Devices, systems and processes for detecting saturation of received echo signals

What is claimed is: 1. A process, for detecting saturation of a received signal, comprising: detecting, in a received signal and during a measurement interval, one or more correlated signal levels; based on one or more results of the detecting, identifying, in a correlated output signal, portions of the received signal which exceed a given magnitude threshold during the measurement interval; providing the correlated output signal to an electronic control unit (ECU); wherein the correlated output signal is output by a magnitude detector; determining, by a saturation detector, whether the received signal is saturated during one or more portions of the measurement interval; when the received signal is saturated, generating a saturation signal; and delaying the saturation signal to generate a delayed saturation signal; and providing the delayed saturation signal to the ECU substantially contemporaneously with the providing of the correlated output signal to the ECU. 2. The process of claim 1 , wherein the portions of the received signal which exceed the given magnitude threshold and identified in the correlated output signal are indicative of at least one of a real echo and a fake echo; and wherein real echoes are used by a PAS system to detect obstacles. 3. The process of claim 1 , wherein and while the delayed saturation signal indicates saturation of the received signal, interpreting, by the ECU, at least one portion of the correlated output signal received substantially contemporaneously with the delayed saturation signal as including at least one of: a real echo; a real echo followed by one or more fake echoes; and one or more fake echoes. 4. The process of claim 3 , wherein the ECU interprets the correlated output signal as including one or more fake echoes when the delayed saturation signal indicates repeated saturation of the received signal during the measurement interval. 5. The process of claim 4 , wherein repeated saturation of the received signal during the measurement interval is determined to occur, by the ECU, when the delayed saturation signal indicates a programmable number of portions of the correlated output signal are saturated during the measurement interval. 6. The process of claim 1 , further comprising: determining by a saturation threshold detector, during the measurement interval, whether the received signal exceeds a given saturation level; when the received signal exceeds the given saturation level, dynamically adjusting a gain level of a gain stage used while processing the received signal; adjusting, by a scaling element, the correlated output signal based upon the dynamically adjusting of the gain level of the gain stage; and providing to the ECU a scaled correlated output signal. 7. The process of claim 6 , further comprising: determining, by the ECU, whether to at least one of: use the correlated output signal to identify an obstacle; use the scaled correlated output signal to identify an obstacle; and designate a PAS system as being blind during a given measurement interval. 8. The process of claim 7 , wherein, during a first given measurement interval, the ECU designates the PAS system as being blind when a repeated saturation of the received signal indicates a programmable number of portions of the correlated output signal are saturated. 9. The process of claim 8 , wherein, during a second given measurement interval, the ECU designates the PAS system as being blind when the delayed saturation signal indicates the received signal is saturated during a given portion of the received signal and the correlated output signal does not indicate that the given portion of the received signal exceeds the given magnitude threshold. 10. The process of claim 8 , wherein, during the first given measurement interval, an in-band noise saturates the received signal; and wherein, during a second given measurement interval, an out-of-band noise saturates the received signal. 11. The process of claim 10 , wherein the in-band noise arises from a motor vehicle airbrake. 12. The process of claim 10 , wherein a HQ filter receives the received signal, filters any out-of-band noise signal influenced portions out of the received signal, and outputs a filtered received signal; and wherein the correlated output signal generated by the magnitude detector from the filtered received signal does not identify any portion of the received signal as exceeding the given magnitude threshold during the measurement interval. 13. A system comprising: a transducer configured to emit a ranging signal and receive a received signal during a measurement interval; wherein, when an obstacle is within a given distance of the transducer, the received signal includes an echo of the ranging signal reflected off the obstacle; a gain stage, coupled to the transducer, configured to increase a received signal strength of the received signal; at least one of a saturation detector and a saturation threshold detector; wherein each of the saturation detector and the saturation threshold detector are coupled to the gain stage; wherein the saturation detector is configured to detect saturation of the received signal during one or more portions of the measurement interval; wherein the saturation threshold detector is configured to determine a saturation threshold for the received signal; a digital filter, coupled to the gain stage, configured to convert the received signal into a filtered received signal; and a magnitude detector, coupled to the digital filter, configured to: detect, during the measurement interval, one or more portions of the filtered received signal which exceed a given threshold and are each a potential echo; and based on such detecting, output a correlated received signal indicative thereof. 14. The system of claim 13 , further comprising: a delay element, coupled to the saturation detector; wherein the saturation detector outputs a saturation signal; and wherein the delay element receives the saturation signal, and after a predetermined delay period, outputs a delayed saturation signal indicative of the one or more portions of the received signal, during the measurement interval, that are received at a saturated level; and wherein the predetermined delay period corresponds to a processing delay for the digital filter. 15. The system of claim 14 , wherein, when the received signal includes out-of-band noise during the measurement interval, the correlated received signal does not indicate a presence of any echoes within the received signal. 16. The system of claim 15 , further comprising: an electronic control unit (ECU) which receives each of the correlated received signal and the delayed saturation signal; wherein, the ECU is configured to at least one of: disregard at least one second echo identified in the correlated received signal when: a presence of a first echo identified in the correlated received signal occurs substantially contemporaneously with an indication, in the delayed saturation signal, that the received signal is saturated during the first echo; and the at least one second echo arises within a given period of the first echo in the measurement interval; disregard two or more echoes when the delayed saturation signal indicates the received signal is saturated for more than a given portion of the measurement interval; designate the system as being blind when the correlated received signal provides no indication of any echoes detected within the received signal while the delayed satura