Touch detection using multiple simultaneous frequencies

What is claimed is: 1. A method for obtaining a plurality of values used to generate one or more images of touch from touch sensor circuitry, comprising: selecting one or more first low noise frequencies; simultaneously applying, during a first frame, a plurality of first stimulation signals to a plurality of drive lines of the touch sensor circuitry, wherein the plurality of first stimulation signals include signals having one or more first stimulation frequencies and multiple stimulation phases, wherein the one or more first stimulation frequencies are selected from the one or more first low noise frequencies; receiving, during the first frame, a first sense signal from each of a plurality of sense lines of the touch sensor circuitry into one of a plurality of sense channels, wherein the drive lines are different from the sense lines; and demodulating the first sense signals with a plurality of first demodulation signals, wherein the plurality of first demodulation signals has one or more first demodulation frequencies, wherein the one or more first demodulation frequencies are based on at least one of the one or more first stimulation frequencies, and wherein the plurality of first demodulation signals has multiple demodulation phases that are based on the multiple first stimulation phases. 2. The method of claim 1 , further comprising accumulating, during the first frame, the first sense signals demodulated with the plurality of first demodulation signals in each sense channel to generate a plurality of first values representing the accumulated demodulated first sense signals for each sense channel. 3. The method of claim 2 , further comprising storing the plurality of first values for all sense channels. 4. The method of claim 1 , further comprising: selecting, during a second frame, one or more second low noise frequencies; simultaneously applying, during the second frame, a plurality of second stimulation signals to the plurality of drive lines of the touch sensor circuitry, wherein the plurality of second stimulation signals include signals having one or more second stimulation frequencies and multiple stimulation phases, wherein the one or more second stimulation frequencies are selected from the one or more second low noise frequencies; receiving, during the second frame, a second sense signal from each of the plurality of sense lines of the touch sensor circuitry into one of the plurality of sense channels; and demodulating the second sense signals with a plurality of second demodulation signals, wherein the plurality of second demodulation signals has one or more second demodulation frequencies, wherein the one or more second demodulation frequencies are based on at least one of the one or more second stimulation frequencies, and wherein the plurality of second demodulation signals has multiple demodulation phases that are based on the multiple second stimulation phases. 5. The method of claim 4 , further comprising accumulating, during the second frame, the second sense signals demodulated with the plurality of second demodulation signals in each sense channel to generate a plurality of second values representing the accumulated demodulated second sense signals for each sense channel. 6. The method of claim 5 , further comprising storing the plurality of second values for all sense channels. 7. The method of claim 4 , wherein the one or more first stimulation frequencies are different than the one or more second stimulation frequencies. 8. The method of claim 4 , wherein selecting the one or more first low noise frequencies comprises: demodulating a combined noise signal from the plurality of sense lines in an unstimulated touch sensor panel with in-phase (I) and quadrature (Q) components of a first plurality of frequencies; accumulating the I and Q components of the demodulated noise signal for each of the first plurality of frequencies; calculating a magnitude of the accumulated I and Q components of the demodulated noise signal for each of the first plurality of frequencies; and selecting the one or more first low noise frequencies from the first plurality of frequencies whose generated magnitudes are smallest. 9. The method of claim 4 , wherein selecting the one or more second low noise frequencies comprises: demodulating, during the second frame, a combined noise signal from the plurality of sense lines in an unstimulated touch sensor panel with in-phase (I) and quadrature (Q) components of a first plurality of frequencies; accumulating, during the second frame, the I and Q components of the demodulated noise signal for each of the first plurality of frequencies; calculating, during the second frame, a magnitude of the accumulated I and Q components of the demodulated noise signal for each of the first plurality of frequencies; and selecting, during the second frame, the one or more second low noise frequencies from the first plurality of frequencies whose generated magnitudes are smallest. 10. The method of claim 8 , wherein selecting one or more first low noise frequencies further comprises demodulating the combined noise signal with I and Q components of one or more different pluralities of frequencies, and accumulating the I and Q components of the demodulated noise signal for each of the one or more different plurality of frequencies. 11. The method of claim 9 , wherein selecting one or more second low noise frequencies further comprises demodulating the combined noise signal with I and Q components of one or more different pluralities of frequencies, and accumulating the I and Q components of the demodulated noise signal for each of the one or more different plurality of frequencies. 12. The method of claim 1 , further comprising selecting and simultaneously applying multiple unique distributions of the plurality of first stimulation signals to the plurality of drive lines and storing multiple pluralities of first values after applying each of the multiple unique distributions during the first frame. 13. The method of claim 4 , further comprising selecting and simultaneously applying multiple unique distributions of the plurality of second stimulation signals to the plurality of drive lines and storing multiple pluralities of second values after applying each of the multiple unique distributions during the first frame. 14. The method of claim 12 , further comprising, for each of the plurality of sense lines, computing and storing a drive line result for each drive line and each of the one or more first stimulation frequencies using the stored multiple pluralities of first values. 15. The method of claim 13 , further comprising, for each of the plurality of sense lines, computing and storing a drive line result for each drive line and each of the one or more second stimulation frequencies using the stored multiple pluralities of second values. 16. An apparatus for obtaining a plurality of values used to generate one or more images of touch, comprising: touch sensor circuitry including a plurality of drive lines and a plurality of sense lines; and an integrated circuit coupled to the touch sensor circuitry capable of: selecting one or more first low noise frequencies; simultaneously applying, during a first frame, a plurality of first stimulation signals to the plurality of drive lines of the touch sensor circuitry, wherein the plurality of first stimulation signals include signals having one or more first stimulation frequencies and multiple stimulation phases, wherein the one or more first stimulation frequencies are selected from the one or more first low noise