1. Number and Name: 11:375:450 Applied Instrumentation and Control

SYLLABUS

1.  Number and Name: 11:375:450 Applied Instrumentation and Control

2.  Credits and Contact Hours: 4 Credits, 2-80 min. lecture periods and 1-180 min. laboratory

3.  Instructor(s): Robert Miskewitz, PhD, Assistant Research Professor

4.  Text: Measurement and Instrumentation inEngineering Principles and Basic Laboratory Experiments, Francis S. Tse and Ivan E. Morse 1989, CRC Press.

5.  Specific Course Information

·  Catalog Description: Throughout their careers as professional engineers and scientists students will be required to use measurements to identify and solve environmental problems. It is important when utilizing measurements to understand how they were collected to determine their applicability and limitations. Through this class students will develop an understanding of how to conduct experiments involving the collection field data and the various tools and techniques required to do so

·  Pre-requisites: Two semesters of calculus

·  Course Type: Required

6.  Specific Instructional Outcomes: Students will be versed in field sampling protocols and procedures, basic analysis of field measurements, and the concepts sampling and instrumentation error. Student will design and use environmental sensors and their problem solving skills will be enhanced through the completion of a term project during which they will develop field sampling systems to collect environmental data and analyze and present their measurement orally at the end of the semester.

7.  Specific Student Outcomes addressed by the course include:

·  Outcome a (apply knowledge of mathematics, science, engineering)

·  Instructional Activity: Concepts of concepts of chemistry, mathematics and physics as they apply to sensor function and data analysis will be covered in lectures. Students will practice these skills by doing weekly problem sets and by addressing a problem of their own design for their term project.

·  Assessment Activity: Application of math, science and engineering knowledge will be assessed via homework problem sets (10% of assessment) and two exams (50% of assessment)

·  Outcome b (design and conduct experiments)

·  Instructional Activity: This class includes 7 laboratories which will involve development of a measurement strategy. These laboratories are designed to teach the students to apply the concepts they learn in lectures and observe outcomes first hand.

·  Assessment Activity: Ability to design and conduct experiments, as well as to analyze and interpret data will be assessed via laboratory reports (15% of assessment).

·  Outcome c (design a system component or process)

·  Instructional Activity: Students will conduct a term project which involves identification of an environmental measurement that they propose to collect. They will be guided through the project with periodic milestones that should be met to ensure progress.

·  Assessment Activity: The ability to design a system, component, or process to meet desired needs will be assessed via the term project (25% of assessment).

·  Outcome g (communicate effectively)

·  Instructional Activity: Students will be provided with a laboratory report format that they will follow for all reports. Students will practice their term project presentations in front of the class instructor prior to presenting to their peers and faculty members.

·  Assessment Activity: Effective communication will be assessed via laboratory reports (15%) and the students’ term projects (25%).

8.  Topics

·  Introduction to measurement systems, standards of measurement, experimental planning and a review of basic circuits and electronic components (Weeks 1-2)

o  Laboratory 1: Introduction to Oscilloscope and Multi-meter use for resistance measurements

·  Signals (Weeks 3-4)

o  Static and dynamic signal types and behavior

o  Probability and statistics of measurements

o  Sensor calibration and validation

o  Error analysis and propagation

o  Laboratory 2: Calibration and Error analysis of a resistance based measurement.

·  Data acquisition (Week 5-6)

o  Analog Devices

§  Amplification

§  Signal Filters

o  Laboratory 3: Low and High Pass Filters

o  Digital Devices

§  Digital signals

o  Analog to digital

·  Signal conditioning (Week 6)

·  Temperature Measurement (Week 7)

o  Laboratory 4: Thermocouples

·  Pressure measurement (Week 8)

o  Laboratory 5: Strain Gauges

·  Radiation measurements (Week 9)

·  Velocity measurements (Week 10 )

·  Flow rate measurements (Week 11)

o  Laboratory 6: Flume Measurements

·  Water Quality Parameters (Week2 (12-14)

o  Conductivity

o  Salinity

o  pH

o  Dissolved Oxygen

o  Laboratory 7: Water Quality Measurements

9.  Grading:

Homework 10%

Exams 50%

Laboratories 15%

Final Project 25%

Prepared by: Robert Miskewitz 04/6/12