for the followingng op-amp show analattically the effect of the variation of R on the output votlage
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for the followingng op-amp show analattically the effect of the variation of R on the output...
Design an amplifier that produces the following output equation. You may use only one op-amp and resistors with values: 1k<R<100k. For the following minimum phase systems, given the Magnitude plots indicate if the phase plot is correct. Explain. Questions from Chapter 1, Sections 1.4 (10 points): 2.1 Design an amplifier that produces the following output equation. You may use only one op-amp and resistors with values: 1k <R <100k Rt 2 Vo Ry レ
5. (10 points) The op amp in the precision rectifier circuit shown is ideal with output saturation levels of = 14 V. Assume that when conducting the diode exhibits a constant voltage drop of 0.7 V, R1 = R2 = R3 =1 k2, and R4 = R5 = 2 k22. Find Vout (in V) when Vs = -2 V? Vout(Vs = -2) = -15V VEE LM348N LM348N 15V VCC
For the Op-Amp in the figure below find the magnityde of the output voitage Vout R. 100 kΩ Op-amp parameters +12 V AOL = 80,000 22 Mo Tout 75 0(maximum) Slew rate-8 V/μs Rin 100 kΩ in 16 Vpp RL -12 V
Use the diagram to solve. The ideal Op-amp represents an amplified output from a sensor (Va) to an alarm represented by the transistor. The LED will light to show a warning when the sensor voltage reaches a certain threshold. Let Vcc = 12V DC, R1 = 1812, R2 = 212, R3 = 20532, R4 = 30032. The voltage drop for the LED is 0.7V and the transistor's beta is 80. (a) The sensor output Va = 200mVDC. Solve for V....
Problem 2 110 points) For an ideal op-amp model and a typical 741 op-amp chip, the following partial table is provided. 1. Furnish the two (2) missing responses in the "Typical Value" column from the attached UM741 data sheet. Note: Use the "Typ" column on the data sheet for your responses. 2. Furnish the four (4) missing responses in the "Ideal Value” column from what you remember in class about the ideal op amp model Ideal Value Typical Value Parameter...
Question 3 3 pts Focus on Op-amp U1 (Both op-amps have to be completely connected as shown in Figure A) Use myDAQ's oscilloscope to capture the input waveform Vin (on Channel 0) and the intermediate output waveform Vout1 (on Channel 1) superimposed. Set the amplitude scale for both channels of the oscilloscope to 500 mV/Div Set the time scale of the oscilloscope to 200 us/Div 1. Take a screenshot of the oscilloscope (both waveform in the same picture) and embed...
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...
19 of 21 Problem 18 Assume that the op amp is ideal and operating in its linear region. Select the combination of resistor Icc values that gives the cascaded op-amps an overall gain of -2500 R. A. Ri 15 k2, R2 300 , Rs = 1 k2 , R - 50 k2 B. Ri 300 , R-15 k, Rs 1 k2, Ra = 50 k2 0 , R15 k, R I k2, R=49 ks2 C. Ri R 600 Q, R2...
Need to create a bandpass filter with cutoff frequencies from 300Hz to 3000Hz with a op-amp included in circuit. I have examples below. you can use multisim, Pspice, or matlab for simulation of circuit. I will up vote. Thanks. Band-Pass Jitte L 300 H2 2R Ra C ХВР1 C1 IN OUT R2 53.10 1pF V1 R1 5310 6Vpk 1KHZ 0° BODE PLOT BODE PLOT m Design 000 50 00 -N00 00 - 150 00 Cune -20000 Bode Reault 100G 100...
(c) (d) 7. Howland current source. [7 pts. The op-amp circuit shown is a Howland current source or current pump. R, at loadn provided that 3 R R2 R Show that os n provided that Note: despite the apparent cleverness of this current source, several issues preclude its widespread application, e.g., the resistors must be exactly matched or the circuit deviates from the result derived above. Additionally, performance is limited by the common-mode rejection ratio of the op-amp, the resistors...