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Transcript of 09/16/2010© 2010 NTUST Chapter 6 Yu-Chi Lai 賴祐吉. 09/16/2010© 2010 NTUST Most practical...
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09/16/2010 © 2010 NTUST
Chapter 6
Yu-Chi Lai 賴祐吉
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• Most practical circuits have combinations of series and parallel components.
• Components that are connected in series will share a common path.
• Components that are connected in parallel will be connected across the same two nodes.
1 2
Identifying Series-Parallel Relationships
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• Most practical circuits have various combinations of series and parallel components. You can frequently simplify analysis by combining series and parallel components.
An important analysis method is to form an equivalent circuit. An equivalent circuit is one that has characteristics that are electrically the same as another circuit but is generally simpler.
Combination Circuits
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R 1
R 2R 2
1
1 .0 k
1 .0 k
For example:
is equivalent to R 11
2 .0 k
• There are no electrical measurements that can distinguish the boxes.
Equivalent Circuits
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Another example:
• There are no electrical measurements that can distinguish the boxes.
R R1 2
1 .0 k 1 .0 kR
1 ,2
5 0 0
is equivalent to
Equivalent Circuits
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R
R1
R 2R 2
31 .0 k
4 .7 k2 .7 k
is equivalent to
R R1 ,2 3
4 .7 k3 .7 k
R 1 ,2 ,3
2 .0 7 k
is equivalent to
• There are no electrical measurements that can distinguish between the three boxes.
Equivalent Circuit
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• Kirchhoff’s voltage law and Kirchhoff’s current law can be applied to any circuit, including combination circuits.
R5100
R3330
R 2470
R1270
V S5 .0 V
R4
100
R6
100 Sta rt/Finish
R5100
R3330
R 2470
R1270
V S5 .0 V
R4
100
R6
100 Sta rt/Finish
So will this path!
For example, applying KVL, the path shown will have a sum of 0 V.
Equivalent Circuits
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I
+
+
26.5 mA
I
+18.5 mA
I
+8.0 mA
R5100
R3330
R2470
R1270
VS5.0 V
R4
100
R6
100
A- -
-
• Kirchoff’s current law can also be applied to the same circuit. What are the readings for node A?
Equivalent Circuit
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• Tabulating current, resistance, voltage and power is a useful way to summarize parameters. Solve for the unknown quantities in the circuit shown.
I1= R1= 270 V1= P1=
I2= R2= 330 V2= P2=
I3= R3= 470 V3= P3=
IT= RT= VS= 10 V PT=
4.18 V
4.18 V
5.82 V
21.6 mA
8.9 mA
12.7 mA
21.6 mA 126 mW
53.1 mW
37.2 mW
216 mW
R1
R3
470
270
R2
330
VS +10 V
464
Combination Circuits
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• Kirchhoff’s laws can be applied as a check on the answer.
I1= R1= 270 V1= P1=
I2= R2= 330 V2= P2=
I3= R3= 470 V3= P3=
IT= RT= VS= 10 V PT=
4.18 V
4.18 V
5.82 V
21.6 mA
8.9 mA
12.7 mA
21.6 mA 126 mW
53.1 mW
37.2 mW
216 mW464
R1
R3
470
270
R2
330
VS +10 V
equal to the sum of the branch currents in R2 and R3.
• Notice that the current in R1 is
The sum of the voltages around the outside loop is zero.
Combination Circuits
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• A voltage-divider with a resistive load is a combinational circuit and the voltage divider is said to be loaded. The loading reduces the total resistance from node A to ground.
• The voltage-divider equation was developed for a series circuit. Recall that the output voltage is given by
A
22 S
T
RV V
R
R1
R2 R3
+
Loaded Voltage Divider
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AWhat is the voltage across R3?
Form an equivalent series circuit by combining R2 and R3; then apply the voltage-divider formula to the equivalent circuit:
2,33 2,3 S
1 2,3
387 15 V
330 387
RV V V
R R
+15 V R1
R2 R3
330
470 2.2 k
VS =
2,3 2 3 470 2.2 k = 387 R R R
8.10 V
Loaded Voltage Divider
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Loading effect of a voltmeter
• All measurements affect the quantity being measured. A voltmeter has internal resistance, which can change the resistance of the circuit under test. In this case, a 1 M internal resistance of the meter accounts for the readings.
• Assume VS = 10 V, but the meter reads only 4.04 V when it is across either R1 or R2.
R1
470 k
R2
47 k0
VS +10 V
+ 10 V
• Can you explain what is happening?
+4.04 V
+4.04 V
Loading Effect of A Voltimeter
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• The Wheatstone bridge consists of a dc voltage source and four resistive arms forming two voltage dividers. The output is taken between the dividers. Frequently, one of the bridge resistors is adjustable.
