DocumentCode
3028953
Title
Implantable low power integrated pressure sensor system for minimal invasive telemetric patient monitoring
Author
Hierold, C. ; Clasbrumme, B. ; Behrend, D. ; Scheiter, T. ; Steger, M. ; Oppermann, K. ; Kapels, H. ; Landgraf, E. ; Wenzel, D. ; Etuodt, D.
Author_Institution
Corp. Technol., Siemens AG, Munich, Germany
fYear
1998
fDate
25-29 Jan 1998
Firstpage
568
Lastpage
573
Abstract
A new low power integrated pressure sensor system with digital output (1 bit PDM signal) for medical applications is presented. The absolute pressure sensor comprising 400 nm thick surface micromachined polysilicon membranes for capacitive pressure detection and a monolithic integrated 2nd order sigma-delta-modulator including voltage reference and timing generator is extremely miniaturized on an area of approximately 3 mm2. For protection and biocompatibility reasons the sensor is coated with a silicone elastomer of up to 100 μm thickness, which does not influence the sensor´s performance. The sensor system was tested in vitro in physiological NaCl solution, showing excellent results compared to a commercially available reference sensor. The sensor system is working well down to a supply voltage of 2.2 V at a power consumption of 0.5 mW. The resolution is better than 12 bit. Due to the small chip area, low power consumption and cost effective production process, the sensor is ideal for medical applications, e.g. in combination with telemetric power and data transmission as an implantable sensor to reduce the mortality risk of intensive care patients
Keywords
biomedical telemetry; microsensors; patient care; patient monitoring; pressure sensors; protective coatings; 0.5 mW; 2.2 V; 3 mm; 400 nm; CMOS/BICMOS; Si; absolute pressure sensor; biocompatibility; capacitive pressure detection; cost effectiveness; data transmission; digital output; implantable low power integrated pressure sensor; implantable sensor; in vitro; intensive care patients; medical applications; minimal invasive telemetric patient monitoring; monolithic integrate sigma-delta-modulator; mortality risk; physiological NaCl solution; protection; silicone elastomer; surface micromachined polysilicon membranes; timing generator; voltage reference; Biomedical equipment; Biomembranes; Biosensors; Capacitive sensors; Energy consumption; Medical services; Protection; Sensor systems; Timing; Voltage;
fLanguage
English
Publisher
ieee
Conference_Titel
Micro Electro Mechanical Systems, 1998. MEMS 98. Proceedings., The Eleventh Annual International Workshop on
Conference_Location
Heidelberg
ISSN
1084-6999
Print_ISBN
0-7803-4412-X
Type
conf
DOI
10.1109/MEMSYS.1998.659820
Filename
659820
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