Patent application number | Description | Published |
20080232604 | POWER MANAGEMENT FOR MEDICAL SENSING DEVICES EMPLOYING MULTIPLE SENSOR SIGNAL FEATURE DETECTION - Power management circuitry of a portable electronic biosensor implements conditional power management logic to control biosensor power usage and to discriminate between intended use and nonuse of the biosensor by a clinician. The biosensor is configured to sense a property of the human body, such as a manifestation of acoustic energy produced by matter of biological origin or an action potential of the human body. An output signal is produced that is representative of the sensed property. A sensor of the biosensor produces a signal having a plurality of sensor signal features that are received by a detector of the power management circuitry. The power management circuitry or a processor of the biosensor discriminates between intended use and nonuse of the biosensor by the clinician using the sensor signal features. Power supplied to biosensor components is controlled based on the sensor signal features. | 09-25-2008 |
20100056956 | MODULAR ELECTRONIC BIOSENSOR WITH INTERFACE FOR RECEIVING DISPARATE MODULES - A modular electronic biosensor includes a housing configured for hand-held manipulation and a base module comprising a module interface configured to receive one of a multiplicity of disparate detachable modules, such as a transducer module and an output module. A transducer of the transducer module is configured to sense a property of the human body and the output module is configured to output a signal comprising transducer signal information. The module interface includes a module connector for receiving a connector of the detachable module to facilitate signal transmission therebetween, a mechanical retention mechanism configured to retentively engage the detachable module, and a sealing arrangement disposed to provide sealing between the base module and the detachable module when attached to the base module. A processor is coupled to the module connector and configured to communicatively couple with each of the detachable and interchangeable modules when attached to the base module. | 03-04-2010 |
20110065319 | STRETCHABLE CONDUCTIVE CONNECTOR - A stretchable conductive connector. The conductive connector can include a viscoelastic support member having a variable length, and a conductor coupled to the support member. The conductor can include at least one bend to accommodate the variable length of the viscoelastic support member. | 03-17-2011 |
20110077497 | BIOMEDICAL SENSOR SYSTEM - A biomedical sensor system. The system can include a sensor adapted to create a signal based on a physiological characteristic from a subject, and a hub adapted to receive the signal from the sensor. The signal can include at least one of an electromagnetic signal, an electrical signal, an acoustic signal, a mechanical signal, a thermal signal, and a chemical signal. The system can further include a connector adapted to couple the sensor and the hub, the connector having a variable length, such that the sensor and the hub can be positioned a variable distance apart by changing the length of the connector. The connector can be adapted to provide a pathway between the sensor and the hub for the signal. A method of applying a biomedical sensor system to a subject can include changing the length of the variable-length connector to provide an appropriate distance between the sensor and the hub, and coupling the sensor to the subject. | 03-31-2011 |
20110301503 | WEIGHTED BIOACOUSTIC SENSOR AND METHOD OF USING SAME - A sensor for sensing bioacoustic energy includes a housing comprising an interfacing portion configured to establish coupling with a body part during use. The sensor includes a transducer element coupled to the interfacing portion of the housing and configured to sense sounds produced by matter of biological origin. One or more conductors are coupled to the transducer element. A mass element is compliantly coupled to a surface of the transducer element. Intervening material is disposed between the transducer element surface and the mass element, and allows for differential motion between the transducer element surface and the mass element during excitation of the transducer element. | 12-08-2011 |