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Draw the correct waveforms in the aranhs below for questions 10: 8. With the oscilloscope AC...
Analog Oscilloscope Setup: 1. Turn on the power to the oscilloscope. 2. Connect the function gene...
Analog Oscilloscope Setup: 1. Turn on the power to the oscilloscope. 2. Connect the function generator to the Channel 1 input on the oscilloscope 3. In the Vertical Control Group, set the Channel 1 AC/GND/DC switch to AC. 4. Set the Volts-per-Division knob 5. Intensity knob: adjust the signal intensity and focus to a comfortable level by using the intensity and focus knobs, respectively Set the seconds-per-division knob 6. Assignment Procedures: 1. Using the settings completed above, answer the following...
The oscilloscope display below is connected to a sine wave of 100 Hz frequency and 4...
The oscilloscope display below is connected to a sine wave of 100 Hz frequency and 4 volt amplitude, 100 us seconds/div, and 2 volts/div. What control(s) on the oscilloscope need to be adjusted to bring this signal into focus so that it displays a sine wave? The oscilloscope display below is connected to a sine wave of 150 Hz frequency , 2 ms seconds/div, and 1 volts/div. What control(s) on the oscilloscope need to be adjusted to bring this signal...
I need help with question #2 TWU Physics Laboratory I Oscilloscope it is If an alternating...
I
need help with question #2
TWU Physics Laboratory I Oscilloscope it is If an alternating signal is applied to the vertical plates of the oscilloscoe utar This particular possible that a pattern such as that shown in Figure 2 might be obtai wave shape is called a sine wave. The oscilloscops.san voltage by measuring the height of the signal display determined indirectly by determining the width of one cycle and the horizontal s time per unit length. k A...
*USE Multisim( Provide Pictures of work on Multisim for each step) and Fill the Tables Below...
*USE Multisim( Provide Pictures of work on Multisim for each
step) and Fill the Tables Below
PROCEDURE: Review the front panel controls in each of the major groups. Then turn on the oscilloscope, select Chl, set the SEC/DIV to 0.1 ms/div, select AUTO triggering, and obtain a line across the face of the CRT. Although many of the measurements described in this experiment are automated in newer scopes, it is useful to learn to make these measurements manually. Turn on...
hy I need answers of these questions according to data sheet. thank you DATA SHEET PARTI...
hy I need answers of these questions according to data
sheet. thank you
DATA SHEET PARTI TIME/DIV ims VOLTS/DIV=_IV PEAK VOLTAGE V_47 toms TIME/DIV=_ms VOLTS/DIV-5V PEAK VOLTAGE V_42 PERIOD TO_loms PERIOD T- PART 1 SINEWAVE Vrms (VOLTS) VP (VOLTS) (Voltmeter) (oscilloscope) 7:07 10 3.57 5 2: 78 4 2.10 3 2 Slope=0.707V TIME/DIV=_ams VOLTS/DIVE PEAK VOLTAGE V=_41_ PERIOD T=_toms PART III SQUAREWAVE VAMS (VOLTS) VP (VOLTS) (Voltmeter) (oscilloscope) 10.9 do 542 S 4.4 4 3:3 고 2-2 Slope 0-92-1v PART...
DC-AC inverters have many commercial and residential applications, including uninterruptible powe...
DC-AC inverters have many commercial and residential applications, including uninterruptible power supply (UPS) units, adjustable speed drives (ASD) for AC motors, and electronic frequency changer circuits. They are also used in solar electrical systems where batteries are charged from solar panels and used as the input DC voltage source. The inverter circuit converts the DC into AC voltage of desired frequency. Most of us are also familiar with HVDC transmission systems, where high voltages are first converted from AC to...
Laboratory 2: Transistor circuit characteristics A. Objectives: 1. To study the basic characteris...
Laboratory 2: Transistor circuit characteristics A. Objectives: 1. To study the basic characteristics of a transistor circuit. 2. To study the bias circuit of a transistor circuit. B. Apparatus: 1. DC Power supply 2. Experimental boards and corresponding components 3. Electronic calculator (prepared by students) 4. Digital camera (prepared by students for photo taking of the experimental results) 5. Laptop computer with the software PicoScope 6 and Microsoft Word installed. 6. PicoScope PC Oscilloscope and its accessories. 7. Digital multi-meter....
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...
B oth 100 Day PH262 Page 1 of 5 Lab #13 AC Circuits, Part 1 RC...
B oth 100 Day PH262 Page 1 of 5 Lab #13 AC Circuits, Part 1 RC & RL, Phase Measurements THEORY The rotating phase representation for series AC circuits should be familiar from textbook and lecture notes A brief outline of the essential points is provided here. If a series RLC circuit is connected across a source of om which is a sinusoidal function of time, then und all its derivatives will also be inside. Sonce all demits in a...
