Communications with distance authentication

What is claimed is: 1. A method comprising: generating, as part of distance-based authentication, a first signal with a waveform having a plurality of pulses, each pulse in the waveform having a leading edge, a peak portion, and a trailing edge; obscuring, for at least one pulse of the plurality of pulses, a portion of the leading edge by generating noise via a noise modulation circuit, and combining the noise with at least the leading edge of the at least one pulse, wherein the noise is statistically independent of amplitude level of the leading edge of the waveform; and providing the distance-based authentication by transmitting a second signal with a waveform having the obscured portion of the leading edge between first and second radio frequency (RF) devices. 2. The method of claim 1 , wherein the second signal is used to provide an indication of distance between the first and second RF devices based upon a time over which the second signal is transmitted, while using the statistically independent noise to mitigate detection of the leading edge by a third RF device. 3. The method of claim 1 , further including transmitting a third signal from the first RF device to the second RF device, and synchronizing communications between the first and second RF devices based upon signals communicated therebetween, wherein generating the first signal includes generating the first signal, at the second RF device, in response to receiving the third signal at the second RF device, and wherein providing the distance-based authentication includes calculating a trip time that includes a time between the transmission of the third signal by the first RF device and receiving the second signal at the first RF device, and providing a distance between the first and second RF devices based on the trip time. 4. The method of claim 3 , wherein calculating the trip time includes calculating a time that includes time for processing the third signal as received at the second RF device, for generating and obscuring the first signal at the second RF device, and for transmitting the second signal from the second RF device. 5. The method of claim 3 , wherein calculating the trip time includes calculating a time that includes time for processing the second signal as received at the first RF device. 6. The method of claim 3 , wherein calculating the trip time includes calculating a time that includes time for: processing the third signal as received at the second RF device, generating and obscuring the first signal at the second RF device, transmitting the second signal from the second RF device, and processing the second signal as received at the first RF device. 7. The method of claim 1 , wherein obscuring the portion of the leading edge includes combining the noise, received from the noise modulation circuit at a first input, with the at least the leading edge of the at least one pulse as received at a second input, the second input being different than the first input. 8. The method of claim 1 , wherein obscuring the portion of the leading edge includes injecting noise at the leading edge of a position of the pulse. 9. The method of claim 8 , wherein the noise includes cryptographic pulses transmitted between the first and second RF devices. 10. The method of claim 1 , wherein the peak portion includes a majority of energy of each pulse and has an amplitude level that is greater than amplitude levels of the leading and trailing edges, the leading edge having a duration that is a multiple of a duration of the peak portion. 11. The method of claim 1 , wherein the steps of generating, obscuring and providing are carried out in a transponder, further including authenticating the transponder based on data conveyed in the second signal by the transponder. 12. The method of claim 1 , wherein obscuring the portion of the leading edge includes masking a polarity of the leading edge. 13. The method of claim 1 , wherein obscuring the portion of the leading edge includes masking the existence of the leading edge. 14. The method of claim 1 , wherein generating noise includes cancelling statistical bias introduced by a pulse of the first signal by biasing distribution of the noise. 15. An apparatus comprising: a first circuit configured and arranged to generate, as part of distance-based authentication, a first signal with a waveform having a plurality of pulses, each pulse in the waveform having a leading edge, a peak portion, and a trailing edge; a second circuit configured and arranged to obscure at least a portion of the waveform by generating noise and combining the noise with the portion of the waveform, thereby providing a second signal with a second waveform having the obscured portion thereof, wherein the noise is statistically independent of amplitude level of the leading edge of the waveform; and a third circuit configured and arranged to provide the distance-based authentication by transmitting a second signal with the second waveform having the obscured portion between first and second communication circuits. 16. The apparatus of claim 15 , wherein the second circuit is configured and arranged to obscure the portion of the waveform by combining the noise with at least the leading edge of at least one of the pulses. 17. The apparatus of claim 15 , wherein the second circuit is configured and arranged to obscure the portion of the waveform by combining the noise with a portion of the waveform between the pulses to produce the second waveform, thereby obscuring a lack of a pulse in the portion of the waveform. 18. The apparatus of claim 15 , wherein the third circuit is configured and arranged to use the second signal to provide an indication of distance between the first and second communication circuits based upon a time over which the second signal is transmitted, while using the statistically independent noise to mitigate detection of the leading edge by a third communication circuit. 19. The apparatus of claim 15 , wherein the first communication circuit includes the first, second and third circuits, the first circuit is configured and arranged to synchronize operation of a first RF device and to generate the first signal, based on a third signal received from a second RF device, the third circuit is configured and arranged to provide the distance-based authentication based on trip time that includes a time for transmission of the third signal and for transmitting the second signal to the second communication circuit, therein providing an indication of a distance between the first and second communication circuits, and the second circuit includes: a signal modulation circuit configured and arranged to generate the noise as noise that is statistically independent of an amplitude level of the leading edge of the first signal, and a combining circuit connected to the signal modulation circuit and to the first circuit, the combining circuit being configured and arranged to receive the generated statistically independent noise from the signal modulation circuit at a first input, receive the first signal at a second input, and generate the second signal by combining the statistically independent noise received at the first input with the first signal received at the second input, and output the second signal. 20. A method for mitigating third-party interference with communications between first and second communication circuits with distance-based authentication, the method comprising: generating, as part of the distan