The transfer function of the circuit below is provided in Figure A. Assuming the diodes to...
ideal diodes 2 Assuming ideal diodes, for the diode circuit shown: Select one: a. None of these b. The minimum output voltage is +V2 c. The maximum output voltage is -V1 d. The gain is equal to 0 when V is < +V1 and > -V2 e. The gain is equal to O when V is > +V1, or < -v2 Ch
Q11 (20pts.): For the circuit shown below Derive the transfer function, H(s) assuming the OPAMP's transfer function is. If you like you can assumeA 106 Plot the bode plot of H(s) Derive the time domain step response. Plot the time domain step response This is a tricky problem! The LTspice file can be found here. .tran 2 V1 U1 out V2 R1 R2 in V3 1k 10k PULSE(-5 50 1102)
(25 pts)For the circuit below assuming an ideal diode with a 0.7 V drop (You must fill in the information in the boxes below): a. Sketch Vout VS. Vin- b. When Vin -5V: Determine which diode leg is conducting, the current flowing through the diode, and Vout? c. Find the values in part b when Vin 0.3V? d. Find the values in part b when Vin 3V? R 1-2k, R2 = 6k. R1 R2 D2 Vout DI R2
"the difference junction circuit" Figure 2-5 below is the circuit for subtracting two voltages, Vi and 12. Again, the required components are an op-amp and resistors. 15V V2 R3 R1 100kOhm 100kOhm - 15V -15V 15V Vout R2 100kOhm R4 w 100kOhm 15V -15V Figure 2-5: The Difference Circuit Experiment Steps 1. Build the circuit according to the circuit diagram. Notice that the two potentiometer on the left side are 0 - 1 k 2 potentiometers. Set and measure the...
Consider the circuit shown in (Figure 1). Assume that the diodes are ideal. Part ASketch the transfer characteristic v, versus Vin for the circuit shown in (Figure 1). Allow Vin to range from -10 V to +10 V. Plot the points for the values of Vin that are separated by the step ΔVin = 5 V.
Given the circuit below: R3 C1 Vout C2 R1 R3 Vin R2 ts 1 a) derive the transfer function between the input and the output in terms of R1,C1,R2,C2 b) For this and all other parts below, assume Izl<Ipl, i..e that D(s) is a lead-type compensator. The transfer function is written in the following format ts 1 Express quantities K, z, p using R1,C1,R2,C2 Also, express Κα, α, τ using K,z, p c) Observe the values of s-jw on the...
P9.67, Sketch the transfer characteristic (v, versus if in) for the circuit shown in Figure P9.67 carefully labeling the breakpoint and slopes Allow vin to range from -5 V to +5 V and assume that the diodes are ideal. p37, Find the values of / and V for the circuits of igure P9.37 assuming that the diodes are deal. 515 1.2 kf Probles 3 kf voD 2 ks? 5 V Figure P9.67 DV Sre for 2 E ing ent the...
To V2 - V4 R1 1 k 2 10 V For the circuit above, assuming ideal diodes, if V1=7.5V, V2=4.2V, V3=2.3V, V4=1V, find the current IL across the R1.
4. (20 points) Sketch and clearly label the transfer characteristic of the circuit for -25 V SVI S +25 V. Assume that the diodes can be represented by a piecewise-linear model with VDo 0.65V and n) 20 Ω. Assuming the specified Zenervo tage o V is measured at a currenL of 10 mA and that 20 Ω, represent the Zener by a piecewise-linear model. Find the following: a. Vu (when Vi =-6 V) is: b. Vo (when Vi 20 V)...
2. Construct the non-inverting amplifier circuit below. Then, obtain input-output transfer function for R1=1K and R2=2.2K, E= 9V. Use a variable de voltage (5V de source and a variable 1k potentiometer) source as the input and measure the output voltage for different inputs. Draw the input-output transfer function from the measured input-output voltages. Proteus Table Vin Vout Measured Table Vin Vout Q2) Determine the voltage gain VO / Vin of the non-inverting amplifier. What is the output voltage range over...