We can enter either an AC or DC signal to the input. The 741 op-amp is one type of solid state. (should not exceed the power supply voltage) And the price of the 741 is as well as a single transistor. They are in a plastic package DIP-8 of Fairchild, Since the year 1965.Īnd the op-amp became number 741 in the second year, Fri 1968.Īre you a beginner? Learn Basic Electronics The op-amp can be on tiny silicon sheets. LabVIEW Sample Rate: 500.00 KS/ Basic Settings Advanced Settings Channel O Settings Source ΑΙΣ Enabled Probe Channel 1 Settings Source ΑΙ Ο Enabled Probe Coupling 1x DC Scale Vertical Volts Position (DI) Coupling DC Vertical Position (Div) Scale Volts/Div 200 mV 0 2v o e Timebase Time/Div Trigger Type Immediate Slope Level Source TRIC Horizontal Position (9) 50 500 us Cursors: C1: 484.15 mV C2: 4.44 V Timeout CHO Meas: CH1 Meas: RMS: 336.12 mV RMS: 3.228 V Freq: 1.000 Hz Freg: 1.000 dT: 10.00 us Vp-p: 954.12 m Vpp: 9.From advances of an integrated circuit. Search ? Voltage Transfer Characteristic Pero 10.0- 8.0 40- 2.00 pando OD -40-8.0 -100-12 02 04 10 14 1.6 0.0 Input Voltage Viin ma conds to wait resolution 0.05 Vs 12 LabVIEW Sample Rate: 500.00 KS/ Basic Settings Advanced Settings Channel O Settings Source ΑΙΣ Enabled Probe Channel 1 Settings Source ΑΙ Ο Enabled Probe Coupling 1x DC Scale Vertical Volts Position (DI) Coupling DC Vertical Position (Div) Scale Volts/Div 200 mV 0 2v o e Timebase Time/Div Trigger Type Immediate Slope Level Source TRIC Horizontal Position (9) 50 500 us Oursors: Timeout CHO Meas: CH1 Meas: C1: 506.99 mV RMS: 353.72 mV RMS: 3.781 V C2: 5.56 V Freq: 1.000 Hz Freq: 1.000 de đi: 0.00% Vp-p: 1.004V Vpp: 10.790 V Instrument Control Device Dev21 (NI ELVIS 114) Run Acquisition Mode Run Continuously Print Log Stop Help Cursors Settings Cursors on сі оно C2 CH 1 Display Measurements Ho Chi Graph Controls Graph Properties Autoscaleįile Idit View Project Operate Tools Window Help 16pt Application font. Expected, simulated and practical values of Vi and IL Expected using ideal Expected using 741 Op amp Simulated Practical %Error on VL RL (92) Op amp VI IL VL IL VL IL Simu. Vs Prac, VS Expected Expected -10 Inverting Amplifier Non-inverting Amplifier +11 Table 4. Amplifier Expected Av Simulated Av Practical Av %Error Simu. Expected, simulated and practical values for the voltage gain. Input and output waveforms screenshot Inverting Amplifier Non-inverting Amplifier (Insert your (Insert your figure here) figure here) Practical Non-inverting and Inverting Amplifier Design Amplifier Voltage Transfer Char. Input and output waveforms screenshot Inverting Amplifier (Insert your (Insert your Non- inverting (Insert your figure here) Amplifier figure here) figure here) Simulation of the Non-inverting and Inverting Amplifier Design Amplifier Circuit Simulation screenshot Voltage Transfer Char. VCC 10V 17 1 5 LL 3 + 2 Ammeter V1 =1V LM741CN 0 VEE Voltmeter -10V RL VL R1 (LOAD) 1kΩ R2 S1kΩ Fig. Record the corresponding values of I_ and VỊ in the simulated columns in Table 4.Measure the current (IL) and voltage (VL) across the load at various values of Ri as specified in Table 4.Record the calculated values in the expected values using the 741 Op amp column in Table 4. 6 at various values of Rı (load) as specified in Table 4. Assuming that the 741 op-amp can deliver a maximum current of 25mA, calculate the values of Vų (load voltage) and IL (load current) on the op-amp circuit shown inįig.form DC sweep on the amplifier input (set Vin from -2V to +2V) and obtain Vout/Vin slope using the trendline equation calculation in Excel and identify the gain of the amplifier.
Simulate your design and insert a snapshot of the Multisim circuit using Multisim Live online application along with the input and output waveforms by filling out Table 1.
Set the feedback resistance, RF, equal to 10 k22.Design an inverting amplifier with the following constraints: Set the feedback resistance, RF, equal to 10 k12.Design a non-inverting amplifier with the following constraints: Design and Simulations Using Multisim Live 4.1.