UOP ECT 246 Week 1 iLab Power Supplies
UOP ECT 246 Week 2 iLab Transistor Circuits
UOP ECT 246 Week 3 iLab Op
UOP ECT 246 Week 4 iLab Audio Amplifiers
UOP ECT 246 Week 5 iLab Op
UOP ECT 246 Week 6 iLab Filterss
UOP ECT 246 Week 7 iLab Switching Transistors
ASH EDU 647 Entire Course
ASH EDU 647 Week 1 Assignment Assessing Other Educ…
ASH EDU 647 Week 1 DQ 1 Family Support
ASH EDU 647 Week 1 DQ 2 Collaboration
ASH EDU 647 Week 2 Assignment Using a Storybook to…
ASH EDU 647 Week 2 DQ 1 Group Focus
ASH EDU 647 Week 2 DQ 2 FINE Publication
ASH EDU 647 Week 3 Assignment Parent Involvement a…
ASH EDU 647 Week 3 DQ 1 Key Family System Processe…
ASH EDU 647 Week 3 DQ 2 Responding to Crisis of St…
ASH EDU 647 Week 4 Assignment
keller ECON 312
DEVRY BUSN 115 Entire Course
UOP ACCT 304 Entire Class Includes
UOP ENG 147 Entire Course
Uop GEN 127 Entire Course
Keywords
Authorizations, license

