A fiber optic distribution module assembly for installation in a fiber optic distribution rack includes a fiber optic distribution module with a tray extending from a fiber entry port to a fiber exit port and including a fiber management area. The fiber optic distribution module assembly further includes a fiber optic cable, such as a fiber optic ribbon, which is arranged within the fiber optic distribution module and extends from the fiber entry port via the fiber management area to the fiber exit port. The fiber optic cable arranged in loops whereby, in a top view onto the tray, at least one first loop extends from the fiber entry port towards the fiber exit port and is arranged clockwise and at least a second loop extends from the fiber exit port towards the fiber entry port and is arranged counterclockwise, or vice versa.
A connector including a base element extending along a longitudinal axis from a proximal end, configured to be interconnected to a cable, to a distal end, configured to mate with a mating connector. The connector includes an outer sleeve arranged circumferentially around the base element and moveable between an unlocked position and a locked position, or vice versa. A spring element includes a first end interconnected to the base element and a second end engageable with the mating connector. The outer sleeve axially moves from the unlocked position to the locked position, in which the outer sleeve acts on the spring element so that the second end of the spring element engages with the mating connector for holding the mating connector in a mated state against a pull-out force. The outer sleeve rotates around the longitudinal axis to be axially secured in the locked position.
H01R 24/40 - Two-part coupling devices, or either of their cooperating parts, characterised by their overall structure having concentrically or coaxially arranged contacts specially adapted for high frequency
A cable, in particular liquid cooled cable, comprises a conductor. The conductor is encompassed by a hose (5) spaced in a sectional view at least partially apart from the conductor by an interstitial space arranged between a wall (7) of the hose (5) and the conductor. The interstitial space is suitable to conduct a cooling 5 liquid in the hose (5) along the conductor. The wall (7) comprises a first layer (17), which first layer (17) is an electrically isolating layer, and a second layer (18), which second layer (18) is a barrier layer.
The present disclosure relates to a coaxial connector (1) for connecting a coaxial cable (23). The coaxial connector (1) comprises an outer conductor (3) in form of a base element (4) which comprises a through hole (5) which extends along a longitudinal axis (x) from a first end (6) to a second end (7) of the base element 5 (4). The coaxial connector (1) further comprises a dielectric spacer (8) in form of a dielectric sleeve (9) which is arranged within the through hole (5) of the base element (4) and extends along the longitudinal axis (x). The coaxial connector (1) further comprises an inner conductor (10) in form a spring element (11) which is arranged within the dielectric sleeve (9) and extends along the longitudinal axis 10 (x) and comprises at least at a first end (12) and/or a second end (13) a contact element (14).
H01R 13/24 - Contacts for co-operating by abutting resilientContacts for co-operating by abutting resiliently mounted
H01R 24/44 - Two-part coupling devices, or either of their cooperating parts, characterised by their overall structure having concentrically or coaxially arranged contacts specially adapted for high frequency comprising impedance matching means or electrical components, e.g. filters or switches comprising impedance matching means
H01R 24/50 - Two-part coupling devices, or either of their cooperating parts, characterised by their overall structure having concentrically or coaxially arranged contacts specially adapted for high frequency mounted on a PCB [Printed Circuit Board]
The present disclosure relates to an antenna device (1) comprising an antenna plate (2) having a front face (3) and a back face (4) and at least one waveguide channel segment (5) having a front section (6) and a back section (7) arranged in the antenna plate (2) extending in a first direction (x) parallel to the front face (3) in the antenna plate (2), waveguide apertures (8) arranged in the antenna plate (2) extending between and interconnecting the front section (6) of the waveguide channel segment (5) and the front face (3) of the antenna plate (2), wherein the front section (6) and/or the back section (7) comprise indentations (9) in the form of protrusions (10) extending from a channel wall (11) into the front section (6) and/or the back section (7) of the waveguide channel segment (5) and wherein the waveguide apertures (8) in the region of their rear end (12) have a cross-section (13) with a longer extension (14) and a shorter extension (15).
The invention relates to a cable assembly (1) comprising a cable tube (2) which forms a lumen (3) which is continuous in a longitudinal direction. A plurality of electrical conductors (4) extend within the lumen (3) in the longitudinal direction. The lumen (3) is suitable for conveying a cooling medium. The cable assembly (1) also has a first connection element (5) by means of which the electrical conductors (4) are individually electrically connected at a first end (6) of the cable tube (2).
B60R 16/02 - Electric or fluid circuits specially adapted for vehicles and not otherwise provided forArrangement of elements of electric or fluid circuits specially adapted for vehicles and not otherwise provided for electric
H01B 7/42 - Insulated conductors or cables characterised by their form with arrangements for heat dissipation or conduction
H01R 13/00 - Details of coupling devices of the kinds covered by groups or
A board to board connector assembly (1) for interconnecting a first and a second printed circuit board, spaced a distance apart from each other, comprises a first connector sub-assembly (2) and a second connector sub-assembly (3). The connector sub-assemblies (2, 3) are interconnected to each other in an assembled state by a plug connector (4).
