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Industrial Technology
132 2009-2010 California State University, Fresno General Catalog
IT 127. Vehicle Design
and Development (3; max total 6)
Design and mechanical development of
vehicles for intercollegiate competition
events. Students will select one or more
vehicle research projects: innovative future
fuels, supermileage, mini baja, formula, aero
design, walking robot. (6 lab hours)
IT 129. Vehicle Diagnostic Procedures (3)
Prerequisites: IT 12, 52 or concurrently.
Laboratory study and analysis of mechanical,
electrical, and computer control problems.
Technical reports. (6 lab hours) (Course
fee, $5)
IT 131. Automated Systems I (3)
Prerequisite: IT 52. Number systems,
Boolean logic, and fundamentals of digital
devices; basic applications of logic devices in
computers and control systems. (2 lecture, 2
lab hours; field trips) (Course fee, $5)
IT 133. Industrial Process
Control Systems II (3)
Prerequisite: IT 52. Programmable logic
controller principles and equipment;
programming languages, procedures, and
documentation; equipment and software
selection and application. (2 lecture, 2 lab
hours)
IT 134. Computer-Aided Manufacturing
Systems I (3)
Prerequisite: IT 74. Study, analysis, and
evaluation of robotics systems. APT program-ming
language for numerical control and
application languages for robots. Use of robot
vision and the geometry of computer vision
applications. (2 lecture, 2 lab hours)
IT 137. International
Quality Standards (3)
Prerequisite: IT 117. ISO 9000 and related
international quality systems. Implemen-tation
process. Conformance standards,
quality system requirements, and the regis-tration
and audit processes.
IT 144. Tool Design Graphics (3)
Application of graphics to industrial work
holding devices; their application, drawing,
and design. Construction of working draw-ings
aided by standards, company catalogs,
and handbooks. Final designs subjected to
student presentation and evaluation. (6 lab
hours; field trips)
IT 177. Computer-Aided Manufacturing
Systems II (3)
Prerequisite: IT 74. Computer numerically
controlled hardware including milling and
turning centers and flexible manufacturing
systems. Programming in languages common
to computer numerically controlled machine
tools. Computer-controlled machining of
industrial materials including aluminum,
brass, steel, plastic, expanded foam, and
wax. (2 lecture, 2 lab hours)
IT 184. Advanced
Manufacturing Technology (3)
Prerequisite: IT 74. Production processing,
using metallic and nonmetallic materials,
including product design, work cells, tool-ing,
capacity planning, material handling,
scheduling and flow chart. (2 lecture, 2 lab
hours; field trips) (Course fee, $10)
IT 190. Independent Study
(1-3; max total 6)
See Academic Placement — Independent
Study. Approved for RP grading.
IT 191T. Technical Topics in
Industrial Technology (1-3; max total 6)
Prerequisite: permission of instructor. In-vestigation
and analysis of selected subjects
in industrial technology. (2-6 lab hours)
IT 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 adviser. CR/NC
grading only.
IT 196. Senior Seminar (1)
Prerequisite: senior standing. Exploration of
technology systems management trends and
preparation for employment or further study
in technical fields. Technology forecasting,
orientation to professional certifications,
employment correspondence, and interview
techniques. Letter grade only.
IT 198W. Technical Writing (3)
Prerequisites: satisfactory completion (C or
better) of the ENGL 5B or 10 graduation
requirement; to be taken no sooner than
the term in which 60 units are completed.
Preparation of technical reports, research
proposals, specifications, resumes, and corre-spondence
using effective writing techniques,
formats, and styles. Meets upper-division
writing skills requirement for graduation.
IT 146. Multimedia Development (3)
Integration of a variety of media types:
graphics, animation, digital video, and
sound. Emphasis placed on development and
creation of multimedia as applied to various
CAD/CAM projects, the process of bringing
live interactivity to the Internet, Web page
development, and desktop publishing.
IT 147. Advanced CAD Applications (3)
Prerequisites: IT 115. CAD as a tool to
facilitate design activities. An overview of
design processes and methods. Solid mod-eling
techniques are introduced. A team
approach in system design is emphasized.
(2 lecture, 2 lab hours)
IT 148. Project Management
and Control (3)
Project management process and tools, plan-ning,
scheduling, organizing, and controlling
projects. Project planning and control using
qualitative and quantitative methods. (2
lecture, 2 lab hours)
IT 156. Automated Systems II (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 electrome-chanical
motor controllers. (2 lecture, 2 lab
hours; field trips) (Course fee, $4)
IT 164. Routers
and Internetworking I (4)
Prerequisite: IT 63. Implementation of
appropriate technologies to build a scal-able
routed network. Building of campus
networks using multilayer switching tech-nologies.
Improving traffic flow, reliability,
redundancy, and performance for campus
LANs, routed and switched WANs, and
remote access networks. (2 lecture, 4 lab
hours)
IT 165. Routers
and Internetworking II (4)
Prerequisite: IT 164. Creation and deploy-ment
of a global internet. Troubleshooting an
environment that uses routers and switches
for multiprotocol client hosts and services.
