Ahmad deel i have simulated antenna which has radiated efficiency of 80% but it. How to improve the gain, efficiency and bandwidth of microstrip patch antenna at higher frequencies. How to improve the gain, efficiency and bandwidth of microstrip. Design of millimeter wave microstrip patch antenna for mimo. However, this can be compensated by increasing the thickness of the substrate. Coaxialfed rectangular patch antenna lumerical support. I use pin to reduce the size of patch antenna, but efficiency reduce sharply, meanwhile s11 reaches to 30 db, the max gain is about 5 dbi. Dielectric ceramic loaded stripline antennas have several advantages, namely small size, fairly narrow but still wide enough frequency band, and good temperature stability. Both nearzone and farzone directive gains are considered. In proposed technique for designing of a microstrip patch antenna for 2. The loss of radio frequency power to heat can be subdivided many different ways, depending on the number of significantly lossy objects electrically coupled to the antenna, and on the level of detail desired. The parameters evaluated were gain, beamwidth and return loss. Since a microstrip patch antenna works only on one resonant frequency so converting that into a multiband patch antenna would enhance the bandwidth and also utilizes the multiple frequencies of.
For beam antennas such as the yagi the radiation pattern bandwidth is defined as the frequency range over which the gain of the main lobe is within 1 db of its maximum. The frequency tuning mechanism is implemented using varactor diodes loaded with open stubs. This paper present a design of a frequency selective surface fss to improve gain and efficiency of a microstrip patch antenna operating in xband at 10 ghz. Basic patch antenna design although there are many variations on patch antenna design, the basic configuration is shown in figure 1, where l is then length relative to the feedpoint and w is the width. Harrington 2 june 29, 1959 a theoretical analysis is made of the effect of antenna size on parameters such as gain, bandwidth, and efficiency. Table 1 measured dc power by varying the distance of the receiving antennas from the transmitting horn antenna at a fixed transmitted power level of 0dbm. Antenna radiation efficiency, antenna parameters in antennas. Microstrip antenna an overview sciencedirect topics. Resonance for patch antenna is a phenomenon where most of the power. Rf energy travels through transmissions lines coax cables or pcb traces just like sound travels through an empty room. What is the best way to increase the efficiency of microstrip patch. A combination of slot and notch also influences the antenna. But i was getting the value of efficiency in negative. In an antenna such as a yagi this is caused by a reduction in the currents in the parasitic elements as the frequency of operation is moved away from resonance.
Figure 16 shows a microstrip antenna or patch antenna for a global positioning system gps receiver, using a high k dielectric substrate. However, the increase in thickness beyond a certain limit will cause an unwanted loss of power. Apr 22, 2018 in this video, i have explained antenna radiation efficiency by following outlines in unit of antenna parameters. The gain vs frequency graph is displayed in figure 4. The first resonant frequency shifts down by varying. Top view of the microstrip patch antenna all dimensions are in millimeter mm fig.
The antenna was designed for fr4 printedcircuitboard pcb material with dielectric constant of 4. The gain of an antenna is the directivity multiplied by the radiation efficiency, as described in std 1451993. The microstrip antenna has a planar geometry and it consists of a defected ground, a feed, a substrate, a patch and a defected ground structure. In this video, i have explained antenna radiation efficiency by following outlines in unit of antenna parameters. Does the operating frequency of an antenna affect its. The efficiency in this case for a dielectric loss tangent of 0. Electromagnetic surfaces with a forbidden frequency band, ieee trans. The patch antenna element developed for the phased array sar pharus operating at 5. From this equation, antenna efficiency can be calculated using above. The frequency of operation of the patch antenna of figure 1 is determined by. Why radiation efficiency of circular patch antenna is low. Design of microstrip patch antenna using defected ground. Single fss frequency selective surface substrate is used to increase efficiency.
