Detection path design for communication systems

What is claimed is: 1. An apparatus comprising: a wireless radio frequency (RF) module that transmits a wireless signal specified in a wireless standard; a signal detector that detects a reference signal, a forward path signal and a reverse path signal, wherein the reference signal is a modulation signal of transmitted signal; and a phase estimator responsive to the signal detector and estimates a phase shift between the forward path signal and the reverse path signal. 2. The apparatus of claim 1 , wherein the phase estimator comprises a first arctan estimator, a second arctan estimator, and a phase-estimator controller, and wherein the first arctan estimator calculates a reference signal phase shift and the second arctan estimator alternatively calculates one of detection path phase shifts that include a forward path phase shift and a reverse path phase shift, and wherein phase-estimator controller executes the logic to generate the reflection coefficient phase shift based on a forward-to-reference phase and a reverse-to-reference phase. 3. The apparatus of claim 2 , wherein the phase estimator further comprises a data selector that passes only signals above a magnitude threshold. 4. The apparatus of claim 3 , wherein the magnitude threshold is programmable. 5. The apparatus of claim 2 , wherein the phase estimator further comprises a phase-average calculator that produces a running average instantaneous phase estimations and a phase store unit that stores the estimated phase shift for the forward path and the reverse path. 6. The apparatus of claim 5 , wherein the phase estimator further comprises a phase unwrap unit that executes a phase unwrap algorithm to perform a phase unwrap of the forward and reverse phase shifts on-the-fly such that the phase wrap errors introduced in the phase-average calculator is prevented. 7. The apparatus of claim 6 , wherein the phase unwrap algorithm involves: storing an unwrapping correction for subsequent samples; and updating the stored unwrapping correction upon processing of each sample processed. 8. A method comprising: transmitting a wireless signal by a wireless transmitter; obtaining detection signals on-the-fly through a coupler, wherein the detection signals comprising a forward signal and a reverse signal; obtaining a reflection coefficient based on at least the detection signals, wherein the reflection coefficient includes a magnitude coefficient and a phase coefficient; and obtaining a reference signal on-the-fly, wherein the reference signal is a baseband digital signal using a modulation signal specified by the wireless system, wherein the reflection coefficient is obtained based on the reference signal and the detection signals. 9. The method of claim 8 , further comprising matching the reference signal and each detection signal such that an interference caused by transmitting signal is reduced. 10. The method of claim 9 , wherein the reflection coefficient is based on a cross-correlation of the reverse signal and the reference signal, a reference signal power for forward coupling gain, a cross-correlation of the forward signal and the reference signal, and a reference signal power for reverse coupling gain. 11. The method of claim 8 , wherein obtaining the reflection coefficient involves: obtaining a magnitude coefficient; and obtaining a phase coefficient. 12. The method claim 11 , wherein the phase coefficient is based on a cross-correlation of the forward signal and the reference signal, and a cross-correlation of the reverse signal and the reference signal. 13. The method of claim 8 , wherein obtaining the reflection coefficient involves: obtaining a power magnitude for the forward signal; obtaining a cross-correlation of the reverse signal and the forward signal; and obtaining the reflection coefficient based on the power magnitude for the forward signal and the cross-correlation of the reverse signal and the forward signal. 14. The method of claim 8 , wherein obtaining the reflection coefficient involves: obtaining a forward path gain and a reverse path gain with a number of sampling greater than a sampling threshold; and obtaining the reflection coefficient based on the forward path gain and the reverse path gain. 15. The method of claim 8 , further comprising: detecting one or more out-of-range conditions, wherein the out-of-range condition is detected if an amplitude of a detection signal is smaller than a low-threshold or greater than a high-threshold; and blocking signal measurements if an out-of-range condition is detected. 16. An apparatus, comprising a wireless radio frequency (RF) module that transmits a wireless signal specified in a wireless standard; a detector that measures a forward signal and a reverse signal; a reflection coefficient estimator that obtains a reflection coefficient based on at least the forward and reverse signals, wherein the reflection coefficient includes a magnitude coefficient and a phase coefficient; and a reference signal unit that obtains a reference signal on-the-fly, wherein the reference signal corresponds to a modulation signal transmitted by the wireless RF module. 17. The apparatus of claim 16 , further comprising a matching circuit that matches the reference signal and each forward and reverse signal such that an interference caused by the transmitted wireless signal is reduced. 18. The apparatus of claim 16 , wherein the reflection coefficient estimator comprises a power detector and a cross-correlator.