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Official Course
Description: MCCCD Approval: 05/26/98 |
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SMT209 19986-19995 |
L+L |
3 Credit(s) |
6 Period(s) |
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Automated Manufacturing |
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Evolution of automation in manufacturing from fixed (hard) automation to Computer Integrated Manufacturing (CIM) is presented with numerical control(NC); computer-aided design/computer- aided manufacturing (CAD/CAM);automated material handling; automation communication protocol. Manufacturing management strategies include statistical process control (SPC); material requirements planning (MRP); manufacturing resource planning (MRPII); and just-in-time (JIT). Hands-on experience with programmable logic controllers (PLC) and robotics included. Prerequisites or Corequisites: ELE131, or ELT131, or GTC206, or equivalent. |
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Cross-References: GTC209 |
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Go to Competencies Go to Outline
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MCCCD Official Course Competencies: |
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SMT209 19986-19995 |
Automated Manufacturing |
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1. |
List statistical process control (SPC). (I) |
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2. |
Identify the topology of bus and ring networks. (II) |
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3. |
Differentiate between fixed automation and flexible automation. (III) |
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Explain the benefits of flexible manufacturing systems. (IV) |
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Demonstrate how a robot is used in a pick-and-place applications. (V) |
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Program Programmable Logic Controller (PLC) to control laboratory machine simulators. (V) |
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Explain the operation of automatic guided vehicles (AGV). (VI) |
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Describe traditional process planning vs. material requirement planning (MRP). (VI) |
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Illustrate the benefits derived from using computer integrated manufacturing (CIM) to control the production of goods. (VII) |
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Describe the impact of automation on the social structure of the United States. (VII) |
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Go to Description Go to top of Competencies
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MCCCD Official
Course Outline: |
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SMT209 19986-19995 |
Automated Manufacturing |
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I. Statistical Process Control
(SPC) A. Variability B. X and R charts C. P and nP charts II. Automation Protocol A. Open system interconnection B. Local area network (LAN) C. Technical and office protocol
(TOP) D. Manufacturing automation
protocol (MAP) III. Computer Aided Design and
Manufacture (CAD/CAM) A. Development of CAD/CAM B. Benefits of CAD/CAM C. CAD/CAM applications D. Future of CAD/CAM IV. Numerical Control (NC) A. History and development B. Machine centers C. Flexible manufacturing
systems V. Robotics A. History and classification B. End of arm tooling C. Programmable logic controller
(PLC) D. Applications E. Artificial intelligence VI. Process Planning A. Traditional process planning B. Material requirement planning
(MRP) C. Manufacturing Resource
Planning (MRPII) D. Automated storage and
retrieval E. Just-in-time (JIT) VII. Computer Integrated
Manufacturing (CIM) A. History and development of
CIM B. Product design C. Manufacturing and assembly VII. Social Change A. Evolution of automation B. Social implications of
automation |