Patent application number | Description | Published |
20080217407 | Host Apparatus and Method Providing Calibration and Reagent Information to a Measurement Apparatus with Makes Use of a Consumable Reagent in a Measuring Process - Apparatuses and methods providing data such as, for example, calibration and reagent information ( | 09-11-2008 |
20100198032 | PORTABLE HANDHELD MEDICAL DIAGNOSTIC DEVICE HAVING A MEZZANINE CIRCUIT BOARD WITH A UNIVERSAL CONNECTION INTERFACE - A portable handheld medical diagnostic device capable of communicating with an external device and a method thereof are disclosed. The device has a protective enclosure, a main circuit board provided in the protective enclosure and having a wireless connectivity component and a controller facilitating a physiologic measurement and communications of results of the physiological measurement to the external device. Also provided in the protective enclosure is a mezzanine circuit board having at least one of a plurality of additional feature modules and a universal connection interface programmed to both facilitate operation of the additional feature module and operate under the control of the controller as a control interface between the controller and the additional feature module. | 08-05-2010 |
20100307916 | TEMPERATURE ESTIMATIONS IN A BLOOD GLUCOSE MEASURING DEVICE - Methods of estimating the temperature of a reaction site on a measurement strip in a blood glucose measuring devices are provided. In one embodiment, a method includes determining an activation initiation time, an activation duration time, a thermal magnitude and a temperature elevation for heat generating components within a device. The temperature elevation for each of the heat generating components is determined at least in part by an impulse response matrix [X | 12-09-2010 |
20100331645 | METHODS AND SYSTEMS FOR WIRELESS COMMUNICATION BETWEEN A BLOOD GLUCOSE METER AND A PORTABLE COMMUNICATION DEVICE - A blood glucose measuring system which comprises a blood glucose (bG) meter and a portable communication device (PCD) and methods thereof are disclosed. The blood glucose meter comprises a measurement module and a wireless module, wherein the measurement module is operable to measure the blood glucose level of a blood sample, the wireless module is an embeddable module and communicates to the measurement module via a serial interface, and the wireless module is operable to wirelessly communicate to the portable communication device. The portable communication device is operable to wirelessly receive information from the blood glucose meter related to the blood glucose measurement. | 12-30-2010 |
20110152769 | METHODS AND SYSTEMS FOR ADJUSTING AN INSULIN DELIVERY PROFILE OF AN INSULIN PUMP - Systems and methods are disclosed for adjusting the delivery times of an insulin delivery profile of an insulin pump, wherein the insulin pump is operable to automatically deliver insulin to a person having diabetes based on an operating time of the internal clock and a delivery time of an insulin delivery profile. The method may comprise receiving a local time zone time from an external local clock, determining whether the operating time of the internal clock differs from the local time zone time by at least a first predetermined amount of time, requesting the person provide a time adjustment value when the operating time of the internal clock differs from the local time zone time by at least the first predetermined amount of time, receiving the time adjustment value from the person, and adjusting the delivery times of the insulin delivery profile based on the time adjustment value when received. | 06-23-2011 |
20120078221 | METHODS AND SYSTEMS FOR ADJUSTING AN INSULIN DELIVERY PROFILE OF AN INSULIN PUMP - Systems and methods are disclosed for adjusting the delivery times of an insulin delivery profile of an insulin pump, wherein the insulin pump is operable to automatically deliver insulin to a person having diabetes based on an operating time of the internal clock and a delivery time of an insulin delivery profile. The method may comprise receiving a local time zone time from an external local clock, determining whether the operating time of the internal clock differs from the local time zone time by at least a first predetermined amount of time, requesting the person provide a time adjustment value when the operating time of the internal clock differs from the local time zone time by at least the first predetermined amount of time, receiving the time adjustment value from the person, and adjusting the delivery times of the insulin delivery profile based on the time adjustment value when received. | 03-29-2012 |
20120095311 | COEXISTENCE OF MULTIPLE RADIOS IN A MEDICAL DEVICE - A handheld diabetes management device having a plurality of communication modules for communicating with a plurality of medical devices via a shared antenna or multiple antennas, where the handheld diabetes management device includes a first communication module, a second communication module, and an arbitration module. The first communication module selectively communicates in a first frequency band with an insulin infusion pump external to the handheld diabetes management device via a first antenna using a first wireless communication protocol. The second communication module selectively communicates in the first frequency band with a continuous glucose monitor external to the handheld diabetes management device via a second antenna or the first antenna using a second wireless communication protocol. The arbitration module grants permission to communicate to the first communication module and denies permission to communicate to the second communication module when the first and second communication modules request permission to communicate concurrently. | 04-19-2012 |
20120095316 | HANDHELD DIABETES MANAGING DEVICE WITH LIGHT PIPE FOR ENHANCED ILLUMINATION - A handheld diabetes management device for providing enhanced illumination includes a housing with an access port and a light aperture. The housing further includes a coupling member on an inner surface thereof. Furthermore, the device includes a measurement engine housed within the housing and communicating with the access port for analyzing body fluid disposed on a dosing area of a diabetes test element. Also, the device includes a circuit board communicating with the measurement engine. The device further includes a light source mounted to the circuit board and a light pipe coupled to the housing via the coupling member. The light pipe is disposed adjacent the light source to receive light from the light source travelling in a first direction. The light pipe redirects the light along a second direction to be emitted out of the housing through the light aperture toward the dosing area of the diabetes test element. | 04-19-2012 |
20120095393 | USE OF A HANDHELD MEDICAL DEVICE AS A COMMUNICATIONS MEDIATOR BETWEEN A PERSONAL COMPUTER-BASED CONFIGURATOR AND ANOTHER NETWORKED MEDICAL DEVICE - A handheld diabetes managing device that provides a secure and efficient communication link between an insulin pump and an external computing device. The handheld diabetes managing device can include a blood glucose meter, a processor and first and second communication modules. The handheld diabetes managing device can be configured to deliver data between an insulin pump and an external computing device over a secure communication path without a direct communication link between the insulin pump and the external computing device. The secure communication path can include a first secure bidirectional communication link between the handheld diabetes managing device and the insulin pump and a second secure bidirectional communication link between the handheld diabetes managing device and the external computing device. | 04-19-2012 |
20130265682 | Electrical Protection Circuitry For A Docking Station Base Of A Hand Held Meter And Method Thereof - An electrical protection circuitry for a docking station base of a hand held meter and method thereof are disclosed. In the event of a short circuit at a meter interface connector, the protection circuitry removes power at the meter interface connector. Similarly, in the event of an applied voltage outside a specified operating range of the base, the protection circuitry removes power to the meter interface connector. These conditions of the electrical system of the base are monitored regardless whether the meter or the meter's battery is electrically connected to the base. The protection circuitry also provides a visual indication in the event of either the over current and under/over voltage conditions. Additionally, the base is designed to prevent liquid from pooling inside a pocket used to cradle and hold the meter in the base through the use of a drain located at the lowest point in the pocket. | 10-10-2013 |