Answer all the questions illustrating a step by step procedure on how to calculate the answer! Will rate afterwards.
Answer all the questions illustrating a step by step procedure on how to calculate the answer!...
3. Analog CKT: Use the following circuit to answer questions from a) to c). (15 points) Vin Vout a) Deal with the circuit below (a) When Vin is positive and the diodes are assumed to be ideal (no drop), Vout is equal to (a)-Vin (b) 0 (c) Vin (d) Vin/ 2 (e)-Vin/ 2 b) If Vin is 5 V and the diodes are assumed to be ideal (no drop), the voltage across the top diode is (a) 0 (b) 2.5...
For the electrical circuit below, let R1=30 Ohms, R2=15 Ohms,
R3=10 Ohms, R4=20 Ohms, C=0.1 F and Vin=10V and complete the
following.
For the electrical circuit below, let R1 = 30 12, R2 = 152, R3 = 102, R1 = 20 2, C =0.1 F and Vin = 10V and complete the following. a) Use circuit analysis to derive the differential equation for the capacitor voltage, V.(t). b) Find the solution for V«(t) and sketch it for t=0, t and...
Questions 11 - 14: For the circuit shown below find the following. 11.) The transfer function H(s) = Vour(s)/Vin(s). 12.) Values of C and L so that the transfer function has poles at s= -10 + 100j. 13.) The current Vour(t) if the initial conditions are zero and Vin(t) = 1(t) V (use C and L from 12). 14.) Plot the step response (found in question 13) over an appropriate time interval using Matlab 10KR 30 ks & +51
For the following circuit, answer questions 15 through 17. Show all work. R2 1k0 RI SKO Rin Vout 1k0 C2 HE C1 HH 1F Vin F RL Siko 1Vpk 1kHz 0 R1 Siko 15) Identify Circuit 16) What is the cutoff frequency Fc of the circuit. 17) What is the gain in decibels of the circuit at a frequency F = 1.2 KHz.
EXPERIMENT 11 STEP RESPONSE TO RC AND RL CIRCUITS pages 11-4 thru 11-7. tep response of the RC and RL circuits is included in OBJECTIVE: O analyze the voltage and current characteristics of a Resistance - Capacitance (RC) circuit when driven by a step voltage function. To analyze the voltage and current characteristics of a Resistance- Inductor (RL) circuit when driven by a step voltage function To design an RC circuit to yield a specified output voltage with a step...
To obtain the difference between two different inputs, we can connect them to the positive and negative pins of the Opamp. R1 7 +15V - opamp Ra AL15V Vout = 2 (U2-01) Where, R=R3 R2RA Figure 6: The difference amplifier The voltage follower is a non-inverting amplifier configuration with a gain of unity. Its output basically “follows” its input. The voltage follower's main virtue is that it has a very high input resistance. This is useful for driving a low...
linear circuit
Q1 (60 Points]: Consider the circuit below and answer the following questions: 30 V 120 20 60 V. 15 V 50 4A (a) [20 Points Use superposition principle to calculate the current i. Show your detailed solution step by step, explain what you are doing, and draw the circuit used for each step. (b) (10 Points Use superposition principle to calculate the voltage V.. Show your detailed solution step by step, explain what you are doing, and draw...
please answer all questions neatly and use Matlab for part C
Vout - - Current Source Current-to-Voltage Converter SkW variable voltage 0-5V Figure 4. Current- to- voltage converter 3.- Current-to-Voltage Converter An op amp can be used to produce a voltage proportional to a given current as shown in fig. 4 a) (5 points) Derive the formula for the output voltage Vout. For full credit show all the steps of the formula derivation in a clear way, and indicate which...
Plz do number 2
EENG-270 Note: Close Book. Calculators allowed. 145 points maximum p+1 -100. Calculate up to 3 significant figures at every step. Show all steps. Assume V, 25mV, v . νο" Vs' 0.TV an v first before using numerical values. For all numerical answers, show a general expression f For the diode circuit shown: (a)Draw the single loop DC equivalent circuit ( after Thevenin simplification). (15 pts.) (b) Find the quiescent diode current lo and VOUTDC: saturated. (15...
Please answer with screenshot of code in Python
sistor and one capacitor. Exercise 8.1: A low-pass filter Here is a simple electronic circuit with on - Vour Vin - W- This circuit acts as a low-pass filter: you send a signal in on the left and it comes out filtered on the right Using Ohm's law and the capacitor law and assuming that the output load has very high impedance, so that a negligible amount of current flows through it,...