Abstract: Techniques are provided for x-ray sensing for intraoral tomography. A methodology implementing the techniques according to an embodiment includes detecting an x-ray pulse based on energy received at one or more pixels of a pixel array. The method also includes integrating the energy received at each of the pixels of the array of pixels, in response to the detection, wherein the energy received at each of the pixels is associated with the x-ray pulse. The method further includes multiplexing readouts of analog signals from the array of pixels into two or more parallel channels. The method further includes simultaneously converting (or otherwise in parallel) the analog signals of each of the channels into digital signals and storing the digital signals in memory as frames of data. The method may further include, for example, transmitting the frames of data from the memory, over a Universal Serial Bus, to an imaging system.

Abstract: Wearing apparel for protecting the wearer against radioactive contamination is manufactured from single use disposable laminated material which comprises a first continuous layer of non-macerating hypoallergenic cellulosic material for contact with the wearer's skin and a second continuous layer of cellulosic material exposed to external contamination. The first and second layers are bonded together with a third contiguous layer interposed between them. The third layer is of a microporous adsorbent material allowing passage of body vapors from the wearer to the ambient region while restricting passage of liquid in the opposite direction. The laminated material exhibits a tensile yield strength of at least approximately 2,000 psi, a shear yield strength of at least approximately 1,000 psi, and an overall coefficient of heat transfer of at least approximately 2.75 BTU/hr.ft.sup.2 -.degree.F. The microporous adsorbent material may be activated charcoal or hydrated alumina silicate.