![Figure 35 Vertical sensitivity Horizontal sensitivity 2.2 Results & Calculations (2 marks] Determine the phase shift in degre](http://img.homeworklib.com/questions/a6067db0-bcd0-11ea-9007-41618006561e.png?x-oss-process=image/resize,w_560)
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Obiective To investigate and do analysis on what happens before, during and after resonance in a...
Settings for the 5.2A function generator: • AC Sine Wave • f = 30 Hz • Phase Shift = 50° • Offset...
Settings for the 5.2A function generator: • AC Sine Wave • f =
30 Hz • Phase Shift = 50° • Offset = 0 V • Amplitude = 2 V
B. Simulate the circuit seen in Figure 5.2. Use the same function generator settings as 5.2A. Record three to four cycles of both the input and output. Using the cursors on the oscilloscope, measuring the time shift between the maxima of the two waves, Δ, and use it to calculate...
using NI multisim please Part 1: 1. Simulate the circuit as shown below: 2- Set the...
using NI multisim please
Part 1: 1. Simulate the circuit as shown below: 2- Set the sensitivity of the Yl channel of the scope to 2 Vicm 3. Set the Y2 sensitivity to 50 mVlcm. 4. Set the time base to 500 ms or to the slowest rate available on your instrument 5. Sct power supply to 10 V then switch on the power supply switch 6- Switch the toggle switch of point (A) to the left and observe the...
Please help me all steps. 1- Set up the circuit as shown in figure (7). Then...
Please help me all steps.
1- Set up the circuit as shown in figure (7). Then 330 resistor is to limit the maximum current reached. Then 100 resistor is to display the current waveform on the oscilloscope. 0.033k Chi (Voltage) 10mH Ch2 (Current) 0.01K common Figure (7) 2- Adjust the wave generator to give a peak voltage of 10 V square wave at 250Hz (Period is 4msec and Pulse Width is 2msec). Set the OSC as follows: Time base: 1...
NI ELVISmx Basic Settings Advanced Settings Sample Rate: 200.00iS Oane10 Settings Channel 1 Settings Source AI 1 At 0 Enabled Probe Scale Volts,01, Poston pv) 100 mV 200 mV Trigger Type Sope Level M...
NI ELVISmx Basic Settings Advanced Settings Sample Rate: 200.00iS Oane10 Settings Channel 1 Settings Source AI 1 At 0 Enabled Probe Scale Volts,01, Poston pv) 100 mV 200 mV Trigger Type Sope Level M Horizontal positon (%) 50 200 us T: 250.00 umeout Ci: 489.99 C284.13 mV CHO Meas RMS:345.95 mV Freq: 999.998 Hz Vpp: 979.42 m CH1 Meas: RMS: 59.46 mV Freq: 999.928 Hz pp: 168.31 m Instrument Control Acquiation Mode Print Log Help Autoscale Cursors OnCi CHO Fig....
Problems 1 through 8 refer to the sinusoidal waveforms on the right, which are displayed on...
Problems 1 through 8 refer to the sinusoidal waveforms on the right, which are displayed on an oscilloscope having the following settings: Channel 1 Vertical Axis: 1 V/Division Channel 2 Vertical Axis: 50 mV/Division Horizontal Axis: 1 ms/Division The zero-volt level is at the center of the screen for both channels. Consider the left edge of the screen to be the t=0 axis. Consider the waveform displayed on Channel 1 as the output voltage of a function generator. In ze...
Objectives: To learn transient behavior of series RC circuits To observe of time constant and its...
Objectives: To learn transient behavior of series RC circuits To observe of time constant and its effect on charging process of capacitor using pulse waveforms Equipment: Oscilloscope Function generator Resistors (1 k) Capacitors (1 uF) Breadboard Pre-Lab Questions A pulse is a voltage or current that changes from one level to the other and back again. If a waveform's high time equals its low time, it is called a square wave. The length of each cycle (one positive peak and...
Current Clamp Properties XFG2 NUN Ratio of voltage to current: 1 VA OK Cancel хса R2...
Current Clamp Properties XFG2 NUN Ratio of voltage to current: 1 VA OK Cancel хса R2 OW- C1 Oscilloscope-XSC2 Current (A) Volts (V) Function generator-XFG2 Waveforms Sigal options Frequency: Duty cyde: Amplitude: Offset 50 ** 2.02 30.08 ms 20.075 10.01 Chama 61.623 my 1.560 V 1.499 V Channels LOSSY 09.08 my 48.733 Troger Edget DEB Timebase Channel A Scale: 10 ms.Ov S cale: 1 VW Xpos.) 14 . Yol.): O YA BA AB AC DC Figure 2. RC Circuit Channels...
I am currently trying to figure out the experiment below. Please complete Table 1 with an...
I am currently trying to figure out the experiment below. Please
complete Table 1 with an explanation, I appreciate it thank
you! Promise to give thumbs up!
Introduction The phase differences between the output voltage, the voltage across the inductor, the voltage across the capacitor, and the voltage across the resistor will be examined at resonant frequency. The voltage and phase relationship will also be examined for frequencies above and below resonance. Theory An inductor, a capacitor, and a resistor are...
Ctri Question 3 (20 Marks) Lab 1-Zener Circuits and Applications Theory: Zener diode is designed ...
Ctri Question 3 (20 Marks) Lab 1-Zener Circuits and Applications Theory: Zener diode is designed to operate in reverse conduction. Zener breakdown occurs at a precisely defined voltage, allowing the diode to be used as a voltage reference or clipper. While Zener diodes are usually operated in reverse conduction, they may also be operated in cutoff and forward conduction. There are two different effects that are used in "Zener diodes". The only practical difference is that the two types have...