H01R 13/187 - Pins, blades or sockets having separate spring member for producing or increasing contact pressure the spring member being in the socket
H01R 12/91 - Coupling devices allowing relative movement between coupling parts e.g. floating or self aligning
H01R 24/50 - Two-part coupling devices, or either of their cooperating parts, characterised by their overall structure having concentrically or coaxially arranged contacts specially adapted for high frequency mounted on a PCB [Printed Circuit Board]
The present disclosure relates to an antenna layer (1) having a back face (2) and a front face (3) and a method for producing an antenna layer (1). The antenna layer (1) comprises at least two waveguide channels (4), extending at the back face (2) each comprising at least one waveguide aperture (5) for transmitting and/or receiving a signal arranged at the front face (3). The waveguide channels (4) each comprise at least one radiating opening (6), which is arranged in the antenna layer (1) and is interconnected to the waveguide aperture (5) by at least one radiating channel (7). A parting line (8) is arranged in the at least one radiating channel (7) between the back face (2) and the front face (3), which parting line (8) is spaced a distance (D) from the at least one radiating opening (6) towards the at least one waveguide aperture (5) and preferably extends circumferentially within the at least one radiating channel (7). The present disclosure further relates to an antenna assembly (17) comprising the antenna layer (1) and an antenna device (23) comprising the antenna assembly (17).
The present disclosure relates to a fiber optic fan-out assembly (1) comprising, a cable arrangement (2) which comprises a trunk cable (3) comprising optic fibers (4) in form of a bundle and/or at least one ribbon, preferably encompassed by a trunk cable sheathing (5) and a number of pigtails (6) arranged opposite to the trunk cable (3) with respect to a housing (7). The housing (7) extends in an axial direction (x) and encompasses in the axial direction (x) a first cable passage (8) through which the optic fibers (4) of the trunk cable (3) enter the housing (7), a transition space (9) through which the optic fibers (4) extend in the axial direction (x) and which acts as an integrated splice protector, a deflection space (10) in which the optic fibers (4) are deflected forming at least one hump (11) extending in a lateral direction (y, z) and a second cable passage (12) through which the optic fibers (4) exit the housing (7) into the pigtails (6).
An antenna device for automotive radar applications including an antenna assembly which comprises a front face in which at least one antenna aperture is arranged, configured to receive an incoming signal in form of primary rays impacting in the at least one antenna aperture. The front face of the antenna assembly further includes adjacent to the at least one antenna aperture scattering elements by which primary rays, impacting an area of the scattering elements, are at least partially reflected by the scattering elements and thereby separated into first secondary rays and second secondary rays, such that the first secondary rays and the second secondary rays cancel out each other at least partially by interference.
A waveguide antenna with an antenna proximal side and an antenna distal side. A number of waveguide openings for transmitting and/or receiving electromagnetic signals to and/or from an environmental space is arranged at the antenna distal side. The waveguide antenna includes an antenna interface structure that includes interface waveguide apertures arranged in an interface carrying surface that extends transverse to a normal axis. Each interface waveguide aperture is coupled with at least one associated waveguide opening such that the respective interface waveguide aperture and the associated waveguide opening(s) are offset with respect to each other transverse to the normal axis. Each interface waveguide aperture and at least one coupled waveguide opening are configured for transmitting and/or receiving electromagnetic signals with respective polarizations rotated against each other. At least two neighboring interface waveguide apertures may be interlaced with each other, and/or the interface waveguide apertures may in each case enable a simultaneous and/or alternative transferring of at least two electromagnetic signals of different polarization, and/or the interface waveguide apertures may have different aperture orientations.
A charging assembly includes a charging plug and a charging cable for connecting a charging station to the battery of an electric vehicle. The charging plug includes a primary plug housing with a first throughout opening in which a first conductor end piece is arranged, which is attached to the end of a first conductor of the charging cable and includes opposite to the first conductor a first charging contact extending in an axial direction. The charging plug further includes a second throughout opening in which a second conductor end piece is arranged, which is attached to the end of a second conductor of the charging cable and includes opposite to the second conductor a second charging contact laterally spaced apart from and extending parallel to the first charging contact in the axial direction. The first and the second conductor end piece each include at least one cooling surface, exposed to a circulating cooling agent, fluidly interconnected to a respective cladding tube surrounding the first or second conductor for conducting the circulating cooling agent along the first or second conductor.
The present disclosure relates to an antenna device (1) for automotive radar applications comprising a printed circuit board (2) having a front face (3) and a back face (4) and an electronic component (5) which is interconnected to the printed circuit board (2) and an antenna layer (6) having a front face (7) and a back face (8), which back face (8) is interconnected to the front face (7) of the printed circuit board (2). At least one waveguide aperture (9) is interconnected to the front face (7) of the antenna layer (6) and is communicatively connected to the electronic component (5) by at least one waveguide channel (10), wherein the at least one waveguide channel (10) comprises a conductive surface (11) for guiding an electromagnetic field between the electronic component (5) and is formed by a recess (12) arranged between the back face (8) of the antenna layer (6) and the front face (3) of the printed circuit board (2).
An Optical connectivity module (1) suitable for installation in a corresponding chassis. The connectivity module (1) typically comprises a housing (2) defining an interior (3) and comprising a front face (4), wherein at least one row (5) of adapters (6) suitable to receive thereto corresponding optical connectors (7) from the interior (3) and from the exterior, the row of adapters (6) being arranged in the front face (4) spanning essentially across a total width (8) of the front face (4). Usually at least one cable channel (9) leading into the front face (4) above or below the row (5) of adapters (6), for routing therein at least one optical cable (10) across the front face being during operation interconnected to at least one of the adapters (6) of the row of adapters (6) from the interior (3).