Keywords radiation efficiency, rectangular microstrip patch antenna, resonating frequency, total efficiency. To achieve this we used microstrip circular patch antenna at 5. Resonant frequency of an antennain general any device is where it performs at a highest level. The frequencytuning mechanism is implemented using varactor diodes loaded with open stubs. Radio frequency theory has some interesting quirks. From this equation, antenna efficiency can be calculated using above calculator. Improving the efficiency of microstrip patch antennas springerlink. A large q results in a narrow bandwidth and low efficiency. Different frequencies allow for different effiiciencies as well. The design with dgs has been analysed and the simulation using the cst microwave studio commercial software for wlan band at 5. The 2x2 patch array antenna is simulated using ansoft hfss. The resonant length determines the resonant frequency and is about.
The simulated patch antennas resonant frequency of 10. Dimensions the resonant length the x axis in figure 2 determines the resonant frequency and is about. Their low profile design, often square or rectangular, allows them to be mounted to flat surfaces. If the ratio lw is close to unity, the radiation pattern will be symmetric but may not provide a resonable input impedance. Design and analysis of microstrip patch antenna array. Microstrip patch antenna design for ku band application. Antenna efficiency calculator antenna efficiency formula. The center frequency will be approximately given by. Figure efficiency vs frequency the results shown in table 1 were measured at various distances between receiver and transmitter antenna horn with a constant 0 dbm transmission of power. The above equation says that the microstrip antenna should have a length equal to one half of a wavelength within the dielectric substrate medium. A slot cut on the radiating patch also affects the performance of the antenna as it introduced a capacitive effect 10. A slot is etched on the ground plane of the antenna, where two varactor diodes are placed on each side of the slot in order to tune the lower band. In antenna theory, antenna efficiency is most often used to mean radiation efficiency. Design of a dualband frequency reconfigurable patch.
The microstrip patch antenna is a popular printed resonant antenna for narrowband microwave wireless links that require semihemispherical coverage. In this design, the overall structure of the siw slot array antenna is employed as the radiator of the patch antenna. This rectangular microstrip patch antenna is designed for wireless communication application that works at 2. The antenna presents a reconfigurable lower band and a steady band at higher frequencies. Because the antennas length determines the resonant frequency of the patch. Standing wave ratio as a function of frequency of a patch antenna. The efficiency is also increased with a lower value for the permittivity. Microstrip or patch antennas are becoming increasingly useful because they can. It consists of a flat rectangular sheet or patch of metal, mounted over a larger sheet of metal called a ground plane. Improvement of efficiency parameter of a microstrip patch antenna. In the context of antennas, one often just speaks of efficiency. To ease this part of the process, graphs obtained using agilent ads software are used in the design of a dualfrequency patch antenna operating at 1. The impedance of the antenna increases with higher permittivities. The following information is provided in this document.
The bandstop frequency selective surface fss designed at the operating frequency of the antenna is used. It also has a wide angle of beam in its radiation pattern. A patch antenna or microstrip antenna is a narrowband, widebeam antenna. Analysis and design of circular microstrip patch antenna at 5.
Particularly in cell phones, the designers are given very little space and want the antenna to be a halfwavelength long. The frequency of operation of the patch antenna of figure 1 is determined by the length l. Antenna efficiency calculator equations or formula. Click here to go to our page on circular patch antennas new for september 2018. These losses will definitely contribute to a drop in radiation efficiency, such that i would not recommend it for patch antenna. With this new scheme, the high aperture reuse efficiency can be achieved. The results obtain that microstrip patch antenna can be used as client antenna in computer and workable antenna for wireless fidelity. What is resonant frequency in a microstrip patch antenna. Additional benefits of patch antennas is that they are easily fabricated making them cost effective.
The fundamentals of patch antenna design and performance. As can be seen, a broad minimum of the crosspolarization pattern is attained at the. Design and analysis of microstrip patch antenna array using. I have designing microstrip patch antenna and was getting gain and directivity as around 9. In this work, the simulation tool of ie3d is used to study the performance and gain of the rectangular microstrip patch antenna. If the antenna had a 100% radiation efficiency, all directivity would be converted to gain. This document outlines the specifications for the cisco aironet 2.
