A device may include a radome. A device may include a spacer coupled to the radome. A device may include a first antenna element formed on a first printed circuit board (PCB) and configured to be housed by the radome, wherein the first antenna element is a multi-band antenna element comprising: one or more low-band radiating elements, one or more mid-band radiating elements; and one or more high-band radiating elements. A device may include a second antenna element formed on a second PCB and configured to be housed by the radome, the second antenna element comprising one or more WiFi antenna elements. A device may include a third antenna element formed on a third PCB and configured to be housed by the radome, the third antenna element comprising one or more global positioning system (GPS) antenna elements.
An antenna assembly may include at least two PCB bases. Each PCB base may include a first multi-band antenna element, and a second multi-band antenna element, formed on each PCB base. The first multi-band antenna element and the second multi-band antenna elements can include one or more low-band radiating elements, one or more mid-band radiating elements; and one or more high-band radiating elements.
An antenna assembly can include a case, a first ground plane, and a multi-band multi-element antenna. The case can include a body portion and a door pivotably coupled to the body portion. The first ground plane can be coupled to the body portion and can divide the case into a first internal volume and a second internal volume. The multi-band multi-element antenna can include at least one multi-band radiating element coupled to a top side of the first ground plane. The antenna assembly can include a tablet computer and/or a display screen.
09 - Scientific and electric apparatus and instruments
Goods & Services
Mobile hotspot devices; Communication hubs; Devices for wireless radio transmission; Broadband wireless equipment, namely, telecommunications base station equipment for cellular and fixed networking and communications applications; Antennas; Antennas for wireless communications apparatus; Antennas for telecommunications networks; Apparatus for transmission of communication; Satellite communications apparatus; Satellite communications terminals; Satellite-aided navigation systems; Wireless communication devices for voice, data or image transmission; GPS navigation device; Satellite communications (SATCOM) terminals
09 - Scientific and electric apparatus and instruments
Goods & Services
Mobile hotspot devices; Communication hubs; Devices for wireless radio transmission; Broadband wireless equipment, namely, telecommunications base station equipment for cellular and fixed networking and communications applications; Antennas; Antennas for wireless communications apparatus; Antennas for telecommunications networks; Apparatus for transmission of communication; Satellite communications apparatus; Satellite communications terminals; Satellite-aided navigation systems; Wireless communication devices for voice, data or image transmission; GPS navigation device; Satellite communications (SATCOM) terminals
6.
EMERGENCY PORTABLE HOT SPOT WITH ANTENNAS BUILT INTO COVER
An antenna unit includes a case having a base and a lid. An antenna assembly is located within the lid and is IP67 compliant, being waterproof. The antenna assembly can provide antennas located on one or more baseplates that are positioned within the top cover of the box. A baseplate can act as a heatsink, a reflector, and/or a ground plane, for the antennas while the cover is closed and in the locked position. The antennas have been designed and optimized to work on a baseplate and designed to operate with the thick plastic cover of the box. A plurality of antenna components are situated within the base separate from the antenna assembly. An optional barrier is located within the base to divide the antenna components from the lid. The antenna assembly include different types of antennas operable at least between 600 MHz to 39 GHz. The lid is separable from the base and is divided from other components to minimize interference so that all antennas may operate simultaneously while the lid is in a closed position.
An antenna assembly is disclosed. The antenna assembly can include a housing, a first multi-band antenna element, and a second multi-band antenna element. The first multi-band antenna element is configured for cellular applications and positioned within the housing. The first multi-band antenna element includes a first low-band radiating element and a first mid-band radiating element. The second multi-band antenna element is configured for cellular applications and positioned within the housing. The second multi-band antenna element includes a second low-band radiating element and a second mid-band radiating element.
