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Industrial Technology
132. Microprocessor Applications (3)
Prerequisites: I T 116 and 131. Microprocessor
characteristics and programming;
application and interface to digital and
analog control and communication circuits;
introduction to microcomputer
hardware. (1 lecture, 41ab hours) (Course
fee, $5)
133. Programmable
Logic Controllers (3)
Prerequisites: I T 131; I T 112 recommended.
Programmable logic controller
principles and equipment; programming
languages, procedures, and documenta~
tion; equipment and software selection
and application. (2 lecture, 2 lab hours)
134. Industrial Robotics (3)
Prerequisite: a high-level programming
language. Study, analysis, and evaluation
of robotics systems. APT programming
language for numerical control and application
languages for robots. Use of robot
vision and the geometry of computer vision
applications. (2 lecture, 3 lab hours)
135. Computer-Aided
Process Planning (3)
Prerequisites: r T 115, 177. Group technology,
CAD/CAM integration, computeraided
methods for process planning,
Flexible Manufacturing Systems. Production
planning and control of cellular
manufacturing. (2 lecture, 2 lab hours)
(Computer lab fee, $15)
137. International
Quality Standards (3)
Prerequisite: IT 117. ISO 9000 and related
international quality systems. lmplemen~
tation process. Conformance standards,
quality system requirements, and the registration
and audit processes.
144. Tool Design GraphiCS (3)
Prerequisite: 1T 41. Application of graphics
to industrial work holding devices;
their application, draWing, and design.
Construction of working draWings aided
by standards, company catalogs, and
handbooks. Final designs subjected to
student presentation and evaluation. (6
lab hours; field trips)
145. Industrial Technology
Exhibits and Competitions (3)
Provides a structure for students to be
involved in various industrial technology
exhibits and competitions, industrial
technology research and development,
project management, and team work. CR/
NC grading only. (6 lab hours)
136
147. Advanced CAD Applications (3)
Prerequisites: IT 115,144. CAD as a tool
to facilitate design activities. An overview
of design processes and methods. Solid
modeling techniques are introduced. A
team approach in system design is emphasized.
(2 lecture, 3 lab hours) (Computer
lab fee, $15)
148. CIM Systems Analysis
and Development (3)
Prerequisite: IT 115. Computer-Integrated
Manufacturing (elM) systems utilized in
manufacturing industries, systems development
CYCle, systems analysis, justi~
ficatian, benchmarking, personnel, and
facilities planning.
156. Electric Motors and Controls (3)
Prerequisite: IT 52. Study and analysis of
the characteristics and industrial applications
of electric motors. Major emphasis
is placed on programmable, solid state,
and electromechanical motor controllers.
(1 lecture, 41ab hours; field trips) (Course
fee, $4)
158. Local Area Network
Fundamentals (3)
Prerequisites: IT 102, 116, 131. Local Area
Network (LAN) concepts, architectures,
protocols, and implementations. Data
communication and eqUipment integration.
Manufacturing automation and office
technology, applications and interfaces.
(1 lecture, 4 lab hours, field trips)
(Computer lab fee, $15)
160. Graphic Communication
Developments (3)
PrereqUisite: I T 60. An investigation of
the graphic reproduction processes including
laboratory experiences, practical
application, and frequent industrial trade
tours. In-depth study of indiVidually selected
topicS resulting in written and oral
research reports. (6 lab hours; field trips)
(Course fee, $10)
161. Photo Offset Lithography (3)
PrereqUisite: I T 60. Photo offset lithography
techniques and processes: design,
layout, cold type composition, and pasteup,
line, and half-tone copy, imposition,
multicolor printing. (6 lab hoursi field
trips) (Course fee, $20)
162. Graphic Arts Crafts (3)
Various processes and media used in graphiC
arts; creative and recreational aspects for
the studenti silk screen, linoleum block,
intaglio, papermaking, thermographs,
marbling, bookbinding, student projects.
