Problem 3. (13 Points) RI For the RLC circuit in the figure a-Determine the state variable...
Consider the following RLC circuit, v1 and v2 are the two inputs and v0 is the output. (a) Obtain the state-space representation for the system if the state variables are defined as vc and iL. (b) Draw a signal flow graph based on the state-space model obtained in (a). (c) The output can be derived as V0(s) = G1(s)V1(s) + G2(s)V2(s). Use the state-space model obtained in (a) to find the transfer fnctions G1(s) and G2(s). 2 0
3. (Bonus) Determine a state variable model for the circuit in Figure 2. Note that If the voltage at the left and right hand side of a resistor R is v and vR, respectively, and the current is assumed to flow through the resistor from left to right, then the current passing through the resistor R is iR We know that the voltage drop across a capacitor is uc = the current passing through the capacitor branch is ic cat,...
Score 2. (22 points) For the circuit in Figure 2, the transistor parameters are: 2 0, VN=2V, Ka-1mA/V2, all the capacitors are assumed to act as short circuits at the signal frequency (1) Calculate the Q-point (Vos. I Vos); (2) Sketch the small-signal equivalent circuit, you must label the polarities of the voltages and the direction of the current; (3) Determine the voltage gain A, vo/v (4) Determine the input resistance Ri and output resistance Ro V1 5 10 V...
Q5) In the series RLC of the figure, the switch is closed att and the circuit is initially relaxed, Determine the current iſt). State if the circuit is over, under or critically dumped. (SHOW ALL OUR WORK) (5 points) 2H 42 ww 20 V 0.5 F Vet
Ri R2 Vi 5Ω 10Ω 10 V 10 Figure 1: The circuit of Problem 1 Find V2(t) for all time t20 for the circuit shown in Fig. 1 with initial conditions Vi(0) 3V anc ½(0) = 1 V. Ri R2 Vi 5Ω 10Ω 10 V 10 Figure 1: The circuit of Problem 1 Find V2(t) for all time t20 for the circuit shown in Fig. 1 with initial conditions Vi(0) 3V anc ½(0) = 1 V.
slove please Name/Date: 2. Given the npa BJT common emitnter amplifier circuit in Figure 2, assume e given below, and determine the following a) [DC Analysis] Find: α-- -h" V. Va and VCE Use above answers to confirm active mode; state the bias (i.e. FB or RB)criteria equations, and the values: V. BE- b) [Small Signal Parameters) Find cSmall Signal Model) Use x-model; draw the complete small signal equivalent circuit below. d)[Small Signal Analysis] Find the following values: R R_...
need help on some review of a RLC circuit. better? thats the part i need help on fig. a lice c Vekt) A vet) R=4002 =1,274 c=1.25 uf lert fig. b A sea venting switching 2nd order ckt can be modled when the gate function Shown in fy b is applied to the parallel LLC ckt shown in Fig a Veo)=5v & i (o)=0A a.) find b.) find ilt) & vlts for oftasoms ilsoms), visoms), & dils & dicsoms) c.)...
1.2 [12 points] Determine the transfer functions for the following systems. (a) A system described by the signal flow graph below: -1 Figure 2 (b) A second-order system with input u and output y described by the state variable model below: i- Ax + Bu y -2x, 01 where x- A-TT
Problem 1. Derive the state space model for each of the following circuit, using voltages on the capacitors as the state variables: tot Problem 2. Find the state space representation for the system with the following signal flow graph.
1. Design the common source amplifier shown in Figure 1 with Ip- 1 mA and Vo 5 V Determine V2 and Ri. The MOSFET characteristics are V-50 V, k-0.093 A/V, gate-to- drain capacitance, Cd 40 pF, and Vi 1.1 V. (For PSpice simulations, use parameters: VTO. 1.1 LAMBDA-002 KP-0.093 CGDO-4E-7 w=100u L-I00u for the 2N7000 MOSFET.) a. Determine the gain and gm of the circuit b. Determine the low-frequency (high-pass response) poles of the common-source amplifier due to the coupling...