28-03-2009, 04:32 AM
See Its IEEE Seminar Report
Now I dont have IEEE Acees
Any Way i will Give You The Link Addres
if you Have IEEE Acces Please Upload Here The Seminar Report For Helping Others
http://ieeexplore.ieeeXplore/login.jsp?u...ision=-203
A novel microelectronic "pill" has been developed for in situ studies of the gastro-intestinal tract, combining microsensors and integrated circuits with system-level integration technology. The measurement parameters include real-time remote recording of temperature, pH, conductivity, and dissolved oxygen. The unit comprises an outer biocompatible capsule encasing four microsensors, a control chip, a discrete component radio transmitter, and two silver oxide cells (the latter providing an operating time of 40 h at the rated power consumption of 12.1 mW). The sensors were fabricated on two separate silicon chips located at the front end of the capsule. The robust nature of the pill makes it adaptable for use in a variety of environments related to biomedical and industrial applications.
Now I dont have IEEE Acees
Any Way i will Give You The Link Addres
if you Have IEEE Acces Please Upload Here The Seminar Report For Helping Others
http://ieeexplore.ieeeXplore/login.jsp?u...ision=-203
A novel microelectronic "pill" has been developed for in situ studies of the gastro-intestinal tract, combining microsensors and integrated circuits with system-level integration technology. The measurement parameters include real-time remote recording of temperature, pH, conductivity, and dissolved oxygen. The unit comprises an outer biocompatible capsule encasing four microsensors, a control chip, a discrete component radio transmitter, and two silver oxide cells (the latter providing an operating time of 40 h at the rated power consumption of 12.1 mW). The sensors were fabricated on two separate silicon chips located at the front end of the capsule. The robust nature of the pill makes it adaptable for use in a variety of environments related to biomedical and industrial applications.