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(a) For the Zener diode network of following Figure, determine VL, VR, IZ, and PZ. (b) Repeat part (a) with RL = 5 k.
For the Zener diode network of the circuit, determine VL, VR, Iz and Pz. + Vp- R 1222 v 16V Vz= 10 v7 R 1.2 ks2 Vi Pem = 30 mW
(a) The following circuit shows a linear
voltage regulator. Assuming the zener diode has specifications (VZ
= 2.5 V, IZ = 60 mA), select adequate resistor values to provide a
regulated output voltage Vo = 10 V from an unregulated voltage Vi =
15V.
(b) Calculate the power efficiency of the
regulator when a load RL = 10Ω is connected to the regulator
output.
(c) Briefly explain the terms “dropout”, “line
regulation”, and “load regulation”, as they apply to voltage...
Part 1 In the network in the figure below, find RL for maximum power transfer and the maximum power transferred to this load. First find the Thevenin Equivalent Resistance. RTH the tolerance is +/-5% Click if you would like to Show Work for this question: Qpen Show Work ▼ Part 2 Next find the load resistance for maximum power transfer. Part 3 Now find the Thevenin Equivalent Voltage TH = the tolerance is +/-5% Click if you would like to...
Determine and sketch Vo for the network in Figure Q1(a) when (i) ideal diode and (ii) Silicon diode is used.
(16%) in the following network, determine the range of RL that will maintain V, at 10V and not exceed the maximum power rating of the zenor diode. → 220 Ω Vz = 10V Pgmax = 400 mW 20 V
Part A: I. Connect the circuit in Figure 5. Use a 1N4003 diode. VOMI measures diode current, and VOM2 measures its voltage. Starting at 0, increase Vs and take data for a plot of Va vs. Id and complete Table 1. The values here will typically be in millivolts (mV) and milliamps (mA). Va Vs (VDC) 0 0.25 0.5 1.0 1.5 2.0 2.5 3.0 6.0 9.0 12.0 15.0 18.0 20.0 VG = Us - IR R=2.2 K2 Vs = VD+...
For the vectors given in the figure, determine (Figure 1) | Part A Part B the direction of A - B+C Express your answer using three significant figures. VALO A O O ? = below x axis Submit Request Answer Figure < 1 of 1 > Part C B (B = 26.5) the magnitude of A+B-C Express your answer using three significant figures. 5609 A (A = 44.0) 128.00 O ADD R o B ? C(C= 31.0) |Ā+B – 1...
For the network given in Figure 1.3 determine the following (a) Voso and Ino (b) Voco, Vo, Va, and Vs 3. 22k2 IM2 1.6k +3V Figure 13: Fixed-bias circuit configuration For the network given in Figure 1.4 determine the following (a) ID (b) Vos (c) Vo (d) Vs 4. o +20V E 068k Figure 1.4: Problem 1.4
For the network given in Figure 1.3 determine the following (a) Voso and Ino (b) Voco, Vo, Va, and Vs 3. 22k2 IM2...
For the circuit in Figure 5, Rs,-100k , RG-IM . RD-4.7 k . RL-3.3k . V-ly, VA = 50V (NMOS) and V, D R. RL Figure 5 a. DetermineI and Vos. (8 points) b. Determine the transconductance gm (4 points) c. Determine A,-. (8 points)
5. Determine whether each silicon diode in Figure 2-92 is forward-biased or reverse-biased. 6. Determine the voltage across each diode in Figure 2-92, assuming the practical model. 7. Determine the voltage across each diode in Figure 2-92, assuming an ideal diode. 8. Determine the voltage across each diode in Figure 2-92, using the complete diode model with ra = 10 1 and rk = 100 MO. 100V 102 35600 { 5