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4.7 Derive the [Z] and [Y] matrices for the two-port networks shown in the figure below....
5.3 Determine the scattering matrices of the two-port networks given in Figure 5.24. The port reference impedance is Zo for all ports. T-network Series impedance T-network o O o O Zo Figure 5.24 Series impedance, T- and -network (Problem 5.3)
5.3 Determine the scattering matrices of the two-port networks given in Figure 5.24. The port reference impedance is Zo for all ports. T-network Series impedance T-network o O o O Zo Figure 5.24 Series impedance, T- and -network (Problem 5.3)
parallel-series connection of two-port networks is shown in Fig. 5. Z11 25 Ω z12 20 Ω ,-10 Ω z11 50 Ω Z12 25 Ω Z,-25 Ω Fig.5 A complex network (1) Analytical part: Find the admittance [g] parameter.
Two augmented matrices for two linear systems in the variables x, y, and z are given below. The augmented matrices are in reduced row-echelon form. For each system, choose the best description of its solution If applicable, give the solution. 8 (loo 8 0106 001 -4 The system has no solution. The system has a unique solution (x, y, z) = 0.00 ? The system has infinitely many solutions. . (x... CD 00.-) (b) (1 0-1 1 2 01 15...
6.16 Prove that the effective noise temperature of k two-port networks in cascade is Тег . Тез Tek Using this relationship, prove Fries' formula, which is given in Equation (6.4.19)
6.16 Prove that the effective noise temperature of k two-port networks in cascade is Тег . Тез Tek Using this relationship, prove Fries' formula, which is given in Equation (6.4.19)
6. Design two single-stub matching networks as shown below. Transform the load impedance Z (60 j45) Ω to match an input impedance of Z,-(75+j90)Ω. Assume that both the stub and the transmission line shown below have a characteristic impedance of Zo-50 Ω. Zot I ZoL.l ZL lm in Open or -) : short circuit , open or short circuit
6. Design two single-stub matching networks as shown below. Transform the load impedance Z (60 j45) Ω to match an input...
2. Find Sn and S21 of the two-port series impedance Z using the setup below. The scattering parameters are referenced to Zo V2 2 Zo Vg Port 2 Port 1 Vi-
2. Find Sn and S21 of the two-port series impedance Z using the setup below. The scattering parameters are referenced to Zo V2 2 Zo Vg Port 2 Port 1 Vi-
Q31 For the figure shown below W is an input, (X, Y and Z) are connected to (S2, S and So), find the Boolean function F (W, X, Y, Z) in SOP and implement it use: 1. Multiplexer: One-piece (4 to 1) and external gates (W, X are selectors). 2. Decoder: Five (2 to 4) with AND gate. 0 1 8 to 1 MUX Do D, F OP D, S S S 35 Marks] X Y Z
Q31 For the...
PRINCIPLES OF BIOLOGY LABORATORY MANUAL tissues. In contrast, the neuron shown below in Figure 4.7 is long and thin with spe- cial branching extensions at both ends. Use your textbook and other resources to describe how the neuron's shape relates to its function. Coll body Nucleus Axon Figure 4.7. Neuron
Calculate the equivalent capacitance between points a and b for each of the two networks shown in the figure below. Each capacitor has a capacitance of 9.08 muF. (Give your answers to at least two decimal places.)
For the given RC circuit shown below, ys the output, and ut) is the input. Values of the components are marked on schematic i) Derive the system differential equation and transfer function Y(s)/U(s) ii) Choose voltage across capacitors as states and derive the state equations and state matrices (A, B, C,and D). iii) Validate the states by deriving the transfer function from state matrices. iv) Choose a different set of states and derive a different state equation and state Matrix...