Patent application number | Description | Published |
20120283807 | Energy Harvester Device For Autonomous Intracorporeal Capsule - An energy harvester device for an autonomous intracorporeal leadless capsule having an outside surface ( | 11-08-2012 |
20120330392 | Autonomous (Leadless) Intracardiac Implantable Medical Device With Releasable Base and Fastener Element - A leadless autonomous intracardiac implantable medical device having a releasable fastener system. This autonomous intracorporeal active medical device has two distinct elements connectable together and reversibly separable from one another, with a sealed capsule body ( | 12-27-2012 |
20130238072 | AUTONOMOUS INTRACORPOREAL CAPSULE WITH PIEZOELECTRIC ENERGY HARVESTING - An intracorporeal capsule for placement in a heart and for energy harvesting using blood pressure variations is shown and described. The capsule includes a capsule body and a piezoelectric strip coupled to a rigid surface for receiving blood pressure force. The piezoelectric strip is normally perpendicular to the direction of the force on the rigid surface. The piezoelectric strip is disconnected from the capsule body along at least two edges of the piezoelectric strip such that the blood pressure force can move the rigid surface, and thereby deform the piezoelectric strip for energy harvesting. | 09-12-2013 |
20130238073 | AUTONOMOUS INTRACORPOREAL CAPSULE WITH DOUBLE ENERGY HARVESTING - A intracorporeal medical capsule is shown and described. The capsule includes an elastically deformable base having an anchor at one end and coupled to a capsule body at the opposite end. An energy harvesting element is elastically coupled to a seismic mass within the capsule body. The elastically deformable base increases energy harvested at the energy harvesting element due to elastic movement of the capsule body in the presence of blood flow around the capsule body. | 09-12-2013 |
20140046395 | AUTONOMOUS INTRACARDIAC IMPLANTABLE MEDICAL DEVICE WITH RELEASEABLE BASE AND FASTENER ELEMENT - An intracorporeal autonomous active medical device having a capsule body and a base. The capsule body includes a body portion and a lid portion, and the capsule body contains therein electronic circuitry containing the active elements of the autonomous medical device, and a power supply. The capsule body also includes a fastening system on an exterior surface of the capsule body that is configured to correspond with a fastening mechanism on the base configured to be anchored to a tissue wall. The fastening mechanism provides selective engagement between the capsule body and the base. | 02-13-2014 |
20150091415 | AUTONOMOUS INTRACORPOREAL CAPSULE WITH ENERGY HARVESTING BY PIEZOELECTRIC TRANSDUCER - An autonomous intracorporeal capsule comprises a body containing electronic circuits and an energy harvesting module. The energy harvesting module comprises a moveable surface on the body of the capsule, subjected to pressure variations and to produce a mechanical stress under the effect of the pressure variations, and a transducer comprising a deformable piezoelectric component configured as a beam adapted to be forced to bend. The piezoelectric component has a recessed end integral with the capsule and a free end. A mechanical connection couples the free end of the piezoelectric component to the actuator. The mechanical connection may provide a degree of freedom in rotation between a main direction of the beam and the direction of application of the mechanical stress. | 04-02-2015 |
20150094786 | AUTONOMOUS INTRACORPOREAL CAPSULE WITH FREQUENCY CONVERSION ENERGY HARVESTING - The energy harvester module of the capsule comprises: a primary oscillating structure subjected to an external low-frequency stress; a secondary oscillating structure comprising an elastic element and able to vibrate in high-frequency resonance; and an electrostatic structure with a first electrode coupled to the primary structure and a second electrode coupled to the secondary structure. The electrodes exert a mutual attraction between them driving the secondary structure away from its stable equilibrium position with tensioning of the elastic element, up to a limit beyond which the secondary structure is released by relaxation effect to vibrate at a resonance frequency. A transducer coupled to the secondary structure converts these high frequency vibration movements into electrical energy. | 04-02-2015 |
20150217123 | ENERGY HARVESTER DEVICE FOR AUTONOMOUS INTRACORPOREAL CAPSULE - An energy harvester device for an autonomous intracorporeal leadless capsule comprises a surface formed on the outside of the body of the capsule that is deformable under the effect of pressure variations in the environment surrounding the capsule. A first capacitor electrode coupling to the deformable surface with the interposition of a damping element forming high-pass filter with respect to pressure variations in the surrounding medium, and a second capacitor electrode mounting on a support connected to the body. The movement of the deformable surface produces a modification of surfaces in vis-à-vis of the two electrodes and/or of the dielectric gap which separates them, with a variation of the capacity of said capacitor. The capacitor is preloaded when its capacity is maximum, and unloaded by transferring energy into storage circuit when this capacity decreases from a reduction in surfaces in vis-à-vis and/or of an increase of the dielectric gap. | 08-06-2015 |