The present disclosure relates to a crimp contact (1), made from a plastically deformable material, which comprises a connecting element (2) merging into a tubular section (3). The tubular section (3) provides a receiving space (4) suitable to receive a conductor (5) and extends in a longitudinal direction (x) away from the connecting element (2). The tubular section (3) comprises on the outside a first outer surface (6) having a first outer diameter (7) and a neighboring second outer surface (8) having a second outer diameter (9) with a transition surface (10) interconnecting the first outer surface (6) to the second outer surface (8). On the inside the tubular section (3) comprises an inner surface (11) with a first inner section (12) arranged adjacent to an end face (13) terminating the receiving space (14) and an adjacent second inner section (15) corresponding to the second outer surface (8), wherein in an undeformed state the second outer diameter (9) is larger than the first outer diameter (7), and in a deformed state, after plastic deformation of the tubular section (3) by a crimping tool, the second inner section (15) at least partially protrudes into the receiving space (14).
H01R 4/18 - Electrically-conductive connections between two or more conductive members in direct contact, i.e. touching one anotherMeans for effecting or maintaining such contactElectrically-conductive connections having two or more spaced connecting locations for conductors and using contact members penetrating insulation effected solely by twisting, wrapping, bending, crimping, or other permanent deformation by crimping
H01R 4/20 - Electrically-conductive connections between two or more conductive members in direct contact, i.e. touching one anotherMeans for effecting or maintaining such contactElectrically-conductive connections having two or more spaced connecting locations for conductors and using contact members penetrating insulation effected solely by twisting, wrapping, bending, crimping, or other permanent deformation by crimping using a crimping sleeve
The present disclosure relates to a fiber optic connector (1) comprising, a tubular rear base element (5) which extends in a longitudinal direction (x) from a rear end (4) to a front end (5) and comprises on the inside a fiber deflection section (6) configured to provide deflection room for at least one laterally deflected optical fiber (8) extending in a mounted position of the fiber optic connector (1) across the tubular rear base element (5), tubular front base element (9) which comprises at its rear end (10) a recess (12) in which a front section (13) of the tubular rear base element (5) is arranged in a form fit manner and a ferrule (14) arranged deflectable against the force of a spring (15) in a ferrule holder (16) arranged inside of the tubular front base element (9) in front of the tubular rear base element (5).
The disclosure is directed to an antenna device (1) comprising a printed circuit board (2) and a thereon arranged electronic component (3). The antenna device (1) comprises at least two individual antenna elements (12) which are interconnected to the electronic component (3) configured to transmit and receive a signal. The antenna elements (12) each comprise at least one waveguide channel (9) interconnecting in the antenna assembly (6). A first waveguide aperture (10) is arranged at a back face (16) of the antenna assembly (6). Said first waveguide aperture (10) is interconnected to the electronic component (3) and configured to transmit and/or receive a signal. A second waveguide aperture (11) is arranged at a front face (17) of the waveguide assembly (6) and is also configured to transmit and/or receive a signal.
The present disclosure relates to a crimp neck (1) comprising a collar (2) which is made from a metal and extends in a longitudinal direction (x). The aacrimp neck (1) comprises a lateral surface (3) with several first grooves (4) which are arranged in the lateral surface (3) extending in circumferential direction and made by a first metal cutting process by removing metal from the collar (2). The lateral surface (3) further comprises several second grooves (5) arranged in the lateral surface (3) distributed in circumferential direction and extending in longitudinal direction (x) of the collar (2).
H01R 43/16 - Apparatus or processes specially adapted for manufacturing, assembling, maintaining, or repairing of line connectors or current collectors or for joining electric conductors for manufacturing contact members, e.g. by punching and by bending
H01R 4/20 - Electrically-conductive connections between two or more conductive members in direct contact, i.e. touching one anotherMeans for effecting or maintaining such contactElectrically-conductive connections having two or more spaced connecting locations for conductors and using contact members penetrating insulation effected solely by twisting, wrapping, bending, crimping, or other permanent deformation by crimping using a crimping sleeve
H01R 4/18 - Electrically-conductive connections between two or more conductive members in direct contact, i.e. touching one anotherMeans for effecting or maintaining such contactElectrically-conductive connections having two or more spaced connecting locations for conductors and using contact members penetrating insulation effected solely by twisting, wrapping, bending, crimping, or other permanent deformation by crimping
The present disclosure relates to an antenna arrangement (1), which comprises a baseplate (2) having a center (3), a bottom face (4) and a top face (5). At least two first antenna elements (6) are arranged on the top face (5) and extend radially away from the center (3). Each of the at least two first antenna elements (6) comprises a with respect to the base plate (2) essentially perpendicular arranged first section (7), which is arranged radially towards the center (3). The first section (7) merges into a second section (8) which is arranged with respect to the base plate (2) essentially parallel and extends away from the first section (7) in a first direction. The second section (8) merges into a third section (9) arranged with respect to the base plate (2) essentially perpendicular extending away from the second section (8) above the first section (7). The third section (9) merges into a fourth section (10) arranged with respect to the base plate (2) essentially parallel extending away from the third section (9) opposite to the first direction.
H01Q 5/42 - Imbricated or interleaved structuresCombined or electromagnetically coupled arrangements, e.g. comprising two or more non-connected fed radiating elements using two or more imbricated arrays
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
H01Q 21/20 - Arrays of individually energised antenna units similarly polarised and spaced apart the units being spaced along, or adjacent to, a curvilinear path
H01Q 21/28 - Combinations of substantially independent non-interacting antenna units or systems
H01Q 1/32 - Adaptation for use in or on road or rail vehicles
The present disclosure relates to a cable assembly (1 ) for medical radio frequency or microwave ablation. The cable assembly comprises a coaxial cable (2), which comprises an inner conductor (3), encompassed by a dielectric layer (4), encompassed by an outer conductor (5). The cable assembly (1 ) further comprises a first cooling line (6) and a thermal conductive layer (7), which in a cross-sectional view encompasses the coaxial cable (2) and the first cooling line (6) in a circumferential manner. The thermal conductive layer (7) is configured to reduce a thermal peak caused by the coaxial cable (2) when transferring energy, by distributing thermal energy around the coaxial cable (2) and the first cooling line (6) in a circumferential manner.
