Title :
Low-power spiking chemical pixel sensor
Author :
Georgiou, P. ; Constandinou, T.G. ; Toumazou, C.
Author_Institution :
Inst. of Biomed. Eng., Imperial Coll. London
Abstract :
An ISFET-based integrate and fire neuron, forming the front-end of a chemical pixel sensor, is introduced. With the sense data being encoded in the spike domain, i.e. asynchronous/continuous time and discrete value, it is directly compatible with asynchronous communication hardware, e.g. address event representation. The circuit is shown to be tunable to yield a linear relation with both pH and actual hydrogen ion concentration, with a peak power consumption of 35 muW. Furthermore, its compact pixel footprint of under 6500 mum2, makes it ideal for use in arrayed architectures with application in biochemical imaging
Keywords :
chemical sensors; ion sensitive field effect transistors; low-power electronics; pH measurement; 35 muW; ISFET; address event representation; asynchronous communication hardware; biochemical imaging; chemical pixel sensor; hydrogen ion concentration; low power spiking sensor;
Journal_Title :
Electronics Letters
DOI :
10.1049/el:20062836