1. Why can the DSO only measure node voltages when the Function Generator is the power supply in ...
1. Why can the DSO only measure node voltages when the Function Generator is the power supply in a circuit (unless it is using a current probe)? 2. Consider Figure 1. According to the calculations in the lab handout, if Z-1kΩ +/6914, then the phase difference (фи-фі) between u(t) and i (t) is 34.6". a. If this v(t) and i(t) were displayed on a DSO (v(t) being a node voltage and using a current probe for i(t) as shown in...
Analog Oscilloscope Setup: 1. Turn on the power to the oscilloscope. 2. Connect the function generator to the Channel 1 input on the oscilloscope 3. In the Vertical Control Group, set the Channel 1 AC/GND/DC switch to AC. 4. Set the Volts-per-Division knob 5. Intensity knob: adjust the signal intensity and focus to a comfortable level by using the intensity and focus knobs, respectively Set the seconds-per-division knob 6. Assignment Procedures: 1. Using the settings completed above, answer the following...
The oscilloscope display below is connected to a sine wave of 100 Hz frequency and 4 volt amplitude, 100 us seconds/div, and 2 volts/div. What control(s) on the oscilloscope need to be adjusted to bring this signal into focus so that it displays a sine wave? The oscilloscope display below is connected to a sine wave of 150 Hz frequency , 2 ms seconds/div, and 1 volts/div. What control(s) on the oscilloscope need to be adjusted to bring this signal...
I
need help with question #2
TWU Physics Laboratory I Oscilloscope it is If an alternating signal is applied to the vertical plates of the oscilloscoe utar This particular possible that a pattern such as that shown in Figure 2 might be obtai wave shape is called a sine wave. The oscilloscops.san voltage by measuring the height of the signal display determined indirectly by determining the width of one cycle and the horizontal s time per unit length. k A...
*USE Multisim( Provide Pictures of work on Multisim for each
step) and Fill the Tables Below
PROCEDURE: Review the front panel controls in each of the major groups. Then turn on the oscilloscope, select Chl, set the SEC/DIV to 0.1 ms/div, select AUTO triggering, and obtain a line across the face of the CRT. Although many of the measurements described in this experiment are automated in newer scopes, it is useful to learn to make these measurements manually. Turn on...
hy I need answers of these questions according to data
sheet. thank you
DATA SHEET PARTI TIME/DIV ims VOLTS/DIV=_IV PEAK VOLTAGE V_47 toms TIME/DIV=_ms VOLTS/DIV-5V PEAK VOLTAGE V_42 PERIOD TO_loms PERIOD T- PART 1 SINEWAVE Vrms (VOLTS) VP (VOLTS) (Voltmeter) (oscilloscope) 7:07 10 3.57 5 2: 78 4 2.10 3 2 Slope=0.707V TIME/DIV=_ams VOLTS/DIVE PEAK VOLTAGE V=_41_ PERIOD T=_toms PART III SQUAREWAVE VAMS (VOLTS) VP (VOLTS) (Voltmeter) (oscilloscope) 10.9 do 542 S 4.4 4 3:3 고 2-2 Slope 0-92-1v PART...
DC-AC inverters have many commercial and residential applications, including uninterruptible power supply (UPS) units, adjustable speed drives (ASD) for AC motors, and electronic frequency changer circuits. They are also used in solar electrical systems where batteries are charged from solar panels and used as the input DC voltage source. The inverter circuit converts the DC into AC voltage of desired frequency. Most of us are also familiar with HVDC transmission systems, where high voltages are first converted from AC to...
Laboratory 2: Transistor circuit characteristics A. Objectives: 1. To study the basic characteristics of a transistor circuit. 2. To study the bias circuit of a transistor circuit. B. Apparatus: 1. DC Power supply 2. Experimental boards and corresponding components 3. Electronic calculator (prepared by students) 4. Digital camera (prepared by students for photo taking of the experimental results) 5. Laptop computer with the software PicoScope 6 and Microsoft Word installed. 6. PicoScope PC Oscilloscope and its accessories. 7. Digital multi-meter....
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...
B oth 100 Day PH262 Page 1 of 5 Lab #13 AC Circuits, Part 1 RC & RL, Phase Measurements THEORY The rotating phase representation for series AC circuits should be familiar from textbook and lecture notes A brief outline of the essential points is provided here. If a series RLC circuit is connected across a source of om which is a sinusoidal function of time, then und all its derivatives will also be inside. Sonce all demits in a...
1. Why can the DSO only measure node voltages when the Function Generator is the power supply in a circuit (unless it is using a current probe)? 2. Consider Figure 1. According to the calculations in the lab handout, if Z-1kΩ +/6914, then the phase difference (фи-фі) between u(t) and i (t) is 34.6". a. If this v(t) and i(t) were displayed on a DSO (v(t) being a node voltage and using a current probe for i(t) as shown in...
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