Robust cover plate for radiation imager

Radiant energy – Invisible radiant energy responsive electric signalling – Semiconductor system

Reexamination Certificate

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Details

C250S36100C, C250S363020

Reexamination Certificate

active

06172371

ABSTRACT:

BACKGROUND OF THE INVENTION
This invention relates generally to solid state radiation imagers and in particular to robust cover plates to enclose the imager array and protect it from adverse environmental conditions.
Solid state radiation imaging arrays typically comprise a photosensor array coupled to a scintillator. The radiation to be detected (e.g., x-rays or the like) penetrates the scintillator and is absorbed by the scintillator material in an event that results in the release of optical photons. The photosensor array coupled to the scintillator is used to detect the optical photons, providing a spatial location (x,y) in the array that corresponds with the point in the scintillator at which the incident radiation was absorbed. Readout of the photosensor array allows electrical signals to be generated that correspond to the pattern of absorbed radiation. The data embodied in such electrical signals can be presented in a visual display or otherwise processed to allow analysis of the radiation pattern.
The imager includes a glass substrate on which the photosensor array, typically comprising layers of thin films (including amorphous silicon) patterned into thin film transistors (TFT) transistors and photodiodes, is disposed. The scintillator layer typically comprises a salt, such as cesium iodide (Csl), that is deposited over the photosensor array on the substrate. The scintillator converts x-rays into visible light that is in turn detected by the photodiodes. The scintillator structure can be rapidly degra ded by moisture, resulting in degraded optical performance and consequent degraded imager performance. Degradation can occur even during exposure to ambient room humidity. It is thus important that the scintillator material be protected from exposure to ambient conditions by a hermetic cover material.
The cover material for the imager array is desirably highly transmissive to x-rays. It further must be structurally robust such that it retains its form and effectiveness to provide the desired moisture resistance in a variety of environments, such as conditions (e.g., temperature extremes) that can be experienced during shipping, and conditions of prolonged use and radiation exposure. For example, the cover material must be able to retain its form and moisture resistant qualities through thermal cycling without deformation (such as delamination or deformation) that results in a breach of the moisture barrier around the scintillator. Any breach of the seal around the scintillator will result in degradation of the scintillator material and adversely affect performance of the imager. The cover material must adhere well to glues used to cement the device together and must be able to retain these desirable characteristics over the expected life and operational environment (e.g., radiation exposure) of the imager. Additionally, the cover material also is desirably readily formed in large, thin sheets required for large area imagers (e.g., about 100 cm
2
or greater), such as might be used for a chest x-ray system.
SUMMARY OF THE INVENTION
A radiation imager includes a photosensor array that is coupled to a scintillator so as to detect optical photons generated when incident radiation is absorbed in the scintillator. The imager further includes a robust protective cover disposed over the scintillator to seal the scintillator from exposure to moisture present in the ambient environment. The protective cover has a three panel laminate structure including a pair of first-type material panels and a second-type material panel that are laminated together such that the second-type material panel is disposed between the pair of the first-type material panels. The first-type material panels and the second-type material panels are each selected from a group consisting of a hermetic barrier layer comprising an inorganic material and a structural layer. The first-type panels and the second-type panels are different from one another.


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