G01S 19/36 - Constructional details or hardware or software details of the signal processing chain relating to the receiver frond end
H01Q 1/22 - SupportsMounting means by structural association with other equipment or articles
H01Q 1/42 - Housings not intimately mechanically associated with radiating elements, e.g. radome
H01Q 5/20 - Arrangements for simultaneous operation of antennas on two or more different wavebands, e.g. dual-band or multi-band arrangements characterised by the operating wavebands
A multi-band antenna can include a radiating element. The radiating element can include an upright portion, a head portion, one or more first arms, and one or more second arms. The upright portion can be configured for low-band radiation. The head portion can extend from a top edge of the upright portion and can be configured for low-band radiation. The one or more first arms can extend from the upright portion and can be configured for mid-band radiation. The one or more second arms can extend from the upright portion and can be configured for C-band radiation.
H01Q 5/307 - Individual or coupled radiating elements, each element being fed in an unspecified way
H01Q 5/20 - Arrangements for simultaneous operation of antennas on two or more different wavebands, e.g. dual-band or multi-band arrangements characterised by the operating wavebands
An antenna assembly can include a base portion and a cover, the cover configured to be removably coupled to the base portion. The antenna assembly can include a modem positioned on or above the base portion, a ground plane, and a multi-band antenna.
An antenna assembly can include a case, a first ground plane, and a multi-band multi-element antenna. The case can include a body portion and a door pivotably coupled to the body portion. The first ground plane can be coupled to the body portion and can divide the case into a first internal volume and a second internal volume. The multi-band multi-element antenna can include at least one multi-band radiating element coupled to a top side of the first ground plane. The antenna assembly can include a tablet computer and/or a display screen.
H01Q 5/20 - Arrangements for simultaneous operation of antennas on two or more different wavebands, e.g. dual-band or multi-band arrangements characterised by the operating wavebands
H01Q 5/328 - Individual or coupled radiating elements, each element being fed in an unspecified way using frequency dependent circuits or components, e.g. trap circuits or capacitors between a radiating element and ground
H01Q 5/50 - Feeding or matching arrangements for broad-band or multi-band operation
H01Q 21/30 - Combinations of separate antenna units operating in different wavebands and connected to a common feeder system
An antenna assembly can include a base portion and a cover, the cover configured to be removably coupled to the base portion. The antenna assembly can include a modem positioned on or above the base portion, a ground plane, and a multi-band antenna.
H01Q 1/36 - Structural form of radiating elements, e.g. cone, spiral, umbrella
H01Q 1/40 - Radiating elements coated with, or embedded in, protective material
H01Q 5/40 - Imbricated or interleaved structuresCombined or electromagnetically coupled arrangements, e.g. comprising two or more non-connected fed radiating elements
An antenna unit can include a case, a baseplate, and an antenna assembly. The case can include a base defining a first internal volume and a lid defining a second internal volume, the lid configured to couple to the base, the lid configured to move between a closed configuration and an open configuration to selectively permit access to an interior of the case. The antenna unit can include one or more components located within the first internal volume of the base. The baseplate can be configured to be removably coupled to the lid. The antenna assembly can include a plurality of antennas coupled to the baseplate and located within the second internal volume. The antenna unit can act as an emergency portable hot spot and serve as a complete portable network in a singular box and/or case. Additional antenna systems, including directional antenna systems, satellite terminal antenna systems and various other multi-band antennas and components are also disclosed.
An antenna assembly can include an internal ground plane, a base PCB, and a plurality of antennas. The base PCB can be positioned above the internal ground plane. The base PCB can include a plurality of individual ground planes spaced circumferentially about a center of the base PCB, with the plurality of individual ground planes being electrically connected to the internal ground plane. Each antenna of the plurality of antennas can be electrically connected to an individual ground plane of the plurality of individual ground planes. The plurality of antennas can include a plurality of multi-band antennas and one or more WiFi antennas.
