Q2) A single phase half-wave uncontrolled rectifier with RL load is shown below With R-1000 L 01H w-377rad/s and V 100V, Determine a) An expression for the load current i(t). b) The value of the current at t 16 ms c) The average load current (10 marks) 7 RV そ0 -121 34.7 Vsinfwr) + VE 0.360
Q2) A single phase half-wave uncontrolled rectifier with RL load is shown below With R-1000 L 01H w-377rad/s and V 100V, Determine a) An...
If (W/L)1 = (W/L)2 = (W/L) and
VIN = 0.9 V, calculate ID and the range of VB for which both
transistors are in saturation.
2. For the circuit shown below, (W/L) = 50. a. If (W/L)1 = (W/L)2 = (W/L) and Vin = 0.9 V, calculate lo and the range of Ve for which both transistors are in saturation. b. If 4*(W/L)1 = (W/L)2 = (W/L) and Vin = 0.9 V, calculate lp and the range of Ve for...
3) Calculate volt) in terms of the given circuit parameters vitt Show your complete work here v,(t), v(t), R. Velt) %(E) R. V (t)
Let U,V,W be vector spaces over field F, and let S ∈ L(U,V) andT ∈ L(V,W). (a) Show that if T ◦ S is injective, then S is injective (b) Give an example showing that if T ◦ S is injective then T need not be injective. (c) Show that if T ◦ S is surjective, then T is surjective. (d) Give an example showing that if T ◦ S is injective then S need not be surjective.
Z, L mimi I -Ť → Eocoswt Figure 2: A series LCR circuit. 1. A series LCR circuit. We wish to analyze the circuit shown to the left. To this end we analyze the complex circuit shown to the right. (a) What is (i) Z1, (ii) Z2 and (iii) Z3 in terms of L, C, R and w? (b) Apply Kirchoff's loop rule to the circuit to determine I the complex current amplitude. Give your answer in terms of E,...
d) The capacitance C, in terms of the angular frequency ? and
inductance L, if both SW1 and SW2 have been open for a long time
and the voltage and current are in phase (i.e. phase constant =
0).
e) The impedance, Z, of the circuit when both switches are
open.
f) The maximum energy stored in the inductor during
oscillations.
2. For the following: a. Create an expression for v, in terms of va and vh. Show your work! b. Determine v, for the following input voltages: i. va = 1.2V and vp = OV ii. Va = -0.7V and vp = OV iii. va = 1.8V and v) = 0.7V 40 k 12 5k A16V 20 m tot-16V v 310 k
Op Amp and determine 2) In the Op Amp Circuit assume ideal Vo (H. Let, I = 10 mH, C = 200 uF, R= 1002 show Phasor domain show detail solution 10 Cos 1000t, Volts R3 volt) L
please suggest the answer for this question. I did the
calculation but W/L ration is huge. I just want to cross verify
CHAPTER IvIOS Design of a depletion-load nMOS inverter: HnCox : 30 μ A/V2 I'm = 0.8 V (enhancement-type) ½о =-2.8 V (depletion-type) 5.5 γ 0.38 V1/2 2FI 0.6 V Determine the (W/L) ratios of both transistors such that: (İ) (ii) a. the static (DC) power dissipation for Vin-VOH 1s 250 mW, and Vol = 0.3 V b. Calculate...
1. Consider the following A-C circuit: ¿(t) VE) & cT RE L=13,3 mH C=2650F R: 10.0 12 V(t)- 10 sin (1207Tt) (a) Find an expression for it). Give amplitude, frequency and phase, relative to the phase of VCt). (6) For what value of w will ilt) be in phase with u(t)?