An integrator has a gain of 15 dB at 0.5 kHz and a 1.5 Vpp 0.5 kHz square wave as its input. What is the expected output?

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An integrator has a break frequency of 1 kHz and a unity gain frequency of 10 kHz. Over what frequency range would the circuit not integrate a function? 1 kHz to 10 kHz 10 kHz only 1 kHz and below 10 kHz and above
3. Let Vi is AC input signal which has following properties: Voffset: 1 Volt Vpp: 0.5 Volt Waveform: Sinus Frequency: 1 KHz a) Why we chose 1 Volt for offset voltage? b) If the waveform is Square, what would happens in terms of circuit characteristics? How do you make AC Analysis of the circuit to calculate expected output signal? Please explain as step by step. R2-820 0 c) (NPN) R1-100 Figure 1. A transistor circuit
3. Let Vi is AC...
a The operational amplifier in Figure 3.a has a slew rate of 0.5V/us and a unity gain bandwid of 5 MHz. Determine () the voltage gain, and (ii) the maximum input frequency such that the output waveform is undistorted. with Vpeak 1V and frequency f. () Determine the cutoff frequency, (ii) plot, to scale, the you use this integrator if the input frequency is 30 KHz? Explain your answer. that any feedback resistance is fixed to 5k2. b. In the...
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...
Question 4 The input signal to the circuit below is a Triangle wave with a peak to peak Vin of 10 V Determine the ideal peak to peak output voltage signal. The Frequency is 1 kHz Note: At 0.5 Tp Amplifier Parameters Vin R1 10 Ypg R1 10 K2 0.01 uF C1 Veu Ereg 1 1H2 Vout Note 4 Vpp, Triangle Wave 4 Vpp, Square Wave 2 Vpp, Square Wave 2 Vpp, Triangle Wave
1. Use Eq. 1 to derive an expression for the expected output waveform from an ideal differentiator circuit having input waveform Vin=lsin[(21)1000t] V. Let RF1.5 k12 and C=10 nF. 2. Use Eq. 3 to find the peak-peak output amplitude of the ideal differentiator of question 1 for a 2 Vpp sine wave input at 1 kHz and 2 kHz. Put the results in the Calculated Output column of Table 1 in Appendix A. 3. Use the indefinite integral version of...
12.38. A lossless circular aperture antenna has a gain of 15 dB and overall physical area of 25 cm^2. The frequency of operation is 10 GHz. (a) What is the aperture efficiency of the antenna (in %)? (b) What is the power PL delivered to a matched load given that the power density of the incident wave at the antenna aperture is 30 mW/cm^2? Assume ideal conditions (no losses).
14.4 An amplifier with a bandwidth of 1 GHz has a gain of 15 dB and a noise tem perature of 250° K. If it is used as a preamplifier in a cascade, preceding a microwave amplifier of 20 dB gain and 5 dB noise figure, determine the over all noise temperature.
An AM receiver is tuned to broadcast station at 600 kHz. Calculate the image rejection in dB, assuming that the input filter consist of one tuned circuit with a Q of 40? An SSB system transmit a peak envelope power of 100 W into a 75 ohms load. The carrier signal is modulated by two tones, with frequencies 2 kHz and 3 kHz with equal magnitude and only the lower sideband is transmitted with a suppressed carrier. Determine the average...
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Q4 (15%) Determine the output voltage (ie. the mathematical expression of Vout (t)) for the integrator circuit of Figure 3a if the input is a square wave of amplitude +A and period T shown in Figure 3b. Assume T 10ms, CF-1μF. Rs-10kΩ and ideal op-amp. The square wave starts at t-0 and therefore Vout (0) 0. Ср stt) ¡F(t) str) -A Figure 3 (a) Op-amp integrator: (b) Input of a square wave