Patent application number | Description | Published |
20100273042 | BATTERY ASSEMBLY WITH TEMPERATURE CONTROL DEVICE - A battery module of the present invention is adaptable to be utilized in various configurations including and not limited to an overlapping battery cell packaging configuration and a vertical stack battery cell packaging configuration used in an automotive and non-automotive applications. The battery module has a plurality of battery heatsink assemblies with the cells disposed therebetween. A plurality of rods extend through the each heatsink assemblies to secure the heatsink assemblies and the cell with one another to form the battery module. | 10-28-2010 |
20100304203 | BATTERY ASSEMBLY WITH TEMPERATURE CONTROL DEVICE - A battery module of the present invention is adaptable to be utilized in various configurations including and not limited to an overlapping battery cell packaging configuration and a vertical stack battery cell packaging configuration used in an automotive and non-automotive applications. The battery module has a plurality of battery heatsink assemblies with the cells disposed therebetween. A plurality of rods extend through the each heatsink assemblies to secure the heatsink assemblies and the cell with one another to form the battery module. | 12-02-2010 |
20110104532 | BATTERY ASSEMBLY - A battery module includes pressure release features ( | 05-05-2011 |
20150024246 | BATTERY ASSEMBLY WITH TEMPERATURE CONTROL DEVICE - A battery module of the present invention is adaptable to be utilized in various configurations including and not limited to an overlapping battery cell packaging configuration and a vertical stack battery cell packaging configuration used in an automotive and non-automotive applications. The battery module has a plurality of battery heatsink assemblies with the cells disposed therebetween. A plurality of rods extend through the each heatsink assemblies to secure the heatsink assemblies and the cell with one another to form the battery module. | 01-22-2015 |
20150079443 | BATTERY ASSEMBLY WITH TEMPERATURE CONTROL DEVICE - A battery module of the present invention is adaptable to be utilized in various configurations including and not limited to an overlapping battery cell packaging configuration and a vertical stack battery cell packaging configuration used in an automotive and non-automotive applications. The battery module has a plurality of battery heatsink assemblies with the cells disposed therebetween. A plurality of rods extend through the each heatsink assemblies to secure the heatsink assemblies and the cell with one another to form the battery module. | 03-19-2015 |
Patent application number | Description | Published |
20080299448 | BATTERY UNIT WITH TEMPERATURE CONTROL DEVICE - A battery unit ( | 12-04-2008 |
20090096286 | HIGH VOLTAGE BATTERY IMPACT PROTECTION SYSTEM FOR AUTOMOTIVE VEHICLE - A safety control assembly ( | 04-16-2009 |
20090214941 | BATTERY ASSEMBLY - A battery module of the present invention is adaptable to be utilized in various configurations including and not limited to an overlapping battery cell packaging configuration and a vertical stack battery cell packaging configuration used in an automotive vehicle. The battery module has a plurality of battery heatsink assemblies with the cells disposed therebetween. A plurality of rods extend through the each heatsink assemblies to secure the heatsink assemblies and the cell with one another to form the battery module. | 08-27-2009 |
20120244415 | BATTERY ASSEMBLY AND METHOD OF FORMING THE SAME - A battery assembly includes a first cell and a second cell adjacent the first cell. A first insulator and a second insulator extend over and encapsulate first electrode and second electrode. A shell extends over the first and second insulators thereby encapsulating the first and second insulators. A mechanical connection is defined between the first insulator of the first cell and the second insulator of the second cell. | 09-27-2012 |
20140099819 | BATTERY TERMINAL SYSTEM - Battery terminal systems are provided for coupling a first battery to a second battery. The battery terminal systems may include bases assembled to the terminals of the first battery and the second battery. The bases being coupled to a jumper to electrically couple the first battery to the second battery. | 04-10-2014 |
20140113165 | ENERGY STORAGE SYSTEM - Battery assemblies are disclosed which may include a plurality of battery cells positioned in trays which are stacked. The battery cells of each tray may be electrically connected together. The battery trays may include a battery support which extends under and supports a middle portion of the battery cells of the respective battery tray. The battery support may be a thermal sink for the battery cells. | 04-24-2014 |