An antenna assembly can include a front cover and a back cover, the back cover configured to be coupled to the front cover. The antenna assembly can include a PCB base positioned between the front cover and the back cover. The antenna assembly can include a first multi-band antenna element formed on the PCB base, and a second multi-band antenna element formed on the PCB base. The first multi-band antenna element can include a first ground plane, one or more first low-band radiating elements, one or more first mid-band radiating elements, and one or more first high-band radiating elements. The second multi-band antenna element can include a second ground plane, one or more second low-band radiating elements, one or more second mid-band radiating elements, and one or more second high-band radiating elements.
An antenna assembly can include a cover, an internal ground plane, and a multi-band antenna. The cover can comprise one or more walls. The internal ground plane can comprise a base of the antenna assembly and can be coupled to the cover. The multi-band antenna can comprise one or more radiating elements comprising a first radiating element formed on a first PCB portion, the first radiating element comprising a first upright radiating portion and a first head radiating portion. The first radiating element can be configured to move from a first configuration prior to engagement with the cover to a second configuration when the cover is coupled to the internal ground plane. In the first configuration, the first upright radiating portion is coplanar to the first head radiating portion. In the second configuration, the first upright radiating portion is at an angle relative to the first head radiating portion.
H01Q 5/20 - Arrangements for simultaneous operation of antennas on two or more different wavebands, e.g. dual-band or multi-band arrangements characterised by the operating wavebands
H01Q 1/42 - Housings not intimately mechanically associated with radiating elements, e.g. radome
An antenna assembly can include a cover, a base, an internal ground plane, a PCB, and a multi-band antenna. The base can be coupled to the cover to define an internal volume, with the internal ground plane positioned there between. The PCB can include a base PCB portion and a first PCB portion. The multi-band antenna can comprise a radiating element formed on the first PCB portion, the radiating element comprising an upright radiating portion and a head radiating portion. The radiating element can be configured to move from a first configuration prior to engagement with the cover to a second configuration when the cover is coupled to the base. In the first configuration, the upright radiating portion can be coplanar to the head radiating portion, and in the second configuration, the upright radiating portion can be at an angle relative to the head radiating portion.
A multi-band antenna has a feed point, a grounding location, a first portion for low band operation, a second portion for low band operation, and one or more portions for high band operation. The ground reference of the feed point for the multi-band antenna is connected to a separate object that may provide a base for the multi-band antenna. The feed point of the multi-band antenna may be spaced above the base and have a space between the feed point and a location for the ground point. The low band portion has multiple resonances that are often odd multiples of the lowest resonant response. The portions that resonant most dominantly in the high band often have multiple resonances that are even multiples of the lowest high band resonance. The multi-band antenna has resonances spaced closely enough to appear to be a wide band antenna above the fundamental high band resonance.
Embodiments of the present invention provides an antenna and an antenna system. The antenna includes a body member, a head member integrally connected to a first edge of the body member, wherein the head member forms a fold having a first angle towards the front face of the body member, and a first arm member and a second arm member, wherein the first arm member and the second arm member are integrally connected to the body member corresponding to the second edge and the third edge of the body member, and wherein the set of arm members each form a fold having a second angle towards the front face of the body member.
09 - Scientific and electric apparatus and instruments
42 - Scientific, technological and industrial services, research and design
Goods & Services
Antennas; devices for wireless radio transmission; devices
for wireless video transmission; devices for wireless
transmission of voice, video or data; transmitters,
transceivers, and receivers; telecommunications apparatus,
namely, radio transmitters, transceivers, receivers and
antennas; antenna components; chip antennas; antenna
boosters; Internet of Things (IoT) range extenders and
antennas. Research and design relating to antennas, IoT wireless
devices, and IoT wireless networks; industrial research in
the field of antennas; industrial design services; quality
control and authentication services for others in the field
of antennas, IoT wireless devices, and IoT wireless
networks; research and design services in the field of
telecommunications; technological analysis of
telecommunication signals; telecommunications engineering
consultancy; telecommunications technology consultancy;
design of telecommunications apparatus and equipment; design
and development of telecommunications networks; testing,
analysis and monitoring of telecommunication signals;
telecommunications engineering; research and development
services in the field of antennas.
