Compute the transfer functions of the following systems:
(a) Input: v, output: voltage of R2
(b) Input: v, output: voltage of C
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Compute the transfer functions of the following systems: (a) Input: v, output: voltage of R2...
For the circuit below, the output is at 15 V and the input voltage is at +2 V if the input voltage is gradually lowered to -2 V, at what input voltage does the output switch from +15 V to-15 V (to 1 % accuracy)? The op-amp has rail-to-rail swing, and a gain-bandwidth product of 3 MHz. The resistors used are r1 -1.5 k ohm and r2 22.8 k ohm r2 Vin 2 +2 V +15 V r1 f 1...
For the circuit below, the output is at-15 V, and the input voltage is at +2 V if the input voltage is gradually lowered to -2 V, at what input voltage does the output switch from-15 V to +15 V (to 1 % accuracy)? The op-amp has rail-to-rail swing, and a gain-bandwidth product of 3 MHz. The resistors used are r1 0.6 k ohm and r2 49.8 k ohm. r2 Vin 2/+2 V +15 V r1 out f-1 kHz 15...
For the circuit below, the output is at -15 V, and the input voltage is at -2 V. if the input voltage is gradually raised to 2 V, at what input voltage does the output switch from-15 V to +15 V (to 1% accuracy)? - The op-amp has rail-to-rail swing, and a gain-bandwidth product of 3 MHz. The resistors used are r1 1.3 k ohm and r2 37.7 k ohm r2 Vin 2/+2 V +15 V r1 o out f...
(b) Compute the voltage gain, input and output impedance for the following circuit if ß = 150 and VBEQ = 0.7 V, V1 = 26 mV. A + 10 V 40 ΚΩ R1 4 ΚΩ Ci CO Vs R2 VO 60 ΚΩ 5 ΚΩ RE RL 1ΚΩ
Compute the voltage gain, input and output impedance for the following circuit if ß = 150 and VBEQ = 0.7 V, VI = 26 mV. 4 + 10 V 40 ΚΩ R1 4 ΚΩ Ci CO Vs R2 VO 60 ΚΩ 5 ΚΩ RE R 1ΚΩ
Find the transfer function between the output inductor voltage vl(t) and input voltage v(t) for the following system? R v(t) llll vi(t) iſt)
Find the transfer function between the output inductor voltage vl(t) and input voltage v(t) for the following system? R w + v(t) + 0000 vi(t) iſt)
BJT and Amplifier Circuits +15 V 27 k R2 680 Ω Compute: 53 1. Show the extra units and connections RE 680 2 R2 12 kC2 2. The input and the output impedance 3. The Voltage gain Av 4. If the input ac voltage with Vp-1 mV, draw the output voltage. What is the maximum vin value. 5. 6. The current gain Ai and Ap. 7. Compute the produced power and the consumed power in transistor and RL. BJT and...
The circuit below is used as a voltage divider. The input voltage is 12 V. The output voltage (that is the voltage across R2) must be 8.3 V. The current consumed by the divider must be 4.2 mA. Find the required resistances R1 and R2. (Unit:Ohm) RI X NAA R1 - R2- Submit Answer Incorrect. Tries 1/3 Previous Tries
2. Construct the non-inverting amplifier circuit below. Then, obtain input-output transfer function for R1=1K and R2=2.2K, E= 9V. Use a variable de voltage (5V de source and a variable 1k potentiometer) source as the input and measure the output voltage for different inputs. Draw the input-output transfer function from the measured input-output voltages. Proteus Table Vin Vout Measured Table Vin Vout Q2) Determine the voltage gain VO / Vin of the non-inverting amplifier. What is the output voltage range over...