20140272495 | BATTERY SYSTEM WITH COOLED ELECTRICAL CONNECTORS - A multi-cell battery system is disclosed including a plurality of battery sub-assemblies stacked together along a longitudinal axis, and an electrical connector between the battery sub-assemblies. A heat exchange passageway passes across the electrical connector to cool the battery system. An exemplary electrical connector includes a plurality of heat transfer features to promote cooling of the battery system. | 09-18-2014 |
20140272518 | BATTERY SYSTEM WITH COMPLIANT HEATSINK ASSEMBLY - A multi-cell battery system is disclosed including one or more battery sub-assemblies and one or more compliant heat exchange assemblies stacked together along a longitudinal axis. Each compliant heat exchange assembly may adapt to expansions and contractions of adjacent battery cells, and may define a heat exchange passageway through the battery system. | 09-18-2014 |
Patent application number | Description | Published |
20090099433 | AMPEROMETRIC SENSOR AND METHOD FOR ITS MANUFACTURING - An in vivo amperometric sensor is provided for measuring the concentration of an analyte in a body fluid. The sensor comprises a counter electrode and a working electrode, and the working electrode comprises a sensing layer which is generally water permeable and arranged on a support member adjacent to a contact pad. The sensing layer comprises an immobilized enzyme capable of acting catalytically in the presence of the analyte to cause an electrical signal. The sensing layer has an upper surface facing the body fluid and a lower surface facing away from the body fluid, and the immobilized enzyme is distributed within the sensing layer in such a way that the enzyme concentration in the middle between the upper and lower surfaces is at least as high as on the upper surface of the sensing layer. | 04-16-2009 |
20100234708 | WIRELESSLY CONFIGURABLE MEDICAL DEVICE FOR A BROADCAST NETWORK SYSTEM - A system for configuring one or more medical devices used for patient self-monitoring of medical parameters includes a broadcast provider and one or more medical devices in a network area of the broadcast provider. The one or more medical devices each include a receiver operable to receive data signals transmitted over the network area from the broadcast provider. The signals transmit medical device data to the one or more medical devices to facilitate the use of the medical device by the user while reducing the potential for errors that may be made by the user when using the medical device. | 09-16-2010 |
20110186428 | ELECTRODE ARRANGEMENTS FOR BIOSENSORS - The present invention relates to a biosensor. The biosensor includes a support substrate, electrodes positioned on the support substrate, a spacer substrate positioned on the support substrate, and a cover positioned on the spacer substrate. The cover cooperates with the support substrate to define a capillary channel. The electrodes include at least one working electrode defining a working electrode area in the capillary channel. The working electrode is configured to minimize variation in the working electrode area in the capillary channel due to variations in the spacer substrate placement relative to the working electrode. | 08-04-2011 |
20120088993 | ELECTROCHEMICAL SENSOR HAVING SYMMETRICALLY DISTRIBUTED ANALYTE SENSITIVE AREAS - The present invention provides an electrochemical sensor that employs multiple electrode areas that are exposed for contact with a body fluid, e.g., when the sensor is inserted subcutaneously into a patient's skin. The exposed electrode areas are arranged symmetrically, such that a symmetrical potential distribution is produced when an AC signal is applied to the sensor. The sensors in accordance with these teachings can advantageously be used with AC signals to determine characteristics of the sensor and thus improve sensor performance. These teachings also provide a biocompatible sensor with multiple reference electrode areas that are exposed for contact with body fluid. | 04-12-2012 |
20130140176 | ELECTRODE ARRANGEMENTS FOR BIOSENSORS - The present invention relates to a biosensor. The biosensor includes a support substrate, electrodes positioned on the support substrate, a spacer substrate positioned on the support substrate, and a cover positioned on the spacer substrate. The cover cooperates with the support substrate to define a capillary channel. The electrodes include at least one working electrode defining a working electrode area in the capillary channel. The working electrode is configured to minimize variation in the working electrode area in the capillary channel due to variations in the spacer substrate placement relative to the working electrode. | 06-06-2013 |