A61B 18/18 - Surgical instruments, devices or methods for transferring non-mechanical forms of energy to or from the body by applying electromagnetic radiation, e.g. microwaves
The present disclosure relates to an optical connector (1) to terminate an optical cable (2) which optical cable (2) comprises an optical fiber (3) encompassed by a strength member (4) encompassed by a cable jacket (5). Said optical connector (1) comprises a base (6) with a through hole (7) extending in a longitudinal direc-5 tion (x), configured to receive the optical fiber (3) and a first fastening means (8) which is configured to attach the strength member (4) to the base (6) and a thereto in the longitudinal direction (x) spaced apart second fastening means (9) which is configured to directly or indirectly attach the cable jacket (5) to the base (6). The first fastening means (8) is incorporated with the base (6) and comprises a fan out surface (14) which encompasses the through hole (7) and to which in the mounted position the strength member (4) of the optical cable (2) is attached by gluing and/or welding.
The disclosure is directed to a PMF-transceiver (1) comprising a housing (2) with a recess (5) in which a printed circuit board (6) is arranged. The printed circuit board (6) comprises at least one radiating element (7) being in a mounted position inter-connected to a thereto related PMF-cable (18) by a PMF-interposer (13) arranged 5 between the printed circuit board (6) and the PMF-cable (18) and comprising a main body (14) arranged in a cavity (17) in the housing (2). The PMF-interposer (13) extends between the radiating element (7) and the PMF-cable (19).
The present disclosure relates to an antenna device (1) comprising an antenna plate (2) having a front face (3) and a back face (4) and at least one waveguide channel segment ( 5) having a front section (6) and a back section (7) arranged in the antenna plate (2) extending in a first direction (x) parallel to the front face (3) in the antenna plate (2), waveguide apertures (8) arranged in the antenna plate (2) extending between and interconnecting the front section (6) of the waveguide channel segment (5) and the front face (3) of the antenna plate (2), wherein the front section (6) and/or the back section (7) comprise indentations (9) in the form of protrusions (10) extending from a channel wall (11) into the front section (6) and/or the back section (7) of the waveguide channel segment (5) and wherein the waveguide apertures (8) in the region of their rear end (12) have a cross-section (13) with a longer extension ( 14) and a shorter extension ( 15).
An SFO-box (1) suitable to receive at least one optical fan out module (6). The SFO-box (1) includes a housing (2) with a base (3) and a top (4) which in an assembled position encompass a mounting space (5) suitable to receive the at least one optical fan out module (6) therein. The top (4) includes first fastening means (7) and the base (3) comprises second fastening means (8) which from their layout are compatible to each other such that two assembled housings (2) can be attached to each other in a stackable manner by interconnecting the first fastening means (7) of the top (4) and the second fastening means (8) of the base (3).
G02B 6/44 - Mechanical structures for providing tensile strength and external protection for fibres, e.g. optical transmission cables
G02B 6/28 - Optical coupling means having data bus means, i.e. plural waveguides interconnected and providing an inherently bidirectional system by mixing and splitting signals
25.
Omnidirectional horizontally polarized antenna with high current protection
The disclosure is directed to an antenna assembly (1) comprising a horizontally polarized Vivaldi-type first antenna (5). The first antenna (5) comprises a horizontally polarized first radiator (6) extending in a horizontal plane (xy) having a flower-shaped outline comprising several tapered slots (7) arranged distributed around a radiator center (8). The first radiator (6) is horizontally (xy) extending with respect to the radiator center (8) in an outward direction. In vertical direction (z), the radiator extends by a certain thickness (t). A base plate (9) arranged at a certain distance below the radiator (6) interconnected to the radiator (6) by at least one post (10). A power divider (11) and a feeding stub (12) per tapered slot (7) are arranged between the base plate (9) and the first radiator (6). interconnected to the first radiator (6) for coupling radio signals into the first radiator (6).
H01Q 13/08 - Radiating ends of two-conductor microwave transmission lines, e.g. of coaxial lines, of microstrip lines
H01Q 21/20 - Arrays of individually energised antenna units similarly polarised and spaced apart the units being spaced along, or adjacent to, a curvilinear path
H01Q 21/24 - Combinations of antenna units polarised in different directions for transmitting or receiving circularly and elliptically polarised waves or waves linearly polarised in any direction
H01Q 21/28 - Combinations of substantially independent non-interacting antenna units or systems
An assembly (1) with a charging plug (2) and a charging cable (3) attached thereto for a charging column for charging electric vehicles. The charging cable (3) has a cable sheath (4) and a plurality of conductors (5) movably arranged therein, the charging plug (2) including a plug housing (6) on which plug contacts (8) interconnected to the conductors (5) are arranged at a front end (7). Furthermore, a holder (10), to which the cable sheath (4) of the charging cable (3) is fastened, is arranged at a rear end (9) of the charging plug (2), wherein the holder (10) is arranged rotatably about a longitudinal axis (11) of the plug housing (6) by an angle of rotation (α) relative to the plug housing (6).