(6 lab hours; field trips) (Course fee, $6)
177. Computer Numerical Control (3)
PrereqUisite: I T 102. Computer numerically
controlled hardware including milling
and turning centers and flexible
manufacturing systems. Programming in
languages common to computer numerically
controlled machine tools. Computercontrolled
machining of industrial rna·
terials including aluminum, brass, steel,
plastic, expanded foam, and wax. (2 lecture,
3 lab hours)
184. Advanced
Manufacturing Technology (3)
PrereqUisite: IT 74. Production processing,
using metallic and nonmetallic materials,
including product design, work
cells, tooling, capacity planning, material
handling, scheduling and flow chart.
(6 lab hours; field trips) (Course fee, $10)
185. Advanced Wood Processing
(3; max total 6)
Prerequisite: IT 80. Design, construction,
and finishing of wood products: furniture,
cabinetry, accessories, tools, musical
instruments; incorporation of metals,
composites, pOlymers, organic materials,
rare and exotic wood; inlaying, turning,
veneering, laminating, bending, panel
development, caning, and framing. (6 lab
hours) (Course fee, $10)
190. Independent Study
(1-3; max total 6)
See Academic Placement - Independent
Study. Approved for SP grading. (Course
fee variable)
191T. Technical Topics in
Industrial Technology (1-3; max total 6)
Prerequisite: permission of instructor. Investigation
and analysis of selected subjects
in industrial technology. (2-6 lab hours)
192. Manufacturing Technologist
Certification Review (1)
Prerequisite: senior standing. Preparation
for Certification Examinations by the
Society of Manufacturing Engineers and
the National Association of Industrial
Technology. Basic mathematiCS, physics
statics, and strength of materials. Materials
science and metallurgy. Engineering
drawings and blueprint readingi metrics
and the 51 system. GRING grading only.
194. Cooperative Education in
Industrial Technology (1-4; max total 12)
Prerequisites: courses appropriate to the
work experience; permission of department
cooperative education coordinator;
junior standing. Integration of work experience
with academic program, indiVidually
planned through program advisor.
GRINC grading only.
Object Description
| Title | 1997-98 General Catalog |
| Creator | California State University, Fresno |
| Format | PDF Document |
| Date of publication | 1997-05 |
| Subjects | California State University, Fresno. Curricula. Catalogs |
| Object type | Document |
| Location | Fresno, California |
| Language | eng |
Description
| Title | Page 136 |
| Full Text Search | Industrial Technology 132. Microprocessor Applications (3) Prerequisites: I T 116 and 131. Microprocessor characteristics and programming; application and interface to digital and analog control and communication circuits; introduction to microcomputer hardware. (1 lecture, 41ab hours) (Course fee, $5) 133. Programmable Logic Controllers (3) Prerequisites: I T 131; I T 112 recommended. Programmable logic controller principles and equipment; programming languages, procedures, and documenta~ tion; equipment and software selection and application. (2 lecture, 2 lab hours) 134. Industrial Robotics (3) Prerequisite: a high-level programming language. Study, analysis, and evaluation of robotics systems. APT programming language for numerical control and application languages for robots. Use of robot vision and the geometry of computer vision applications. (2 lecture, 3 lab hours) 135. Computer-Aided Process Planning (3) Prerequisites: r T 115, 177. Group technology, CAD/CAM integration, computeraided methods for process planning, Flexible Manufacturing Systems. Production planning and control of cellular manufacturing. (2 lecture, 2 lab hours) (Computer lab fee, $15) 137. International Quality Standards (3) Prerequisite: IT 117. ISO 9000 and related international quality systems. lmplemen~ tation process. Conformance standards, quality system requirements, and the registration and audit processes. 