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Electrical Engineering (EE) Exam > Electrical Engineering (EE) Tests > Power Systems > Test: Surge Impedance - Electrical Engineering (EE) MCQ

Test: Surge Impedance - Electrical Engineering (EE) MCQ

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10 Questions MCQ Test Power Systems - Test: Surge Impedance

Test: Surge Impedance for Electrical Engineering (EE) 2024 is part of Power Systems preparation. The Test: Surge Impedance questions and answers have been prepared according to the Electrical Engineering (EE) exam syllabus.The Test: Surge Impedance MCQs are made for Electrical Engineering (EE) 2024 Exam. Find important definitions, questions, notes, meanings, examples, exercises, MCQs and online tests for Test: Surge Impedance below.

Solutions of Test: Surge Impedance questions in English are available as part of our Power Systems for Electrical Engineering (EE) & Test: Surge Impedance solutions in Hindi for Power Systems course. Download more important topics, notes, lectures and mock test series for Electrical Engineering (EE) Exam by signing up for free. Attempt Test: Surge Impedance | 10 questions in 30 minutes | Mock test for Electrical Engineering (EE) preparation | Free important questions MCQ to study Power Systems for Electrical Engineering (EE) Exam | Download free PDF with solutions

Test: Surge Impedance - Question 1

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The surge impedance of 50 km long underground cable is 50 ohm. For a 100 km. length of cable the surge impedance will be

A.
100 ohm
B.
200 ohm
C.
50 ohm
D.
150 ohm

Detailed Solution for Test: Surge Impedance - Question 1

Surge impedance:

The surge impedance or characteristic impedance of a long transmission line is given by,

Where,

Z is series impedance per unit length per phase

Y is shunt admittance per unit length per phase

In case of a lossless line (i.e. R = 0, G = 0), the surge impedance is given by

Surge impedance does not depend upon the length of the transmission line.
Surge impedance depends on the characteristics of the transmission line like diameter & spacing between the conductors.
So that surge impedance of 100 km and 50km long underground cable is 50 Ω.

Important Points

Surge impedance loading (SIL):

Surge impedance loading is defined as the power load in which the total reactive power of the lines becomes zero. The reactive power generated by the shunt capacitance is consumed by the series inductance of the line.

Test: Surge Impedance - Question 2

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The value of characteristic impedance in free space is equal to

Detailed Solution for Test: Surge Impedance - Question 2

The characteristic impedance of a wave travelling in a lossy medium is given by

Put σ = 0 (free space and lossless medium)

Where,

μ₀ = Permeability of free space = 4π x 10^-7 H / m

ϵ₀ = Permittivity of free space = 8.85 x 10^-12 F/m

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Test: Surge Impedance - Question 3

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An overhead line with surge impedance 400 ohm is terminated through a cable of impedance Z_c. A surcharge travelling over the line does NOT suffer any reflection at the junction. The value of Z_c is

A.
40 ohms
B.
500 ohms
C.
450 ohms
D.
None of these

Detailed Solution for Test: Surge Impedance - Question 3

When a loss-free overhead transmission line is terminated through a resistance equal to surge Impedance of the line, there will be no reflection of travelling wave hence the value of R is 400 Ω.

Important Points:

The surge impedance or characteristic impedance of a long transmission line is given by,

Z is series impedance per unit length per phase

Y is shunt admittance per unit length per phase

Surge Impedance for the transmission line is about 400 ohms it is around 40 ohms for underground cables.

Surge impedance loading (SIL):

Test: Surge Impedance - Question 4

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Surge impedance (Z_c) of the long transmission line is given by:

Detailed Solution for Test: Surge Impedance - Question 4

The surge impedance or characteristic impedance of a long transmission line is given by,

Surge impedance loading (SIL):

Test: Surge Impedance - Question 5

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The surge impedance of a 400 km long overhead transmission line is 400 ohms. For a 200 km length of the same line, the surge impedance will be _________.

