FPGA Implementation of a Multimode Transmultiplexer

Azizi, Kaveh

January 2010

<p>As the complexity of Very Large Scale Integration (VLSI) circuits dramatically increases by improvements of technology, there is a huge interests to shift different applications from analog to digital domain. While there are many platform available for this shift, Field Programmable Gate Arrays (FPGAs) hold an attractive position because of their performance, power consumption and configurability. Comparing with Application Specific Integrated Circuit (ASIC) and Digital Signal Processor (DSP), FPGA stands in the middle. It is easier to implement a function on FPGA than ASIC which is to perform a fixed operation. Although, DSP can implement versatile functions, its computational power is not high enough to support the high data rate of FPGA.</p><p>This report is the outcome and result of a master thesis at University of Linköping, Sweden. This report tries to cover both theoretical and hardware aspects of implementation of a Farrow structure for sample rate conversion on FPGA.</p><p>The intention of this work was to contribute to what is nowadays the main focus of communication engineers: designing flexible radio systems. Flexible radio systems are interactive and dynamic by definition. That is why a low-cost, flexible multimode terminal is crucially important to support different telecommunication standards and scenarios. In this thesis, FPGA implementation of complete Farrow system is presented. Matlab/Simulink, and VHDL are used in this thesis work as the prime software.</p>

TMUX

Farrow structures

Multimode Transmultiplexer

FPGA Implementation

Farrow Applications

Electrical engineering

Elektroteknik

FPGA Implementation of a Multimode Transmultiplexer

Azizi, Kaveh

January 2010

As the complexity of Very Large Scale Integration (VLSI) circuits dramatically increases by improvements of technology, there is a huge interests to shift different applications from analog to digital domain. While there are many platform available for this shift, Field Programmable Gate Arrays (FPGAs) hold an attractive position because of their performance, power consumption and configurability. Comparing with Application Specific Integrated Circuit (ASIC) and Digital Signal Processor (DSP), FPGA stands in the middle. It is easier to implement a function on FPGA than ASIC which is to perform a fixed operation. Although, DSP can implement versatile functions, its computational power is not high enough to support the high data rate of FPGA. This report is the outcome and result of a master thesis at University of Linköping, Sweden. This report tries to cover both theoretical and hardware aspects of implementation of a Farrow structure for sample rate conversion on FPGA. The intention of this work was to contribute to what is nowadays the main focus of communication engineers: designing flexible radio systems. Flexible radio systems are interactive and dynamic by definition. That is why a low-cost, flexible multimode terminal is crucially important to support different telecommunication standards and scenarios. In this thesis, FPGA implementation of complete Farrow system is presented. Matlab/Simulink, and VHDL are used in this thesis work as the prime software.

TMUX

Farrow structures

Multimode Transmultiplexer

FPGA Implementation

Farrow Applications

Electrical engineering

Elektroteknik