This disclosure provides new art in design and fabrication of antenna structures that are configured to stick onto a top of a helmet or onto a backpack outer surface in performing Wi-Fi communication.
The radiating elements of the helmet and backpack stick-on antenna structures are configured after the patent application Ser. No. 13/200,521 antenna structure in which the triangular radiating elements are excited by a coaxial cable over the top of the radiating structures.
A new design and implementation of a high performance broadband antenna configured for Wi-Fi application is disclosed. The antenna is designed for communication systems allowing data, video, and voice transmission between parties. The invention antenna consists of a pair of triangle shape elements which are made to fit over a helmet or simply stick onto a backpack. The triangular elements are positioned in such a way that their vertex angles are pointing at one another and are excited by a coaxial cable which runs along the center. The outer shield of the coaxial cable is electrically connected to one side of the radiating element and the center conductor is connected to the opposing side of the radiator. A gap approximately ⅜ inches is maintained. The connection in this manner forms a unique infinite balun (balanced-to-unbalanced converter) in obtaining a good impedance response over a wide frequency band. Special attention has been given to the design to ensure that harmful radiation will not be occurred. Thus a metal shield is implemented. The function of the shield is to direct harmful radiation away from the head and body area. The shield is also function as a ground plane for the radiating element. The separation distance between the radiating element and its ground plane is about 0.1 wavelengths. A prototype model has been made and tested; the electrical performance of this disclosure has performed as stated.
The preferred embodiment additionally comprises a pair of broad band triangle shape elements which are symmetrically excited by a coaxial cable in a unique way and additional matching device is not required.
The preferred embodiment structure is extremely broad band because of the element design along with its excitation. For high frequencies, the radiator is resonated near the apex, and for low frequencies the radiator is resonated near the far end of the triangle element.
The preferred embodiment structure vertex angle is 90 degrees and the base angles of the radiating element are 45 degrees for stick-on helmet antenna and also a 90 degrees vertices angle and 45 degrees base angle for stick-on backpack radiating element. A small change of angles may be employed which will not alter the physical and impedance characteristics of the antenna appreciably. The antenna design is not sensitive to dimensional tolerance.
The preferred embodiment radiating element consist a pair of unique triangle shape metal surfaces that are positioned over a metal conducting ground plane to be stick onto the helmet or stick onto the backpack surface directly.
The preferred embodiment backpack stick-on antenna is protected by a cover and the cover surface can be decorated with colorful words or figures of personal preference.
The coaxial cable of the preferred embodiment is terminated with a mating connector which is connecting to the electronic equipment.
The preferred embodiment structure is made with materials that is easily conform and fit over a helmet as well as to the backpack. A stick-on feature can be obtained with the application of Velcro material.
The preferred embodiment provides a hemispherical coverage pattern when the radiating structure is located on helmet or on a backpack surface.
The preferred embodiment structure can function under multiple frequencies on UHF and S frequency bands.
The preferred embodiment having the radiating element on the top of a helmet in such a way it will receive less interference from its surroundings.
The preferred embodiment structure is passive and external power is not required.
The preferred embodiment structure does not require frequency turning or adjustment.
The preferred embodiment structure can be configured to operate over a frequency band of 800 MHz to 5000 MHz.
The preferred embodiment of backpack or helmet design can be shared by two Wi-Fi systems of good frequency separation. This is accomplished by employing a circulator and a filter to route signals to its respective terminal. A wide frequency separation allows the filter to be configured in a simple way in a form of a high or low pass filter.
Another preferred embodiment of claim 1 consisting: a vertical and a horizontal radiating element (
The subject invention antenna consists of a pair of unique shape triangular elements which are excited by a coaxial cable symmetrically to form the unique input balun (balanced-to-unbalanced converter). The balun is extremely broad band.
The radiating element is operating over a metallic surface. The function of the metal surface is to help reflect radiation energy away from the head or body of a person operating the apparatus and also functioning as a ground plane for the radiating structure to provide the desired hemispherical radiation pattern.
Antenna Radiating Element Design
The radiating element is the most critical part of this invention. Conventional antenna approach in backpack, the antennas are whip designs of various heights and these designs lack of broad band performance. As a result, multiple whip radiators are often employed in a system involving multiple frequencies.
The invention antenna describes here is composed two triangular surfaces that are positioned facing one another, see
The radiating structure is designed such that it can easily place over the helmet.
The Radiating element can also function by simply sticking onto the outer surface of the backpack.
Antenna Ground Plane
The main purpose of the antenna metal shield is to prevent harmful radiation to the head and body areas of a person and has also performed well for the radiator in obtaining good radiation coverage. The ground plane is configured to be placed over the hat or helmet and is made of flexible materials such as fine meshes of metal. It is protected by a waterproof cover. The stick on feature is obtained via Velcro material.
Antenna Coverage Pattern
The radiation coverage pattern of the disclosure antenna on a helmet is hemispherical and the polarization is predominantly vertical. A horizontal component is present when the operating frequencies are nearing the high end of the frequency band. The polarization of the backpack stick on antenna is linear vertical and the coverage pattern is also hemispherical.
Number | Name | Date | Kind |
---|---|---|---|
6259399 | Krasner | Jul 2001 | B1 |
6809692 | Puente Baliarda | Oct 2004 | B2 |
7002526 | Adams | Feb 2006 | B1 |
8773322 | Wong | Jul 2014 | B2 |
20050116873 | Soler Castany | Jun 2005 | A1 |
20060022882 | Gerder | Feb 2006 | A1 |
20080117112 | Inbal | May 2008 | A1 |
20120081260 | Wong | Apr 2012 | A1 |
20140226645 | Tween | Aug 2014 | A1 |
20140232606 | Niver | Aug 2014 | A1 |
20150311592 | Wong | Oct 2015 | A1 |
Number | Date | Country |
---|---|---|
WO 2012001367 | Jan 2012 | GB |
Number | Date | Country | |
---|---|---|---|
20150340758 A1 | Nov 2015 | US |