Hello, in the transimpdance circuit shown bellow,why both input and output feedback are parrarel?
i cant see where is the parralel in here.
Thanks
Hello, in the transimpdance circuit shown bellow,why both input and output feedback are parrarel? i cant...
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...
1. Find the ratio of the output voltage to the input voltage, Vo/Vin, in the circuit shown. State your assumptions in using the ideal op-amp model. 15 k2 Vin 2. Find the output voltage Vo in the circuit shown assuming an ideal op-amp. State your assumptions in using the ideal op-amp model 15 k12 Vo . Find the voltage Vx and the output voltage Vo in the circuit shown assuming ideal op-amp 3 k2 1 V 6 kn 12 k2
4. In the circuit shown below, a parallel RC network creates a frequency-dependent feedback path for the inverting amplifier block with gain Av (a large negative value). Use the Miller theorem to find the equivalent input impedance Zin as indicated in the diagram and then show that Vin/Vsig is given by the symbolic expression shown below right. Choose a value for capacitor C to make the upper cut-off frequency fH equal to 22 kHz. Repeat the calculation for the case...
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...
Q6: In the circuit shown in Figure-6, assume the initial conditions, i0-0 and v(0)-0.The input, Vin is a step voltage of 5V at t20. (i Draw the Laplace Transformed circuit of the network at t20. (i Find Laplace function, Vou s). (iii) Solve for Vourt) [61 2? 4? Vin-5u(t) 0.2F 0.5H v out Figure-6 4
2. The voltage gain of a circuit (jw) V- ., where vi and v, are input and output Samo i RC voltage, respectively. What kind of this filter? (25 pts) a) According to G(jw), sketch the circuit, please label vin, V. R and C in your circuit. b) Type of filter:
The input to the circuit shown in Fig. 2 is the voltage source v(t). The output is the voltage across the capacitor, v(t). Determine the output of this circuit as a function of time t when the input is v.(t)-8+12u(t) V 40 18 s(t) 160 Fig. 2
Applying Kirchoff's current law (KCL) at the blue input node and the red output node, we can write Op amp has infinite input impedance and zero output impedance!! 0 Blue input node: lin(s) If(s) + H(s) = (will not "steal" current from your circuitry on the input side, nor will it steal anything from the output side! Red output node: lour(s)+ lats) Excellent! Now, since we don't care about the out node for now (because we're just focused what's happening...
(c) Consider the circuit shown in Figure Q4c. If the input voltage is Vin = 5 [V] and open loop gain A0 = 10,000, determine the output voltage and derive the closed-loop gain [4 marks] Page 5 of 6 Figure Q4c