Electric lamp or space discharge component or device manufacturi – Process – Including cleaning
Reexamination Certificate
2000-03-29
2003-03-11
Ramsey, Kenneth J (Department: 2879)
Electric lamp or space discharge component or device manufacturi
Process
Including cleaning
C313S563000, C445S024000
Reexamination Certificate
active
06530814
ABSTRACT:
BACKGROUND OF THE INVENTION
This invention relates to display devices, such as field emission displays, plasma displays, and flat panel cathode ray tubes, and methods for making and using the same. Specifically, the invention relates to improved spacers for such display devices and methods for making and using the same.
Display devices visually present information generated by computers and other electronic devices. One category of display devices is electron emitter apparatus, such as a cold cathode field emission display (FED). A FED uses electrons originating from emitter tips on a base plate to illuminate a cathodoluminescent display screen and generate an image. A gate electrode, located near the emitters, and the base plate are in electrical communication with a voltage source. Electrons are emitted when a sufficient voltage differential is established between the emitters and the gate electrode. The electrons strike a phosphor coating on the display screen which emits photons to form the visual image.
In a FED, spacers separate the base plate and the display screen. Numerous processes have been developed for forming spacers for FED devices. U.S. Pat. Nos. 5,509,840, 5,232,549, 5,205,770, and 4,923,421, and Holloway et al.,
Production and Control of Vacuum in Field Emission Flat Panel Displays,
Solid State Technology, August 1995, pp. 47-54, all incorporated herein by reference, disclose exemplary processes for forming such spacers.
Numerous materials have been used in the spacers, including ceramic, glass, glass-ceramic, ceramic-reinforced glass, devitrified glass, amorphous glass, metal with electrically insulating coating, bulk resistivity metals such as titanium, aluminum, or chromium oxide, silicon dioxide, silicon nitride, polyamide, or a variation of polyimide, such as Kapton. U.S. Pat. Nos. 5,530,582 and 5,658,832, both incorporated herein by reference, disclose that materials in the form of an aerogel or xerogel may be employed as spacers.
Manufacturers have recognized that a good emitter condition is important to effectively operate display devices. If the emitters become contaminated or oxidized by gases in the display device, the work function of the emitter increases and reduces the current emission, thus degrading the performance of the display device. Several articles discuss the impact of such harmful gases on emitter performance. See Schwoebel et al.,
Field-Emitter-Array Performance Enhancement Using Glow Discharge Processing,
6
th International Vacuum Micro Electronics Conference,
Jul. 12-15, 1993; Itoh et al.,
Influence of Various Gases on the Emission of Field Emitter Arrays,
Futaba Corporation, (date unknown); and Schwoebel et al., In Situ
Enhancement of Field-Emitter Array Performance,
7
th International Vacuum Micro Electronics Conference, Jul.
4-7, 1994, p. 378; all incorporated herein by reference.
One method of reducing the amount of harmful gases in a display device has been to use gettering materials. See Giorgi et al.,
High-Porosity Thick-Film Getters, IEEE Transactions on Electron Devices,
Vol. 36, No. 11, November 1989, pp. 2744-2747. Getters absorb gases, both those generated by components and those leaking in from the atmosphere, thereby minimizing harmful gas in the display device. The getter is often placed in peripheral regions of the display device, such as inactive regions outside the active display area between the base plate and display screen. When the getter is positioned outside the active display area, the size of the respective peripheral area must be increased, reducing the effective display area. Moreover, getters merely absorb gases, and are not used to desorb gases.
U.S. Pat. No. 5,684,356 discloses another method of reducing the damaging effects of harmful gases in a display device. This patent describes a FED device with an insulating layer comprising hydrogen silsesquioxane (HSQ). Under specific operating conditions in the display device, HSQ desorbs hydrogen, thus raising the partial pressure of hydrogen with respect to oxygen and keeping deleterious oxide from forming on the emitters.
SUMMARY OF THE INVENTION
The present invention provides a method of making a display device having at least one emitter by forming at least one spacer having a high concentration of an emitter-cleaning material and disposing the at least one spacer within the display device. The emitter-cleaning material preferably comprises hydrogen. The at least one spacer preferably exhibits a dual-sorption capability, allowing the at least one spacer to chemisorb gases contaminating or oxidizing an emitter and physisorb gases cleaning the emitter.
The present invention also provides a display device comprising a base plate containing at least one emitter, a display screen, and at least one spacer located between the base plate and display screen having a high concentration of an emitter-cleaning material. The at least one spacer preferably comprises a xerogel or aerogel material and the emitter-cleaning material preferably comprises hydrogen. The display device is preferably a field emission display device.
The present invention also provides a method for making a at least one spacer for a display device containing at least one emitter by forming a sheet comprising a material having a high concentration of an emitter-cleaning material and then removing portions of the sheet to form the at least one spacer. The at least one spacer preferably comprises a xerogel or aerogel material, formed by making a substrate comprising a spacer material, removing a portion of the substrate to form the at least one spacer, and then increasing the concentration of an emitter-cleaning material. Preferably, the emitter-cleaning material comprises hydrogen.
The present invention further provides a at least one spacer for a display device containing at least one emitter, the at least one spacer having a high concentration of an emitter-cleaning material. Preferably, the at least one spacer comprises a xerogel or aerogel material. The emitter-cleaning material preferably comprises hydrogen absorbed from a gas or mixture of gases containing hydrogen. The at least one spacer preferably exhibits the dual-sorption capability mentioned above.
The present invention moreover provides a method of operating a display device containing at least one emitter and at least one spacer having a high concentration of an emitter-cleaning material by causing the at least one spacer to desorb the material to clean the at least one emitter. The present invention also provides a method for cleaning an emitter in a display device by causing at least one spacer having a high concentration of an emitter-cleaning material to desorb the material to clean the at least one emitter.
The present invention provides several advantages over the prior art. The spacer absorbs gases during processing or packaging of the display device and then desorbs helpful gases, such as hydrogen, during operation thereof. The beneficial gases aid in cleaning emitter tips during processing and help keep the tips clean during operation. The beneficial gases, therefore, retain the work function at a low level and keep the emission current high, prolonging the usefulness of the display device.
REFERENCES:
patent: 4923421 (1990-05-01), Brodie et al.
patent: 5205770 (1993-04-01), Lowrey et al.
patent: 5232549 (1993-08-01), Cathey et al.
patent: 5503582 (1996-04-01), Cathey et al.
patent: 5509840 (1996-04-01), Huang et al.
patent: 5564958 (1996-10-01), Itoh et al.
patent: 5658832 (1997-08-01), Bernhardt et al.
patent: 5684356 (1997-11-01), Jeng et al.
patent: 6116974 (2000-09-01), Browning et al.
Paul H. Holloway et al., “Production and Control of Vacuum Emission Flat Panel Displays”, Dept. of Materials Science & Engineering, Aug. 1995, pp. 47, 48, 50, 53 and 54.
P.R. Schwoebel et al., “Field-Emitter-Array Performance Enhancement Using Glow Discharge Processing”, SRI International, Physical Electronics Laboratory.
E. Giorgi and B. Ferrario, “High Porosity Thick-Film Getters”, IEEE Transactions on Devices, vol. 36.
Browning Jim
Chadha Jasbir
Chadha Surjit S.
Chadha Jasbir
Micro)n Technology, Inc.
Ramsey Kenneth J
TraskBritt
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