B60L 53/16 - Connectors, e.g. plugs or sockets, specially adapted for charging electric vehicles
H01R 13/631 - Additional means for facilitating engagement or disengagement of coupling parts, e.g. aligning or guiding means, levers, gas pressure for engagement only
A high-frequency assembly includes a cable with at least one dielectric waveguide fiber with a first end and an opposed second end. The high-frequency assembly includes a high-frequency circuit and an interface unit. The at least one dielectric waveguide fiber is at the first end operatively coupled with the high-frequency circuit via the interface unit. The interface unit is designed to inject a high-frequency signal into the dielectric waveguide fiber and/or to receive a high-frequency signal from the at least one dielectric waveguide fiber at the first end. The high-frequency signal has a first signal component of a first polarization direction and a second signal component of a second polarization direction, wherein the high-frequency assembly is designed to inject the first signal component and the second signal component in a defined manner and/or to split a received high-frequency signal into the first signal component and the second signal component.
H01P 3/16 - Dielectric waveguides, i.e. without a longitudinal conductor
H01P 1/161 - Auxiliary devices for mode selection, e.g. mode suppression or mode promotionAuxiliary devices for mode conversion sustaining two independent orthogonal modes, e.g. orthomode transducer
H04B 10/2507 - Arrangements specific to fibre transmission for the reduction or elimination of distortion or dispersion
An antenna device for automotive radar applications comprising an antenna assembly which comprises a front face in which at least one antenna aperture is arranged, configured to receive an incoming signal in form of primary rays impacting in the at least one antenna aperture. The front face of the antenna assembly further comprises adjacent to the at least one antenna aperture scattering elements by which primary rays, impacting in the area of the scattering elements, are at least partially reflected by the scattering elements and thereby separated into first secondary rays and second secondary rays, such that the first secondary rays and the second secondary rays cancel out each other at least partially by interference.
H01Q 1/32 - Adaptation for use in or on road or rail vehicles
H01Q 1/42 - Housings not intimately mechanically associated with radiating elements, e.g. radome
H01Q 19/02 - Combinations of primary active antenna elements and units with secondary devices, e.g. with quasi-optical devices, for giving the antenna a desired directional characteristic Details
H01Q 21/06 - Arrays of individually energised antenna units similarly polarised and spaced apart
An Optical connectivity module (1) suitable for installation in a corresponding chassis. The connectivity module (1) typically comprises a housing (2) defining an interior (3) and comprising a front face (4), wherein at least one row (5) of adapters (6) suitable to receive thereto corresponding optical connectors (7) from the interior (3) and from the exterior, the row of adapters (6) being arranged in the front face (4) spanning essentially across a total width (8) of the front face (4). Usually at least one cable channel (9) leading into the front face (4) above or below the row (5) of adapters (6), for routing therein at least one optical cable (10) across the front face being during operation interconnected to at least one of the adapters (6) of the row of adapters (6) from the interior (3).
The present invention concerns a waveguide antenna (11) with an antenna proximal side (11P) and an antenna distal side (11D). A number of waveguide openings (115) for transmitting electromagnetic signals to and/or receiving electromagnetic signals from an environmental space is arranged at the antenna distal side (11D). The waveguide antenna (11) includes an antenna interface structure (111) for connecting the waveguide antenna (11) to a printed circuit board (12) and/or a semiconductor component. The antenna interface structure (111) includes a number of interface waveguide apertures (112) arranged in an interface carrying surface (113). The interface carrying surface (113) extends transverse to a normal axis. Each interface waveguide aperture (112) is coupled with at least one associated waveguide opening such that the respective interface waveguide aperture and the associated at least one waveguide opening are offset with respect to each other transverse to the normal axis. Each interface waveguide aperture (112) and at least one thereto coupled waveguide opening are configured for transmitting and/or receiving electromagnetic signals with respective polarizations rotated against each other. The interface waveguide apertures (112) may be designed and arranged such that at least two neighboring interface waveguide apertures (112) are interlaced with each other, and/or the interface waveguide apertures (112) may in each case designed to enable a simultaneous and/or alternative transferring of at least two electromagnetic signals of different polarization, and/or the interface waveguide apertures may be designed and arranged such that at least two neighboring interface waveguide apertures (112) have different aperture orientations.
An antenna module (1) with a number of antennas (11). Each antenna (11) includes a number of antenna elements and a number of elongated antenna contact elements (112). The antenna contact elements (112) are each configured to establish contact with an associated conductive path of a printed circuit board (2) via a movement of the antennas (11) and the printed circuit board (2) towards each other. The antenna module further includes a shielding with a shielding frame (12) and a shielding cover (15). The shielding frame (12) has a proximal shielding frame end that is configured for mounting on the printed circuit board (2) under circumferential contact. The shielding cover is in circumferential contact with the shielding frame (12). The shielding carrying the number of antennas (11, 11′).
H01Q 9/16 - Resonant antennas with feed intermediate between the extremities of the antenna, e.g. centre-fed dipole
H01Q 1/24 - SupportsMounting means by structural association with other equipment or articles with receiving set
H01Q 1/38 - Structural form of radiating elements, e.g. cone, spiral, umbrella formed by a conductive layer on an insulating support
H01Q 1/50 - Structural association of antennas with earthing switches, lead-in devices or lightning protectors
H01Q 1/52 - Means for reducing coupling between antennas Means for reducing coupling between an antenna and another structure
H01Q 17/00 - Devices for absorbing waves radiated from an antenna Combinations of such devices with active antenna elements or systems
H01Q 21/26 - Turnstile or like antennas comprising arrangements of three or more elongated elements disposed radially and symmetrically in a horizontal plane about a common centre
The disclosure is directed to an antenna device (1) comprising a printed circuit board (2) and a thereon arranged electronic component (3). The antenna device (1) comprises at least two individual antenna elements (12) which are interconnected to the electronic component (3) configured to transmit and receive a signal. The antenna elements (12) each comprise at least one waveguide channel (9) interconnecting in the antenna assembly (6). A first waveguide aperture (10) is arranged at a back face (16) of the antenna assembly (6). Said first waveguide aperture (10) is interconnected to the electronic component (3) and configured to transmit and/or receive a signal. A second waveguide aperture (11) is arranged at a front face (17) of the waveguide assembly (6) and is also configured to transmit and/or receive a signal.