20150038814 | AMPEROMETRIC SENSOR AND METHOD FOR ITS MANUFACTURING - An in vivo amperometric sensor is provided for measuring the concentration of an analyte in a body fluid. The sensor comprises a counter electrode and a working electrode, and the working electrode comprises a sensing layer which is generally water permeable and arranged on a support member adjacent to a contact pad. The sensing layer comprises an immobilized enzyme capable of acting catalytically in the presence of the analyte to cause an electrical signal. The sensing layer has an upper surface facing the body fluid and a lower surface facing away from the body fluid, and the immobilized enzyme is distributed within the sensing layer in such a way that the enzyme concentration in the middle between the upper and lower surfaces is at least as high as on the upper surface of the sensing layer. | 02-05-2015 |
Patent application number | Description | Published |
20080214910 | SYSTEM AND METHOD FOR OPERATING AN ELECTROCHEMICAL ANALYTE SENSOR - A method of operating an electrochemical analyte sensor having one or more electrodes may comprise applying a time-varying input signal to at least one of the one or more electrodes, monitoring a time-varying output signal produced by the sensor in response to application of the time-varying input signal, determining a complex impedance of the sensor based on the time-varying input and output signals, and determining from the complex impedance information relating to operation of the sensor. | 09-04-2008 |
20080275326 | SENSOR FOR MONITORING A CONDITION OF A PATIENT - A sensor may include a substrate having a sensing portion defining a sensor thereon and a circuit mounting portion defining at least one electrically conductive pad that is electrically connected to the sensor. The sensor may be configured to produce a signal indicative of a condition of the patient. An anisotropic medium may be disposed on the circuit mounting portion and may be electrically conductive in a direction through the medium and electrically insulating in directions along the medium. An electrical circuit may be mechanically mounted to the circuit mounting portion of the first substrate via the anisotropic medium with at least one electrically conductive terminal juxtaposed over the at least one electrically conductive pad. The anisotropic medium may establish local electrical contact between the at least one electrically conductive terminal and the at least one electrically conductive pad. | 11-06-2008 |
20110168575 | SAMPLE CHARACTERIZATION BASED ON AC MEASUREMENT METHODS - One aspect concerns a technique for detecting analyte concentrations, such as glucose concentrations, in blood or other bodily fluids. This technique utilizes an electrochemical test strip that includes a mediator system that generates a linear faradic response at relatively low applied potential differences. An alternating current excitation signal is applied to blood in the test strip. The alternating current excitation signal includes a low frequency signal and a high frequency signal that has a higher frequency than the low frequency signal. The glucose concentration is determined by measuring a low frequency response to the low frequency signal, measuring a high frequency response to the high frequency signal, estimating the glucose concentration based on the low frequency response, and correcting the glucose concentration for one or more error-causing variables based on the high frequency response. | 07-14-2011 |
20120209097 | SENSOR WITH INCREASED BIOCOMPATIBILITY - Sensors and methods for producing them are disclosed. A cavity is created and filled with a reagent that includes a conductive matrix, enzyme, catalyst, and binding agent, in a preferred embodiment. The cavity is substantially enclosed, leaving enough of an opening to allow the sample to enter. A portion of the material surrounding the cavity is preferably permeable to a substance useful for measuring reaction, but not to the reagent or the sample. Cavities that have the shape of a cone, conical frustum, pyramidal frustum, and right circular cylinder are given as examples. Other systems include a membrane that contains the sensor's active area and defines an internal volume of fluid, where the membrane or internal volume has a particular geometric relationship to the active area. | 08-16-2012 |
20140066737 | SENSOR FOR MONITORING A CONDITION OF A PATIENT - A sensor may include a substrate having a sensing portion defining a sensor thereon and a circuit mounting portion defining at least one electrically conductive pad that is electrically connected to the sensor. The sensor may be configured to produce a signal indicative of a condition of the patient. An anisotropic medium may be disposed on the circuit mounting portion and may be electrically conductive in a direction through the medium and electrically insulating in directions along the medium. An electrical circuit may be mechanically mounted to the circuit mounting portion of the first substrate via the anisotropic medium with at least one electrically conductive terminal juxtaposed over the at least one electrically conductive pad. The anisotropic medium may establish local electrical contact between the at least one electrically conductive terminal and the at least one electrically conductive pad. | 03-06-2014 |