For a T shaped network, if the Short-circuit admittance parameters are y11, y12, y21, y22, then y22 in terms of Inverse Transmission parameters can be expressed as ________(a) y22 = \(\frac{A’}{B’}\)(b) y22 = – \(\frac{1}{B’}\)(c) y22 = \(\left(C’ – \frac{D’ A’}{B’}\right)\)(d) y22 = \(\frac{D’}{B’}\)I had been asked this question by my college professor while I was bunking the class.My question is based upon Relation between Transmission Parameters with Short Circuit Admittance and Open Circuit Impedance Parameters topic in chapter Two-Port Networks of Network Theory

For a T shaped network, if the Short-circuit admittance parameters are

1.	For a T shaped network, if the Short-circuit admittance parameters are y11, y12, y21, y22, then y22 in terms of Inverse Transmission parameters can be expressed as ________(a) y22 = \(\frac{A’}{B’}\)(b) y22 = – \(\frac{1}{B’}\)(c) y22 = \(\left(C’ – \frac{D’ A’}{B’}\right)\)(d) y22 = \(\frac{D’}{B’}\)I had been asked this question by my college professor while I was bunking the class.My question is based upon Relation between Transmission Parameters with Short Circuit Admittance and Open Circuit Impedance Parameters topic in chapter Two-Port Networks of Network Theory
Answer» Correct answer is (d) y22 = \(\frac{D’}{B’}\) For explanation I would SAY: We know that, V2 = A’V1 – B’I1 ……… (1) I2 = C’V1 – D’I1 …………… (2) And, I1 = y11 V1 + y12 V2 ……… (3) I2 = y21 V1 + y22 V2 ………. (4) Now, (1) and (2) can be rewritten as, I1 = – \(\frac{1}{B’} V_2 + \frac{A’}{B’} V_1\) …………. (5) And I2 = C’V1 – D’ \(\left(- \frac{1}{B’} V_2 + \frac{A’}{B’} V_1\right) = \left(C’ – \frac{D’ A’}{B’}\right) V_1 + \frac{D’}{B’} V_2\) ………… (6) COMPARING equations (3), (4) and (5), (6), we get, y11 =\(\frac{A’}{B’}\) y12 = – \(\frac{1}{B’}\) y21 = \(\left(C’ – \frac{D’ A’}{B’}\right)\) y22 =\(\frac{D’}{B’}\).

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