Abstract: An inmate facility management system with a shared storage device and a processor configured to receive data and search requests from multiple disparate facility systems. The processor has an interface to translate data from the multiple disparate facility systems and store the data in the shared storage device. The processor executes booking requests, warrant requests and release requests using the shared storage device.

Abstract: An inmate facility management system with a shared storage device and a processor configured to receive data and search requests from multiple disparate facility systems. The processor has an interface to translate data from the multiple disparate facility systems and store the data in the shared storage device. The processor executes booking requests, warrant requests and release requests using the shared storage device.

Abstract: Frame structures, assemblies and methods for use in implantable medical devices. The frames may include one or more first polymeric portions and one or more second polymeric portions coupled to the one or more first polymeric portions. The one or more first polymeric portions may have a higher durometer than the one or more second polymeric portions. The one or more second polymeric portions may provide an interference fit between the one or more second polymeric portions and the housing and/or between the one or more second polymeric portions and one or more components disposed in the housing.

Abstract: An inmate facility management system with a shared storage device and a processor configured to receive data and search requests from multiple disparate facility systems. The processor has an interface to translate data from the multiple disparate facility systems and store the data in the shared storage device. The processor executes booking requests, warrant requests and release requests using the shared storage device.

Abstract: Frame structures, assemblies and methods for use in implantable medical devices. The frames may include one or more first polymeric portions and one or more second polymeric portions coupled to the one or more first polymeric portions. The one or more first polymeric portions may have a higher durometer than the one or more second polymeric portions. The one or more second polymeric portions may provide an interference fit between the one or more second polymeric portions and the housing and/or between the one or more second polymeric portions and one or more components disposed in the housing.

Abstract: A laser ribbon bond pad array connector is disclosed for electrically connecting a RF module to an IMD circuit board in an implantable medical device. The array connector includes a connector body with a plurality of electrically isolated bonding fingers embedded in the connector body. Each bonding finger includes a solder pad that is on a first surface of the connector body and a laser ribbon bond pad that is on a second surface of the connector body. The first and second surfaces are spaced apart in angular relations thereof.

Abstract: An RF antenna flexible circuit interconnect is disclosed with unique micro connectors. The RF antenna flexible circuit interconnect further includes a planer flexible body having an embedded RF transmission line with a first end and a second end. A first antenna micro connector is electrically coupled to the first end of the RF transmission line and a second antenna micro connector is electrically coupled to the second end of the RF transmission line. Each of the first and second antenna micro connectors include an antenna micro connector housing and an antenna central contact socket securely positioned within the antenna micro connector housing. The antenna central contact socket may also include inward bending fingers and may be designed to engage a pin that is inserted into the central contact socket.

Abstract: In general, the invention is directed to an implantable medical device assembly having a more space-efficient housing and components, as well as processes for assembling the implantable medical device with reduced assembly cost and less complexity. The implantable medical device may incorporate a battery, capacitor, circuit assembly, feedthrough assembly, and interconnect assembly with respective electrical terminals. This configuration permits the use of automated electronic module assembly techniques such as parallel gap or ribbon bond welding to electrically connect the terminals. A feedthrough assembly may present a set of terminals adjacent a corresponding set of circuit terminals, also enabling the use of automated welding techniques.

Abstract: In general, the invention is directed to an implantable medical device assembly having a more space-efficient housing and components, as well as processes for assembling the implantable medical device with reduced assembly cost and less complexity. The implantable medical device may incorporate a battery, capacitor, circuit assembly, feedthrough assembly, and interconnect assembly with respective electrical terminals. This configuration permits the use of automated electronic module assembly techniques such as parallel gap or ribbon bond welding to electrically connect the terminals. A feedthrough assembly may present a set of terminals adjacent a corresponding set of circuit terminals, also enabling the use of automated welding techniques.

Abstract: In general, the invention is directed to an implantable medical device assembly having a more space-efficient housing and components, as well as processes for assembling the implantable medical device with reduced assembly cost and less complexity. The implantable medical device may incorporate a battery, capacitor, circuit assembly, feedthrough assembly, and interconnect assembly with respective electrical terminals. This configuration permits the use of automated electronic module assembly techniques such as parallel gap or ribbon bond welding to electrically connect the terminals. A feedthrough assembly may present a set of terminals adjacent a corresponding set of circuit terminals, also enabling the use of automated welding techniques.