Band‐notched ultra‐wideband square slot antenna

Abstract: Since the imaginary part of the propagation constant and its second derivative are involved, without knowing the unperturbed results, one cannot use Eq. (14) to calculate wavelength shift. However, the equations are useful for qualitative analysis of SPR sensor. At the resonance wavelength, the attenuation reaches to a maximum (␤ i reaches to a minimum), so the second derivative Ѩ 2 ␤ i /Ѩ 2 is positive. Equation (14) predicts that when the sensed medium index change ⌬ Ͼ 0 (⌬ Ͻ 0), the resonance wavelength wil… Show more

“…However, there is a tradeoff between the size of the antenna and the number of SRRs. Note that although the size of the antenna may increase with the increase of the number of SRRs, compared with previous reports [6,15] where a slot of about a quarter wavelength was cut from the antenna to obtain the desired notch frequency band, the average diameter of SRR can be designed as small as about one-tenth of the resonant wavelength, so that the total size of the proposed antenna is still relatively compact. In this article, we use two SRRs as a practical example to fabricate the prototype.…”

“…Compared with conventional UWB antennas etched with a quarter-wavelength slot for generating notch frequency bands [6,15], the average diameter of SRRs are much smaller, as about one-tenth of the resonant wavelength. Thus though multiple SRRs etched in the UWB antenna, the proposed antenna still keeps a compact dimension.…”

“…In the published literature, there have been some reports on UWB antennas with band notched characteristics [3][4][5][6]. However, each of these antennas is either complicated in design procedure [3,4], or with a bulky structure [5][6][7]. Moreover, most of the antennas [3][4][5][6][7] were designed to generate only one notch frequency band so that just one narrow band of disturbance can be eliminated.…”

“…Thus, it is desirable to design a UWB antenna with multiple band-notched characteristics to avoid the potential interference. In the published literature, there have been some reports on UWB antennas with band notched characteristics [3][4][5][6]. However, each of these antennas is either complicated in design procedure [3,4], or with a bulky structure [5][6][7].…”

A compact ultra‐wideband slot antenna with multiple notch frequency bands

“…However, there is a tradeoff between the size of the antenna and the number of SRRs. Note that although the size of the antenna may increase with the increase of the number of SRRs, compared with previous reports [6,15] where a slot of about a quarter wavelength was cut from the antenna to obtain the desired notch frequency band, the average diameter of SRR can be designed as small as about one-tenth of the resonant wavelength, so that the total size of the proposed antenna is still relatively compact. In this article, we use two SRRs as a practical example to fabricate the prototype.…”

“…Compared with conventional UWB antennas etched with a quarter-wavelength slot for generating notch frequency bands [6,15], the average diameter of SRRs are much smaller, as about one-tenth of the resonant wavelength. Thus though multiple SRRs etched in the UWB antenna, the proposed antenna still keeps a compact dimension.…”

“…In the published literature, there have been some reports on UWB antennas with band notched characteristics [3][4][5][6]. However, each of these antennas is either complicated in design procedure [3,4], or with a bulky structure [5][6][7]. Moreover, most of the antennas [3][4][5][6][7] were designed to generate only one notch frequency band so that just one narrow band of disturbance can be eliminated.…”

“…Thus, it is desirable to design a UWB antenna with multiple band-notched characteristics to avoid the potential interference. In the published literature, there have been some reports on UWB antennas with band notched characteristics [3][4][5][6]. However, each of these antennas is either complicated in design procedure [3,4], or with a bulky structure [5][6][7].…”

A compact ultra‐wideband slot antenna with multiple notch frequency bands

“…Introduction: Geometries of recent UWB antennas are based on simple geometric elements, such as rectangles [1], circles [2] or ellipses [3], or a combination of these [4,5]. This Letter proposes a geometry based on quadratic Bézier curves (splines).…”

Spline-based geometry for printed monopole antennas

The band‐notch function for a printed ultra‐wideband monopole antenna with E‐shaped slot