impedance of...Ch. 2 - Two balanced three-phase loads that are connected...Ch. 2 - Two balanced Y-connected loads, one drawing 10 kW...Ch. 2 - Three identical impedances Z=3030 are connected in...Ch. 2 - Two three-phase generators supply a three-phase...Ch. 2 - Prob. 2.48PCh. 2 - Figure 2.33 gives the general -Y transformation....Ch. 2 - Consider the balanced three-phase system shown in...Ch. 2 - A three-phase line with an impedance of...Ch. 2 - A balanced three-phase load is connected to a...Ch. 2 - What is a microgrid?Ch. 2 - What are the benefits of microgrids?Ch. 2 - Prob. CCSQCh. 2 - Prob. DCSQ
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Similar questions
- h e 6. Discuss the relationship between Vx out and VLP out signals. 7. Describe the function of comparator. ASK Modulator/Demodulator U1 VD Signal in VT out X1 W R1 VC Carrier in w x2 100K 3 Y1 4 Y2 AD633 Z VR1 10K VR1 Multiplier(1) I U2 Vx out X1 W R3 2 w x2 In2 100K 3 ۲۱ I Y2 AD633 Z VR2 R2 10K C4 100K VR2 Multiplier(2) +5V 200p R5 R6 R101K ww w 2.7K 22K 1N4148 D1 559 VE out D+ In(ac) 6 0H 200p HH 6 VLP out Vo out U3 VR 0.01 0.1u R8 VR3 ww 50K Envelope Detector 10K U3 LF356 VR3 LPF U4Σ LM311 Comparator U5 PLL in CS HH 14 SIGN IN 0.1u 6 CIA PC1OUT 2 PULSES PHASE(2) COMPARATOR OUT 13. C10 HT 150p R16 ww R12 VSO C6 200p VCO OUT 4 IK in R14 C9 18K 10 O w 7 Cle H VLO out 6 15K VCO 150p 06 11 R1 CD4046 VCO IN 9 VR5 1K 12 R2 0.0047u C7 I Demod C8 out 10 SOURCE FOLLOWER R11 100K INH COMP IN 5 3 VR4 +5V+12V GND-12V о HTO 0.1u R13 10K I PL VR5 Figure 18-10 KL-94005 module R15 U6Σ OP37 BPFarrow_forwardChoose one of the choices indicated in the parentheses such as the following sentences have correct messing What is the main purpose of a communication system? a) To transmit information from one point to another b) To amplify signals for better reception c) To filter out unwanted noise dy To generate carrier waves for modulation 2. What the purpose of the modulator in a communication system? a) To generate the cares wave for modulation b) To convert the information signal to a modulated signal c) To filter out unwanted noise d) To amplify the modulated signal for transmission Which component in an FM transmitter is responsible for generating the carrier signal? a) Mixer b) Modulator c) Demodulator d) Oscillator 4 For a FM signal v(t) 25 cos (15 deviation 10 (3456 4 24669, 7321 7.21284) 117 10 sm 15501). Maximum frequency 5. In an AM receiver, which component is responsible for separating the modulating signal from the received AM signal? a) Mixer b) Modulator c) Demodulator dy…arrow_forwardQ1. Choose the correct answer: 1. Increasing the amplitude of a square pulse (increases, decreases, maintains not related) the spectrum range in the frequency domain. 2. A continuous FT indicates a signal. (continuous, discrete, periodic non-periodic). the pulse duration is proportional to the amplitude of the signal. (PAM, PWM, PPM, 3. In ASK). . In VSB transmission (both sidebands are used, single sideband is used, single sideband and part of the other sideband, only the vestige of the carrier signal is used). 5. An economic FDM receiver design should contain simultaneous reception, selective reception). 6. In AMI code, the shapes of "1" and "0" are dependent, not related to each other). 7. In FDM the guard band is used to (pilot carrier zero crossing detector, (the same) opposite to each other, next bit increase the overlap between FDM signals, decrease the overlap between FDM signals, increase the baseband bandwidth, decrease the baseband bandwidth). 20 3. Higher number of levels…arrow_forward
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