MECA 140
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Introduction to Engineering Design and Automation
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2.0
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FS
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Corequisite: PHYS 204A.
This course is also offered as
MECH 140.
Introduces the design engineering process. Hands-on use of sensors, pneumatics, stepper motors, bearings, couplings, gears, belts, pulleys, and framing materials. Topics include AC and DC motor control, simple electrical circuits, machine controllers, PLC programming, testing and analysis of results, budgeting, and bills of materials. Teams design and build a proof-of-concept system to verify their design. 1 hour discussion, 3 hours laboratory.
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MECA 198
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Special Topic
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1.0
-3.0
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INQ
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Special topic generally offered one time ony. Different sections may have different topics. See the Class Schedule for specific topic being offered. 3 hours lecture.
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MECA 298
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Special Topic
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1.0
-3.0
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INQ
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Prerequisites: To be established when course is formulated.
Special topic generally offered one time only. Different sections may have different topics. See the Class Schedule for specific topic being offered. 3 hours lecture.
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MECA 380
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Measurements and Instrumentation
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3.0
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SP
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Prerequisites: EECE 211, EECE 211L; either CSCI 111 or MECH 208. Recommended: CIVL 302.
Measurement of steady-state and dynamic phenomena using common laboratory instruments. Calibration of instruments, dynamic response of instruments, and statistical treatment of data. 2 hours discussion, 3 hours laboratory.
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MECA 389
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Industrial Internship
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1.0
-3.0
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FS
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Prerequisites: Approval of faculty internship coordinator prior to off-campus assignment.
Engineering experience in an industrial setting. Minimum duration of 400 hours of work under the direct supervision of an onsite engineering supervisor. On completion of the internship, a written report prepared under the direction of a faculty member is required. This course is an elective for the BS in Mechatronic Engineering, a total of 3 units must be completed to receive elective credit. 9 hours supervision. You may take this course more than once for a maximum of 3.0 units. Credit/no credit grading.
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MECA 398
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Special Topic
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1.0
-3.0
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INQ
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Prerequisites: To be established when course is formulated.
Special topic generally offered one time only. Different sections may have different topics. See the Class Schedule for the specific topic being offered. 3 hours lecture.
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MECA 399
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Special Problems
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1.0
-3.0
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INQ
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Prerequisites: Approval of supervising faculty member.
This course is an independent study of special problems offered for 1.0-3.0 units. See the department office for information on registering. 9 hours supervision. You may take this course more than once for a maximum of 6.0 units. Credit/no credit grading.
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MECA 440AW
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Capstone Design I (W)
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3.0
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FS
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GW
W
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Prerequisites: Completion of GE Written Communication (A2) requirement, EECE 237, MECH 200, MECH 340. Recommended: CIVL 302, MECA 380.
System design methods applied to mechatronic systems. Group design projects. Consideration of the manufacturing cost, and environmental and social impact. Oral and written presentation of results. Initial design of the capstone design project to be continued in MECA 440B. 2 hours lecture, 3 hours supervision. This is an approved Graduation Writing Assessment Requirement course; a grade of C- or higher certifies writing proficiency for majors. This is an approved Writing Course.
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MECA 440B
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Capstone Design II
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3.0
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FS
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Prerequisites: MECA 440A. Recommended: CIVL 302, MECA 380.
Continuation of the capstone design project from MECA 440A. Implementation of the capstone design project, including fabrication, testing, and evaluation of a working prototype. Information literacy, technology, and resources for lifelong learning and professional career. Must be taken the semester immediately following MECA 440A. 2 hours lecture, 3 hours supervision.
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MECA 482
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Control System Design
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3.0
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FA
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Prerequisites: EECE 211, MATH 260. Recommended: MECA 380, MECH 320; either CSCI 111 or MECH 208.
Modeling and simulation of dynamic system performance. Control system design for continuous systems using both analog and digital control techniques. 3 hours lecture.