09 - Scientific and electric apparatus and instruments
Goods & Services
Antennas; devices for wireless radio transmission; devices
for wireless video transmission; devices for wireless
transmission of voice, video or data; transmitters,
transceivers, and receivers; telecommunications apparatus,
namely, radio transmitters, transceivers, receivers and
antennas; antenna components; chip antennas; antenna
boosters; Internet of Things (IoT) range extenders and
antennas.
09 - Scientific and electric apparatus and instruments
Goods & Services
Antennas; devices for wireless radio transmission; devices
for wireless video transmission; devices for wireless
transmission of voice, video or data; transmitters,
transceivers, and receivers; telecommunications apparatus,
namely, radio transmitters, transceivers, receivers and
antennas; antenna components; chip antennas; antenna
boosters; Internet of Things (IoT) range extenders and
antennas.
09 - Scientific and electric apparatus and instruments
Goods & Services
Antennas; devices for wireless radio transmission; devices for wireless video transmission; devices for wireless transmission of voice, video or data; telecommunications transmitters, transceivers, and audio-video receivers; telecommunications apparatus, namely, radio transmitters, transceivers, audio receivers and antennas; antenna components, namely, reflectors and sub-reflectors; chip antennas in the nature of printed circuit boards; antenna boosters; Internet of Things (IoT) range extenders and antennas
A multi-band antenna system can include a base, a ground reference portion coupled to the base, and a cover configured to be removably coupled to the base. The antenna system can include one or more of: four low/high multi-band antenna devices, four multi-band WiFi antenna devices, and a GPS radiating device, which can coupled to the ground reference portion and positioned between the base and the cover. The antenna system can be used for mobile and client-based application for wireless telecommunication. When the antenna system is used in conjunction with high order electromagnetic modes generated or received by a transceiver and/or receiver, the antenna system can have an operating frequency range of between about 500 MHz to about 8.0 GHz.
H01Q 5/314 - Individual or coupled radiating elements, each element being fed in an unspecified way using frequency dependent circuits or components, e.g. trap circuits or capacitors
H01Q 9/42 - Resonant antennas with feed to end of elongated active element, e.g. unipole with folded element, the folded parts being spaced apart a small fraction of the operating wavelength
An antenna assembly can include a cover and a base configured to be removably coupled to the cover. The antenna assembly can include one or more of: a UHF radiator portion, a VHF radiator portion, one or more multi-band radiator portions, one or more dual-band WiFi radiator portions, a GPS antenna, and a loop antenna portion positioned between the cover and the base. The loop antenna can be suspended below the UHF and VHF radiator portion and above the multi-band and dual-band WiFi radiator portions, and can be configured for AM and FM radiofrequency signals. The antenna assembly can be used for broadcast television reception and multi-band wireless telecommunications. The antenna assembly can have a compact aerodynamic profile. The UHF radiator portion and VHF radiator portion can be formed on separate flex-circuits that can be coupled to internal ribs in the cover.
H01Q 21/28 - Combinations of substantially independent non-interacting antenna units or systems
H01Q 7/00 - Loop antennas with a substantially uniform current distribution around the loop and having a directional radiation pattern in a plane perpendicular to the plane of the loop
An antenna assembly can include a front cover, a back cover, and one or more ground reference portions with one or more feed networks positioned between the front cover and the back cover. The antenna assembly can include a first antenna array and a second antenna array coupled to the one or more ground reference portions. The antenna arrays can be an ultra-wide band directional antenna array for mobile and client based application for the wireless telecommunication marketplace. The first antenna and second antenna arrays can two orthogonal polarizations, each covering 1800 to 4200 MHz, a 2.3:1 bandwidth. The ultra-wide band directional antenna array can have ultra-wide bandwidth and narrow elevation and azimuth beamwidths which can allow for an enhancement in the link budget between the base station and the mobile or client by increasing the signal strength from the basestation and decreasing the received signal strength from interfering sources.