144. Tool Design GraphiCS (3) Prerequisite: 1T 41. Application of graphics to industrial work holding devices; their application, draWing, and design. Construction of working draWings aided by standards, company catalogs, and handbooks. Final designs subjected to student presentation and evaluation. (6 lab hours; field trips) 145. Industrial Technology Exhibits and Competitions (3) Provides a structure for students to be involved in various industrial technology exhibits and competitions, industrial technology research and development, project management, and team work. CR/ NC grading only. (6 lab hours) 136 147. Advanced CAD Applications (3) Prerequisites: IT 115,144. CAD as a tool to facilitate design activities. An overview of design processes and methods. Solid modeling techniques are introduced. A team approach in system design is emphasized. (2 lecture, 3 lab hours) (Computer lab fee, $15) 148. CIM Systems Analysis and Development (3) Prerequisite: IT 115. Computer-Integrated Manufacturing (elM) systems utilized in manufacturing industries, systems development CYCle, systems analysis, justi~ ficatian, benchmarking, personnel, and facilities planning. 156. Electric Motors and Controls (3) Prerequisite: IT 52. Study and analysis of the characteristics and industrial applications of electric motors. Major emphasis is placed on programmable, solid state, and electromechanical motor controllers. (1 lecture, 41ab hours; field trips) (Course fee, $4) 158. Local Area Network Fundamentals (3) Prerequisites: IT 102, 116, 131. Local Area Network (LAN) concepts, architectures, protocols, and implementations. Data communication and eqUipment integration. Manufacturing automation and office technology, applications and interfaces. (1 lecture, 4 lab hours, field trips) (Computer lab fee, $15) 160. Graphic Communication Developments (3) PrereqUisite: I T 60. An investigation of the graphic reproduction processes including laboratory experiences, practical application, and frequent industrial trade tours. In-depth study of indiVidually selected topicS resulting in written and oral research reports. (6 lab hours; field trips) (Course fee, $10) 161. Photo Offset Lithography (3) PrereqUisite: I T 60. Photo offset lithography techniques and processes: design, layout, cold type composition, and pasteup, line, and half-tone copy, imposition, multicolor printing. (6 lab hoursi field trips) (Course fee, $20) 162. Graphic Arts Crafts (3) Various processes and media used in graphiC arts; creative and recreational aspects for the studenti silk screen, linoleum block, intaglio, papermaking, thermographs, marbling, bookbinding, student projects. (6 lab hours; field trips) (Course fee, $6) 177. Computer Numerical Control (3) PrereqUisite: I T 102. Computer numerically controlled hardware including milling and turning centers and flexible manufacturing systems. Programming in languages common to computer numerically controlled machine tools. Computercontrolled machining of industrial rna· terials including aluminum, brass, steel, plastic, expanded foam, and wax. (2 lecture, 3 lab hours) 184. Advanced Manufacturing Technology (3) PrereqUisite: IT 74. Production processing, using metallic and nonmetallic materials, including product design, work cells, tooling, capacity planning, material handling, scheduling and flow chart. (6 lab hours; field trips) (Course fee, $10) 185. Advanced Wood Processing (3; max total 6) Prerequisite: IT 80. Design, construction, and finishing of wood products: furniture, cabinetry, accessories, tools, musical instruments; incorporation of metals, composites, pOlymers, organic materials, rare and exotic wood; inlaying, turning, veneering, laminating, bending, panel development, caning, and framing. (6 lab hours) (Course fee, $10) 190. Independent Study (1-3; max total 6) See Academic Placement - Independent Study. Approved for SP grading. (Course fee variable) 191T. Technical Topics in Industrial Technology (1-3; max total 6) Prerequisite: permission of instructor. Investigation and analysis of selected subjects in industrial technology. (2-6 lab hours) 192. Manufacturing Technologist Certification Review (1) Prerequisite: senior standing. Preparation for Certification Examinations by the Society of Manufacturing Engineers and the National Association of Industrial Technology. Basic mathematiCS, physics statics, and strength of materials. Materials science and metallurgy. Engineering drawings and blueprint readingi metrics and the 51 system. GRING grading only. 194. Cooperative Education in Industrial Technology (1-4; max total 12) Prerequisites: courses appropriate to the work experience; permission of department cooperative education coordinator; junior standing. Integration of work experience with academic program, indiVidually planned through program advisor. GRINC grading only. |
