1) The circuit shown, with R1 = 20 kN R2 = 80 k N The supply voltages to the op-amp are +15 V and -15 V (not shown). a) Is this an inverting or a noninverting amplifier? b) For an ideal op-amp, when Vin = 1.50 V DC, calculate V, in Volts. c) For an ideal op-amp, calculate the gain G of the circuit. d) For a real op-amp, when Vin = 1.50 V DC, calculate Vout in Volts. e) For a real op-amp, when Vin = 4.20 V DC, calculate Vout in Volts. R2 R1 V, V. Vout V, Vin

icon
Related questions
Question

Please do D and E

1) The circuit shown, with
R1 = 20 kN
R2 = 80 k N
The supply voltages to the op-amp are +15 V and -15 V (not shown).
a) Is this an inverting or a noninverting amplifier?
b) For an ideal op-amp, when Vin = 1.50 V DC, calculate V, in Volts.
c) For an ideal op-amp, calculate the gain G of the circuit.
d) For a real op-amp, when Vin = 1.50 V DC, calculate Vout in Volts.
e) For a real op-amp, when Vin = 4.20 V DC, calculate Vout in Volts.
R2
R1
V,
V.
Vout
V,
Vin
Transcribed Image Text:1) The circuit shown, with R1 = 20 kN R2 = 80 k N The supply voltages to the op-amp are +15 V and -15 V (not shown). a) Is this an inverting or a noninverting amplifier? b) For an ideal op-amp, when Vin = 1.50 V DC, calculate V, in Volts. c) For an ideal op-amp, calculate the gain G of the circuit. d) For a real op-amp, when Vin = 1.50 V DC, calculate Vout in Volts. e) For a real op-amp, when Vin = 4.20 V DC, calculate Vout in Volts. R2 R1 V, V. Vout V, Vin
Expert Solution
trending now

Trending now

This is a popular solution!

steps

Step by step

Solved in 2 steps with 2 images

Blurred answer