Electrically Small Matched Antennas With Time-Periodic and Space- Uniform Modulation

Abstract

A conceptual method to realize an impedance-matched electrically small antenna is discussed, using a transmission line modulated only in time. The time-periodic space-uniform modulation of a distributed shunt array of varcapacitors excites a mode with very small frequency but still a small (microwave) wavelength: the matching line then retains a practical size. The modulated transmission line brings the problem of impedance matching to a frequency $f_0$ much higher than the signal, where the large antenna reactance can be easily compensated with a much higher bandwidth for the same $Q$ factor: actually the bandwidth $\Delta f= f_0 / Q$ becomes large when $f_0$ is much larger than the signal frequency. A simple way to obtain the space uniform modulation of the transmission line is illustrated, making use of a Wheatstone-bridge arrangement of the modulated varicaps. The signal and modulating lines, running in parallel on a section of the same length, see two very different equivalent shunt capacitances, so that the modulating voltage is almost uniform while the signal voltage may change significantly across the transmission line.