Analysis of Dual-Band Helical Antenna for Diversity on Mobile Phones

## Abstract A small printed antenna is proposed for dual‐band applications. The antenna is patterned on the front of an 0.8‐mm FR4 substrate to obtain a low‐frequency resonance and a stub is patterned on the back of the substrate to obtain a high‐frequency resonance. The antenna without ground plan

## Abstract By placing a rectangular spiral conducting strip on the top, bottom, and two side surfaces of a rectangular plastic chip of dimensions 5 × 10 × 16 mm^3^, a novel plastic chip antenna capable of GSM/DCS dual‐band operations in mobile phones is presented. The plastic chip antenna has the

## Abstract A dual band diversity antenna for PCS and WiMAX bands is proposed and designed with compact dimension. The proposed diversity antenna consists of two dual‐band PIFAs arranged front to front with the same structure. With polarization diversity, jointed shorting structure, and suspended l

## 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 A dual‐band multiple‐input multiple‐output (MIMO) antenna using polarization diversity is proposed for a 4G mobile handset application.The proposed MIMO antenna consists of two printed dual‐band PIFAs with a slotted strip. Input port 1 of the first PIFA is orthogonally disposed with res

## Abstract A novel low‐profile monopole mobile phone antenna capable of GSM and DCS dual‐band operations is proposed. The monopole antenna is easily constructed by folding a planar meandered patch into a rectangular‐tube‐like structure, and has a compact size of 9 × 9 × 34 mm^3^ for achieving 900‐