Problem 1: Given the OP AMP circuit shown, answer the following questions. (a.) Write an expression...
8.) In the OP amp circuit shown in Figure 8 , determine the
value of resistor R2 needed to establish an input trip point
voltage of 6.75 Volts ( i.e. when input signal voltage V in exceeds
6.75 V the OP amp’s output voltage changes state ) . ( 60 pts )
R2 = _______________
If the OP AMP in Figure 8 was biased by DC voltages of + / - 15
Volts , and the value of resistor R2...
Op-Amp Circuit Stability Although op-amps behave as single-pole amplifiers which are "unconditionally stable," it's still possible to make unstable amplifiers if you don't know what you're doing. The most famous example of this is the voltage differentiator 1. Consider the following circuit: a. Find the expression for this amplifier's ideal gain Aco (s), assuming the op-amp is ideal (a(s) - o. Hint: It's just an inverting amplifier with z and z2 R (5pts) b. Suppose the gain-setting components have values...
Design and set up a circuit using basic op-amp configuration that will implement a mathematical expression Y = 3A-2B-C (where A, B, and C are the inputs and Y is the out of the circuit). Then verify the design for A = 3V, B = 1V, and C = -2V. (Hint: Generate these input voltages from a 5V DC source). Use resistor values of the order of 100K ohms for the feedback and input resistors in the op-amp circuit. Note:...
In the given op amp circuit, R1 = 3
R and R2 = 4 R. Determine the
voltage gain vo/vs. Assume
that R = 10 kΩ.
The voltage gain vo/vs
is
In the given op amp circuit, R1 = 3 R and R2 = 4 R. Determine the voltage gain vol Vs. Assume that R = 10 k.. R R WBA R w R w + 0 + TO The voltage gain Vo/Vs is
The op amp circuit of the figure shown below will remove the DC portion of the input voltage, v1(t), while amplifying the AC portion. Let v1@-6 + 10-3 sin 400t V, RF= k2, and Vbatt 9 V. Fin Rs (in kQ) such that no DC voltage appears at the output. (Enter your answer as a number without the units.) RF ot) vi(t)
ONLY NEED HELP WITH C AND D PLEASE!
The differentiator circuit shown in Figure 1 uses an op-amp with ideal characteristics C1 Figure 1 (a) Prove that the gain of the circuit is given by the following expression using first principles for an ideal op-amp (2 marks) Gain = - (1 + juli R 1) (b) If the differentiator frequency (at unity gain) is 100Hz and the high frequency gain is 40dB and R2 is 220kQ, design the rest of...
In the given op amp circuit, R1 = 2 R and R2 = 7 R. Determine the voltage gain volvs. Assume that R = 10 k12. R R R R + + 0 Us 10 The voltage gain vol vs is
For the Op Amp circuit in Fig. 2.1. Infer the expression of Yout () / vin (s). (5) R2 R w 200 K2 RS R www + Vina(s) 40 KR 40 ΚΩ R4 w 50 KS2 50 ΚΩ R + V out in out 1 Fig. 2.1. Fig. 2.2 *For the Op Amp in Fig. 2.2. Evaluate the Av. (5) *Recommend a generalized Op Amp amplifier which processes sin wave into a cosine wave (1-5), a square wave into a...
Op Amp Integrators and Differentiators 1.) Design an op-amp circuit that acts as an integrator. Chose R and C values to give you a gain of 5 at f-1kHz Draw out the circuit and show the input and output, label all the pin numbers and show where the +-12 power supply connections for the chip are. Turn in the circuit diagram, carefully labelled 2.) Build your circuit and measure the gain as a function of frequency. Collect enough data to...
Please show all work and answer all part.
#1. Consider the ideal op amp circuit below with R = 192, R, = 212, R2 = 312, I = 0.2A : a) Using circuit laws and properties of op-amps find voltage V, and currents in all resistors. b) Find the gain(s) of the amplifier circuit and explain what kind of gain it is. c) Find the input resistance(s) of the amplifier. d) Find the output resistance of the amplifier