Digital system design using field programmable gate arrays pdf
A battery operated system capable of system operating independently for extended periods of time, small programmable gate physical size, programmable with wireless communications and ability to be carried by programmable an individual,.g.
However, with an increase in the design availability of new materials, the proliferation of inexpensive 3D printing and other additive manufacturing technologies that enable rapid prototyping and analysis, sensor design and packaging performance have been improved dramatically.
Those measurements can be taken in a parallel manner and could be useful in phenomena detection.
Whilst the focus of this chapter is on a single single point sensor, the basic design could be duplicated with other similar sensors and using the same fpga to realise distributed sensing.Acknowledgments, the authors would like to thank the European Union Erasmus Mundus leaders (Leading mobility between Europe and Asia in Developing Engineering Education and Research) scholarship programme in its support of this work.Appendix B: Data Sheets.This section also highlights a number of the advantages gate that the fpga has over software programmed processor alternatives.Section 6 concludes the paper.Some improvements have been noted in recent system designs where operations were performed using a software programmed microcontroller based arrangement 10, 11,.The aim is to harness gate the advantages that optical components can provide over electrical component alternatives in a wide range of sensor applications.The available hardware resources within the fpga will be considered and approaches to using these resources will be discussed.The inert nature of optical fibre also allows it to perform in-situ measurements in harsh environments whilst the sensitive electronic circuits can be shielded at an appropriate location and remotely from the environment being sensed.
Specifically, the security focus of the discussion was based on the use of the fpga to provide hardware functionality as cleaner a complement to a software based processor approach.
Fpga control, data capture and visualisation was achieved on PC using the Python open source house language.
design The chapter is structured as follows.In this chapter, only the discussion will dragon be based on a single sensor jodi arrangement to demonstrate the use of the fpga.The fpga provided the necessary signals to control the output light intensity of a LED source using current control.In addition, for complex photonic system design, photonic integrated circuit (IC) technology is a promising solution to achieve lower cost and miniaturisation, but is still not yet as mature as electronic technology.To date, OFS system deployment is still largely dependent on laboratory-based sub-systems, crack particularly the light source and optical receiver that interface to a computer through a data acquisition (DAQ) module or proprietary software via universal serial bus (USB).