|
|
|
|
|
|
|
|
|
|
Course Criteria
Add courses to your favorites to save, share, and find your best transfer school.
-
2.00 Credits
2 cl hrs, 2 cr A senior-level course covering current topics and concerns in the telecommunications field. Students conduct research of the current literature on topics and information that are timely and important to the technology. In addition, guest speakers and video presentations of current issues address the most recent developments in the industry. Students make oral presentations of their research in class. Typical topics: photonic switches and their architecture, video, television, high resolution video, compressed video, ATM and ATM switches, backbones (FDDI, DBDQ, SONET), mobile/wireless communications, BISDN, TCP/IP are discussed. Prerequisites: TCET 4102/TC 700, TCET 4140/TC 740
-
3.00 Credits
2 cl hrs bi-wkly, 130 field hr semester, 3 cr Ten hours per week of assigned field/study work applying classroom principles and theory to real-world telecommunications technology problems. An intern works as a technician to assist engineers and network administrators, build LAN networks, install hardware/software, perform online and offline testing and generate supporting documentation. Students must maintain a log/journal to be shared in group seminars. Prerequisites: Completion of all third-semester courses with a GPA of 2.8 or better and approval of the department internship director
-
3.00 Credits
2 cl hrs bi-wkly, 130 field hr/semester, 3 cr Ten hours per week of assigned field/study work applying classroom principles and theory to real-world telecommunications technology problems. Interns work as technologists to assist engineers and network administrators design and build LAN/WAN networks, install hardware/software, perform online and offline testing and generate supporting documentation. Each student must maintain a log/journal to be shared in group seminars. Prerequisites: Completion of all sixth semester courses with a GPA of 2.8 or higher and approval of the department internship director
-
2.00 Credits
2 cl hrs, 2 cr The basic concepts of telecommunications begin with a survey of communications systems, using the concepts of transmitter, receiver, transmission medium and information. Electrical representation of information and the distinction between analog and digital transmission are discussed. The evolution of the public telephone network is considered, with a focus on its topology and switching technologies. Various kinds of information sources are considered, such as voice, data, video, signaling and switching, with a discussion of how each type is transmitted through the network. Concludes with a general discussion of data transmission, including an introduction to digital services. Prerequisite: CUNY certification in reading
-
3.00 Credits
2 cl hrs bi-wkly, 130 field hr semester, 3 cr Ten hours per week of assigned field/study work applying classroom principles and theory to real-world telecommunications technology problems. An intern works as a technician to assist engineers and network administrators, build LAN networks, install hardware/software, perform online and offline testing and generate supporting documentation. Students must maintain a log/journal to be shared in group seminars. Prerequisites: Completion of all third-semester courses with a GPA of 2.8 or better and approval of the department internship director
-
4.00 Credits
3 cl hrs, 3 lab hrs, 4 cr This course is an introduction to modern telephone networks and interfaces. Telephone sets, the central office and the Public Switched Telephone Networks are discussed in detail. Private (PBX) and public switches both digital and analog are discussed, with emphasis on features, signaling and technology. Concludes with the transmission of audio signals through different networks. Laboratory experiments supplement the course and expose students to the fundamentals of telephony. Prerequisite: TCET 1100/TC 100; corequisites: EET 2140/ET 313, EET 2162/ET 382, PHYS 1433/SC 433
-
4.00 Credits
3 cl hrs, 3 lab hrs, 4 cr Introduction to analog and digital communications systems, synchronous transmission of information and binary transmission. Multiplexing and various binary codes used in communication systems are explored. Distortion, noise and test equipment are discussed. Modems are analyzed. The RS 232 interface, protocols and line testing (loopback, analog and digital) are covered. Laboratory exercises emphasize fault isolation and systems troubleshooting techniques. The protocol analyzer is used for monitoring, troubleshooting and emulation. Prerequisite: TCET 2102/TC 320; preor corequisite: TCET 2242/TC 430 or EET 2261/ET 482
-
3.00 Credits
3 cl hrs, 3 cr Introduction to the analysis of microwave communications and systems. Transmission line theory, the Smith chart and mathematical analysis are incorporated. Various transmission media, such as twowire, twisted telephone wires, coaxial cable, waveguides, fiber and satellite are studied. Study of microwave components, Tee connectors, attenuators, slotted lines and cavities are included. Antenna design and radio-wave propagation are also covered (introduced). Concludes with a study of microwave applications and systems. Prerequisite: EET 2140/ET 313; preor corequisite: MAT 1475/MA 475
-
3.00 Credits
2 cl hrs, 3 lab hrs, 3 cr An introduction to assembly language and programming of microprocessors. The design of memory and microprocessor I/O interfaces. Laboratory experiments provide training in intrupts, masking, counters, timers, flashing and moving messages, BSC model and encoders/decoders. Serial and parallel ports are studied and practical experiments utilizing switches, LED's and speakers are performed. Prerequisite: EET 2162/ET 382
-
4.00 Credits
3 cl hrs, 3 lab hrs, 4 cr The course introduces basic concepts in analog and digital communications. Topics covered include spectral analysis of electrical signals, Fourier series, Fourier transform, signal and noise filtering and amplification. Amplitude, frequency and phase modulation techniques as well as amplitude and pulse-code modulation in Analog to Digital converters are covered. Introduction to traffic engineering is studied in the laboratory. Prerequisites: EET 2140/ET 313, EET 2141/ET 352, MAT 1475/MA 475
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
Privacy Statement
|
Terms of Use
|
Institutional Membership Information
|
About AcademyOne
Copyright 2006 - 2024 AcademyOne, Inc.
|
|
|