A.
200 ohms
B.
800 ohms
C.
400 ohms
D.
100 ohms

Detailed Solution for Test: Surge Impedance - Question 5

The surge impedance is always same in any length of the transmission line. It does not depend on the length of the transmission line

Here

L = transmission line inductance,

C = transmission line capacitance,

Zs = surge impedance

For a 200 km length of the same line, the surge impedance

= 400 ohms

Test: Surge Impedance - Question 6

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What is the surge impedance of cable?

A.
5 Ω
B.
20 Ω
C.
10 Ω
D.
50 Ω

Detailed Solution for Test: Surge Impedance - Question 6

The equation for surge impedance is given by

Where, L = inductance in henry

C = capacitance in farad

An impedance which renders the line as the infinite line is known as surge impedance. It has a value of about 400 ohms and a phase angle varying from 0 to -15 degrees for overhead lines and around 40 ohms for underground cables.

For overhead line surge impedance is given by 400-600 Ω

For underground cable surge impedance is given by 40-60 Ω

Test: Surge Impedance - Question 7

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If for a unit distance, a cable has a unit inductance and unit impedance, what will be the magnitude of surge impedance?

A.
1 ohm
B.
Infinite
C.
√2 ohm
D.
Zero

Detailed Solution for Test: Surge Impedance - Question 7

Concept:

Surge impedance loading: It is defined as the power load in which the total reactive power of the lines becomes zero.

The reactive power generated by the shunt capacitance is consumed by the series inductance of the line.

Surge impedance is used in the prediction of maximum loading capacity of transmission lines and is given by,

Calculation:

l = 1, X_L = 1, Z = 1

Where,

l = length of line

X_L = Inductance of line per unit length

X_C = Capacitance of line per unit length

Z = Impedance of line per unit length

Z_s = Surge impedance

Therefore, magnitude of surge impedance = 0 Ω

Test: Surge Impedance - Question 8

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The surge impedance value of overhead lines is

A.
50 to 100 ohms
B.
400 to 600 ohms
C.
800 to 1000 ohms
D.
10 to 50 ohms

Detailed Solution for Test: Surge Impedance - Question 8

The equation for surge impedance is given by

Where L = inductance in henry

C = capacitance in farad

An impedance which renders the line as the infinite line is known as surge impedance. It has a value of about 400 ohms and phase angle varying from 0 to -15 degrees for overhead lines and around 40 ohms for underground cables.

For overhead line surge impedance is given by 400-600 Ω

For underground cable surge impedance is given by 40-60 Ω

Test: Surge Impedance - Question 9

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A pair of high frequency parallel transmission lines has distributed capacitance and inductance of 1 μF and 10 mH respectively. Characteristic impedance of the line is

A.
125 Ω
B.
110 Ω
C.
98.26 Ω
D.
100 Ω

Detailed Solution for Test: Surge Impedance - Question 9

Concept:

Characteristic impedance

Where, L is per phase line inductance

C is per phase line capacitance

Power transfer capability under surge impedance loading is given by,

Calculation:

Given that,

Line inductance (L) = 10 mH

Line capacitance (C) = 1 μF

Test: Surge Impedance - Question 10

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The SIL (Surge Impedance Loading) of the transmission line for given configuration 3-phase, 200 kV, 400 ohm is:

A.
400 MW
B.
100 MW
C.
200 MW
D.
160 MW

Detailed Solution for Test: Surge Impedance - Question 10

Concept:
The surge impedance or characteristic impedance of a long transmission line is given by,

Z is series impedance per unit length per phase

Y is shunt admittance per unit length per phase

The surge Impedance for the transmission line is about 400 ohms it is around 40 ohms for underground cables.

Surge impedance loading (SIL):

Surge impedance loading is defined as the power load in which the total reactive power of the lines becomes zero.
The reactive power generated by the shunt capacitance is consumed by the series inductance of the line.

Calculation:

Given:

Surge impedance (Z_C) = 400 Ω

Voltage (V) = 200 kV

Surge impedance loading =

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