H01Q 21/28 - Combinations of substantially independent non-interacting antenna units or systems
H01Q 7/00 - Loop antennas with a substantially uniform current distribution around the loop and having a directional radiation pattern in a plane perpendicular to the plane of the loop
09 - Scientific and electric apparatus and instruments
Goods & Services
(1) Antennas; devices for wireless radio transmission; devices for wireless video transmission; devices for wireless transmission of voice, video or data; transmitters, transceivers, and receivers; telecommunications apparatus, namely, radio transmitters, transceivers, receivers and antennas; antenna components; chip antennas; antenna boosters; Internet of Things (IoT) range extenders and antennas.
09 - Scientific and electric apparatus and instruments
Goods & Services
(1) Antennas; devices for wireless radio transmission; devices for wireless video transmission; devices for wireless transmission of voice, video or data; transmitters, transceivers, and receivers; telecommunications apparatus, namely, radio transmitters, transceivers, receivers and antennas; antenna components; chip antennas; antenna boosters; Internet of Things (IoT) range extenders and antennas.
09 - Scientific and electric apparatus and instruments
42 - Scientific, technological and industrial services, research and design
Goods & Services
(1) Antennas; devices for wireless radio transmission; devices for wireless video transmission; devices for wireless transmission of voice, video or data; transmitters, transceivers, and receivers; telecommunications apparatus, namely, radio transmitters, transceivers, receivers and antennas; antenna components; chip antennas; antenna boosters; Internet of Things (IoT) range extenders and antennas. (1) Research and design relating to antennas, IoT wireless devices, and IoT wireless networks; industrial research in the field of antennas; industrial design services; quality control and authentication services for others in the field of antennas, IoT wireless devices, and IoT wireless networks; research and design services in the field of telecommunications; technological analysis of telecommunication signals; telecommunications engineering consultancy; telecommunications technology consultancy; design of telecommunications apparatus and equipment; design and development of telecommunications networks; testing, analysis and monitoring of telecommunication signals; telecommunications engineering; research and development services in the field of antennas.
An antenna assembly can include a cover and a base configured to be removably coupled to the cover. The antenna assembly can include one or more of: a UHF radiator portion, a VHF radiator portion, one or more multi-band radiator portions, one or more dual-band WiFi radiator portions, a GPS antenna, and a loop antenna portion positioned between the cover and the base. The loop antenna can be suspended below the UHF and VHF radiator portion and above the multi-band and dual-band WiFi radiator portions, and can be configured for AM and FM radiofrequency signals. The antenna assembly can be used for broadcast television reception and multi-band wireless telecommunications. The antenna assembly can have a compact aerodynamic profile. The UHF radiator portion and VHF radiator portion can be formed on separate flex-circuits that can be coupled to internal ribs in the cover.
A multi-band antenna system can include a base, a ground reference portion coupled to the base, and a cover configured to be removably coupled to the base. The antenna system can include one or more of: four low/high multi-band antenna devices, four multi-band WiFi antenna devices, and a GPS radiating device, which can coupled to the ground reference portion and positioned between the base and the cover. The antenna system can be used for mobile and client-based application for wireless telecommunication. When the antenna system is used in conjunction with high order electromagnetic modes generated or received by a transceiver and/or receiver, the antenna system can have an operating frequency range of between about 500 MHz to about 8.0 GHz.
An antenna assembly can include a front cover, a back cover, and one or more ground reference portions with one or more feed networks positioned between the front cover and the back cover. The antenna assembly can include a first antenna array and a second antenna array coupled to the one or more ground reference portions. The antenna arrays can be an ultra-wide band directional antenna array for mobile and client based application for the wireless telecommunication marketplace. The first antenna and second antenna arrays can two orthogonal polarizations, each covering 1800 to 4200MHz, a 2.3: 1 bandwidth. The ultra-wide band directional antenna array can have ultra-wide bandwidth and narrow elevation and azimuth beamwidths which can allow for an enhancement in the link budget between the base station and the mobile or client by increasing the signal strength from the base station and decreasing the received signal strength from interfering sources.
