Dual-band patch antenna for mobile satellite systems

## Abstract The theoretical analysis of a notch‐loaded rectangular patch for dual‐band operation, in which dual‐frequency behavior is obtained via notch loading, is proposed and experimentally verified. The theoretical analysis is based on the modal‐expansion cavity model. The resonance frequencies

## Abstract In this article, a novel dual‐band patch antenna having a chair‐shaped slot is designed, fabricated, and measured for Zigbee system. The proposed antenna is designed to operate from 868 to 928 MHz (lower‐frequency band) and 2.45 GHz (upper‐frequency band). The lower‐frequency band (868–

## Abstract A novel shorted patch antenna with a shorted parasitic patch for dual‐band operation is proposed. The upper and lower operating frequencies are, respectively, controlled by the driven and parasitic patches, which are both operated as a quarter‐wavelength structure in the proposed design

## Abstract Two new configurations of patch antennas are introduced, which provide dual‐band and dual‐polarization operations. The two patches have a square and cross shape, and are printed on a single layer; the dual‐frequency and the dual‐polarization behavior is obtained by means of four narrow

## Abstract A novel quadrifilar spiral antenna is proposed for use in personal communications mobile terminals exploiting the “big low earth orbit” (big‐LEO) satellite system (uplink 1.61–1.63 GHz; downlink 2.48–2.5 GHz). Feeding of the antenna from the outer periphery is proposed, to avoid the com