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Figure 3 shows a typical software radio transceiver PMC/XMC mezzanine module for communication systems. It features two 14-bit 105 MHz A/Ds and two 16-bit 500 MHz D/As connected to a Xilinx XC2VP50 FPGA. Two ASIC devices handle DDC and DUC functions with memory, timing and system interfaces completing the product. Note that the XMC interface uses the built-in RocketIO gigabit serial transceivers of the FPGA.

Modern Communication Systems: Principles and Applications

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Modern Communication Systems - PART 1. TELEVISION

Communication System Analysis: This unit focuses on basic principles in the analysis and design of modern communication systems, the workhorses behind the information age. It puts emphasis on the treatment of analogue communications as the necessary background for understanding digital communications. You will be taught through a mixture of lectures, seminars, tutorials (personal and academic), laboratory sessions and project work. The course has a strong practical emphasis and you will spend a significant amount of time in our electronic, communications and computer laboratories. A range of assessment methods encourages a deeper understanding of engineering and allows you to develop your skills. Here’s how we assess your work:

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The course focuses on developing a thorough understanding of communication systems by using a series of specific examples and problems. These illustrate and require the student to understand analysis and design of modern communication systems. The course focuses on design of basic communication systems in building blocks. Specific examples include modulators, multiplexers, phase locked loops, and radio and television systems. These and other design examples make up 50% of the lecture time and 50% of the homework problems.

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By taking advantage of FPGA technology to extend the bandwidth range of the ASIC devices, commercial off-the-shelf mezzanine modules for communication systems can become flexible enough to satisfy a wider range of markets and signal types.The work of Hamming in 1950 on error control coding to combat detrimental effects of channel noise completes the classic contributions to modern digital communication systems.
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Since all of these critical functions fit in the compact PMC form factor shown in Figure 4, it’s easy to see why FPGAs have been so widely deployed on mezzanine modules for communication systems. Of course, many other signal processing tasks, such as those shown in the transmit and receive signal processing blocks in Figure 1, can also be handled by the FPGA.

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Modern Communication System Design: Course Overview

Modern communication systems and networks play a vitally important role in the energy, healthcare, transport, semiconductor and telecommunication sectors.

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As shown in Figure 1, the receive section of a modern communication system typically starts with an analog RF stage that amplifies and downconverts the antenna signal to an IF frequency. This IF signal can then be digitized by a wide range of monolithic A/D converters capable of 14- or 16-bit accuracy and sampling frequencies of 100 MHz and higher. The IF signal bandwidth usually covers the entire span of the particular communication band and may contain many different carriers, each at its own frequency.