H01Q 1/24 - SupportsMounting means by structural association with other equipment or articles with receiving set
H01Q 1/27 - Adaptation for use in or on movable bodies
H01Q 9/28 - Conical, cylindrical, cage, strip, gauze or like elements having an extended radiating surface Elements comprising two conical surfaces having collinear axes and adjacent apices and fed by two-conductor transmission lines
H01Q 9/44 - Resonant antennas with a plurality of divergent straight elements, e.g. V-dipole, X-antennaResonant antennas with a plurality of elements having mutually inclined substantially straight portions
H01Q 21/06 - Arrays of individually energised antenna units similarly polarised and spaced apart
H01Q 21/30 - Combinations of separate antenna units operating in different wavebands and connected to a common feeder system
Embodiments of the present invention provides an antenna and an antenna system. The antenna includes a body member, a head member integrally connected to a first edge of the body member, wherein the head member forms a fold having a first angle towards the front face of the body member, and a first arm member and a second arm member, wherein the first arm member and the second arm member are integrally connected to the body member corresponding to the second edge and the third edge of the body member, and wherein the set of arm members each form a fold having a second angle towards the front face of the body member.
An antenna unit includes a case having a base and a lid. An antenna assembly is located within the lid and is IP67 compliant, being waterproof. The antenna assembly can provide antennas located on one or more baseplates that are positioned within the top cover of the box. A baseplate can act as a heatsink, a reflector, and/or a ground plane, for the antennas while the cover is closed and in the locked position. The antennas have been designed and optimized to work on a baseplate and designed to operate with the thick plastic cover of the box. A plurality of antenna components are situated within the base separate from the antenna assembly. An optional barrier is located within the base to divide the antenna components from the lid. The antenna assembly include different types of antennas operable at least between 600 MHz to 39 GHz. The lid is separable from the base and is divided from other components to minimize interference so that all antennas may operate simultaneously while the lid is in a closed position.
09 - Scientific and electric apparatus and instruments
Goods & Services
Antennas; devices for wireless radio transmission; devices for wireless video transmission; devices for wireless transmission of voice, video or data; telecommunications transmitters, transceivers, and audio-video receivers; telecommunications apparatus, namely, radio transmitters, transceivers, audio receivers and antennas; antenna components, namely, reflectors and sub-reflectors; chip antennas in the nature of printed circuit boards; antenna boosters; Internet of Things (IoT) range extenders and antennas
09 - Scientific and electric apparatus and instruments
Goods & Services
Antennas; devices for wireless radio transmission; devices for wireless video transmission; devices for wireless transmission of voice, video or data; telecommunications transmitters, transceivers, and audio-video receivers; telecommunications apparatus, namely, radio transmitters, transceivers, audio receivers and antennas; antenna components, namely, reflectors and sub-reflectors; chip antennas in the nature of printed circuit boards; antenna boosters; Internet of Things (IoT) range extenders and antennas
09 - Scientific and electric apparatus and instruments
42 - Scientific, technological and industrial services, research and design
Goods & Services
Antennas; devices for wireless radio transmission; devices for wireless video transmission; devices for wireless transmission of voice, video or data; telecommunications transmitters, transceivers, and audio-video receivers; telecommunications apparatus, namely, radio transmitters, transceivers, audio receivers and antennas; antenna components, namely, reflectors and sub-reflectors; chip antennas in the nature of printed circuit boards; antenna boosters; Internet of Things (IoT) range extenders and antennas research and design relating to antennas, IoT wireless devices, and IoT wireless networks; industrial research in the field of antennas; industrial design services; quality control and authentication services for others in the field of antennas, IoT wireless devices, and IoT wireless networks; research and design services in the field of telecommunications; technological analysis of telecommunication signals; telecommunications engineering consultancy; telecommunications technology consultancy; design of telecommunications apparatus and equipment; design and development of telecommunications networks; testing, analysis and monitoring of telecommunication signals; telecommunications engineering; research and development services in the field of antennas
