Urgent, thank you. 8) Calculate the Io. (Ans: 499.7 2-28.85 mA) 1, Σ 50 Ω 100...
Find io using superposition 20 μF 50 cos 2 000t V +) $ 80 Ω $ 100 Ω 40 mH δο 2 sen 4 000t A ξ 60 Ω (+) 24V
40(2 30Ω 20Ω 1, u 60(2 80Ω 25 Ω Use Superposition to solve for io and ya in the circuit. V 105 V and 22A Part A: What is the value of io (answer to 3 sigs figs) Part B: What is the value ofV (answer to 3 sigs figs)
For the emitter follower of Fig. 12.2. let Vcc-10 V, 1-1 00 mA, and R.-100 Ω. If the output voltage is an 8-V-peak sinusoid, find the following: (a) the power delivered to the load; (b) the average power drawn from the supplies: (c) the power-conversion efficiency. Ignore the loss in Qs and R 0 URE 02 For the emitter follower of Fig. 12.2. let Vcc-10 V, 1-1 00 mA, and R.-100 Ω. If the output voltage is an 8-V-peak sinusoid,...
Urgent help! Thank you. Given a normal distribution with μ= 51 and σ= 8, and given you select a sample of n= 100, complete parts (a) through (d). a. What is the probability that X is less than 49? PR 49) Type an integer or decimal rounded to four decimal places as needed.) b. What is the probability that X is between 49 and 49.5? P(49 <X-49.5)= □ Type an integer or decimal rounded to four decimal places as needed.)...
1. Using the superposition theorem, calculate the voltage Vo for the circuit below 16 Ω 100 mA 40Ω 12 V
4) Consider the MOSFET differential amplifier shown below, with Io-2 mA, and RL- 10 kS2, Rss-100 k2, VDD- +8V and Vss--8V. The NMOS transistors in the circuit are nominally identical, with kn 2 mA/V2, VTn 1.0 V and ro 100 k2. The PMoS transistors in the circuit are nominally identical, with kp 2 mA/V2, [VTpl 1.0 V and ro 100 kΩ M3 M4 0 M1 M2 a) First consider the DC bias point. Assuming that the current mirror requires at...
Hi. Please help me solving this question. Im in urgent. Thank you so much. a) Use nodal analysis to compute voltage Vx and power dissipated at 61 resistor shown in Figure Q2a. 40 60 Vx Ž 30 2A 10 V 20 ЗА +1 2Vx Figure Q2a
1. Under dc conditions, for Figure 1 (a) Calculate the voltages v1 and v2 of the circuit capacitors and their respective stored energy. What power does the voltage source deliver (60 V). 10 Ω 50 Ω 20 Ω + + 40 Ω C +0, 2 C, (+1) 60 V Figura 1 (a)
find Vc(t) t<0 Quesuon 2 Find V (t), t20. 4Ω 8 Ω 15 Ω 1= 0 + + 2 Ω ξ3Ω 3Ω 1F 100 V b
+4V PMOS (WL)2-8 -0.03 V-1 NMOS: (WL)s-2 =0.02 V-1 Re 50 Ω Consider the circuit shown above, determine (a) the open circuit voltage gain (i.e. open circuit the 50 Ω load resistor and determine Vout/Vin) and (b) If V,,-10 my, what value of Vout occurs across the 50 Ω load resistor. You may consider RG to be large enough to ignore for the small signal trekl.