Multiband Planar Inverted-F Antenna with Independent Operating Bands Control for Mobile Handset Applications

Mustapha El Halaoui,Saida Ahyoud,Adel Asselman,Abdelmoumen Kaabal,Hassan Asselman

doi:10.1155/2017/8794039

Mustapha El Halaoui, Saida Ahyoud + Show 3 more

Open Access

https://doi.org/10.1155/2017/8794039

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Abstract

A new compact multiband PIFA (Planar Inverted-F Antenna) for mobile handset is proposed in this article. The proposed PIFA has a simple geometry with four slots integrated in the radiating patch and ground plane. The PIFA occupies a small volume of 51 × 14 × 7.2 mm3and is placed on the top portion of mobile phone. The optimized PIFA is worked in the 790 MHz band (737–831 MHz), the 1870 MHz band (1794–1977 MHz), the 2550 MHz band (2507–2615 MHz), and the 3400 MHz band (3341–3545 MHz), to cover LTE700, LTE800, DCS1800, PCS1900, LTE1800, LTE1900, LTE2500, and WIMAX3400 bands. Each of the four operating bands can be controlled independently by the variation of a single parameter of the proposed design, with a wide control range. An omnidirectional radiation pattern to each resonant frequency is obtained with a maximum gain of 2.15 dBi at 790 MHz, 3.99 dBi at 1870 MHz, 4.57 dBi at 2550 MHz, and 6.43 dBi at 3400 MHz. The proposed PIFA is studied in the free space and in the presence of other mobile phone components such as the battery, LCD (liquid crystal display), camera, microphone, speaker, buttons, and a plastic housing. The distribution of specific absorption rate for both European and American standards for each operating band and at various distances between the antenna and the human head is also studied.

Highlights

Long term Evolution (LTE) and Worldwide Interoperability for Microwave Access (WIMAX) are considered as new standards for the 4th-generation systems
The analysis of the proposed planar inverted-F antenna (PIFA) is performed by CST Microwave Studio to optimize the antenna parameters for the desired frequency bands
This is mainly due to the position of the camera and speaker, which are close to PIFA, and the large size of the liquid crystal display (LCD)

Summary

Introduction

Long term Evolution (LTE) and Worldwide Interoperability for Microwave Access (WIMAX) are considered as new standards for the 4th-generation systems. In [22], a coplanar waveguide PIFA was presented with independent control of resonance frequencies by integrating the slots in the radiating patch and the ground plane. A multiband PIFA for mobile handset is proposed; it has a simple geometry which formed by integrating the four slots in the radiating patch and the ground plane. The proposed multiband PIFA has the ability to independently control the frequency bands by varying the dimensions of the integrated slots in the structure. This comparison is made in terms of operating band with independent control, antenna size, gain, and radiation efficiency. The last sections will be devoted to the integration of the antenna in the handset and the SAR results

Configuration of the Proposed PIFA

Results and Discussion

The Proposed PIFA in Handset

Conclusion