In the circuit below, V1 = 3.5 V, V2 = 2.5 V, and RL = 4.7kN. Find v. + V + V. RL V2 Vo = V
(a). Find VH, VL, and the power dissipation (for Vo-VL) for each circuit. +2.5 V +2.5 V 300 kΩ 200 ㏀ 4/1V (a). Find VH, VL, and the power dissipation (for Vo-VL) for each circuit. +2.5 V +2.5 V 300 kΩ 200 ㏀ 4/1V
Consider the circuit shown below. V, changes from 0 V to 1.5 V at t = 0 and remains at 1.5V. The transmission line has air between the conductors. {= 6 cm Rs=1502 WO w RL= 450 12 Vo=1.5V ( Zo=502 a) Find the following reflection coefficients: i. Tų (refl. coeff. at the load) ii. I's (refl. coeff. at the source) b) Complete the bounce diagram below by finding the values of the voltage pulses Vi+, Vi V2+, V2, V3+...
Design the circuit below using Multisim: Then adjust value of V1 and V2 from table below to find Vo: Please help me with this problem, thank you R3 100K +15 R2 V2 100K 6 Vo R1 5O-15 Џ 100K V1 Vi (V) V2 (V) +2 +5 +6 +5 +8 +5 +3 -1V +8 -2
For the summing circuit shown below, find the voltage vi. 2k2 W 1k2 +) 4 V 2ko t Vo=-10 V vl 에 V1= 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. 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.
3. .) In the circuit below, k, = 1 mA/V2, Vt = 1V, VDD = 11V, RL = 1 kΩ a.) Show that the transistor is in Cut off when S1 is connected to A. b.) Show that the transistor is in Ohmic Mode when S1 is connected to B and find RDS, ID, VSD, and Vo 싱, S1 0 80 Vo RL ウ 3. .) In the circuit below, k, = 1 mA/V2, Vt = 1V, VDD = 11V,...
(1 point) Problem 1 In the circuit below: V1 = 180 V, V2 = -150 V, R1 = 155 12, R2 = 450 S2, R3 = 44 S2, R4 = 97 12. R5 = 119 12, R6 = 1732 Use both resistance and source combinations to find the power absorbed by the R1, R4, and R5 resistors V1 50 R4 I + R1 100 75 R5 w mi 500 g w R6 120 1 + R3 80 V2 2013 Paul...
Problem 1: Use nodal analysis in the circuit below to find Va and V. Assume R1 10 , R2 = 4 2, R3 = 6 2, R4 6 2, I1 2 A, Vi 2 V, and V2 4 V R2 Vi R4 R3 V2+ Vi -WW ww
„Problem 5: Given the circuit below 40 12 20 V 3R₂ vo {RL (2) In the voltage-divider circuit shown above, the no-load (R_L is not connected) value of v_o is 4 V. When the load resistance R L is attached * ?across the terminals a and b, v_o drops to 3 V. What is the value of RL 020 O 0 24 O 0 36 O 016