H01Q 23/00 - Antennas with active circuits or circuit elements integrated within them or attached to them
H01Q 21/06 - Arrays of individually energised antenna units similarly polarised and spaced apart
G01S 13/00 - Systems using the reflection or reradiation of radio waves, e.g. radar systemsAnalogous systems using reflection or reradiation of waves whose nature or wavelength is irrelevant or unspecified
A coaxial connector and a coaxial cable forming a cable assembly. The coaxial connector includes a cable entry side for entry of the coaxial cable and an opposite coupling side for coupling with the coaxial counter connector along the connector axis. The coaxial connector includes an inner contact element electrically connected with an inner conductor of the coaxial cable; an outer contact element electrically connected with an outer conductor of the coaxial cable; a dielectric connector element radially arranged between the inner contact element and the outer contact element; a connector housing arranged around the outer contact element; wherein the inner contact element is axially locked against the dielectric connector element and the dielectric connector element is axially locked against the connector housing such that the coaxial cable is strain relieved in an axial direction with respect to the connector housing.
H01R 9/05 - Connectors arranged to contact a plurality of the conductors of a multiconductor cable for coaxial cables
H01R 24/40 - Two-part coupling devices, or either of their cooperating parts, characterised by their overall structure having concentrically or coaxially arranged contacts specially adapted for high frequency
H01R 13/52 - Dustproof, splashproof, drip-proof, waterproof, or flameproof cases
H01R 13/58 - Means for relieving strain on wire connection, e.g. cord grip
A dielectric wave guide cable (1) includes a tubular core (2) made from a low loss material having a certain permittivity. The tubular core (2) is encompassed by a cladding (3) having, compared to the tubular core (2), a lower permittivity. The tubular core (2) may be coated on the inside by a coating (3) having a higher permittivity. The cladding (3) may be encompassed by a jacket (4).
A liquid cooled cable (1) includes a conductor (2) with at least two cable strands (3). The conductor (2) is encompassed by a hose (5) spaced in a sectional view at least partially apart from the conductor (2) by an interstitial space (6). The interstitial space (6) is arranged between an inner wall (7) of the hose (5) and the cable strands (3) of the conductor (2). The interstitial space (6) conducts a cooling liquid (15) along the conductor (2).
B60L 53/18 - Cables specially adapted for charging electric vehicles
F16L 11/118 - Hoses, i.e. flexible pipes made of rubber or flexible plastics with corrugated wall having arrangements for particular purposes, e.g. electrically conducting
H01B 5/10 - Several wires or the like stranded in the form of a rope stranded around a space, insulating material, or dissimilar conducting material
A coaxial connecting member (1) for transmitting radio-frequency signals between a first and a second circuit board (2, 3) includes an inner conductor (4), an outer conductor (5) and an insulating member (6) arranged between the inner conductor (4) and the outer conductor (5). The inner conductor (4) and/or the outer conductor (5) comprise a first and a second end section (7, 8) to interconnect the inner conductor (4) to the first and the second circuit board (2, 3). The first and the second end section (7, 8) are interconnected to each other by at least one elastically deformable transversal section (9) to compensate axial and/or lateral misalignment of the first and the second circuit board (2, 3) with respect to each other.
H01R 12/00 - Structural associations of a plurality of mutually-insulated electrical connecting elements, specially adapted for printed circuits, e.g. printed circuit boards [PCB], flat or ribbon cables, or like generally planar structures, e.g. terminal strips, terminal blocksCoupling devices specially adapted for printed circuits, flat or ribbon cables, or like generally planar structuresTerminals specially adapted for contact with, or insertion into, printed circuits, flat or ribbon cables, or like generally planar structures
H01R 12/91 - Coupling devices allowing relative movement between coupling parts e.g. floating or self aligning
H01R 12/71 - Coupling devices for rigid printing circuits or like structures
H01R 13/24 - Contacts for co-operating by abutting resilientContacts for co-operating by abutting resiliently mounted
H01R 24/42 - Two-part coupling devices, or either of their cooperating parts, characterised by their overall structure having concentrically or coaxially arranged contacts specially adapted for high frequency comprising impedance matching means or electrical components, e.g. filters or switches
A board to board connector assembly (1) includes a first connector (2) suitable to be arranged on a first printed circuit board (3) and a second connector (4) suitable to be arranged on a second printed circuit board (5). An adapter (6) is arranged in a mounted position between and interconnected to the first and the second connector (2, 4). The adapter (6) includes an adapter inner conductor (7) and an adapter outer conductor (8). The adapter outer conductor (8) is arranged separate from the adapter inner conductor (7) and comprises a bore (18) in which the adapter inner conductor (7) is arranged.
