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1000 Hz Fig. 3 10. Using the measured values of R and V calculate the voltage...
PROCEDU Part 1 Resistance (a) Construct the circuit of Fig. 4.1. Insert the measured values of...
PROCEDU Part 1 Resistance (a) Construct the circuit of Fig. 4.1. Insert the measured values of the counter if available mined by the ohmmeter section of your multimeter. Hook up the frequeney Red r measured / 100Ω Sensing resistor Red measured 500 Hz Oscilloscope Black Black FIG. 4.1 Caution: Always ensure that the ground of the oscilloscope is connected to the ground of the oscillator. Otherwise a hazardous situation may result (b) Set the voltage across R to 4 V...
4. The half-wave rectifier in Fig. P3.94 is operating with an input voltage, V = 10...
4. The half-wave rectifier in Fig. P3.94 is operating with an input voltage, V = 10 sinat,at a frequency of 60 Hz and Von=1V. (25 points) C D Les = Figure P3.94 a. Draw the output voltage (Vo(t)) waveform. b. What is the minimum value of C required to maintain the ripple voltage to less than 0.25V if R=0.5 Q and the diode voltage drop is 1V? c. What is the PIV rating of the diode in this circuit? d....
do not need to build the circuit, just solve the question 1,2 and 3 RLC transients...
do not need to build the circuit, just solve the question 1,2 and
3
RLC transients Build the circuit shown in Fig 4. The source is a square wave that switches between 0 and 10 V with a frequency of 500 Hz. (If needed, you can change the frequency in order to get clear oscilloscope traces in the following measurements.) 3300 Figure 4. L 30 mH square 47 nF - 0 + 1. Set R2 = 3.3k2. Do a calculation...
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...
Course and Section cto EXPERIMENT ac series-Parallel Sinusoidal Circuits OBJECTIVES 1. Measure th...
Course and Section cto EXPERIMENT ac series-Parallel Sinusoidal Circuits OBJECTIVES 1. Measure the currents of series-parallel R-L and R-C networks using sensing resistors 2. Demonstrate the Pythagorean relationship between the currents of the networks. 3. Measure the phase angles associated with the currents of the networks. 4. Calculate the input impedance of a parallel network using measured values EQUIPMENT REQUIRED Instruments Resistors 1-10-Q, 470-Ω, l-kM (14.W) Inductors 1-10-mH Capacitors 1-0.02-pF I-DMM 1--Oscilloscope 1-Audio oscillator or function generator 1--Frequency counter (if...
*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...
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...
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...
Bridge Network Part 4 (a) Construct the network of Fig. 14.4. Insert the measured resistor values...
Bridge Network Part 4 (a) Construct the network of Fig. 14.4. Insert the measured resistor values R3 3.3 k R=3.3 k RImeasured = Vs- R 2.2 k R2 measured - R3 measured E 20 V Is Ra measured =1.2 k = 2.2 k Ra R3 A5 measured FIG. 14.4 (b) Using any one of the three techniques examined in this experiment, calculate the voltage Vs and the current Is. Use the measured resistor values. Record the results in the "Calculated"...
I need a help with my lab, I write all data that get. 355 SERIES SINUSOIDAL...
I need a help with my lab, I write all data that get.
355 SERIES SINUSOIDAL CIRCU CUITS neeseed 000 10 mH 10 kHz + R E-8V(Pp) V 1 kn Channel 2 Vert: 1 Vidiv Hor: 20 us/div. Channel 1 Vert: 1 Vidiv Hor: 20 us/div. FIG. 9.1 (b) After setting E to 8 V (p-p), determine the peak-to-peak voltage for Ve from chan- nel 2 and record in the top row of Table 9.1 Determine the phase angle 8,...
PROCEDU Part 1 Resistance (a) Construct the circuit of Fig. 4.1. Insert the measured values of the counter if available mined by the ohmmeter section of your multimeter. Hook up the frequeney Red r measured / 100Ω Sensing resistor Red measured 500 Hz Oscilloscope Black Black FIG. 4.1 Caution: Always ensure that the ground of the oscilloscope is connected to the ground of the oscillator. Otherwise a hazardous situation may result (b) Set the voltage across R to 4 V...
4. The half-wave rectifier in Fig. P3.94 is operating with an input voltage, V = 10 sinat,at a frequency of 60 Hz and Von=1V. (25 points) C D Les = Figure P3.94 a. Draw the output voltage (Vo(t)) waveform. b. What is the minimum value of C required to maintain the ripple voltage to less than 0.25V if R=0.5 Q and the diode voltage drop is 1V? c. What is the PIV rating of the diode in this circuit? d....
do not need to build the circuit, just solve the question 1,2 and
3
RLC transients Build the circuit shown in Fig 4. The source is a square wave that switches between 0 and 10 V with a frequency of 500 Hz. (If needed, you can change the frequency in order to get clear oscilloscope traces in the following measurements.) 3300 Figure 4. L 30 mH square 47 nF - 0 + 1. Set R2 = 3.3k2. Do a calculation...
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...
Course and Section cto EXPERIMENT ac series-Parallel Sinusoidal Circuits OBJECTIVES 1. Measure the currents of series-parallel R-L and R-C networks using sensing resistors 2. Demonstrate the Pythagorean relationship between the currents of the networks. 3. Measure the phase angles associated with the currents of the networks. 4. Calculate the input impedance of a parallel network using measured values EQUIPMENT REQUIRED Instruments Resistors 1-10-Q, 470-Ω, l-kM (14.W) Inductors 1-10-mH Capacitors 1-0.02-pF I-DMM 1--Oscilloscope 1-Audio oscillator or function generator 1--Frequency counter (if...
*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...
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...
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...
Bridge Network Part 4 (a) Construct the network of Fig. 14.4. Insert the measured resistor values R3 3.3 k R=3.3 k RImeasured = Vs- R 2.2 k R2 measured - R3 measured E 20 V Is Ra measured =1.2 k = 2.2 k Ra R3 A5 measured FIG. 14.4 (b) Using any one of the three techniques examined in this experiment, calculate the voltage Vs and the current Is. Use the measured resistor values. Record the results in the "Calculated"...
I need a help with my lab, I write all data that get.
355 SERIES SINUSOIDAL CIRCU CUITS neeseed 000 10 mH 10 kHz + R E-8V(Pp) V 1 kn Channel 2 Vert: 1 Vidiv Hor: 20 us/div. Channel 1 Vert: 1 Vidiv Hor: 20 us/div. FIG. 9.1 (b) After setting E to 8 V (p-p), determine the peak-to-peak voltage for Ve from chan- nel 2 and record in the top row of Table 9.1 Determine the phase angle 8,...
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