Visible by: Everyone 
All rights reserved

3 visits
UOP ECT 246 All iLabs
This doc cannot be viewed.
UOP ECT 246 All iLabs (Week 1 to Week 7)
Check this A+ tutorial guideline at
www.assignmentcloud.com/ect246/ect246allilabs
For more classes visit
www.assignmentcloud.com
ECT 246 All iLabs (Week 1 to Week 7)
ECT 246 Complete ilabs Week 1 To 7
ECT 246 Week 1 iLab Power Supplies
TCO #1:
Given an application requiring an AC to DC regulated power supply discuss the block diagram of the supply, and how its internal subsystems are related, using the appropriate data sheets, determine the device’s operating parameters, calculate, simulate and measure the power supply’s electrical parameters.
ECT 246 Week 2 iLab Transistor Circuits
Part ATransistor Circuits
TCO #2:
Given an application requiring a singlestage common emitter BJT amplifier and a common source JFET amplifier with voltagedivider biasing use the device’s data sheet to establish the operating conditions calculate, simulate, and measure the input and output parameters.
ECT 246 Week 3 iLab OpAmps
Part AOp Amps
TCO #3:
Given an operational amplifier (opamp) circuit schematic, calculate, simulate and measure the input and output voltages, impedance, and signal gain for a inverting, noninverting, and voltage follower opamp configurations.
A.Define the basic concepts of an opamp including its symbol, input modes such as differential inputs, common mode rejection ratio, input and output impedance, slew rate and negative feedback.
B.Examine a common opamp’s data sheet such as a LM741C to determine the device’s, electrical characteristics, and standard applications.
ECT 246 Week 4 iLab Audio Amplifiers
TCO #4:
Given an audio amplifier application that uses an integrated amplifier, examine the overall amplifier’s performance and verify the operation by using suitable input and output circuits.
ECT 246 Week 5 iLab OpAmps
In week five, you will create several circuits using the operation amplifiers you studied earlier. An opamp can be configured to perform special applications found in everyday electronic equipment. These include comparators, level detectors, summing amplifiers and digital to analog converters.
A.Describe the operation of a level detector.
a.Explain the operation of the following circuit.
B.Determine the output of a level detector for a given reference voltage. Simulate a level detector and verify that the simulated voltages agree with the calculated values.
C.Explain the operation of a summing amplifier and how the output voltage is calculated based on the input values.
E.Calculate the output voltage of a three input summing amplifier.
F.Simulate a summing amplifier with three inputs, measure the results and compare them to the calculated values.
ECT 246 Week 6 iLab Filters and Oscillators
Part AActive Filters
Week six addresses the concept of active filters and oscillators. The low, high, bandpass and notch active filters, their circuits, and operating parameters are covered. The Weinbridge RC oscillator, its configuration, operation and circuit is discussed.
TCO #6:
Given an application requiring active filters calculate, simulate and measure filter characteristic of a lowpass, highpass, bandpass, and notch filter.
Part B Oscillators
TCO#7:
Given an oscillator application, such as a tone generator, determine the operating parameters and calculate and measure the oscillator’s voltage, frequency and relative stability.
Part CFilters and Oscillator Simulations
1.The circuit below is a twopole highpass Butterworth filter. The upper critical frequency should be 1.12kHz. Find the required value for R4 and the closed loop gain. Verify the circuit operation in Multisim. Make the necessary changes to the circuit and verify its operations. The Multisim file (ECT246_Week_6_Two_high_trouble.ms) can be found in Doc Sharing, week 7.
ECT 246 Week 7 iLab Switching Transistors and Optical Devices
Given a DC switching application such as driving a motor in one and two directions use a SCR and a transistor and an Hbridge driver to successfully perform the operation, calculate and measure the operating voltages and currentS
Check this A+ tutorial guideline at
www.assignmentcloud.com/ect246/ect246allilabs
For more classes visit
www.assignmentcloud.com
ECT 246 All iLabs (Week 1 to Week 7)
ECT 246 Complete ilabs Week 1 To 7
ECT 246 Week 1 iLab Power Supplies
TCO #1:
Given an application requiring an AC to DC regulated power supply discuss the block diagram of the supply, and how its internal subsystems are related, using the appropriate data sheets, determine the device’s operating parameters, calculate, simulate and measure the power supply’s electrical parameters.
ECT 246 Week 2 iLab Transistor Circuits
Part ATransistor Circuits
TCO #2:
Given an application requiring a singlestage common emitter BJT amplifier and a common source JFET amplifier with voltagedivider biasing use the device’s data sheet to establish the operating conditions calculate, simulate, and measure the input and output parameters.
ECT 246 Week 3 iLab OpAmps
Part AOp Amps
TCO #3:
Given an operational amplifier (opamp) circuit schematic, calculate, simulate and measure the input and output voltages, impedance, and signal gain for a inverting, noninverting, and voltage follower opamp configurations.
A.Define the basic concepts of an opamp including its symbol, input modes such as differential inputs, common mode rejection ratio, input and output impedance, slew rate and negative feedback.
B.Examine a common opamp’s data sheet such as a LM741C to determine the device’s, electrical characteristics, and standard applications.
ECT 246 Week 4 iLab Audio Amplifiers
TCO #4:
Given an audio amplifier application that uses an integrated amplifier, examine the overall amplifier’s performance and verify the operation by using suitable input and output circuits.
ECT 246 Week 5 iLab OpAmps
In week five, you will create several circuits using the operation amplifiers you studied earlier. An opamp can be configured to perform special applications found in everyday electronic equipment. These include comparators, level detectors, summing amplifiers and digital to analog converters.
A.Describe the operation of a level detector.
a.Explain the operation of the following circuit.
B.Determine the output of a level detector for a given reference voltage. Simulate a level detector and verify that the simulated voltages agree with the calculated values.
C.Explain the operation of a summing amplifier and how the output voltage is calculated based on the input values.
E.Calculate the output voltage of a three input summing amplifier.
F.Simulate a summing amplifier with three inputs, measure the results and compare them to the calculated values.
ECT 246 Week 6 iLab Filters and Oscillators
Part AActive Filters
Week six addresses the concept of active filters and oscillators. The low, high, bandpass and notch active filters, their circuits, and operating parameters are covered. The Weinbridge RC oscillator, its configuration, operation and circuit is discussed.
TCO #6:
Given an application requiring active filters calculate, simulate and measure filter characteristic of a lowpass, highpass, bandpass, and notch filter.
Part B Oscillators
TCO#7:
Given an oscillator application, such as a tone generator, determine the operating parameters and calculate and measure the oscillator’s voltage, frequency and relative stability.
Part CFilters and Oscillator Simulations
1.The circuit below is a twopole highpass Butterworth filter. The upper critical frequency should be 1.12kHz. Find the required value for R4 and the closed loop gain. Verify the circuit operation in Multisim. Make the necessary changes to the circuit and verify its operations. The Multisim file (ECT246_Week_6_Two_high_trouble.ms) can be found in Doc Sharing, week 7.
ECT 246 Week 7 iLab Switching Transistors and Optical Devices
Given a DC switching application such as driving a motor in one and two directions use a SCR and a transistor and an Hbridge driver to successfully perform the operation, calculate and measure the operating voltages and currentS
 Keyboard shortcuts:
RSS feed Subscribe to comments on this doc.  Latest comments
 ipernity © 20072017

Help & Contact

The ipernity Team blog

About ipernity

Thanks!

The ipernity Club
Guide of good conduct  Group guidelines  Privacy Policy  Terms of service
ipernity for iPhone / iPad new  ipernity for Android new  Developers space 
Facebook
Google +
Twitter  Find us on:
 Language
 English
Please signin to write a comment.