4. Determine i and v 4. Under the steady-state DC conditions, find i and v in...
1. For the circuit shown, find Vc under DC steady state conditions. ic = C4046, v. = L di(t) dt 112 522 m 12 V ( + vc +1F
Determine voltages v, to v in the circuit under DC conditions 2 6Ω 02 20 μF 3Ω 18 2 40 V(+ 4 2
Can coils be assumed to be resitive only under steady state dc conditions? Explain why (Experiment: determination of the resitance of a coil when a soft iron rod is placed between it)
Problem 5 (20%)-A Boost dc-dc converter is operating in DC steady state under the following condition: 玲= 4V, pO = 10V, Po = 40W and f, = 200kHz . The value of the inductor is selected such as that under these operating conditions, the peak-to-peak ripple Δ, 2.4. What is the value of the inductance L in uH ? Please provide your answer with calculation in details.
Problem 8 Find Vout for the following circuit under steady state conditions using voltage divider relations. Plot the magnitude and phase of Vout over a frequency range that clearly demonstrates the characteristics of this circuit. Does the circuit display a resonance? 200 V.cos(ot) ( 2uF Vout 0.1 H
In a Buck-Boost converter, \(L=25 \mu \mathrm{H}\). It is operating in dc steady state under the following conditions: \(V_{i n}=12 \mathrm{~V}, D\) \(=0.6, P_{o}=36 \mathrm{~W}\), and \(f_{s}=400 \mathrm{kHz}\). Assume ideal components.In this Buck-Boost converter, the output load is changing. Calculate the critical value of the output load \(P_{o}\) below which the converter will enter the discontinuous conduction mode of operation.(a) Calculate \(I_{\text {L.crit }}\) and \(I_{o, \text { crit }}\)(b) Calculate \(P_{o, \text { crit }}\)
An armature-controlled dc motor operates at steady state, with an armature drive voltage va = 10 V. The motor runs at 600 rpm, and the armature current is found to be ia = 0.2 A. The armature resistance is Ra = 15 Ω. Determine: (a) The torque constant km of the motor (b) Electrical damping constant be (c) The efficiency under the given operating conditions, if the mechanical damping constant is bm = 8.25 × 10−5 N ⋅ m/rad/s (d)...
(6 pts) Find Vc, Land the power dissipation across 6Ω resistor in the following circuit under DC (steady state) conditions 3. 500nH 4A 60 2Ω
Problem 5(15 pts) The shown circuit is in DC steady state at t <0. The switch moves from left to ri t-0. Find i(t) for t 20. 2t 10
Find the steady-state voltage v. Find the steady-state voltage o. 1 H 4 3 cos 2t A 26 cos(3t 30°) V