Addresses those tasks that network manag-ers
and administrators need to perform in
managing access and controlling overhead
traffic over LANs and WANs. Connecting
corporate networks to an Internet Service
Provider (ISP). (2 lecture, 4 lab hours)
Object Description
| Title | 2009-10 General Catalog |
| Creator | California State University, Fresno |
| Format | PDF Document |
| Date of publication | 2009-05 |
| Subjects | California State University, Fresno. Curricula. Catalogs |
| Object type | Document |
| Location | Fresno, California |
| Language | eng |
Description
| Title | Page 132 |
| Full Text Search | Industrial Technology 132 2009-2010 California State University, Fresno General Catalog IT 127. Vehicle Design and Development (3; max total 6) Design and mechanical development of vehicles for intercollegiate competition events. Students will select one or more vehicle research projects: innovative future fuels, supermileage, mini baja, formula, aero design, walking robot. (6 lab hours) IT 129. Vehicle Diagnostic Procedures (3) Prerequisites: IT 12, 52 or concurrently. Laboratory study and analysis of mechanical, electrical, and computer control problems. Technical reports. (6 lab hours) (Course fee, $5) IT 131. Automated Systems I (3) Prerequisite: IT 52. Number systems, Boolean logic, and fundamentals of digital devices; basic applications of logic devices in computers and control systems. (2 lecture, 2 lab hours; field trips) (Course fee, $5) IT 133. Industrial Process Control Systems II (3) Prerequisite: IT 52. Programmable logic controller principles and equipment; programming languages, procedures, and documentation; equipment and software selection and application. (2 lecture, 2 lab hours) IT 134. Computer-Aided Manufacturing Systems I (3) Prerequisite: IT 74. Study, analysis, and evaluation of robotics systems. APT program-ming language for numerical control and application languages for robots. Use of robot vision and the geometry of computer vision applications. (2 lecture, 2 lab hours) IT 137. International Quality Standards (3) Prerequisite: IT 117. ISO 9000 and related international quality systems. Implemen-tation process. Conformance standards, quality system requirements, and the regis-tration and audit processes. IT 144. Tool Design Graphics (3) Application of graphics to industrial work holding devices; their application, drawing, and design. Construction of working draw-ings aided by standards, company catalogs, and handbooks. Final designs subjected to student presentation and evaluation. (6 lab hours; field trips) IT 177. Computer-Aided Manufacturing Systems II (3) Prerequisite: IT 74. Computer numerically controlled hardware including milling and turning centers and flexible manufacturing systems. Programming in languages common to computer numerically controlled machine tools. Computer-controlled machining of industrial materials including aluminum, brass, steel, plastic, expanded foam, and wax. (2 lecture, 2 lab hours) IT 184. Advanced Manufacturing Technology (3) Prerequisite: IT 74. Production processing, using metallic and nonmetallic materials, including product design, work cells, tool-ing, capacity planning, material handling, scheduling and flow chart. (2 lecture, 2 lab hours; field trips) (Course fee, $10) IT 190. Independent Study (1-3; max total 6) See Academic Placement — Independent Study. Approved for RP grading. IT 191T. Technical Topics in Industrial Technology (1-3; max total 6) Prerequisite: permission of instructor. In-vestigation and analysis of selected subjects in industrial technology. (2-6 lab hours) IT 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 adviser. CR/NC grading only. IT 196. Senior Seminar (1) Prerequisite: senior standing. Exploration of technology systems management trends and preparation for employment or further study in technical fields. Technology forecasting, orientation to professional certifications, employment correspondence, and interview techniques. Letter grade only. IT 198W. Technical Writing (3) Prerequisites: satisfactory completion (C or better) of the ENGL 5B or 10 graduation requirement; to be taken no sooner than the term in which 60 units are completed. Preparation of technical reports, research proposals, specifications, resumes, and corre-spondence using effective writing techniques, formats, and styles. Meets upper-division writing skills requirement for graduation. IT 146. Multimedia Development (3) Integration of a variety of media types: graphics, animation, digital video, and sound. Emphasis placed on development and creation of multimedia as applied to various CAD/CAM projects, the process of bringing live interactivity to the Internet, Web page development, and desktop publishing. IT 147. Advanced CAD Applications (3) Prerequisites: IT 115. CAD as a tool to facilitate design activities. An overview of design processes and methods. Solid mod-eling techniques are introduced. A team approach in system design is emphasized. (2 lecture, 2 lab hours) IT 148. Project Management and Control (3) Project management process and tools, plan-ning, scheduling, organizing, and controlling projects. Project planning and control using qualitative and quantitative methods. (2 lecture, 2 lab hours) IT 156. Automated Systems II (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 electrome-chanical motor controllers. (2 lecture, 2 lab hours; field trips) (Course fee, $4) IT 164. Routers and Internetworking I (4) Prerequisite: IT 63. Implementation of appropriate technologies to build a scal-able routed network. Building of campus networks using multilayer switching tech-nologies. Improving traffic flow, reliability, redundancy, and performance for campus LANs, routed and switched WANs, and remote access networks. (2 lecture, 4 lab hours) IT 165. Routers and Internetworking II (4) Prerequisite: IT 164. Creation and deploy-ment of a global internet. Troubleshooting an environment that uses routers and switches for multiprotocol client hosts and services. Addresses those tasks that network manag-ers and administrators need to perform in managing access and controlling overhead traffic over LANs and WANs. Connecting corporate networks to an Internet Service Provider (ISP). (2 lecture, 4 lab hours) |
