Programmable frequency-hop synthesizers based on chirp mixing
Abstract
One technique for implementing a synthesizer is based on mixing chirp signals generated by impulsing SAW filters. Potentially, this method allows fast frequency hop generation over wide bandwidth (about 500 MHz) with large numbers of selectable hop frequencies (about 4000). Furthermore, the hardware can occupy a small volume and dissipate low power compared with conventional synthesizers. This paper examines the techniques and establishes likely parameter and performance bounds. Deleterious mechanisms are identified and their effects on CW spectral purity and fast frequency-hopped link error rate performance is discussed. Experimental results are presented for both a high performance modem, with N equal to 480 across a 96-MHz band and a recent development comprising the basic chirp synthesizer plus phased locked loop (PLL) to provide enhanced slow frequency hop and continuous-wave (CW) spectral purity.
- Publication:
-
IEEE Transactions on Microwave Theory Techniques
- Pub Date:
- May 1981
- DOI:
- Bibcode:
- 1981ITMTT..29..456D
- Keywords:
-
- Chirp Signals;
- Frequency Hopping;
- Frequency Synthesizers;
- Signal Mixing;
- Surface Acoustic Wave Devices;
- Computer Programming;
- Continuous Spectra;
- Data Links;
- Propagation Modes;
- Signal Processing;
- Spread Spectrum Transmission;
- Electronics and Electrical Engineering