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Course Criteria
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5.00 Credits
Prerequisites: Eltrn 31 or 131 and 32 or 132. Modulation techniques and sideband analysis, transmitters and receivers, introduction to microwave fundamentals including: transmission lines and Smith charts, antennas and microwave devices, microwave digital modulation and transmission methods, coding and channel capacity, networks and interaction protocols, fiber optic principles and data transmission methods. Laboratory experiments with network analyzer, active circuits, antennas and microwave devices. Total of 72 hours lecture and 72 hours laboratory.
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1.00 Credits
Prerequisite: Enrollment in or completion of Eltrn 133. Individual projects encompassing transmission lines, radiation and propagation, antennas and communication systems. Required instructional trip. Total of 18 hours lecture and 18 hours laboratory.
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4.00 Credits
Prerequisite: Eltrn 32 or 132. Theory of computer operating systems, interface standards and networks. Maintenance and repair of computer systems, peripherals, networks including use of diagnostic software. Use of laboratory test equipment in preventive maintenance, troubleshooting and repair. Computer hardware upgrades, RAM and cache memory installations, disk usage optimization and introduction to test programming. Total of 54 hours lecture and 54 hours laboratory.
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3.00 Credits
Prerequisites: Enrollment in or completion of Eltrn 9 and Math 3. Computer aided drafting of electronic (CAED) circuits. Standards, electronic rules check, JEDEC specifications. Computer commands necessary to install and operate the CAED program. Practice in using the CAED programs with emphasis on current limitations and decoupling problems. PC board routing. Multilayer boards. Total of 36 hours lecture and 108 hours laboratory. Transfer Credit: CSU
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3.00 Credits
Interdisciplinary course: CIS, Electronics Prerequisite: CIS 10. Basic network design and internetworking fundamental concepts with an emphasis on CISCO technology. The OSI model, industry protocol standards, use of IP addressing, subnet masks, and basic networking components. May not be taken concurrently with or after CIS 161. Total of 54 hours lecture and 36 hours laboratory.
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3.00 Credits
Interdisciplinary course: CIS, Electronics Prerequisite: Eltrn 161 or CIS 161. Basic router installation and configuration with an emphasis on CISCO technology. Network standards, dynamic routing, safety and regulatory issues, the use of networking software, and the care and maintenance of networking hardware and software. May not be taken concurrently with or after CIS 162. Total of 36 hours lecture and 54 hours laboratory.
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3.00 Credits
Interdisciplinary course: Electronics, CIS Prerequisite: CIS 162 or Eltrn 162. Advanced knowledge and experience with switches, bridges and routers; local area networks (LAN); introduction of virtual local area networks (VLAN) design including configuration and operation maintenance. Novell networks, Internetwork Packet Exchange (IPX), routing and Interior Gateway Routing Protocol (IGRP), network management, security and troubleshooting with emphasis toward preparing for the Cisco Certified Network Associate (CCNA) examination. May not be taken concurrently with or after CIS 163. Total of 54 hours lecture and 36 hours laboratory.
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3.00 Credits
Interdisciplinary course: Electronics, CIS Prerequisite: CIS 163 or Eltrn 163. Instruction and experience with wide area networks (WAN), integrated services data networks (ISDN), point-to-point protocols (PPP) and frame relay design, configuration and operational maintenance on routers. Network management and security. Emphasis toward preparing for the Cisco Certified Network Associate (CCNA) examination. May not be taken concurrently with or after CIS 164. Total of 54 hours lecture and 36 hours laboratory.
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4.00 Credits
Prerequisite: Eltrn 32. Introduction to microcomputer systems, functional elements, organization, instruction sets. Preparation of assembly language programs, elements of structure, stack operations, timing analysis of bus operations. Microprocessor system interfacing, time considerations, interrupts. Multiprocessing and bus-sharing applications. Intel microprocessors with emphasis on 8085 and 8086-type microprocessors. Introduction to embedded controllers, interface design, singlechip controllers. Software development systems and diagnostics. Development and maintenance of microcomputer-based systems. No credit if taken after Eltrn 125. Total of 54 hours lecture and 54 hours laboratory. Transfer Credit: CSU
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5.00 Credits
Prerequisites: Eltrn 9. Recommended preparation: Math 8. Field effect and bipolar transistor theory, audio preamplifiers and power amplifiers, coupling and bias stabilization techniques. Analysis of small-signal models, application of Kirchhoff's laws to multi-mesh active circuits, matrix methods. Mathematical analysis of feedback systems, stability considerations, elementary transforms. Applications of electro-optical devices, operational amplifiers. Complex operator in frequency response measurements. Total of 72 hours lecture and 72 hours laboratory. Transfer Credit: CSU
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