Delay calibration for a stepped frequency continuous wave digital signal chain

1 . A method for calibrating a stepped frequency continuous wave (SFCW) system, the method comprising: receiving a burst with a test pulse, the burst having a time duration of L clock cycles; receiving a trigger indicative of a time when the burst was transmitted; generating a digital signal that includes a sequence of digital samples indicative of the received burst; for each clock cycle for the time duration of L clock cycles, computing a moving average of a subset of S consecutive digital samples of the digital signal; for each computed moving average, determining an amplitude; identifying one of the computed moving averages for which the determined amplitude is closest to an expected amplitude; identifying a clock cycle of the identified moving average; and updating at least one delay to be applied in digital signal processing of received bursts based on a difference between the trigger and the identified clock cycle. 2 . The method according to claim 1 , wherein the digital signal is a baseband signal. 3 . The method according to claim 1 , wherein computing the moving average for each clock cycle includes computing an average of the S consecutive digital samples of the digital signal with the last digital sample being a digital sample of the clock cycle. 4 . The method according to claim 1 , wherein computing the moving average for each clock cycle includes computing an I-component and a Q-component of the moving average for each clock cycle. 5 . The method according to claim 4 , further comprising storing the I-component and the Q-component of the moving average for each clock cycle in a database. 6 . The method according to claim 5 , further comprising transmitting the I-components and the Q-components of the moving averages for all clock cycles in parallel to a baseband circuit. 7 . The method according to claim 1 , wherein updating the at least one delay includes updating a delay for a moving averager configured to compute the moving average. 8 . The method according to claim 1 , wherein generating the digital signal includes performing a frequency downconversion of the received burst from a radio frequency (RF) or an intermediate frequency (IF) to a baseband (BB). 9 . The method according to claim 8 , wherein the frequency downconversion is performed using a signal generated by an oscillator, and wherein updating the at least one delay includes updating a delay for the oscillator. 10 . The method according to claim 9 , wherein updating the at least one delay includes updating a common delay for a moving averager configured to compute the moving average and for the oscillator. 11 . The method according to claim 1 , wherein the test pulse is a first test pulse, and the method further includes repeating steps of receiving the burst, receiving the trigger, generating the digital signal, computing the moving average, determining the amplitude, identifying the one of the computer moving averages, identifying the clock cycle, and updating the at least one delay for a second test pulse. 12 . The method according to claim 11 , wherein the first test pulse and the second test pulse have different frequencies. 13 . The method according to claim 11 , wherein the first test pulse and the second test pulse are transmitted by different transmitters. 14 . The method according to claim 1 , further comprising determining a phase for each computed moving average, wherein identifying the one of the computed moving averages for which the determined amplitude is closest to the expected amplitude further includes identifying the one of the computed moving averages for which the determined phase is closest to an expected phase. 15 . A method for operating a stepped frequency continuous wave (SFCW) system, the method comprising: receiving a SFCW signal comprising a plurality of consecutive bursts, each burst comprising a pulse of a different frequency; receiving a trigger indicative of a time when the SFCW signal was transmitted; for each burst of the SFCW signal: resetting an oscillator based on the received trigger and further based on an oscillator delay, generating a downconverted signal by performing a frequency downconversion of a digital signal that includes a sequence of digital samples indicative of the burst using an oscillator signal generated by the oscillator after the oscillator has been reset, selecting a subset of S consecutive digital samples of the downconverted digital signal based on the trigger and a moving averager delay, using the moving averager to compute a moving average for the selected subset of S consecutive digital samples, and providing the computed moving average to a baseband circuit for determining one or more of an amplitude and a phase for the burst. 16 . The method according to claim 15 , wherein resetting the oscillator based on the received trigger and further based on the oscillator delay includes: starting an oscillator counter based on the received trigger and the oscillator delay, and resetting the oscillator for each burst of the SFCW signal based on the oscillator counter. 17 . The method according to claim 16 , wherein each of the plurality of consecutive bursts has a time duration of L clock cycles, and the oscillator counter is configured to count clock cycles since a time identified by the received trigger and the oscillator delay to identify when a new burst of the plurality of consecutive bursts begins. 18 . The method according to claim 15 , wherein selecting the subset of S consecutive digital samples of the downconverted digital signal based on the trigger and the moving averager delay for each burst of the SFCW signal includes: starting a moving averager counter based on the received trigger and the moving averager delay, and selecting the subset of S consecutive digital samples based on the moving averager counter. 19 . The method according to claim 18 , wherein each of the plurality of consecutive bursts has a time duration of L clock cycles, and the moving averager counter is configured to count clock cycles since a time identified by the received trigger and the moving averager delay to identify when the subset of S consecutive digital samples of a new burst of the plurality of consecutive bursts begins. 20 . A stepped frequency continuous wave (SFCW) system configured to receive a SFCW signal comprising K bursts, where K is an integer greater than 1 and where each burst includes a pulse of a different frequency, the system comprising a channel that includes: an analog-to-digital converter (ADC); 2K downconverters, each configured to receive a signal indicative of an output of the ADC; 2K moving averagers, each configured to receive a signal indicative of an output of a different one of the 2K downconverters; and a calibration circuit, configured to: enable the ADC to receive a signal indicative of a burst with a test pulse, the burst having a time duration of L clock cycles, and to generate a digital signal that includes a sequence of digital samples indicative of the burst, enable one of the 2K downconverters to generate a downconverted digital signal by performing a frequency downconversion of the digital signal generated by the ADC, receive a trigger indicative of a time when the burst was transmitted, enable one or more of the 2K moving averagers to compute a moving average of a subset of S consecutive digital samples of the downconverted digital signal for each clock cycle for the time duration of L clock cycles,