Solve this problem and show all of the work 2. For the single time constant circuit in the figure below(a) Classify the circuit as STC high or low pass for the voltage output VOUT.by finding the gain vo/ VIN at @ = 0 and at @ = ∞(b) Find the cutoff frequency in Hz and the gain in dB.(c) If an input VIN = 5 + 5sin40лt + 15sin(2π 10º)t Volts is given to this circuit.Write the expression for the corresponding output voltage vout as a function of time.(d) Draw the amplitude Bode plot of this filter clearly marking the slopes and critical pointson the plot.+6kQ6kQC1 = 1nF2ΚΩ1ΚΩVOUTVIN12ΚΩ2ΚΩ1ΚΩ

Answered: 2. For the single time constant circuit…

Introductory Circuit Analysis (13th Edition)

13th Edition

ISBN:9780133923605

Author:Robert L. Boylestad

Publisher:Robert L. Boylestad

Chapter1: Introduction

Section: Chapter Questions

Problem 1P: Visit your local library (at school or home) and describe the extent to which it provides literature...

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The circuit is shown below, Vin is the sinusoidal waveform with magnitude 5V and frequency is 100 Hz, R = 1 k, C = 1 uE, the chip is supplied by + 12 V source. a) What is the waveform of Yout? b) Calculate the magnitude of Vo c) If Vin is triangle waveform, what is the output waveform? -Vout , if Vin is triangle waveform with magnitude of 5 V (peak-to-peak value is 10 V) and frequency is 10 kHz, calculate waveform of you and the magnitude of I/?
6. An AC precision integrator is desired for a particular application to perform the operation: Vo'(t) = -1200 Vi(t) dt The primes indicate the ac portions of the respective functions. The lowest frequency other than a possible de component of the input signal is estimated to be 1.5 kHz. Determine a suitable design. 7. A low frequency differentiator is desired for a particular application n to perform the operation Vo(t) = -0.002 dvi(t)/ dt Based on a periodic signal with a frequency of 1 kHz, determine a suitable design. 8. Design an astable 555 timer circuit to produce 1kHz square wave, where TH = 0.35 ms and T₁ = 0.65 ms. Select C = 0.01 UE, Determine R₁ and Ra. 9. Design a monostable 555 timer circuit to produce an output pulse 5 ms wide. 10. Using op amps with Xsat = +/- 13 V, design a square/ triangular wave function generator circuit to generate 2 kHz triangular wave with a peak-to-peak voltage of 12 V. 11. Design a non inverting Schmitt trigger circuit with VT to be adjustable…
Consider the circuit of Figure 1, with a periodic square signal voltage source at a frequency f = 500 [Hz], consider R = 1600 [22]. Solve the circuit and plot on graph paper (minimum 10 values between 0 and 2 milliseconds) the total current response, taking into account the source Vin = 24 [Vp]. Note: identify in the graph maximum and minimum points of the total current response. Vin CH1 L m 160 mH, 4 Q CH2 REF Figure 1. Series RL circuit. Note: to do by differential equations and not to use laplace
Q.) Figure below divider bras amplifier Circuit. Givent the model Parameter : gm = 5o mS emitter (CE) Voltage BJT hibrid- TT Shows a Common riT: 6 Kr and to %3D : 00 +Vc. RI C2 Tooks touf RL Vo ihe 200 RE TCE Vs 20 a Draw the Ac eQuivalent at low Freauency Circuit Zi and b.) Determine inPut impedance at mid FreaUincy OutPut imPedance Z0 c.) Calculafe two low Cut -oFF FreQuen Cies FLC1 and FLC2 Ci and E2 respectively Such as due to the exterda al capacitors
Q6)For the power delay profiles given in Figure below: A) Compute Mean Excess Delay. B) Compute the RMS delay spread (s). C) Compute the 50% correlation coherence bandwidth. P(t) OdB -10dB -20dB -30DB Tíns) 50 75 100 excass
Please do fast, I will like the solution.
3. The signal power at the input to an amplifier is 100μW and the noise power is 1μW. At the output, the signal power is 1W and the noise power is 30mW. What is the amplifier noise figure, as a ratio?
In the common mode, ..... ..... ..... Select one: a. the output signal are in-phase b. an identical signal appears on both the inputs c. the outputs are connected together d. both inputs are grounded
INCLUDE ALL THE DECIMALS.
A three-stage system comprised of two amplifiers and one filter. The input power Pin= 0.1mW. The absolute power gains are Ap1 = 100, Ap2 = 40, and Ap3 = 0.25 Determine a.) the input power in dBm, b.) output power (Pout) in watts and dBm, c.) the dB gain of each of the three stages, and d.) the overall gain in dB
The parameters in the circuit shown in Figure-4 are Vp 0.7 V, Vi=2.3 V, and Vzz = 5.6 V. Find and plot Vo versus Vi over the range of -10 Vi+10 V (Hint: You can consider input signal as sine wave of amplitude of +10 V and -10 V). Note: please solve within 30 minutes. Avoid plagiarism.
Consider a step down converter with a resistive load. It is supplied by a DC power source of magnitude Vs = 160 V. The switching period is 0.25 ms and the duty cycle k is first set to 0.5. The load is an inductive load with R=10 Ohms and L-10 mH. The switch is ideal. The average source current is 4A. The ripple factor of the input current RFs is equal to: Select one: O a. None of these O b. 0% C. 100% d. 50% Clear my choice

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