• When the bridge is balanced, the output voltage is zero,and the products of resistances in the opposite diagonal arms are equal.
Wheatstone Bridge
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Wheatstone Bridge
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• A Wheatstone bridge is in balanced condition when is equal to zero
• Therefore, the voltages across and are equal to the voltages across and are equal
• The voltage ratios can be written as
4
2
3
1
V
V
V
V
1R 2R
3R 4R
outV
Balanced Wheatstone Bridge
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• Substituting for gives
• Since and the current terms are canceled
• Solving for results in the following formula:
IR V
44
22
33
11
RI
RI
RI
RI
4
2
3
1
R
R
R
R
31 II 42 II
4
231 R
RRR
1R
Balanced Wheatstone Bridge
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Usage of Wheatstone Bridge
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Usage of Wheatstone Bridge
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Example: What is the value of R3 if the bridge is balanced? 384
Wheatstone Bridge
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Example
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Examples
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Examples
• Thevenin’s theorem states that any two-terminal, resistive circuit can be replaced with a simple equivalent circuit when viewed from two output terminals. The equivalent circuit is:
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• Thevenin’s theorem provides a method for simplifying a circuit to a standard equivalent form.
• In many cases, this theorem can be used to simplify the analysis of series-parallel circuits.
• Thevenin’s theorem form of any two-terminal resistive circuit consists of an equivalent voltage source and an equivalent resistance as shown in previous figure
• Any two-terminal resistive circuit can be simplified to a Thevenin equivalent regardless of its complexity
THVTHR
Thevenin’s Theorem
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VTH is defined as
RTH is defined as • the open circuit voltage between the two output terminals of a circuit.
• the total resistance appearing between the two output terminals when all sources have been replaced by their internal resistances.
Thevenin’s Theorem
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Thevenin’s Theorem
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Thevenin’s Theorem
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Thevenin’s Theorem
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Thevenin’s Theorem
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Thevenin’s Theorem
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Examples
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Examples
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Examples
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Examples
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R
R
1
R 2R 2 L
V SV S
1 2 V1 0 k
6 8 k2 7 k
Output terminals
What is the Thevenin voltage for the circuit? 8.76 V
What is the Thevenin resistance for the circuit? 7.30 k
Thevenin’s Theorem
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• Thevenin’s theorem is useful for solving the Wheatstone bridge. One way to Thevenize the bridge is to create two Thevenin circuits - from A to ground and from B to ground.
• The resistance between point A and ground is R1||R3 and the resistance from B to ground is R2||R4. The voltage on each side of the bridge is found using the voltage divider rule.
R3 R4
R2
RL
R1VS
-
+A B
Thevenin’s Theorem
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For the bridge shown, R1||R3 = and R2||R4 = . The voltage from A to ground (with no load) is and from B to ground (with no load) is .
The Thevenin circuits for each of the bridge are shown on the following slide.
165 179
7.5 V 6.87 V
R3 R4
R2
RL
R1VS
-
+A B
330 390
330 330
+15 V150
Thevenin’s Theorem
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• Putting the load on the Thevenin circuits and applying the superposition theorem allows you to calculate the load current. The load current is:
RLA B
150 VTH VTH
RTH RTH'
'165 179
7.5 V 6.87 V
A B
VTH VTH
RTH RTH'
'165 179
7.5 V 6.87 V
1.27 mA
Thevenin’s Theorem
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Examples
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Examples
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Examples
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Examples
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Summary of Thevenin Theorem
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• The maximum power is transferred from a source to a load when the load resistance is equal to the internal source resistance.
• The maximum power transfer theorem assumes the source voltage and resistance are fixed.
RS
RL
VS +
Maximum Power Transfer
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Maximum Power Transfer
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Maximum Power Transfer
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What is the power delivered to the matching load?
The voltage to the load is 5.0 V. The power delivered is
RS
RL
VS + 50
50 10 V
22
LL
5.0 V= 0.5 W
50
VP
R
Maximum Power Transfer
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Example
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Examples
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Examples
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Examples
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Examples
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• The superposition theorem is a way to determine currents and voltages in a linear circuit that has multiple sources by taking one source at a time and algebraically summing the results.
What does the ammeter read for I2? (See next slide for the method and the answer).
Superposition Theorem
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6.10 k
• What does the ammeter read for I2?
1.97 mA 0.98 mA
8.73 k 2.06 mA
+-
-
+
-
+
R 1 R 3
R 2
I 2
V S 2V S 1
1 2 V
2 .7 k 6 .8 k
6 .8 k
1 8 V
0.58 mA
1.56 mA
Source 1: RT(S1)= I1= I2= Source 2: RT(S2)= I3= I2= Both sources I2=
• Set up a table of pertinent information and solve for each quantity listed:
The total current is the algebraic sum.
