X-ray or gamma ray systems or devices – Accessory – Testing or calibration
Reexamination Certificate
1999-11-29
2001-12-04
Porta, David P. (Department: 2882)
X-ray or gamma ray systems or devices
Accessory
Testing or calibration
C378S114000
Reexamination Certificate
active
06325540
ABSTRACT:
BACKGROUND OF THE INVENTION
The present invention relates generally to the field of medical diagnostic systems, such as imaging systems. More particularly, the present invention relates to a technique for remotely configuring and servicing a field replaceable unit in a medical diagnostic system. Remote configuration and service of a field replaceable unit includes providing field service, upgrades, characterization data, and so forth to imaging systems. Further, remote configuration and service of a field replaceable unit provides for automatic configuration of the system to the particular field replaceable unit.
One such field replaceable unit is an x-ray tube. X-ray tubes are used in a variety of imaging systems, such as, for example, CT systems. Other field replaceable units may be included in vascular imaging systems, R&F (radiography and fluoroscopy) systems, mammography systems, and the high voltage (HV) x-ray generators of these systems. X-ray tubes are passive components on imaging systems that require external power supplies (e.g., HV generator, motor controller, filament supply) for their operation. X-ray tubes also need characterization data for the control of their operation (e.g., x-ray tube cooling algorithms and data for software control of exposure). The association of the tube with a particular x-ray system/generator involves providing characterization information to the system/generator operating system and/or component operating systems. Proper association of the tube permits the tube to be operated correctly.
Conventional systems generally achieve the association of a tube with a particular x-ray system/generator in one of two ways. In one conventional method, the information about a given model x-ray tube is “hard coded” into the operating system software so that the system will operate all tubes in the same manner, regardless of the tube's actual characteristics. In a second conventional method, a set of pre-known tube characteristics are coded into the system/generator operating system and provision is made for selection of the appropriate set of operating characteristics of a limited number of different tube models for that given system.
The first conventional method does not provide for any positive identification that the x-ray tube being operated is the one for which the system has been configured, nor is there a way to change the configuration for a different tube model. The second conventional method usually involves some rudimentary model identification method. For example, a human operator reads model plate information and enters the information into a system configuration table. Alternatively, some parameter is sensed by the system, such as an electrical signal. In the second conventional method, some limited number of tubes with different operating characteristics can be associated, but this information must be known at the time of the original system configuration. Any new information for new model tubes or upgrades of current model tubes must be coded into a new release of the system software and must be loaded onto the system/generator.
The passive nature of the x-ray tube as a component also comes into play when the tube is replaced for failure in a system operating in the field. Important data characterizing the tube's operation leading up to and at the time of failure is only available at the system level. A tube returned to the factory carries no such data except for possibly written data from a service person. However, such information is often limited and occasionally omitted when the tube is removed by the service person.
Conventional methods of associating x-ray tubes (or any other field replaceable unit) with the system do not provide for the association of new tube designs. If a new tube design is introduced, the system may need to be re-coded and the operating system re-released. Further, conventional methods do not allow for product tiers around a given model tube. For example, a system cannot use a higher performance level tube without re-coding and re-releasing system operating software, including expensive and time consuming Field Modification Instructions (FMI's). New characteristics for a particular tube may be established as new information becomes available on the operation of that tube model. FMI's to reconfigure a system to different tube characteristics typically involve a technician visit and down-time (i.e., non-operational time) for the system.
Thus, there is a need for a method and apparatus to provide for the association of field replaceable units, such as x-ray tubes, with medical diagnostic systems. Further, there is a need for a method and apparatus to provide for the association of field replaceable unit designs. Further, there is a need for a method and apparatus to operate a given model unit under different operating conditions. Even further, there is a need for a method and apparatus to query and positively identify the unit model of a given unit in a given field system and/or change the operating characteristics of that unit while it is installed. Even still further, there is a need for a method and apparatus to get consistent and accurate field usage data back on a unit upon return to the factory. Such data is valuable in making critical business decisions.
BRIEF SUMMARY OF THE INVENTION
One embodiment of the invention relates to a method for remotely configuring and servicing a field replaceable unit associated with a medical diagnostic system. The method includes establishing a communication connection between the medical diagnostic system and a remote facility, communicating identification information from an electronic device coupled to the field replaceable unit associated with the medical diagnostic system to the remote facility, communicating configuration information from the remote facility to the medical diagnostic system, and configuring the medical diagnostic system in accordance with the configuration information from the remote facility.
Another embodiment of the invention relates to an apparatus which provides for remotely configuring and servicing a field replaceable unit associated with a medical diagnostic system. The apparatus includes a memory unit configured to store identification indicia associated with the field replaceable unit and communication interface configured to communicate identification information from the identification indicia to a remote facility via a network.
Another embodiment of the invention relates to a system for remotely configuring and servicing a field replaceable unit associated with a medical diagnostic system. The system includes means for establishing a communication connection between the medical diagnostic system and a remote facility, means for communicating identification information from an electronic device coupled to the field replaceable unit to the remote facility, means for communicating configuration information from the remote facility to the medical diagnostic system, and means for configuring the medical diagnostic system in accordance with the configuration information from the remote facility.
Other principle features and advantages of the present invention will become apparent to those skilled in the art upon review of the following drawings, the detailed description, and the appended claims.
REFERENCES:
patent: 4991193 (1991-02-01), Cecil
patent: 6178225 (2001-01-01), Zur et al.
patent: 6212256 (2001-03-01), Miesbauer et al.
Gravelle Stephen W.
Idelchik Michael S.
Lounsberry Brian D.
Schmidt Jonathan R.
Shepard James S.
Della Penna Michael A.
Foley & Lardner
General Electric Company
Porta David P.
Vogel Peter J.
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