Touch detection using multiple simultaneous stimulation signals

What is claimed is: 1. An apparatus for controlling a touch panel, wherein the touch panel comprises a plurality of drive and a plurality of sense lines, the apparatus comprising: controller circuitry comprising drive circuitry and sense circuitry, wherein: the drive circuitry is configured to: in a panel scan mode, simultaneously apply a plurality of stimulation signals to the plurality of drive lines, the plurality of stimulation signals having a stimulation frequency and multiple stimulation phases; and in a spectrum analyzer mode, not apply the plurality of stimulation signals to the plurality of drive lines; and the sense circuitry is configured to: in the panel scan mode, determine first demodulated sense signals based on one or more demodulation signals and sensed signals received from the plurality of sense lines, the one or more demodulation signals having a demodulation frequency and multiple demodulation phases based on the stimulation frequency and the multiple stimulation phases; and in the spectrum analyzer mode, determine second demodulated sense signals based on a plurality of demodulation signals and sense signals received from the plurality of sense lines; and the controller circuitry is configured to determine the stimulation frequency to be used in the panel scan mode during a subsequent frame, wherein the stimulation frequency to be used in the panel scan mode during the subsequent frame is determined based on the second demodulated sense signals determined in the spectrum analyzer mode. 2. The apparatus of claim 1 , wherein the sense circuitry comprises sense channels, wherein each of the sense channels is coupled to one of the plurality of sense lines and wherein each of the sense channels comprises a charge amplifier and one or more signal mixers. 3. The apparatus of claim 2 , wherein determining the first demodulated sense signals comprises, for each of the sense channels, mixing an output of the charge amplifier with one of the one or more demodulation signals having the demodulation frequency at at least one of the one or more mixers. 4. The apparatus of claim 2 , wherein determining the second demodulated sense signals comprises mixing a noise signal formed by summing an output of the charge amplifier from a plurality of the sense channels at the one or more mixers of one or more sense channels with the plurality of demodulation signals. 5. The apparatus of claim 4 , wherein a first sense channel of the sense channels mixes, at one of the one or more mixers of the first sense channel, the noise signal with an in-phase demodulation signal at a first of the one or more demodulation frequencies, and wherein a second sense channel of the sense channels mixes, at one of the one or mixers of the second sense channel, the noise signal with a quadrature demodulation signal at the first of the one or more demodulation frequencies. 6. The apparatus of claim 4 , wherein a first sense channel of the sense channels mixes the noise signal with first in-phase and quadrature demodulation signals at a first of the one or more demodulation frequencies, and wherein a second sense channel of the sense channels mixes the noise signal with second in-phase and quadrature demodulation signals at a second of the one or more demodulation frequencies. 7. The apparatus of claim 2 , wherein each of the sense channels comprises one or more frequency generator circuits configured to generate the plurality of demodulation signals in the spectrum analyzer mode. 8. The apparatus of claim 7 , wherein the one or more of the frequency generator circuits comprises a numerically controlled oscillator (NCO). 9. A method for controlling a touch panel comprising a plurality of drive and a plurality of sense lines, the method comprising: in a panel scan mode: simultaneously applying a plurality of stimulation signals to a plurality of drive lines, the plurality of stimulation signals having a stimulation frequency and multiple stimulation phases; and determining first demodulated sense signals based on one or more demodulation signals and sensed signals received from the plurality of sense lines, the one or more demodulation signals having a demodulation frequency and multiple demodulation phases based on the stimulation frequency and the multiple stimulation phases; in a spectrum analyzer mode: not applying the plurality of stimulation signals to the plurality of drive lines; and determining second demodulated sense signals based on a plurality of demodulation signals and sensed signals received from the plurality of sense lines; and determining the stimulation frequency to be used in the panel scan mode during a subsequent frame, wherein the stimulation frequency to be used in the panel scan mode during the subsequent frame is determined based on the second demodulated sense signals determined in the spectrum analyzer mode. 10. The method of claim 9 , wherein the sense signals are received at sense channels, wherein each sense channel of the sense channels is coupled to receive a sense signal of the sense signals from a sense line, and wherein each of the sense channels comprises a charge amplifier and one or more signal mixers. 11. The method of claim 10 , wherein determining the first demodulated sense signals comprises, for each of the sense channels, mixing an output of the charge amplifier with one of the one or more demodulation signals having the demodulation frequency at at least one of the one or more mixers. 12. The method of claim 10 , wherein determining the second demodulated sense signals comprises mixing a noise signal formed by summing an output of the charge amplifier from a plurality of the sense channels at the one or more mixers of one or more sense channels with the plurality of demodulation signals. 13. The method of claim 12 , wherein determining the second demodulated sense signals comprises mixing, at one of the one or more mixers of a first of the sense channels, the noise signal with an in-phase demodulation signal at a first of the one or more demodulation frequencies, and mixing, at one of the one or mixers of a second of the sense channels, the noise signal with a quadrature demodulation signal at the first of the one or more demodulation frequencies. 14. The method of claim 12 , wherein determining the second demodulated sense signals comprises mixing, at a first of the sense channels, the noise signal with first in-phase and quadrature demodulation signals at a first of the one or more demodulation frequencies, and mixing, at a second of the sense channels, the noise signal with second in-phase and quadrature demodulation signals at a second of the one or more demodulation frequencies. 15. A device for controlling a touch panel, wherein the touch panel comprises a plurality of drive and a plurality of sense lines, the device comprising: controller circuitry, comprising drive circuitry and sense circuitry, configured to operate in a panel scan mode and a spectrum analyzer mode, wherein: while operating in the panel scan mode in a first frame: the drive circuitry is configured to simultaneously apply a first plurality of stimulation signals to the plurality of drive lines, the first plurality of stimulation signals having a first stimulation frequency and multiple stimulation phases; and the sense circuitry is configured to determine a first plurality of demodulated sense signals based on a first plurality of sense signals received from the plurality of sense lines received from the plurality of sense lines and based on one or more first demodulation signals, the one or more first demodulat