Patent application number | Description | Published |
20090248100 | System and Method for Conditioning a Lithium Battery in an Automatic External Defibrillator - An inventive system and method de-passivates a direct current (DC) power source of an Automatic External Defibrillator (AED), such as an AED lithium battery. The system includes a main processor and standby processor. The standby processor monitors the age and usage of the battery. Based on the status of the monitored parameters, the system executes a conditioning discharge to remove a layer of salt crystals on the DC power source. | 10-01-2009 |
20100075208 | Medical Device Battery Pack with Active Status Indication - A system and method provides a status indicator to a battery pack of a medical device. The battery pack includes a power supply capable of being connected to the medical device. The battery pack also includes an indicator to automatically indicate a status of at least a portion of at least one of the battery pack and the medical device. For example, the indicator can indicate a status of the power supply. | 03-25-2010 |
20110137361 | Medical Device with Status Indication - A system and method provides a status indicator to a battery pack of a medical device. The battery pack includes a power supply capable of being connected to the medical device. The battery pack also includes an indicator to automatically indicate a status of at least a portion of at least one of the battery pack and the medical device. For example, the indicator can indicate a status of the power supply. | 06-09-2011 |
20110184484 | Automatic External Defibrillator with Active Status Indicator - An AED includes defibrillation circuitry housed within an enclosure, a first processor programmed to periodically test the operability of the defibrillation circuitry and a second processor in communication with the first processor. The AED further includes a visual indicator, such as a red/green LED, positioned at the exterior of the enclosure that is operatively connected to the second processor. The second processor is programmed to control the visual indicator in response to the periodic test results provided to it by the first processor. | 07-28-2011 |
20110190837 | Automatic External Defibrillator with Active Status Indicator - An AED includes defibrillation circuitry housed within an enclosure, a first processor programmed to periodically test the operability of the defibrillation circuitry and a second processor in communication with the first processor. The AED further includes a visual indicator, such as a red/green LED, positioned at the exterior of the enclosure that is operatively connected to the second processor. The second processor is programmed to control the visual indicator in response to the periodic test results provided to it by the first processor. | 08-04-2011 |
20110190838 | Automatic External Defibrillator with Active Status Indicator - An AED includes defibrillation circuitry housed within an enclosure, a first processor programmed to periodically test the operability of the defibrillation circuitry and a second processor in communication with the first processor. The AED further includes a visual indicator, such as a red/green LED, positioned at the exterior of the enclosure that is operatively connected to the second processor. The second processor is programmed to control the visual indicator in response to the periodic test results provided to it by the first processor. | 08-04-2011 |
20110190839 | Automatic External Defibrillator with Active Status Indicator - An AED includes defibrillation circuitry housed within an enclosure, a first processor programmed to periodically test the operability of the defibrillation circuitry and a second processor in communication with the first processor. The AED further includes a visual indicator, such as a red/green LED, positioned at the exterior of the enclosure that is operatively connected to the second processor. The second processor is programmed to control the visual indicator in response to the periodic test results provided to it by the first processor. | 08-04-2011 |
20120150247 | Battery pack topology - A battery pack topology wherein the battery pack has multiple battery sub-stacks electrically connected in parallel such that the capacity of each battery sub-stack may be utilized but one is reduced unequally as to the others. As a result, one battery sub-stack will reach a point of failure before the other, which causes a drastic, observable change in the output voltage of the battery pack, but provides sufficient reserve capacity to permit a user of a device, such as an AED, having the battery pack to be notified in a timely fashion of the need to replace the battery pack. | 06-14-2012 |
20120265264 | System and Method for Conditioning a Lithium Battery in an Automatic External Defibrillator - An inventive system and method de-passivates a direct current (DC) power source of an Automatic External Defibrillator (AED), such as an AED lithium battery. The system includes a main processor and standby processor. The standby processor monitors the age and usage of the battery. Based on the status of the monitored parameters, the system executes a conditioning discharge to remove a layer of salt crystals on the DC power source. | 10-18-2012 |
20140025130 | MEDICAL DEVICE WITH USER ATTENTION DIRECTION - A medical device having a unit in communication with ancillary components wherein the unit and the ancillary components each have a sensory output through which communication with a user of the medical device may be accomplished and the user's attention directed. In one aspect, the medical device is an AED unit with associated pads, which are an ancillary component electrically connected to the AED unit. In this illustrative example, the unit has a unit sensory output (e.g., a speaker or a display), and the pads, and/or their associated packaging, have an ancillary sensory output (e.g. a speaker or display). Programming in the AED unit controls output to the sensory outputs such that the user's attention is directed between the unit and the ancillary components. | 01-23-2014 |