Method of suppressing electromagnetic interference radiation from a display device

The invention claimed is: 1. A method for suppressing radiation of electromagnetic interference from a display device including an LCD and a capacitive touch panel in which the capacitive touch panel is supported by a chassis and the capacitive touch panel includes an electrically conductive surface, the method comprising: determining the lowest frequency for which it is desired to provide a greater amount of suppression of electromagnetic interference from the display device; determining a capacitive impedance corresponding to said lowest frequency; providing a capacitor having a capacitance corresponding to the capacitive impedance determined by said determining a capacitive impedance; and using the capacitor to capacitively connect the electrically conductive surface of the capacitive touch panel to the chassis. 2. The method of claim 1 , wherein the capacitive touch panel includes an electrically nonconductive surface opposite the electrically conductive surface in which the surfaces include each include a periphery and said providing a capacitor includes: providing the capacitor in the form of a strip of capacitive material; disposing the strip to extend along the periphery of each of the electrically nonconductive surface and the electrically nonconductive surface. 3. The method of claim 2 , wherein said disposing the strip includes bending the strip to correspond substantially to the shape of a capital letter U in cross section. 4. The method of claim 1 , wherein said determining the lowest frequency includes testing the display device to determine at which frequencies the display device fails to meet a governmental regulation for radiation of electromagnetic interference. 5. The method of claim 1 , where the capacitive impedance corresponding to said lowest frequency is based upon the reciprocal of the lowest frequency in radians per second. 6. The method of claim 1 , wherein said providing a capacitor includes: selecting a capacitive having a thickness and a dielectric constant; and determining a required total area for the strip to provide said capacitive impedance based on at least the thickness and the strip dielectric constant. 7. The method of claim 6 wherein air has a dielectric constant and said determining a required total area is based in addition on the dielectric constant for air. 8. The method of claim 1 , wherein the capacitor includes two plates, and said using the capacitor to capacitively connect includes: electrically connecting one plate of the capacitor to the electrically conductive surface of the capacitive touch panel, and electrically connecting the other plate of the capacitor to the chassis. 9. The method of claim 1 , wherein the electrically conductive surface of the capacitive touch panel electrically connects to the chassis substantially only through the capacitor. 10. The method of claim 9 , wherein said providing a capacitor includes providing a plurality of capacitors having a total combined capacitance corresponding to the capacitive impedance determined by said determining a capacitive impedance; and said using the capacitor to capacitively connect includes using each of the capacitors to capacitively connect the electrically conductive surface of the capacitive touch panel to the chassis. 11. A method for suppressing radiation of electromagnetic interference from a display device including an LCD and a capacitive touch panel in which the capacitive touch panel is supported by a chassis and the capacitive touch panel includes an electrically conductive surface, the method comprising: determining a frequency for which it is desired to provide a greater amount of suppression of electromagnetic interference from the display device; determining a capacitive impedance corresponding to the frequency; providing a capacitor having a capacitance corresponding to the capacitive impedance determined by said determining a capacitive impedance; and using the capacitor to capacitively connect the electrically conductive surface of the capacitive touch panel to the chassis. 12. The method of claim 11 , further comprising: determining another frequency for which it is desired to provided a greater amount of suppression of electromagnetic interference from the display device; determining a capacitive impedance corresponding to said another frequency; providing another capacitor having a capacitance corresponding to the capacitive impedance determined by said determining a capacitive impedance corresponding to said another frequency; and using said another capacitor to capacitively connect the electrically conductive surface of the capacitive touch panel, in parallel with the other capacitor, to the chassis.