Aperture Field Estimation in E Plane and H-Plane T-Junctions Using Field Theoretic Analysis

Wireless Personal Communications - This paper presents method of moment based analysis of E Plane and H-Plane T-junctions to find the field distributions on different transverse and longitudinal...     

An Optimal Control Technique for Multiphase PM Machines Under Open-Circuit Faults

In this paper, an optimal control technique for n-phase permanent-magnet (PM) machines under various open circuit faults is presented. Under the fault conditions, the currents in the healthy phases are controlled to compensate phase loss and to produce the required output torque. The proposed control technique ensures continuous operation of the machines while producing minimum torque ripples and minimum stator ohmic loss. The control technique is based on the instantaneous power balance theory. To set the summation of the phase currents equal to zero, a constraint is incorporated in the derivation of the control technique. A five-phase PM machine is considered to demonstrate the proposed open circuit fault-tolerant control strategy. Simulation and experimental results are provided for validation.     

Design of a Variable Depth Axially Corrugated Horn Antenna at X-Band for Low Cross-Polarization Applications

Wireless Personal Communications - This paper presents a study of a class of iris localization algorithms in the presence of blurring. The effect of blurring is a serious problem in most image...     

Ultra-wideband,high efficiency oriented RF power amplifier using current source MIC technique for wireless monitoring of obstetrics patient

Analog Integrated Circuits and Signal Processing - This paper presents an Ultra-wideband, high-efficiency Class-E power amplifier (PA) using a current source tuner and microstrip inter-digital...     

A 8–12 GHz, 44.3 dBm RF output class FF−1 DPA using quad-mode coupled technique for new configurable front-end 5G transmitters

Analog Integrated Circuits and Signal Processing - This paper presents a high-efficiency Class $${\mathrm{FF}}^{-1}$$ DPA using the quad-mode coupled technique for new configurable front-end 5G...     

Analysis and design of wide band Microstrip-line-fed antenna with defected ground structure for Ku band applications

A wide band Microstrip antenna is proposed for Ku band applications with defected ground structure. A circular shape defect is integrated in the ground plane. A novel equivalent circuit model is proposed for Microstrip patch antenna with defected ground structure. Accurate design equations are presented for the wideband Microstrip antenna and theoretical analysis is done for the proposed structure. The proposed antenna has an impedance bandwidth of 56.67% ranging from 9.8 GHz to 17.55 GHz, which covers Ku-band and partially X-band. The antenna shows good radiation characteristics within the entire band, and has a gain ranging from 5 dBi to 12.08 dBi. Minimum isolation between co-polar and cross-polarization level of 20 dB and 15 dB is achieved in H-plane and E-plane respectively. The simulation of the proposed antenna is done on HFSS v.14, and measured results of fabricated antenna are in good agreement with the theoretical and simulated results.     

Applicability of Cavity Modeling Technique to Analyze Complex Waveguide Structures Involving Cavity Cross Couplings

Wireless Personal Communications - In this paper, we propose modulation and coding scheme level drop scheme for LTE evolved multimedia broadcast/multicast service (eMBMS) by transmitting additional...     

Low profile single feed monopole antenna for quad-band circularly polarised applications

ABSTRACT

A single fed monopole antenna for circularly polarised quad-band applications is presented. The antenna radiator is comprised of half ring-shaped arcs integrated with the 50Ω microstrip feed line. In the proposed design, the circular polarisation is achieved by means of integrating ring, stubs and implanting an open-ended C-shaped slot in the ground surface. The designed antenna has a ?10 dB impedance bandwidth in the range of 2.41 GHz to 4.14 GHz and 4.34 GHz to 6.33 GHz. The 3-dB axial ratio bandwidth varies from 3.01 to 3.21 GHz, 3.46 to 3.79 GHz, 4.53 to 4.68 GHz and 5.08 to 5.10 GHz, therefore, exciting four circularly polarised bands. The proposed antenna covers almost all the IEEE 802.11 and IEEE 802.16 standards and may be a suitable candidate for WLAN and WiMAX applications. The optimisation of the designed antenna is conducted using tool Ansys HFSS and found simulated results in a good match with measured results.