09 - Scientific and electric apparatus and instruments
42 - Scientific, technological and industrial services, research and design
Goods & Services
Antennas; devices for wireless radio transmission; devices for wireless video transmission; devices for wireless transmission of voice, video or data; telecommunications transmitters, transceivers, and audio-video receivers; telecommunications apparatus, namely, radio transmitters, transceivers, audio receivers and antennas; antenna components, namely, reflectors and sub-reflectors; chip antennas in the nature of printed circuit boards; antenna boosters; Internet of Things (IoT) range extenders and antennas research and design relating to antennas, IoT wireless devices, and IoT wireless networks; industrial research in the field of antennas; industrial design services; quality control and authentication services for others in the field of antennas, IoT wireless devices, and IoT wireless networks; research and design services in the field of telecommunications; technological analysis of telecommunication signals; telecommunications engineering consultancy; telecommunications technology consultancy; design of telecommunications apparatus and equipment; design and development of telecommunications networks; testing, analysis and monitoring of telecommunication signals; telecommunications engineering; research and development services in the field of antennas
38.
Emergency portable hot spot with antennas built into cover
An antenna unit includes a case having a base and a lid. An antenna assembly is located within the lid and is IP67 compliant, being waterproof. A plurality of antenna components are situated within the base separate from the antenna assembly. An optional barrier is located within the base to divide the antenna components from the lid. The antenna assembly include different types of antenna operable at least between 600 MHz to 39 GHz. The lid is separable from the base and is divided from other components to minimize interference so that all antenna may operate simultaneously while the lid is in a closed position.
A multi-band antenna has a feed point, a grounding location, a first portion for low band operation, a second portion for low band operation, and one or more portions for high band operation. The ground reference of the feed point for the multi-band antenna is connected to a separate object that may provide a base for the multi-band antenna. The feed point of the multi-band antenna may be spaced above the base and have a space between the feed point and a location for the ground point. The low band portion has multiple resonances that are often odd multiples of the lowest resonant response. The portions that resonant most dominantly in the high band often have multiple resonances that are even multiples of the lowest high band resonance. The multi-band antenna has resonances spaced closely enough to appear to be a wide band antenna above the fundamental high band resonance.
Embodiments of the present invention provides an antenna and an antenna system. The antenna includes a body member, a head member integrally connected to a first edge of the body member, wherein the head member forms a fold having a first angle towards the front face of the body member, and a first arm member and a second arm member, wherein the first arm member and the second arm member are integrally connected to the body member corresponding to the second edge and the third edge of the body member, and wherein the set of arm members each form a fold having a second angle towards the front face of the body member.
An antenna unit includes a case having a base and a lid. An antenna assembly is located within the lid and is IP67 compliant, being waterproof. A plurality of antenna components are situated within the base separate from the antenna assembly. An optional barrier is located within the base to divide the antenna components from the lid. The antenna assembly include different types of antenna operable at least between 600 MHz to 39 GHz. The lid is separable from the base and is divided from other components to minimize interference so that all antenna may operate simultaneously while the lid is in a closed position.
Embodiments of the present invention provides an antenna and an antenna system. The antenna includes a body member, a head member integrally connected to a first edge of the body member, wherein the head member forms a fold having a first angle towards the front face of the body member, and a first arm member and a second arm member, wherein the first arm member and the second arm member are integrally connected to the body member corresponding to the second edge and the third edge of the body member, and wherein the set of arm members each form a fold having a second angle towards the front face of the body member.
