Active stylus and capacitive position detection system having touch object detecting mode and stylus detecting mode

The invention claimed is: 1. A stylus detecting system, comprising: a sense array including first lines and second lines crossing the first lines; a detector-side antenna; and a touch controller connected to the sense array and configured to: (i) in a touch object detecting mode, drive the first lines as transmission (TX) lines with a finger sensing TX signal and measure reception (RX) signals on the second lines as RX lines, and (ii) in a stylus detecting mode, measure a stylus TX signal transmitted by a stylus, on both the first lines and the second lines, wherein, in the stylus detecting mode, the touch controller transmits synchronization or timing data wirelessly from the detector-side antenna to a stylus-side antenna inside the stylus, using magnetic coupling between the detector-side antenna and the stylus-side antenna, to cause the stylus to transmit the stylus TX signal. 2. The stylus detecting system according to claim 1 , wherein the stylus TX signal is different in either frequency or phase from a TX signal from a TX drive circuit. 3. The stylus detecting system according to claim 1 , wherein the stylus TX signal has a different code for code modulation than a code used in a TX signal from a TX drive circuit. 4. The stylus detecting system according to claim 1 , wherein the detector-side antenna provides a uniform magnetic field across a panel surface of the sensor array. 5. The stylus detecting system according to claim 1 , wherein the stylus TX signal transmitted by the stylus has a greater amplitude than the finger sensing TX signal. 6. The stylus detecting system according to claim 5 , wherein the stylus TX signal ranges approximately between 20V-50V. 7. The stylus detecting system according to claim 6 , wherein the finger sensing TX signal is less than 10V. 8. The stylus detecting system according to claim 7 , wherein the finger sensing TX signal is more than 5 V. 9. The stylus detecting system according to claim 1 , wherein the stylus TX signal has a higher frequency than the finger sensing TX signal. 10. The stylus detecting system according to claim 9 , wherein the stylus TX signal has at least double the upper frequency limit of the finger sensing TX signal. 11. A method of touch and stylus detection, comprising: (i) in a touch object detecting mode: driving first lines of a sense array as transmission (TX) lines with a finger sensing TX signal, and measuring reception (RX) signals on second lines of the sense array, which cross the first lines, as RX lines; and (ii) in a stylus detecting mode: transmitting synchronization or timing data to a stylus, wirelessly from a detector-side antenna to a stylus-side antenna inside the stylus, using magnetic coupling between the detector-side antenna and the stylus-side antenna, to cause the stylus to transmit a stylus TX signal, and measuring the stylus TX signal on both the first lines and the second lines. 12. The method according to claim 11 , wherein the detector-side antenna provides a uniform magnetic field across a panel surface of the sensor array.