week _ 04 fall 2011 ee402 aa
TRANSCRIPT
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Radiating Systems
EE-402
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ELECTRICAL CHARACTERISTICS OF
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• These primarily depends upon the
construction of the transmission line.
• Important parameters: line capacitance,inductance and conductance (the leakage
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no dielectric is perfect).
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• A uniform transmission line’s section can be
like:
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• For many applications the values for lineresistance and conductance (leakage) can be
neglected so the model would look like:
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CHARACTERISTIC IMPEDANCE OF THE
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•
Lets thought of an infinite line.• What should be its impedance?
• Logically infinite.
• But that is not the correct answer.
• An infinite line can be represented by infinite
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numbers of inductors and capacitors, onesuch section is shown in the previous figure.
• If a voltage is applied across the line, there
would be a current that would flow thru the
infinite line as well.
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•
But that current would be having a finitevalue.
• The ratio of that a lied volta e to that
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current shall give the characteristicimpedance of the line.
•
In other words Characteristic Impedance isthe finite impedance of the infinite line. It is
usually represented by Z0.
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Lets drive the expression for Z0 . Considerthe following circuit:
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• Hence we can say that the characteristic impedance
is independent of the length of the line.• Value of Z0 depends upon the distributed inductance
and the capacitance in the line.
• If the separation between the wires is increased,what shall happen to the inductance and capacitanceof the line?
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• Inductance shall increase, capacitance shalldecrease……why?
• Thus higher separation, greater characteristic
impedance of the line.• Conclusion: Characteristic impedance of the line thus
is a function of the line construction.
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• What would happen to the characteristic
impedance of the line if the diameter of the
conductors is reduced?
•Obviously this shall affect the capacitancemore than the inductance.
•
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the capacitor plates.
• This would definitely reduce the capacitance.
• And if the capacitance is reduced, as per theformula for characteristic impedance (Z0 =
√L/C), it is bound to increase.
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•
For a coaxial or concentric line the formula is:
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• Coax is not to be stepped or crimped….
why?????
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THEREFORE ITS Z0 WOULD GET CHANGED.