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MECA 486
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Motion and Machine Automation
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4.0
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SP
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Prerequisites: EECE 211L, MECH 340; EECE 482 or MECA 482 (may be taken concurrently).
Machine automation concepts in electrical circuits, precision mechanics, control systems, and programming. Motor sizing, gearing, couplings, ground loops, effective use of step motors, servo control loops, regeneration, networking, I/O, power supplies, vibration and resonance, mechanical tolerancing, linear bearings and drive mechanisms, and troubleshooting. Labs simulate application concepts such as point-to-point coordinated moves, registration, following, camming, and CAD-to-Motion by combining various motor technologies with various mechanical drive types. 2 hours lecture, 4 hours activity.
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MECA 498
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Special Topic
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1.0
-3.0
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INQ
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Prerequisites: To be established when course is formulated.
Special topic generally offered one time only. Different sections may have different topics. See the Class Schedule for the specific topic being offered. 3 hours lecture.
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MECA 499
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Special Problems
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1.0
-3.0
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INQ
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Prerequisites: Approval of supervising faculty member.
Independent study of a special problem. See the department office for registration procedure. 9 hours supervision. You may take this course more than once for a maximum of 6.0 units. Credit/no credit grading.
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MECA 499H
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Honors Project
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3.0
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INQ
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Prerequisites: Completion of 12 units of upper-division EECE, MECH, or MECA courses, faculty permission.
Open by invitation to MECA majors who have a GPA among the top 5% of MECA students based on courses taken at CSU, Chico. This is an "Honors in the Major" course; a grade of B or better in 6 units of 499H certifies the designation of "Honors in the Major" can be printed on the transcript and the diploma. If taken twice, prerequisite to the second semester is a grade of B or better in the first semester. Each 3-unit course will require both formal written and oral presentations. 9 hours supervision. You may take this course more than once for a maximum of 6.0 units.
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MECA 680
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Data Acquisition: Concepts and Application
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4.0
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INQ
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Prerequisites: MECA 380, MECA 482, or approved equivalents.
Considerations in data acquisition system selection, analog preprocessing, sampling and quantization (A/D and D/A conversions), the computer as a data acquisition controller, input output techniques, time series analyses and signal reconstruction. 4 hours lecture.
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MECA 682
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Robot Control System
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4.0
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INQ
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Prerequisites: MECH 320, MECA 482, or approved equivalents.
Rigid body motion and dynamics, forward and inverse kinematics, the Jacobian, feedback and fee-forward control, trajectory interpolation, hierarchical control, feedback linearizatin, force control, and phase plane analysis. 4 hours lecture.
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MECA 697
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Independent Study
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1.0
-3.0
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INQ
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Prerequisites: Approval of supervising faculty member.
Independent study of a special problem. See department office for registration procedure. 3 hours lecture. You may take this course more than once for a maximum of 6.0 units. Credit/no credit grading.
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MECA 698
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Advanced Topic
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1.0
-3.0
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INQ
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Prerequisites: Specific to the topic being offered.
Advanced topic generally offered one time only. Different sections may have different topics. See the Class Schedule for specific topics being offered. 3 hours lecture. You may take this course more than once for a maximum of 3.0 units.
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MECA 699P
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Master's Project
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1.0
-6.0
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INQ
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Prerequisites: Approval of supervising faculty member.
Independent study of a special problem approved by student's graduate advisory committee. See the department office for registration procedures. 9 hours supervision. You may take this course more than once for a maximum of 6.0 units. Credit/no credit grading.
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MECA 699T
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Master's Thesis
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1.0
-6.0
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INQ
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Prerequisites: Approval of supervising faculty member.
Independent study leading to a Master's Thesis of a special problem approved by the student's graduate advisory committee. See the department office for registration procedure. 9 hours supervision. You may take this course more than once for a maximum of 6.0 units. Credit/no credit grading.
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