Mar 28, 2024  
Official Course Syllabi 2020-2021 
    
Official Course Syllabi 2020-2021 [ARCHIVED CATALOG]

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ELEC 2490 - Instrumentation 2Advanced OpAmps & Linear Integrated Circuits

Credit Hours: 3.00


Prerequisites: ELEC 2010

(formerly EETE 2490)

ELEC 2490 focuses on operational amplifier applications, passive and active filters, voltage compositors, phase-locked-loop and data acquisition.

Location: South Campus

Contact Hours: 4
Billable Contact Hours: 4
OUTCOMES AND OBJECTIVES
Outcome 1:
Upon completion of the course the student will be able to analyze, build and take measurements in special purpose electronic circuits which contain operational amplifiers.

Objectives: The student will:

  1. Construct and evaluate comparator circuits.
  2. Construct and evaluate summing amplifiers.
  3. Construct and evaluate integrators and differentiators.
  4. Troubleshoot special purpose op‐amp circuits.
  5. Evaluate instrumentation and isolation amplifiers.
  6. Evaluate log and antilog amplifiers.
  7. Evaluate converter circuitry.

Outcome 2:
Upon completion of the course the student will be able to analyze, build and take measurements in special purpose electronic circuits which contain active op‐amp filters.

Objectives: The student will:

  1. Analyze and derive basic filter responses and characteristics.
  2. Construct and evaluate active low‐pass and high‐pass filters.
  3. Construct and evaluate band‐pass and band‐stop filters.

Outcome 3:
Upon completion of the course the student will be able to analyze, build and take measurements in electronic oscillator circuits which contain linear devices.

Objectives: The student will:

  1. Construct and evaluate RC feedback circuits.
  2. Analyze and evaluate LC feedback circuits.
  3. Analyze and evaluate relaxation oscillators.
  4. Construct and analyze circuits containing electronic timers such as the 555.

Outcome 4:
Upon completion of the course the student will be able to analyze, build, and take measurements in voltage regulation circuits which contain linear devices.

Objectives: The student will:

  1. Construct and evaluate basic linear series and shunt voltage regulator circuits.
  2. Construct and evaluate basic switching regulator circuits.
  3. Construct and evaluate integrated circuit voltage regulators.

Outcome 5:
Upon completion of the course the student will be able to analyze, build, and take measurements in basic analog communication circuitry.

Objectives: The student will:

  1. Analyze and evaluate basic receiver circuits.
  2. Analyze and evaluate amplitude modulation circuitry.
  3. Analyze and evaluate AM demodulation circuitry.
  4. Analyze and evaluate IF and Audio amplifiers.
  5. Analyze and evaluate frequency modulation circuitry.
  6. Analyze and evaluate integrated phase locked loop circuitry

COMMON DEGREE OUTCOMES
(Bulleted outcomes apply to the course)

  • 1. The graduate can integrate the knowledge and technological skills necessary to be a successful learner.
  • 2. The graduate can demonstrate how to think competently.
  • 3. The graduate can demonstrate how to employ mathematical knowledge.
  • 4. The graduate can demonstrate how to communicate competently.
  1. The graduate is sensitive to issues relating to a diverse, global society.

COURSE CONTENT OUTLINE
  1. Basic Op‐amp Circuits
    1. Comparators
    2. Su0mming amplifiers
    3. Integrators and differentiators
    4. Troubleshooting
  2. Special Purpose Op‐amp Circuits
    1. Instrumentation and isolation amplifiers
    2. Operational transconductance amplifiers
    3. Log and antilog amplifiers
    4. Converters
  3. Active Filters
    1. Basic filter response and characteristics
    2. Active low‐pass and high‐pass filters
    3. Active band‐pass and stop‐pass filters
  4. Oscillators
    1. Feedback principles
    2. RC and LC feedback
    3. Relaxation oscillators
    4. Linear integrated timer circuits
  5. Voltage Regulators
    1. Basic series and shunt regulators
    2. Basic switching regulators
    3. Integrated circuit voltage regulators
  6. Analog Communications Circuits
    1. Basic receivers
    2. Linear multipliers
    3. Amplitude modulation
    4. AM demodulation
    5. IF and audio amplifiers
    6. Frequency modulation
    7. Phase locked loops

Primary Faculty
Dulinski, Kenneth
Secondary Faculty

Associate Dean
Hinrichsen, Timothy
Dean
Hutchison, Donald



Official Course Syllabus - Macomb Community College, 14500 E 12 Mile Road, Warren, MI 48088



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