Touch-screen device including tactile feedback actuator

The invention claimed is: 1. A tactile feedback actuator comprising: a first electrode and a second electrode separated by a gap; and a surface layer above the first and second electrodes; wherein: the first electrode receives a first stimulus voltage at a first frequency and the second electrode receives a second stimulus voltage at a second frequency, and the first and second electrodes are arranged such that the first and second stimulus voltages superimpose to generate a total voltage that has a beat frequency less than a perception threshold frequency, the beat frequency is within a range to generate a tactile sensation at a portion of the surface layer, at least one of the first and second frequencies of the first and second stimulus voltages is greater than the perception threshold frequency, the first electrode and the second electrode comprise an electrode array, the first electrode comprises a plurality of column electrodes that each includes a plurality of column electrode segments, and the second electrode comprises a plurality of row electrodes that each includes a plurality of row electrode segments, the beat frequency is within a range to generate a tactile sensation at a portion of the surface layer above one or more of the column and row electrode segments, each column electrode and each row electrode is separately addressable with a respective voltage stimulus, at least one column electrode receives the first stimulus voltage at the first frequency and at least one row electrode receives the second stimulus voltage at the second frequency, a first region of tactile feedback is formed at an intersection of the column electrode that receives the first stimulus voltage and the row electrode that receives the second stimulus voltage such that the first and second stimulus voltages superimpose within the region to generate a first total voltage that has a first beat frequency, and the beat frequency is within a range to generate a tactile sensation at a portion of the surface layer above the first region. 2. The tactile feedback actuator of claim 1 , wherein the beat frequency is a difference between the first frequency and the second frequency. 3. The tactile feedback actuator of claim 1 , wherein the perception threshold frequency is less than 1000 Hz. 4. The tactile feedback actuator of claim 1 , wherein the gap is less than least 2 mm. 5. The tactile feedback actuator of claim 1 , wherein the first region of tactile feedback includes at least one column electrode segment and one row electrode segment. 6. The tactile feedback actuator of claim 1 , wherein at least one other column electrode receives a third stimulus voltage at a third frequency and at least one other row electrode receives a fourth stimulus voltage at a fourth frequency, a second region of tactile feedback is formed at an intersection of the column electrode that receives the third stimulus voltage and the row electrode that receives the fourth stimulus voltage such that the third and fourth stimulus voltages superimpose within the second region to generate a second total voltage that has a second beat frequency, and the second beat frequency is within a range to generate a tactile sensation at a portion of the surface layer above the second region. 7. The tactile feedback actuator of claim 6 , wherein the second region of tactile feedback includes at least one column electrode segment and one row electrode segment. 8. The tactile feedback actuator of claim 6 , wherein a superposition of the first voltage and the fourth voltage, or a superposition of the second voltage and the third voltage, results in a total voltage that is greater than the perception threshold frequency. 9. The tactile feedback actuator of claim 1 , wherein each column electrode segment and each row electrode segment includes multiple fingers such that each column electrode segment is inter-digitated with a respective row electrode segment. 10. The tactile feedback actuator of claim 1 , further comprising a plurality of averaging electrodes; wherein each averaging electrode overlaps at least one column electrode segment and one row electrode segment, and the averaging electrode generates an averaging voltage by superimposing the first and second voltages to generate the total voltage at the beat frequency, and the beat frequency is within a range to generate a tactile sensation at a portion of the surface layer above the averaging electrode. 11. The tactile feedback actuator of claim 1 , wherein a fifth stimulus voltage having a fifth frequency less than the perception threshold frequency is applied to at least one other of the plurality of column electrodes or the plurality of row electrodes, and the fifth frequency is within a range to produce a tactile sensation at a portion of the surface layer above the one other column electrode or row electrode. 12. The tactile feedback actuator of claim 1 , wherein stimulus voltages applied to adjacent column electrodes or row electrodes are of opposite phase. 13. The tactile feedback actuator of claim 1 , further comprising: a flexible substrate containing the electrode array including the first and second electrodes; a common ground electrode formed on a rigid substrate arranged beneath the flexible substrate; and a plurality of elastic spacers that separate the flexible substrate from the rigid substrate that permit movement of the flexible substrate toward the rigid substrate to cause an oscillation of the portion of the surface layer, wherein the oscillation of the portion of the surface layer is in a direction normal to the surface layer. 14. The tactile feedback actuator of claim 1 , further comprising: a flexible substrate containing the electrode array including the first and second electrodes; a common ground electrode formed on a rigid substrate arranged beneath the flexible substrate; and an electro-active polymer (EAP) layer between the flexible substrate and the rigid substrate that permits movement of the flexible substrate toward the rigid substrate to cause an oscillation of the portion of the surface layer, wherein the oscillation of the portion of the surface layer is in a direction normal to the surface layer. 15. A combined touch panel and tactile feedback device comprising: a touch panel; and the tactile feedback actuator of claim 1 . 16. A touch-screen device comprising: the tactile feedback actuator according to claim 1 ; a display unit; a display controller configured to generate an output image on the display unit; a touch panel associated with the display unit; and a touch panel controller configured to apply stimulus signals to the touch panel and measure output signals from the touch panel; wherein when the touch panel controller detects a user input to the touch panel at a corresponding location of the display unit associated in with a tactile sensation, the touch panel controller provides a voltage stimulus to the tactile feedback actuator to generate a tactile sensation on the touch panel at the location of the user input. 17. A method of providing tactile feedback to a touch surface comprising the steps of: providing a first electrode and a second electrode separated by a gap; providing a surface layer above the first and second electrodes; stimulating the first electrode with a first stimulus voltage at a first frequency; stimulating the second electrode with a second stimulus voltage at a second frequency; and superimposing the first and second stimulus voltages to generate a total voltage that