Use KCL to derive the gain equation for the following 2nd order circuit, clearly identifying the...
02: Consider the following circuit in the following figure: V. a) Write the gain equation for the circuit. ) Determine the value of RI and R2 resistors, and the cutoff frequency, fc, if the above circuit has a gairn of -6 and its gain-bandwidth product (GBP) is 3MHz.
please write clearly with steps. thank you Q3. (a) Derive the differential gain for the following equivalent circuit of a differential amplifier. (1o pts) iel el ie RE Ri iel Figure 6. Differential mode small signal equivalent circuit of basic differential amplifier. (b) Given that Ac-0.5 and Ad-9o for a differential amplifier. Find CMRR. (5 pts) (e) Design a first order low pass filter with cut-off frequency of 20 kHz. Assume that pass-band gain is 16dB. You can use Figure...
Q2) The following figure shows an amplifier circuit and its parameters: Rc R. 0.1k R 100 R2-100k2 Ri 2 1 CL→0.1nF u Calculate all corner frequencies 2 Calculate the bandwidth of the amplifier circuit 3) Calculate the maximum voltage gain of the amplifier circuit in dB (Hint: assume Rsi 0) Page 1 of 2 Q2) The following figure shows an amplifier circuit and its parameters: Rc R. 0.1k R 100 R2-100k2 Ri 2 1 CL→0.1nF u Calculate all corner frequencies...
Derive equations 1 and 2, thank you! When you have a RC series circuit in an AC source of angular frequency ω (ω = 2πf), you can calculate the capacitance (C) from the equation: max, where VmarR is the amplitude of the voltage across the resistor and Vmax.c is the amplitude of the voltage across the capacitor. [You have to derive this equation in your report.] Similarly, when you have a RL series circuit in an AC source of angular...
Experiment 3. Application of Kirchhoff's Current Law (KCL) 1) Construct the circuit shown below on TinkerCAD and include a copy of the circuit in your report. I 12 N I 1 ΚΩ +4 v 470 22 N2 2) Use TinkerCAD multimeter to measure currents I1, I2, I3 and voltage across Ny and N2. Note: Multimeter must be in series in order to measure current. 3) Use KCL to derive an equation relating I1, I2, and 13 and verify that values...
3 Casimir effect We will derive the Casinir effect in three dimen- sions, making use of the Euler-Maclaurin formula where θη _ 1 for n > 0,4,-1/2, and θη 0 for n <0. (You don't need to prove this formula.) Let us consider walls of length L. Let EL be the vacuum energy inside the box. We now insert a conducting plate at a distance RL parallel to one of the walls, dividing the volume into two. Denote ER and...
Problem 1. (40 pts): A student in ME 345 shows you the following circuit with R=1.0 k 2 and C = 1.0 uF Vout Vin c= a. What kind of circuit is this? What is the order of this dynamic system? b. Using KVL/KCL, derive the differential equation and put in standard form. What is the static sensitivity K of this system? c. What is the cutoff frequency (@c) of this circuit? What is the time constant (c)? How are...
(2) Fig. 2 shows a Salen-Key second-order lowpass filter, where: Derive an expression for the transfer function in terms of the circuit components. Then design the filter for a dc gain K of 2, fo of 5 khz and a quality factor Q of 5. Record and plot your frequency response, and compare your plot with SPICE. Make sure to model the op-amp appropriately, so that it lends itself to SPICE simulations Hint K = 1 + R2/R1, wo =...
Prelab Preparation: For the RC circuit shown in Figure 1, derive the modeling equation relating the output volta ge Vout to the input voltage vin. What is the transfer function? What is the time constant of the system? Vout Figure 1: RC Circuit What is the analytical step response solution in terms of vin, Rand C? For assumed values of R 1 K, and C 6.8 uF, perform a simulation using Matlab/Simulink assuming an input square wave signal of 5Vpp,...
solve the problem with clearly handwriting Problem 1: For the circuit shown below R = 40 ohms, determine the following: (20 Points) a. The undamped resonant frequency, damping coefficient, the damping ratio and the type of response b. Find the general solution for v(t), including the numerical values of all parameters K1 = -50 and Ky = -50x10* Critically dumped Wo= The VESH • SE-6F i R 2 mH su - velty - 100) = 0 V2O) = 0 Wo...