Zero-cross-pre-distortion (ZCPD) algorithm for DTC based polar DTx

What is claimed is: 1. An apparatus of a transmitter, comprising: a bandpass filter (BPF) arranged to produce a transmitter output signal; and a digital front end (DFE) arranged to receive a carrier frequency signal, the DFE comprising: a zero crossing (ZC) pre-distorter (ZCPD) arranged to compensate for ZC distortion introduced by the BPF and produce code words to generate an input signal to be applied to the BPF; a linear phase interpolator (LPI) arranged to interpolate a first interpolated baseband in-phase quadrature-phase (IQ) signal and produce a second interpolated baseband IQ signal; ZC finder circuitry arranged to determine ZC positions of the second interpolated baseband IQ signal; Absolute Value Determiner (ABS) circuitry arranged to produce magnitudes of the second interpolated baseband IQ signal; Amplitude Determiner (AMP) circuitry arranged to determine the magnitudes of the second interpolated baseband IQ signal; and a synchronized First-In-First-Out (Sync FIFO) latch arranged to adjust clocking of the ZC positions and the magnitudes of the second interpolated baseband IQ signal to change a frequency of the ZC positions and the magnitudes of the second interpolated baseband IQ signal to a frequency of the carrier frequency signal and to produce output signals to the ZCPD. 2. The apparatus of claim 1 , wherein: for a particular ZC, the ZCPD is configured to apply compensation that is dependent on magnitudes of one of: the input signal immediately prior to and immediately after the particular ZC, or a baseband signal supplied to the DFE immediately prior to and immediately after the particular ZC. 3. The apparatus of claim 1 , wherein: the code words comprise a Digital-To-Time Converter (DTC) code word and a Digital Power Amplifier (DPA) code word, and the DFE further comprises: ZC-to-DTC circuitry arranged to receive a value based on an output of the ZCPD to produce a DTC code word and indicate ZC position to a DTC of the transmitter using the DTC code word; and an Amplitude Determiner (AMP)-to-DPA converter arranged to receive a magnitude value to produce the DPA code word to indicate a magnitude to a DPA of the transmitter. 4. The apparatus of claim 3 , wherein the DFE further comprises: a Hard Limiter arranged to limit an output from the ZCPD to the ZC-to-DTC circuitry to produce a valid DTC code word independent of an input to the ZC-to-DTC. 5. An apparatus of a transmitter, comprising: a bandpass filter (BPF) arranged to produce a transmitter output signal; and a digital front end (DFE) arranged to receive a carrier frequency signal, the DFE comprising: a zero crossing (ZC) pre-distorter (ZCPD) arranged to compensate for ZC distortion introduced by the BPF and produce code words to generate an input signal to be applied to the BPF; a linear phase interpolator (LPI) arranged to interpolate a baseband in-phase quadrature-phase (IQ) signal and supply an interpolated baseband IQ signal to the DFE, a Digital-To-Time Converter (DTC) arranged to produce a ZC position based on a compensated DTC code word from the DFE; and a Digital Power Amplifier (DPA) arranged to produce the input signal having an amplitude based on a compensated DPA code word and a ZC based on the compensated DTC code word from the DFE and to supply the input signal to the BPF. 6. The apparatus of claim 5 , further comprising: a pre-distorter arranged to receive a DTC code word and a DPA code word from the DFE, compensate for non-linearities in generation of the DTC and DPA code words and produce the compensated DTC and DPA code words. 7. The apparatus of claim 1 , wherein compensation applied by the ZCPD to compensate for the ZC distortion caused by the BPF is: t ~ zc k = t zc k + A k - A k - 1 A k + A k - 1 · C 0 · T c where t zc k is an uncompensated ZC position, {tilde over (t)} zc k is a compensated ZC position, A k-1 is a pre-ZC magnitude, A k is a post-ZC magnitude, T c is a nominal carrier cycle length, and C 0 is a predetermined constant. 8. An apparatus of a digital front end (DFE), the apparatus comprising: a zero crossing (ZC) pre-distorter (ZCPD) arranged to receive a carrier frequency signal, compensate for ZC distortion to a signal caused by a band pass filter (BPF), the signal based on an output from the ZPCD, and produce a Digital-To-Time Converter (DTC) code word that is dependent on a signal magnitude prior to and after the ZC; and ZC-to-DTC circuitry arranged to produce a DTC code word based on an output associated with the ZCPD, the DTC code word to indicate a ZC position, wherein compensation applied by the ZCPD to compensate for the ZC distortion caused by the BPF is: t ~ zc k = t zc k + A k - A k - 1 A k