Controlled phase shifter

## Abstract A reciprocal phase shifter principle is proposed, of very simple design with only one control voltage, which enables the continuous variation of the phase at a frequency of 1.89 GHz. An implementation on Teflon substrate using Wilkinson dividers and a second‐order filter using one varia

## Abstract An investigation of a microstrip transmission line in which a measure of electronic control over the wave propagation constant can be achieved is presented. The microstrip line is constructed with an adjustable‐width upper plate, obtained by placing a DC bias across the p^+^ and n^+^ st

Figure 3 Measured return loss for dual-frequency operation; s r 4.4, h s 1.6 mm, w s 1 mm, d s 16 mm, l s 14 mm y Figure 4 Measured E-plane and H-plane radiation patterns for the dual-frequency operation with l s 12 mm. Other parameters are x given in Figure 3 ## 3. Conclusions A single-feed, redu

## Abstract The transmission characteristics of an improved optically controlled microstrip interdigital gap structure on a high‐resistivity silicon substrate are reported. When irradiated with an optically controlled power as low as 8 mw, a maximum signal‐phase change of 37° is obtained while the