(2 points) Two driven inductors A R = 1 kΩ resistor, a L1 = 20 mH...
(2 points) Two driven inductors A R = 1 kΩ resistor, a L1 = 20 mH inductor and a L2 28 mH inductor are connected in series. A funtion generator drives the circuit with a 5 Vpp variable frequency sine wave. (a) What is the equivalent impedance Zeq of this circuit? O A. R +jwLIL2/(L1+ L2) E. None of these (b) For what angular frequency does |Zoq v2 R? 20833.3 radians/sec (c) What is the peak-to-peak value of the voltage...
Settings for the 5.2A function generator: • AC Sine Wave • f =
30 Hz • Phase Shift = 50° • Offset = 0 V • Amplitude = 2 V
B. Simulate the circuit seen in Figure 5.2. Use the same function generator settings as 5.2A. Record three to four cycles of both the input and output. Using the cursors on the oscilloscope, measuring the time shift between the maxima of the two waves, Δ, and use it to calculate...
using NI multisim please
Part 1: 1. Simulate the circuit as shown below: 2- Set the sensitivity of the Yl channel of the scope to 2 Vicm 3. Set the Y2 sensitivity to 50 mVlcm. 4. Set the time base to 500 ms or to the slowest rate available on your instrument 5. Sct power supply to 10 V then switch on the power supply switch 6- Switch the toggle switch of point (A) to the left and observe the...
Please help me all steps.
1- Set up the circuit as shown in figure (7). Then 330 resistor is to limit the maximum current reached. Then 100 resistor is to display the current waveform on the oscilloscope. 0.033k Chi (Voltage) 10mH Ch2 (Current) 0.01K common Figure (7) 2- Adjust the wave generator to give a peak voltage of 10 V square wave at 250Hz (Period is 4msec and Pulse Width is 2msec). Set the OSC as follows: Time base: 1...
NI ELVISmx Basic Settings Advanced Settings Sample Rate: 200.00iS Oane10 Settings Channel 1 Settings Source AI 1 At 0 Enabled Probe Scale Volts,01, Poston pv) 100 mV 200 mV Trigger Type Sope Level M Horizontal positon (%) 50 200 us T: 250.00 umeout Ci: 489.99 C284.13 mV CHO Meas RMS:345.95 mV Freq: 999.998 Hz Vpp: 979.42 m CH1 Meas: RMS: 59.46 mV Freq: 999.928 Hz pp: 168.31 m Instrument Control Acquiation Mode Print Log Help Autoscale Cursors OnCi CHO Fig....
Problems 1 through 8 refer to the sinusoidal waveforms on the right, which are displayed on an oscilloscope having the following settings: Channel 1 Vertical Axis: 1 V/Division Channel 2 Vertical Axis: 50 mV/Division Horizontal Axis: 1 ms/Division The zero-volt level is at the center of the screen for both channels. Consider the left edge of the screen to be the t=0 axis. Consider the waveform displayed on Channel 1 as the output voltage of a function generator. In ze...
Objectives: To learn transient behavior of series RC circuits To observe of time constant and its effect on charging process of capacitor using pulse waveforms Equipment: Oscilloscope Function generator Resistors (1 k) Capacitors (1 uF) Breadboard Pre-Lab Questions A pulse is a voltage or current that changes from one level to the other and back again. If a waveform's high time equals its low time, it is called a square wave. The length of each cycle (one positive peak and...
Current Clamp Properties XFG2 NUN Ratio of voltage to current: 1 VA OK Cancel хса R2 OW- C1 Oscilloscope-XSC2 Current (A) Volts (V) Function generator-XFG2 Waveforms Sigal options Frequency: Duty cyde: Amplitude: Offset 50 ** 2.02 30.08 ms 20.075 10.01 Chama 61.623 my 1.560 V 1.499 V Channels LOSSY 09.08 my 48.733 Troger Edget DEB Timebase Channel A Scale: 10 ms.Ov S cale: 1 VW Xpos.) 14 . Yol.): O YA BA AB AC DC Figure 2. RC Circuit Channels...
I am currently trying to figure out the experiment below. Please
complete Table 1 with an explanation, I appreciate it thank
you! Promise to give thumbs up!
Introduction The phase differences between the output voltage, the voltage across the inductor, the voltage across the capacitor, and the voltage across the resistor will be examined at resonant frequency. The voltage and phase relationship will also be examined for frequencies above and below resonance. Theory An inductor, a capacitor, and a resistor are...
Ctri Question 3 (20 Marks) Lab 1-Zener Circuits and Applications Theory: Zener diode is designed to operate in reverse conduction. Zener breakdown occurs at a precisely defined voltage, allowing the diode to be used as a voltage reference or clipper. While Zener diodes are usually operated in reverse conduction, they may also be operated in cutoff and forward conduction. There are two different effects that are used in "Zener diodes". The only practical difference is that the two types have...
(2 points) Two driven inductors A R = 1 kΩ resistor, a L1 = 20 mH inductor and a L2 28 mH inductor are connected in series. A funtion generator drives the circuit with a 5 Vpp variable frequency sine wave. (a) What is the equivalent impedance Zeq of this circuit? O A. R +jwLIL2/(L1+ L2) E. None of these (b) For what angular frequency does |Zoq v2 R? 20833.3 radians/sec (c) What is the peak-to-peak value of the voltage...
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