Advanced cell-culturing platforms

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Title
Advanced cell-culturing platforms
CoPED ID
f216a046-1bb3-46e6-a636-2435b171f7de
Status
Closed
Funders
EPSRC
EPSRC
Value
No funds listed.
Start Date
Sept. 28, 2016
End Date
Aug. 30, 2021
Description

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FGPA based platform for biosensing on Point of Care diagnostics, Nowadays multiple diseases can be detected and analyzed in order to be cured or to be prevented
from spreading. Such a Point of Care diagnostic device that uses a PCB based biosensor is designed
by the group of Dr Prodromakis in Nanoelectronics department. The purpose of this study is to
investigate a novel approach of a multichannel amperometric platform based on an FPGA. The
main aspects to focus, is to eliminate the space required for the circuit as long as the price, in order
to be used on an affordable small sized PoC device.
Sensitive low amplitude signals produced from the biosensor can be captured and amplified
without the use of expensive off the shell ADC components. By using the digital LVDS ports of a
low cost FPGA, analog signals can be digitized and used for further processing and analysis. Most
of FPGAs offer a huge amount of LVDs pins that can be connected in parallel and increase
significantly the number of channels that the device supports. This method combined with a time
to digital converter (TDC) using a tapped delay line architecture, can boost the resolution of the
digital signal up to 14-16bits
Filtering and signal processing could be applied using DSP modules internally to the FPGA and
reduce the total size of the PCB. Additionally, modern FPGAs can support multiple
communication protocols for the device to be connected to PDAs or PCs.
Furthermore, a switched capacitor (SC) front end circuit can be used in combination with the
FPGA and achieve an even better total functionality. The basic component for a SC, the switches,
can be driven from the FPGA and achieve a fully configurable circuit on the go. Depending on the
captured analog signal the FPGA can automatically adjust the SC to increase or decrease
amplification and sampling frequency. Lastly, a big advantage of using an FPGA based platform
for PoC devices is low power consumption that can lead to a longer battery life and extended
operating time on portable devices.
For all the above reasons I believe that this research can bring new aspects in this field and derive
a new low cost and compact device for the PoCs.

Subjects by relevance
  1. Signal processing
  2. Electronics
  3. Diagnostics
  4. Microcircuits
  5. Electronic circuits
  6. Digital technology
  7. Signal analysis
  8. Biosensors

Extracted key phrases
  1. Advanced cell
  2. Multichannel amperometric platform
  3. Low cost FPGA
  4. Care diagnostic device
  5. Sensitive low amplitude signal
  6. Affordable small sized poc device
  7. Use
  8. PoC device
  9. Digital signal
  10. Portable device
  11. Compact device
  12. Signal processing
  13. New low cost
  14. Analog signal
  15. Care diagnostic

Related Pages

UKRI project entry

UK Project Locations