A novel approach for gain and bandwidth enhancement of patch. The frequency ratio of this sharedaperture antenna is 17. Effect of antenna size on gain, bandwidth, and efficiency. Effect of antenna size on gain, bandwidth, and efficiencyl roger f. Left side view of the microstrip patch antenna the proposed microstrip patch antenna at designed frequency 14 ghz on teflon dielectric substrate simulated with cst mw studio simulator. However, the increase in thickness beyond a certain limit will cause an unwanted loss of. Design of millimeter wave microstrip patch antenna for. The proposed patch yield desirable results throughout the operating frequency range.
Design of a rectangular microstrip patch antenna using. Antenna radiation efficiency, antenna parameters in. Parameters are set accordingly and results of microstrip patch antenna with fss layer and microstrip patch antenna without substrate later. This article introduces some of the basic concepts of patch antennas. Microstrip patch antennas or simply patch antenna are increasingly useful because the antenna is printed directly onto a circuit board. A wideband circularly polarized patch antenna for 60 ghz. Design of a rectangular microstrip patch antenna using inset.
It is a measure of the electrical efficiency with which a radio antenna converts the radiofrequency power accepted at its terminals into radiated power. The microstrip patch antenna calculator determines the length l and width w of a rectangular microstrip patch antenna for a given resonant frequency or vice versa. There are many applications where simple, highly efficient printed antennas mounted on high. By optimizing the patch and the slot dimensions, a high efficiency 90% microstrip fed cp antenna with an impedance bandwidth of 24% and a 6 db axial ratio bandwidth of 21. What are methods to improve gain and efficiency of patch. Improvement of efficiency parameter of a microstrip patch. When sound waves hit the hard tiled walls of an empty room, you can hear strong echoes. They are the original type of microstrip antenna described by howell in 1972. This level of match is quite excellent, since the theory does not account for the reactive input impedance. Design and implementation of patch antenna 5 designs, and very versatile in terms of resonant frequency, polarization, pattern, and impedance. The design and simulation of patch antennas is widely used in mobile cellular phones today, and our emphasis in this work is on optimization of a 2. The simplest patch antenna uses a patch which is onehalf wavelength long, so that the metal surface acts as a resonator similarly to the halfwave dipole antennas.
Deschamps in 1953, but didnt become practical until the 1970s when it was developed further by researchers such as robert e. Design of miniature patch antenna around the frequency 3. Two independent bias voltages allow to abstract this letter proposes a high efficiency, dualband slot patch antenna with a wide frequency ratio range. The microstrip patch antenna performance is depends on and determined by its operating frequency, resonant frequency, gain, directivity, and radiation efficiency. Designing for designing of a microstrip patch antenna, we have to select the resonant frequency and a dielectric medium for which antenna is to be designed. A very highquality factor is offered by a patch antenna. A frequency reconfigurable patch antenna design based on the characteristic mode analysis is presented. A single patch antenna provides a maximum directive gain of around 69 dbi. The directivity of a patch can be estimated quite easily. To overcome several intrinsic limitations of the patch antenna such as narrow bandwidth, low gain, and degradation of radiation efficiency at higher frequencies. These antennas can be mounted on the surface of highperformance aircraft, spacecraft, satellites, missiles, cars, and even handheld mobile telephones. Likewise, in a receiving antenna it describes the proportion of the radio waves power.
An arcshaped slot is introduced into a circular patch to perturb the surface current distribution. Typical half wave patches have efficiencies well above 90%. A patch antenna radiates power in certain directions and we say that the antenna has directivity usually expressed in dbi. Due to its planar configuration and ease of integration with microstrip technology, the microstrip patch antenna has been heavily studied and is often used as elements for an array.
329 1392 410 1412 636 652 1415 1052 775 677 1110 1060 550 1148 1368 592 410 551 1084 21 615 436 611 974 494 537 489 877 1372 1333 1015 497 578 802