two-port network

Consider the two-port network shown. For maximum power transfer to the resistive load (RL), the value of RL should be ______ Ω (Round off to two decimal places)

Two passive two-port networks P and Q are connected as shown in the figure. The impedance matrix of network P is Zp = [40 Ω 60 Ω; 80 Ω 100 Ω]. The admittance matrix of network Q is...

The admittance parameters of the passive resistive two-port network shown in the figure are $y_{11} = 5 S, y_{22} = 1 S, y_{12} = y_{21} = -2.5 S$. The power delivered to the load...

In the two-port network shown, the h₁₁ parameter (where, h₁₁=V₁/I₁, when V₂=0) in ohms is ________ (up to 2 decimal places).

For the given 2-port network, the value of transfer impedance z₂₁ in ohms is _________.

Two passive two-port networks are connected in cascade as shown in figure. A voltage source is connected at port 1. Given V₁ = A₁V₂ + B₁I₂ I₁ = C₁V₂ + D₁I₂ V₂ = A₂V₃ + B₂I₃ I₂ = C₂...

In a linear two-port network, when 10 V is applied to Port 1, a current of 4 A flows through Port 2 when it is short-circuited. When 5V is applied to Port1, a current of 1.25 A flo...

The $$Z$$ matrix of a $$2$$ $$-$$ port network is given by $$\left[ {\matrix{ {0.9} & {0.2} \cr {0.2} & {0.6} \cr } } \right].$$ The element $${Y_{22}}$$ vof the corresponding $$Y$...

A passive 2-port network is in a steady state.Compare to its input, the steady state output can never offer

A two-port device is defined by the following pair of equations: $${i_1} = 2{v_1} + {v_2}$$ and $${i_2} = {v_1} + {v_2}$$ Its impedance parameters $$\left( {{z_{11}},\,\,{z_{12}},\...

If a two-port network is passive, then we have, with the usual notation, the following relationship