9.12 Draw the magnitude and angle Bode plots of voUT versus vIN for the circuit of Fig. P9.12. For the purposes of this problem, assume that Ci behaves as a short circuit at high frequencies, and C2 behaves as an open circuit at low frequencies. O VOUT R1 200 k2 UIN Fig. P9.12 9.12 Draw the magnitude and angle Bode plots of voUT versus vIN for the circuit of Fig. P9.12. For the purposes of this problem, assume that Ci...
R1=500 Ω, L1=30 nH, L2=2 nH, L3=10 nH 1.Calculate cut-off frequency and time constant of the circuit. 2. Build graphs for AFR and PFR. し2 R1 Uout L1 し3 Uin し2 R1 Uout L1 し3 Uin
R1 2. R2 C2 Vout t) The switch is closed at t-0. (a) In terms the component values R1, R2, and C2, what is Vout(t) at t0+ (b) What is is Vout(t) as t- (c) Derive the time dependence for Vout(t) R1 2. R2 C2 Vout t) The switch is closed at t-0. (a) In terms the component values R1, R2, and C2, what is Vout(t) at t0+ (b) What is is Vout(t) as t- (c) Derive the time dependence...
V1 R2 RG R1 Vout R3 2 o FIGURE 37 This instrumentation amplifier allows the gain to be changed using a single resistor. We were unable to transcribe this image V1 R2 RG R1 Vout R3 2 o FIGURE 37 This instrumentation amplifier allows the gain to be changed using a single resistor.
4. R1 Vin 10 kOhm o Vout 10 kOhm C1 C2 100 nF 22 uF
Given Vout = 16.67 vpp and R1 = 4.5 kΩ, find the value of RF required to provide Av = 2.78. (Round your answer to 2 decimal places.) Rf = kΩ. (Round your answer to 2 decimal places.) What is the magnitude of V2? V2 = vpp. What is the phase of V2? Phase = o. m RF Vout R1 Op Amp
Derive an expression for Vout R3 1. Vint R1 U1 Vin2 R2 Vout + AMP SIMP C 2. HE U2 Vin R + AMP SIMP
Problem 2. For the following circuit: R1 R2 Va OPAMP Vout OUT 0 (a) What is formula for Ay? (b) what islout if R1 = 1M? and R2 AM2? (c) What is Vout if R1 = 8M2 and R2 = 1 kΩ? (d) What is Vout if R1-5k and R2 100k2? (e) what is V, if R1-2kS2 and R2-2kΩ? (f) Given your answer to (e), does this circuit have a virtual ground?
V1 V2 R1 R5 Vout+ 15 100 V1 + R3 R4 5 470 220 R2 Vout- 220 1. Using circuit analysis techniques you learned in class, calculate the Thévenin voltage between the terminals Vout+ and Vout- in the above circuit. Using the zeroing method, calculate the Thévenin resistance of the above circuit as seen from the terminals Yout+ and Vout- What is the Norton (short circuit) current for the above circuit?
For the circuit shown below, design the values of R1 and R2 that will cause Vout-6 Vif VIv-9 V. If the resistors you chose have a tolerance of 1 %, what is the maximum and minimum values of Vout? Design R3 so that the LED will be properly lit, if IF=10 mA, VF-3 V and Vout-6 V Design equations from the data sheet: VOUT-1.25%(1+R2 R1) U1 OUT ININLT OUT R3 R1 V1 (R3) R1) ADJ LT317A D1 IN) R2 (R2)...