초록 ▼

A miniaturized pressure transducer, particularly suited for intravascular blood pressure measurement, utilizing a single optical fiber for transmitting light both to and from a flexible diaphragm having a light-reflecting surface on one side, the opposite side being exposed to and deflected in accor

A miniaturized pressure transducer, particularly suited for intravascular blood pressure measurement, utilizing a single optical fiber for transmitting light both to and from a flexible diaphragm having a light-reflecting surface on one side, the opposite side being exposed to and deflected in accordance with the pressure being measured. The end of the fiber through which light is transmitted to and reflected light received from the diaphragm is ground to form a spherical lens integral with the fiber, whereby light passing through the end of the fiber is focused at a predetermined focal point. The fiber is axially positioned so that the center of the diaphragm, which coincides with the lens axis, is at the focal point when the diaphragm is at maximum deflection, i.e., when its opposite surface is exposed to a predetermined, maximum anticipated pressure.

대표청구항 ▼

A fiber optic pressure transducer comprising: (a) light generating means; (b) an elongated, optical fiber having a first terminal end positioned to receive light from said generating means and a second terminal end to which said light is carried through said fiber; (c) a deformable member having a f

A fiber optic pressure transducer comprising: (a) light generating means; (b) an elongated, optical fiber having a first terminal end positioned to receive light from said generating means and a second terminal end to which said light is carried through said fiber; (c) a deformable member having a first, light reflecting surface positioned in opposed, spaced relation to said second terminal end and movable with respect thereto in accordance with the pressure exerted on the side of said deformable member opposite said first surface; (d) a spherical lens formed integrally as a radius on said second terminal end and having a focal point positioned in predetermined relationship to said light reflecting surface, whereby light carried from said first to said second end of said fiber passes through said lens and impinges on said light reflecting surface and at least a portion of said light reflected by said surface passes back through said lens and fiber and out of said first end thereof; and (e) means for generating an electrical signal commensurate with the intensity of light passing out of said first end, said intensity being a function of the distance between said lens and said light reflecting surface and thereby of said pressure exerted on said opposite side of said deformable member.