H01R 13/6594 - Specific features or arrangements of connection of shield to conductive members the shield being mounted on a PCB and connected to conductive members
H01R 24/50 - Two-part coupling devices, or either of their cooperating parts, characterised by their overall structure having concentrically or coaxially arranged contacts specially adapted for high frequency mounted on a PCB [Printed Circuit Board]
H01R 24/54 - Intermediate parts, e.g. adapters, splitters or elbows
H01R 12/73 - Coupling devices for rigid printing circuits or like structures coupling with the edge of the rigid printed circuits or like structures connecting to other rigid printed circuits or like structures
H01R 24/48 - Two-part coupling devices, or either of their cooperating parts, characterised by their overall structure having concentrically or coaxially arranged contacts specially adapted for high frequency comprising impedance matching means or electrical components, e.g. filters or switches comprising protection devices, e.g. overvoltage protection
H01R 12/53 - Fixed connections for rigid printed circuits or like structures connecting to cables except for flat or ribbon cables
H01R 12/51 - Fixed connections for rigid printed circuits or like structures
H01R 12/91 - Coupling devices allowing relative movement between coupling parts e.g. floating or self aligning
H01R 13/6591 - Specific features or arrangements of connection of shield to conductive members
H01R 13/6592 - Specific features or arrangements of connection of shield to conductive members the conductive member being a shielded cable
H01R 24/40 - Two-part coupling devices, or either of their cooperating parts, characterised by their overall structure having concentrically or coaxially arranged contacts specially adapted for high frequency
P23710PC00 26/26 ABSTRACT The disclosure is directed to a PMF-transceiver (1) comprising a housing (2) with a recess (5) in which a printed circuit board (6) is arranged. The printed circuit board (6) comprises at least one radiating element (7) being in a mounted position inter- connected to a thereto related PMF-cable (18) by a PMF-interposer (13) arranged 5 between the printed circuit board (6) and the PMF-cable (18) and comprising a main body (14) arranged in a cavity (17) in the housing (2). The PMF-interposer (13) extends between the radiating element (7) and the PMF-cable (19). (Figure 1)
H01P 5/08 - Coupling devices of the waveguide type for linking lines or devices of different kinds
H01P 5/10 - Coupling devices of the waveguide type for linking lines or devices of different kinds for coupling balanced lines or devices with unbalanced lines or devices
H01P 3/16 - Dielectric waveguides, i.e. without a longitudinal conductor
43.
OMNIDIRECTIONAL HORIZONTALLY POLARIZED ANTENNA WITH HIGH CURRENT PROTECTION
The disclosure is directed to an antenna assembly (1) comprising a horizontally polarized Vivaldi-type first antenna (5). The first antenna (5) comprises a horizontally polarized first radiator (6) extending in a horizontal plane (xy) having a flower-shaped outline comprising several tapered slots (7) arranged distributed around a radiator center (8). The first radiator (6) is horizontally (xy) extending with respect to the radiator center (8) in an outward direction. In vertical direction (z), the radiator extends by a certain thickness (t). A base plate (9) arranged at a certain distance below the radiator (6) interconnected to the radiator (6) by at least one post (10). A power divider (11) and a feeding stub (12) per tapered slot (7) are arranged between the base plate (9) and the first radiator (6), interconnected to the first radiator (6) for coupling radio signals into the first radiator (6).
H01Q 1/00 - Details of, or arrangements associated with, antennas
H01Q 21/20 - Arrays of individually energised antenna units similarly polarised and spaced apart the units being spaced along, or adjacent to, a curvilinear path
H01Q 13/08 - Radiating ends of two-conductor microwave transmission lines, e.g. of coaxial lines, of microstrip lines
H01Q 21/24 - Combinations of antenna units polarised in different directions for transmitting or receiving circularly and elliptically polarised waves or waves linearly polarised in any direction
H01Q 21/28 - Combinations of substantially independent non-interacting antenna units or systems
Disclosed is a high-frequency assembly (1), including a cable, the cable including at least one dielectric waveguide fiber (11) with a first end (111) and an opposed second end (112). The high-frequency assembly includes a high-frequency circuit (14) and an interface unit (12, 13, 15, 16). The at least one dielectric waveguide fiber (11) is at the first end (111) operatively coupled with the high-frequency circuit via the interface unit (12, 13, 15, 16). The interface unit (12, 13, 15, 16) is designed to inject a high-frequency signal into the dielectric waveguide fiber and/or to receive a high-frequency signal from the at least one dielectric waveguide fiber (11) at the first end (111). The high-frequency signal has a first signal component of a first polarization direction and a second signal component of a second polarization direction, wherein the high-frequency assembly (1) is designed to inject the first signal component and the second signal component in a defined manner and/or to split a received high-frequency signal into the first signal component and the second signal component. Disclosed is further a method for transmitting a high-frequency signal using a high-frequency assembly.
Disclosed is an antenna module (1) with a number of antennas (11). Each antenna (11) includes a number of antenna elements and a number of elongated antenna contact elements (112). The antenna contact elements (112) are each configured to establish contact with an associated conductive path of a printed circuit board (2) via a movement of the antennas (11) and the printed circuit board (2) towards each other. The antenna module further includes a shielding with a shielding frame (12) and a shielding cover (15). The shielding frame (12) has a proximal shielding frame end that is configured for mounting on the printed circuit board (2) under circumferential contact. The shielding cover is in circumferential contact with the shielding frame (12). The shielding carrying the number of antennas (11, 11').
H01Q 1/24 - SupportsMounting means by structural association with other equipment or articles with receiving set
H01Q 21/26 - Turnstile or like antennas comprising arrangements of three or more elongated elements disposed radially and symmetrically in a horizontal plane about a common centre
H01Q 1/52 - Means for reducing coupling between antennas Means for reducing coupling between an antenna and another structure
The invention is directed to a connector assembly (1) comprising a first connector part (2) which is interconnectable to a second connector part (3). The first connector part (2) comprises a ferrule (13) which is encompassed by a shutter frame (17) and a thereto attached shutter (16). The shutter (16) is arranged movable with respect to the ferrule (13) in a first direction (x) between a closed position, in which the shutter (16) encompasses a connection face (37) of the ferrule (13), and an open position, in which the connection face (37) is set free from the shutter (16). The shutter frame (17) and/or the shutter (16) comprises at least one locating surface (36) which during mating interacts with the second connector part (3) such that the shutter (16) is displaced relative to the ferrule (13) from the closed to the open position.
