Performance Analysis on Interference and Frequency-to-Time Mapping Based Frequency Hopping Receiver

The receiving performance of a frequency hopping receiver based on interference and frequency-to-time mapping are analyzed. The broadening of the receiving passband induced by high frequency hopping speed is theoretically analyzed. The spurious-free dynamic range (SFDR), the frequency-dependent RF gain, and the average signal-to-noise ratio (SNR) corresponding to the RF gain are theoretically derived to indicate the receiving performance. Experimental verifications on the SFDR and RF gain were conducted. The SFDR of the passband at 7.21 GHz is 77.23 dBc, and for the passbands located from 7 GHz to 23 GHz, the SFDR variance is below 3.2 dB, which fits well with the simulated results with the difference of less than 3.7 dB. The RF gain for passbands located from 2.6 GHz to 40.9 GHz were tested, and the difference is less than 2 dB compared to the theoretical results.