Summary - it is basic problem so I have shown step by step solution for it
Derive a model of the voltage of capacitor-1 (ve(t). The circuit is switched on after t-o. Ic Ie ...
Derive a solution for the voltage across the capacitor C1 in Fig. 1 as a function of time from t 0 ms to t 125 ms if the switches are controlled as shown in Fig. 2. The initial capacitor voltage is -9 V. Show all of your work. 1. S4 R3 R1 S1 V1+ C1+ R2 V2+ yti Fig. 1. Switched RC circuit. V1-9 V, V2--15 V, R14.7 k2, R2-3.3 kQ, R3 2.2
6: In the circuit shown in Figure-6, input voltage of 15V de was switched ON at t-o. (a) Convert the circuit its Laplace equivalent at t >0, if ILO)-2A and vc (0)-6V. b) Find the capacitor voltage, Ve (s) in the frequency domain (c) Solve Ve (t) in the time domain. Switch L= 5H t-o 15V (0 ) = 2A V (o =6V 0.1F 6: In the circuit shown in Figure-6, input voltage of 15V de was switched ON at...
Problem 1 Assume the capacitor (C=10uF) is initially fully discharged. Sketch the Ve(t) and Ic(t) as a function of time as the switch moves from position 1 to 2 to 3 (Assume the capacitor is fully charged before moving to the next switch position). Provide all equations governing the waveforms and their respective time constants. VC. Ic 11+ A R2 =1012 С R1 =512 5V R3 =2012 $12V
For the circuit shown, what is the first order derivative of the voltage across the capacitor dV/dt immediately AFTER the switch opens Vs-15V R2-10Q C1-500mF R2 open@t=0 C1 Vs R1 lc O -2 V/s O 2 V/s 6V/s
Consider the circuit of Figure 1. The voltage source vs and resistance Rs comprise a circuit model of a function generator. 1. Find the circuit time constant ? for t?0. Assuming that the capacitor is initially uncharged, find and accurately sketch vR(t) and vC(t) for t?0. Calculate vR(t) and vC(t) for t = 0, ?, 2?, 3?, 4?, and 5? seconds. 2. Find the 10-90% rise time of vC(t) (this is the time required for vC(t) to transition from 10%...
1) An input step voltage Vin(t)=10 u(t) Volt is applied to the circuit shown below. The initial voltage on the capacitor is zero. Using Laplace transform techniques, calculate the resulting output voltage Vout(t). R1 R2 Vout 2000 Vin c1 1000 1uF R3 1000
3) For the circuit below, determine the voltage ve(t) across the capacitor for t > 0. 14kr o 6kr 60v Velt) – 300MF 8kr
Consider the series RLC circuit in Figure 1. Suppose the source voltage is initially OV, and no energy is stored in both the capacitor and inductor. At t = 0, the source voltage is switched to 1V. Calculate the resistor, inductor and capacitor voltages, and the loop current V (t),,(t),Vc(t),i(t). Show all the steps. C1 L1 1.2u 8.2m 10 3 R1 Figure 1: A series RLC circuit
Given the circuit below: R3 C1 Vout C2 R1 R3 Vin R2 ts 1 a) derive the transfer function between the input and the output in terms of R1,C1,R2,C2 b) For this and all other parts below, assume Izl<Ipl, i..e that D(s) is a lead-type compensator. The transfer function is written in the following format ts 1 Express quantities K, z, p using R1,C1,R2,C2 Also, express Κα, α, τ using K,z, p c) Observe the values of s-jw on the...
uncharged capacitor C1 is charging. At the time inst . capacitor CI - 80 F, and ressitor R-10 kOhm are connected as magnitude, find (a) voltage on resistor R1 and Next, when C1 is fully charged, the switch charges capacitor C2 = 30 F. (d) Find the voltage on the magnitude of electric charge of C1 then? s charging. At the time instant b or R=10 kOhm are connected as shown and the initially u t in the circuit is...