Title: Operational Amplifier‚ OP-AMP Abstract: In the experiment‚ the application involving the operational amplifier was investigated. A ±15volts voltage is supplied to the op-amp. The 15volts also the working ranges for the op-amp. There are two basic op-amp circuit‚ inverting and non-inverting amplifier. For an ideal op-amp‚ the voltage gain of the circuit is the function of ratio of resistor. There are also other configuration investigated like the buffer amplifier which has the same input
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FACULTY OF ELECTRICAL & ELECTRONIC ENGINEERING UNIVERSITI TUN HUSSEIN ONN MALAYSIA BEL 30403 Operational Amplifier 1) Design an inverting amplifier with a closed loop gain of AV = -5. Assume the op-amp is driven by a sinusoidal source‚ vS = 0.1 sin t volts‚ which has a source resistance of RS = 1 kΩ and which can supply a maximum current of 5 µA. Assume that frequency is low‚ which means that any frequency effects can be neglected. 2) An op-amp with a t-network is to be used
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Instruments Applications (Excerpts from) Thomas Brown’s original Preface: The purpose of this handbook is to provide a single source of information covering the proper design of circuits employing the versatile modem operational amplifier. This manual will be helpful to the experienced user of operational amplifiers‚ as well as the new user‚ in extending the range of potential
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Audio amplifier (no Op-Amp) Introduction History: The audio amplifier was invented in 1909 by Lee De Forest when he invented the triode vacuum tube. The triode was a three terminal device with a control grid that can modulate the flow of electrons from the filament to the plate. The triode vacuum amplifier was used to make the first AM radio.[2] Early audio power amplifiers were based on vacuum tubes (also known as valves)‚ and some of these achieved notably high quality (e.g.‚ the Williamson
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Lab Manual Solutions Industrial Control Electronics: Devices‚ Systems‚ and Applications 3rd edition Terry L.M. Bartelt Australia • Canada • Mexico • Singapore • Spain • United Kingdom • United States Experiment 1 Operational Amplifiers Experiment Questions 1. analog 2. linear 3. greater 4. 6‚ – 5. -5V INPUTS V1 +4 +2 +1 +4 0 +3 V2 +1 +3 0 +4 +1 +2 VOUT (V) -5V +5V -5V 0V +5V -5V VIN +0.2V –0.4V 0V +0.32V VOUT -1V +2V 0V -1.6V VIN VOUT +0.3V -0.75V –0.15V +0.38V +5V
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Differential amplifiers A differential (or difference) amplifier is a circuit used for amplifying a voltage difference between two input signals while rejecting signals that are common to both inputs. IRE = based on approximation IC ≈ IE then IC1 = IC2 = IRE/2 therefore‚ VC1 = VC2 = VCC – IC1R1 Modes of Signal Operation: Single-ended input – input signal is applied to either input with the other input connected to ground Differential or double-ended input – two opposite polarity input signals are
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Abstract This experiment investigated the kinetics of the enzyme glycogen phosphorylase b which is important to metabolism. AMP is an allosteric activator of the enzyme because it converts glycogen phosphorylase b from its T state to the R state which is the active form. Caffeine is an inhibitor because it binds the nucleoside inhibitor site. When it binds this site‚ it stabilizes the inactive T state and blocks the catalytic site which needs to be open for enzyme activity to occur. The glycogen
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ETME 3252 ‚ Fall 2004 Thermodynamics and Heat Transfer Laboratory Manual – 11th edition Edited by: Professor Ed Braun Department of Engineering Technology Copyright ©2004. Material in this document is for your educational use only. This document contains copyrighted and other proprietary information. You may not in any way make commercial or other unauthorized use‚ by publication‚ re-transmission‚ distribution‚ caching‚ or otherwise‚ of this material‚ except as permitted by the Copyright
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Nasal conchae 39.3 Vertebral Column Laboratory 10 – pages 130 135 Figures 10.3; 10.4; 10.5; 10.6; 10.7; 10.8; 10.9; 10.10 Thorax & Hyoid Laboratory 10 – pages 136 138 Figures 10.1; 10.13; 10.14 Appendicular Skeleton Upper & lower extremity Laboratory 9 – pages 110 122 Figures 9.1; 9.2; 9.3; 9.4; 9.5; 9.6; 9.7; 9.8; 9.10; 9.11 Histology Bone Tissue Laboratory 8 – page 101 Figures 8.5 Skeletal Muscles Laboratory 13 – pages 179 184 Laboratory 14 – pages 194 196 Laboratory 15 – pages 206 211 Laboratory
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AP II LAB 9 RENAL URINALYSIS LAB 70 POINTS Lab Partners Esma‚ Frankie‚ Alexis‚ Justin Name __Jenna Downing_______ Results Table 45 pts. Unknown Samples Specific Gravity Urine Ph Color Turbidity Protein Sugar Hemoglobin Myoglobin Case Study # A 1.0188 6 yellow Clear 10 250 No blood B 1.01728 7 Yellow/green Cloudy No protein 100 No blood C 1.01490 6 Orange/red Cloudy 30 100 No blood D 1.01331 6 green cloudy 30 100 No
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