Method and apparatus for ghosting suppression in capacitive key matrix and touch pads

What is claimed is: 1. A capacitive touch pad, comprising: a plurality of capacitive sensors arranged in a matrix on a substrate in a plurality of row lines and a plurality of column lines; a first pair of electrodes, comprising: a first electrode at a first corner of the matrix; a second electrode coupled to the first electrode, the second electrode at a second corner of the matrix, the second corner opposite the first corner; and a first electrode output, wherein the first pair of electrodes is not connected to the plurality of capacitive sensors by traces; a second pair of electrodes, comprising: a third electrode at a third corner of the matrix; a fourth electrode coupled to the third electrode, the fourth electrode at a fourth corner of the matrix, the fourth corner opposite the third corner; and a second electrode output, wherein first second of electrodes is not connected to the plurality of capacitive sensors by traces; and a sensing circuit coupled to the plurality of row lines, to the plurality of column lines, to the first electrode output, and to the second electrode output. 2. The capacitive touch pad of claim 1 , wherein the sensing circuit is configured to compare a capacitance of the first pair of electrodes with respect to the capacitive sensors and a capacitance of the second pair of electrodes with respect to the capacitive sensors. 3. The capacitive touch pad of claim 1 , wherein the capacitive sensors comprise a first plate connected to one of the plurality of row lines, and a second plate connected to one of the plurality of column lines, a gap between the first plate and the second plate. 4. The capacitive touch pad of claim 1 , wherein: the second electrode and the first electrode are point symmetrical to a center of the plurality of capacitive sensors; and the fourth electrode and the third electrode are point symmetrical to a center of the plurality of capacitive sensors. 5. The capacitive touch pad of claim 1 , wherein the sensing circuit is configured to measure capacitance of each of the plurality of capacitive sensors using a relaxation oscillator. 6. The capacitive touch pad of claim 1 , wherein the plurality of capacitive sensors, the first electrode, the second electrode, the third electrode, and the fourth electrode are formed on a first surface of a printed circuit board, and the sensing circuit is mounted to a second surface of the printed circuit board opposite to the first surface. 7. The capacitive touch pad of claim 1 , wherein the sensing circuit is configured to measure a capacitance of the first pair of electrodes and a capacitance of the second pair of electrodes, in response to detecting a multi-touch to the plurality of capacitive sensors. 8. An input device, comprising: a plurality of capacitive sensors arranged in a matrix on a substrate, sensors of the capacitive sensors comprising a first plate, a second plate, and a gap between the first and second plates; a plurality of row leads, leads of the plurality of row leads coupled to the first plate; a plurality of column leads, leads of the plurality of column leads coupled to the second plate; a first pair of electrodes, comprising: a first electrode at a first corner of the matrix; a second electrode coupled to the first electrode, the second electrode at a second corner of the matrix, the second corner opposite the first corner; and a first electrode output, wherein the first pair of electrodes is not connected to the plurality of capacitive sensors by traces; a second pair of electrodes, comprising: a third electrode at a third corner of the matrix; a fourth electrode coupled to the third electrode, the fourth electrode at a fourth corner of the matrix, the fourth corner opposite the third corner; and a second electrode output, wherein the first pair of electrodes is not connected to the plurality of capacitive sensors by traces; and a sensing circuit coupled to the plurality of row leads, to the plurality of column leads, to the first electrode output, and to the second electrode output. 9. The input device of claim 8 , wherein the sensing circuit comprises: a relaxation oscillator, a charge transfer circuit, or a constant current source. 10. The input device of claim 8 , wherein the input device comprises a processor coupled to the sensing circuit, the processor configured to: control the sensing circuit; and determine an action based on an output of the sensing circuit. 11. The input device of claim 8 , wherein: the second electrode is point symmetrical to the first electrode relative to a center of the matrix; and the fourth electrode is point symmetrical to the third electrode relative to a center of the matrix. 12. The input device of claim 8 , wherein the plurality of capacitive sensors and the first and second electrodes are formed by patterning a copper layer on the substrate. 13. The input device of claim 12 , wherein the plurality of capacitive sensors and the first and second electrodes are covered by an insulating layer. 14. A method for multitouch detection, the method comprising: scanning a plurality of row lines of a plurality of capacitive sensors in a matrix, to detect capacitance of the plurality of row lines; scanning a plurality of column lines of the plurality of capacitive sensors in the matrix, to detect capacitance of the plurality of column lines; detecting a capacitance of a first pair of electrodes, the first pair of electrodes comprising a first electrode at a first corner of the matrix and a second electrode at a second corner of the matrix, the second electrode opposite the first corner, wherein the first pair of electrodes is not connected to the plurality of capacitive sensors by traces; detecting a capacitance of a second pair of electrodes, the first pair of electrodes comprising a third electrode at a third corner of the matrix and a fourth electrode at a fourth corner of the matrix, the fourth corner opposite the third corner, wherein the second pair of electrodes is not connected to the plurality of capacitive sensors by traces; and detecting a multitouch location based on the capacitance of the plurality of row lines, the capacitance of the plurality of column lines, the capacitance of the first pair of electrodes, and the capacitance of the second pair of electrodes. 15. The method of claim 14 wherein: the third electrode is symmetrically positioned relative to the fourth electrode to a center point of the matrix; and the first electrode is symmetrically positioned relative to the second electrode to a center point of the matrix, the method further comprising comparing the capacitance of the first pair of electrodes to the capacitance of the second pair of electrodes. 16. The method of claim 14 , wherein detecting the capacitance of the plurality of row lines and detecting the capacitance of the plurality of column lines is performed using a relaxation oscillator, a charge transfer circuit, or a constant current source. 17. The method of claim 14 , wherein detecting the capacitance of the first pair of electrodes and detecting the capacitance of the second pair of electrodes are performed using a relaxation oscillator, a charge transfer circuit, or a constant current source. 18. The method of claim 14 , wherein sensors of the plurality of capacitive sensors comprise a first plate on a substrate connected to one row line of the matrix, a second plate on the substrate connected to a column line of the matrix, and a gap between the first and second plates.