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Microfocus X-ray system

  • US 4,521,902 A
  • Filed: 07/05/1983
  • Issued: 06/04/1985
  • Est. Priority Date: 07/05/1983
  • Status: Expired due to Term
First Claim
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1. An X-ray system comrising:

  • an elongated vacuum enclosure having first and second vacuum chambers;

    electron beam generation means positioned in said first chamber and comprising a filament-cathode and a grid spaced from said filament-cathode, said grid having an aperture through which an electron beam emitted by said filament-cathode passes in a line which is generally along the longitudinal dimension of said enclosure, said beam passing from said first chamber into said second chamber;

    said second chamber being tubular and extending around said electron beam;

    a focusing coil wound around said tubular second chamber;

    an anode having an opening therethrough for passage of said electron beam, said anode being positioned intermediately between said grid and said focusing coil;

    a sintered metal tungsten target positioned at an extreme end of said second chamber which is downstream in terms of the passage of said beam, and said target being electrically connected to said anode;

    a first pair of beam deflection coils positioned on first and second opposite sides of said second chamber and positioned, with respect to said electron beam, between said said focusing coil and said target, and a second pair of deflection coils positioned on opposite sides of said second chamber, orthogonally with respect to, said first pair of deflection coils;

    a window of X-ray permeable material positioned adjacent to said target through which emitted X rays, responsive to bombardment of said target by said electron beam, pass from said second chamber;

    first biasing means for applying a heater voltage to said filament-cathode, second biasing means for adjustably applying a negative voltage to said grid with respect to said filament-cathode, and third biasing means for adjustably applying an accelerating voltage to said anode, said accelerating voltage being connected as a ground potential to said anode and as a negative potential on said filament-cathode;

    power control means responsive to both the voltage of said third biasing means and electron beam current passing in circuit between said filament-cathode and target for controllably adjusting the voltage of said second biasing means for effecting a grid bias of a value for maintaining a selected value of electron beam power within the range of 0 to 800 watts;

    focusing control means coupled to said focusing coil and responsive to the voltage of said third biasing means for applying an electrical input to said focusing coil of a level which varies as a function of anode-to-filament-cathode voltage for maintaining an electron spot size within the range of 10 to 100 microns; and

    pressure sensing means for providing an electrical output representative of the pressure within said housing, and pumping means responsive to said electrical signal for maintaining a vacuum pressure in said enclosure of between 10 to 10-6 Torr.

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