Calibration apparatus and calibrating cross-frequency phases of large-signal network analyzer measurements

What is claimed is: 1. A calibration apparatus for calibrating cross-frequency phases of large-signal network analyzer measurements, the calibration apparatus comprising: a signal generator that produces a calibration signal and a reference multitone signal; a vector network analyzer in communication with the signal generator and comprising a forward coupler, a reverse coupler, a forward coupled receiver, a reverse coupled receiver, and a reference receiver and that receives the calibration signal and the reference multitone signal from the signal generator; the forward coupler in communication with the signal generator and that receives the calibration signal from the signal generator and produces a forward coupled signal from the calibration signal; the forward coupled receiver in communication with the forward coupler and that receives the forward coupled signal from the forward coupler and produces a forward digitized signal from the forward coupled signal; the reverse coupler in communication with the signal generator and that receives the calibration signal from the signal generator and produces a reverse coupled signal from the calibration signal; the reverse coupled receiver in communication with the reverse coupler and that receives the reverse coupled signal from the reverse coupler and produces a reverse digitized signal from the reverse coupled signal; the reference receiver in communication with the signal generator and that receives the reference multitone signal from the signal generator and produces a reference digitized signal from the reference multitone signal; a calibration receiver in communication with the signal generator and the vector network analyzer and that receives the calibration signal from the vector network analyzer and produces a digitized calibration temporal signal from the calibration signal; and a signal processor in communication with the vector network analyzer and the calibration receiver and that: receives the reference digitized signal from the reference receiver; receives the forward digitized signal from the forward coupled receiver; receives the reverse digitized signal from the reverse coupled receiver; receives the digitized calibration temporal signal from the calibration receiver; and produces a calibration factor from the reference digitized signal, the forward digitized signal, the reverse digitized signal, and the digitized calibration temporal signal. 2. The calibration apparatus of claim 1 , further comprising a phase shifter in communication with the signal generator and the calibration receiver, such that: the signal generator produces a synchronization signal and a timing signal; the phase shifter receives the synchronization signal from the signal generator and produces a phase shifted synchronization signal from the synchronization signal; and the calibration receiver receives the synchronization signal and the timing signal from the signal generator, receives the phase shifted synchronization signal from the phase shifter, triggers off of the timing signal, and stabilizes timing based on the phase shifted synchronization signal and the synchronization signal. 3. The calibration apparatus of claim 1 , further comprising a power meter, scattering-parameter calibration standards, or a combination of these. 4. The calibration apparatus of claim 1 , wherein the signal generator produces a timing signal; and the calibration receiver receives the timing signal from the signal generator, and triggers off of the timing signal. 5. The calibration apparatus of claim 1 , wherein the vector network analyzer receives the calibration factor from the signal processor and calibrates the forward digitized signal, the reverse digitized signal, or the reference digitized signal based on the calibration factor. 6. The calibration apparatus of claim 5 , wherein the vector network analyzer applies the calibration factor from the signal processor to perform frequency-point-by-frequency-point calibration of a scattering-parameter and power. 7. The calibration apparatus of claim 1 , wherein the calibration signal comprises a single tone sinusoid. 8. The calibration apparatus of claim 7 , wherein the signal generator produces the single tone sinusoid at each frequency to be measured by the calibration receiver and the vector network analyzer. 9. The calibration apparatus of claim 8 , wherein the calibration receiver measures one cycle of the single tone sinusoid. 10. The calibration apparatus of claim 9 , wherein the signal processor compares phases of the single tone sinusoid measured by the vector network analyzer and the calibration receiver, such that the calibration factor comprises a cross-frequency phase calibration of the vector network analyzer to the calibration receiver. 11. The calibration apparatus of claim 9 , wherein the reference multitone signal from the signal generator comprises a plurality of unknown, stable tones, and the reference multitone signal is a phase reference for the signal generator. 12. A process for calibrating cross-frequency phases of large-signal network analyzer measurements, the process comprising: producing, by a signal generator, a calibration signal and a reference multitone signal; a vector network analyzer in communication with the signal generator and comprising a forward coupler, a reverse coupler, a forward coupled receiver, a reverse coupled receiver, and a reference receiver and that receives the calibration signal and the reference multitone signal from the signal generator; receiving, by a forward coupler of a vector network analyzer, the calibration signal from the signal generator; producing, by the forward coupler, a forward coupled signal from the calibration signal; receiving, by a forward coupled receiver of the vector network analyzer, the forward coupled signal from the forward coupler; producing, by the forward coupled receiver, a forward digitized signal from the forward coupled signal; receiving, by a reverse coupler of the vector network analyzer, the calibration signal from the signal generator; producing, by the reverse coupler, a reverse coupled signal from the calibration signal; receiving, by a reverse coupled receiver of the vector network analyzer, the reverse coupled signal from the reverse coupler; producing, by the reverse coupled receiver, a reverse digitized signal from the reverse coupled signal; receiving, by a reference receiver of the vector network analyzer, the reference multitone signal from the signal generator; producing, by the reference receiver, a reference digitized signal from the reference multitone signal; receiving, by a calibration receiver, the calibration signal from the vector network analyzer; producing, by the calibration receiver, a digitized calibration temporal signal from the calibration signal; and receiving, by a signal processor, the reference digitized signal from the reference receiver; receiving, by the signal processor, the forward digitized signal from the forward coupled receiver; receiving, by the signal processor, the reverse digitized signal from the reverse coupled receiver; receiving, by the signal processor, the digitized calibration temporal signal from the calibration receiver; and producing, by the signal processor, a calibration factor from the reference digitized signal, the forward digitized signal, the reverse digitized signal, and the digitized calibration temporal signal to calibrate the cross-frequency phases of large-signal network analyzer measurements. 13. The process of claim 12 , further comprising: producing, by the signal generator, a synchroniz