Opamp Lab
Essay by 24 • June 3, 2011 • 557 Words (3 Pages) • 1,055 Views
Operational Amplifiers Lab
Abstract:
This lab will demonstrate the different forms of the operational amplifier. By connecting circuits from previous labs to an operational amplifier, we will be able to see the different operations that a Op-amp can perform. The various formulas will be tested for the accurateness in predicting the output of an op amp.
Data:
Equipment Used:
ELVIS workbench
DMM
protoboard
various resistors
wire
Circuit 1
Calculation: V1 = 15V/20k-ohms * 2k-ohms = 1.500 V
V2 = 15V/20k-ohms * 1k-ohms = .7500 V or 750 mV
Measured: V1 = 1.510 V
V2 = .756 V
Inverter Data
Circuit 2
Circuit 2 is constructed with R1 = 33k-ohms, Rf = 120k-ohms, and R4 = infinite
Free end of R1(Circuit 2) is connected to V1(Circuit 1).
Calculation for the combination of Circuits 1 & 2: -Rf/R1 * V1 = -12k-ohms / 33k-ohms * .75 = -5.45 V
Measured value for combo. of Circuits 1 & 2: V3 = -5.22 V
 with R4 = infinite: V3 = -5.22 V
= 3k-ohms: V3 = -5.21 V
= 500 ohms: V3 = -5.21 V
= 300 ohms: V3 = -5.21 V
= 200 ohms: V3 = -5.21 V
Summer Data
Circuit 3
Constructed Circuit 3 using Rf = 120k-ohms, R2 = 33k-ohms, R2(Inverting Summer) is connected to V2 of Circuit 1. V1 and R1 (Inverting Summer) are removed.
Calculation for the Combination of Circuits 1 & 3: V3 = -120k-ohms / 33 k-ohms * .75 = -2.727 V
Measurements of the combo of Circuits 1 & 3: V3 = -2.671 V
Calculation for the combination of Circuits 1 & 3 (with R1 = 33k-ohms and connected to V1(Circuit 1): V3 = -(120k-ohms / 33k-ohms) * 2 = -8.18 V
Measurement of the combo of Circuits 1 & 3 (with R1 = 33k-ohms and connected to V1(Circuit 1): V3 = -7.68 V
Voltage
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