+ -
-
+
R1 R3
R2
I2VS1
12 V
2.7 k 6.8 k
6.8 k
+ -
-
+
R1 R3
R2
I2
VS2
2.7 k 6.8 k
6.8 k
18 V1.56 mA
Example
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Superposition Theorem
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Superposition Theorem
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Superposition Theorem
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Superposition Theorem
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Superposition Theorem
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Superposition Theorem
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Superposition Theorem
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Superposition Theorem
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Example
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Example
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Example
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Example
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• The effective troubleshooter must think logically about circuit operation.
Understand normal circuit operation and find out the symptoms of the failure.
Decide on a logical set of steps to find the fault.
Following the steps in the plan, make measurements to isolate the problem. Modify the plan if necessary.
Troubleshooting
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The output of the voltage-divider is 6.0 V. Describe how you would use analysis and planning in finding the fault.
From an earlier calculation, V3 should equal 8.10 V. A low voltage is most likely caused by a low source voltage or incorrect resistors (possibly R1 and R2 reversed). If the circuit is new, incorrect components are possible.
Decide on a logical set of steps to locate the fault. You could decide to 1) check the source voltage, 2) disconnect the load and check the output voltage, and if it is correct, 3) check the load resistance. If R3 is correct, check other resistors.
A+15 V R1
R2 R3
330
470 2.2 k
VS =
Troubleshooting
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Loading
Load current
Bleeder current
Wheatstone bridge
The current left after the load current is subtracted from the total current into the circuit.
The output current supplied to a load.
The effect on a circuit when an element that draws current from the circuit is connected across the output terminals.
A 4-legged type of bridge circuit with which an unknown resistance can be accurately measured using the balanced state. Deviations in resistance can be measured using the unbalanced state.
Key Terms
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Thevenin’s theorem
Maximum power transfer
Superposition
The condition, when the load resistance equals the source resistance, under which maximum power is transferred to the load.
A method for analyzing circuits with two or more sources by examining the effects of each source by itself and then combining the effects.
A circuit theorem that provides for reducing any two-terminal resistive circuit to a single equivalent voltage source in series with an equivalent resistance.
Key Terms
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1. Two circuits that are equivalent have the same
a. number of components
b. response to an electrical stimulus
c. internal power dissipation
d. all of the above
Quiz
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2. If a series equivalent circuit is drawn for a complex circuit, the equivalent circuit can be analyzed with
a. the voltage divider theorem
b. Kirchhoff’s voltage law
c. both of the above
d. none of the above
Quiz
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3. For the circuit shown,
a. R1 is in series with R2
b. R1 is in parallel with R2
c. R2 is in series with R3
d. R2 is in parallel with R3
-
+
R 1
R 3
R 2
V S
Quiz
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4. For the circuit shown,
a. R1 is in series with R2
b. R4 is in parallel with R1
c. R2 is in parallel with R3
d. none of the above
-
+R 1
R 4
R 3
R 2
V S
Quiz
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5. A signal generator has an output voltage of 2.0 V with no load. When a 600 load is connected to it, the output drops to 1.0 V. The Thevenin resistance of the generator is
a. 300
b. 600
c. 900
d. 1200 .
Quiz
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6. For the circuit shown, Kirchhoff's voltage law
a. applies only to the outside loop
b. applies only to the A junction.
c. can be applied to any closed path.
d. does not apply. R1
R3
470
270
R2
330
VS +10 V A
Quiz
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7. The effect of changing a measured quantity due to connecting an instrument to a circuit is called
a. loading
b. clipping
c. distortion
d. loss of precision
Quiz
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8. An unbalanced Wheatstone bridge has the voltages shown. The voltage across R4 is
a. 4.0 V
b. 5.0 V
c. 6.0 V
d. 7.0 V
-
+
R L
R 1R 3
R 4R 2
V S
12 V
1 .0 V
7 .0 V+ -
Quiz
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9. Assume R2 is adjusted until the Wheatstone bridge is balanced. At this point, the voltage across R4 is measured and found to be 5.0 V. The voltage across R1 will be
a. 4.0 V
b. 5.0 V
c. 6.0 V
d. 7.0 V
-
+
RL
R1R3
R4R2
VS
12 V
5.0 V
+ -
Quiz
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10. Maximum power is transferred from a fixed source when
a. the load resistor is ½ the source resistance
b. the load resistor is equal to the source resistance
c. the load resistor is twice the source resistance
d. none of the above
Quiz
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Answers:
1. b
2. c
3. d
4. d
5. b
6. c
7. a
8. a
9. d
10. b
Quiz