A stripping tool for a cable includes a cutting unit with at least one blade, a cable seat, and a kinematic structure. The kinematic structure is operatively coupled with the cutting unit to move the at least one blade radially with respect to, and rotationally around, a tool axis and the cable seat. A method for stripping a cable includes moving a plurality of blades of a cutting unit with respect to each other radially to and rotationally around a tool axis. The method includes controlling and coordinating the movement of the blades via a kinematic structure.
H02G 1/12 - Methods or apparatus specially adapted for installing, maintaining, repairing, or dismantling electric cables or lines for removing insulation or armouring from cables, e.g. from the end thereof
The invention is directed to a coaxial connector and cable assembly (100) comprising a coaxial connector (1) and a coaxial counter connector (4) interconnectable to each other along a connector axis (A) as well as a coaxial cable (2) interconnected to the coaxial connector (1). The coaxial connector (1) is having a cable entry side for entry of the coaxial cable (2) and an opposite coupling side for coupling with the coaxial counter connector (4) along the connector axis (A). The coaxial connector (1) is including an inner contact element (11), the inner contact element (11) being electrically connected with an inner conductor (21) of the coaxial cable (2); an outer contact element (13), the outer contact element (13) being electrically connected with an outer conductor (23) of the coaxial cable (2); a dielectric connector element (12), the dielectric connector element (12) being radially arranged between the inner contact element (11) and the outer contact element (13); a connector housing (14), the connector housing (14) being arranged around the outer contact element (13); wherein the inner contact element (11) is axially locked against the dielectric connector element (12) and the dielectric connector element (12) is axially locked against the connector housing (14) such that the coaxial cable (2) is strain relieved in axial direction with respect to the connector housing (14).
An interconnection assembly for a switching device includes at least one cable with a core having a first dielectric material at least partially surrounded by a second dielectric material having a refractive index different from the first dielectric material. A first connector part is positioned with respect to an antenna and includes a fan-out element and at least one hollow conductor arranged between the antenna and the core of the cable wherein the hollow conductor extends in the fan-out element to guide a signal between the antenna and the core of the cable, wherein the hollow conductor includes a first port aligned with the antenna and a second port, and when. assembled is in communication with the core of the cable, At least one second connector part is interconnected to position the core of the cable in a connected position relative to the second port of the hollow conductor.
H01Q 13/24 - Non-resonant leaky-waveguide or transmission-line antennas Equivalent structures causing radiation along the transmission path of a guided wave constituted by a dielectric or ferromagnetic rod or pipe
The invention is directed to a dielectric wave guide cable (1) comprising a tubular core (2) made from a low loss material having a certain permittivity. The tubular core (2) is encompassed by a cladding (3) having, compared to the tubular core (2), a lower permittivity. The tubular core (2) may be coated on the inside by a coating (3) having a higher permittivity. The cladding (3) may be encompassed by a jacket (4).
An optical plug connector (1) having a base body (2) extending in a longitudinal direction (x) with a front end (24) having a first opening to receive a ferrule (7) protruding above the front end (24) of the base body (2) and a rear end (25) having a second opening to receive an optical cable. An articulated locking arm (4) is formed on the front end (24) of the base body (2) and protrudes obliquely toward the rear. A cap (10) is arranged at the base body (2) in front of the articulated locking arm (4) and pivotable about a hinge axis (20) of a hinge (19) to protect the ferrule (7) in a closed position and release the ferrule (7) in an open position. The cap (10) is arranged above the ferrule (7) and in front of the locking arm (4) in a transversal direction (y).
The invention concerns a radio frequency connector (1) comprising a first connector part (2) and a second connector part (3). The first connector part (2) comprises a plurality of coaxial first contact inserts (20) and the second connector part (3) comprises a corresponding plurality of associated coaxial second contact inserts (30). The radio frequency connector (1) further comprises a plurality of coaxial intermediate contact elements (40), with each intermediate contact element being associated with a first contact insert (20) and the corresponding second con-tact insert (30). Each intermediate contact element (40) is arranged in swiveling coupling with the associated first contact insert (20) or second contact insert (30) in a swiveling area to allow swiveling of the intermediate contact element (40) when coupling the first connector part (2) and the second connector part (3) by a coupling movement along a longitudinal axis. The swiveling area is circumferentially surrounded by the first connector part body (201) or second connector part body (301), respectively.
H01R 13/631 - Additional means for facilitating engagement or disengagement of coupling parts, e.g. aligning or guiding means, levers, gas pressure for engagement only
H01R 24/54 - Intermediate parts, e.g. adapters, splitters or elbows
H01R 24/50 - Two-part coupling devices, or either of their cooperating parts, characterised by their overall structure having concentrically or coaxially arranged contacts specially adapted for high frequency mounted on a PCB [Printed Circuit Board]
H01R 24/52 - Two-part coupling devices, or either of their cooperating parts, characterised by their overall structure having concentrically or coaxially arranged contacts specially adapted for high frequency mounted in or to a panel or structure
The invention relates to a board to board connector assembly (1) comprising a first connector (2) suitable to be arranged on a first printed circuit board (3) and a second connector (4) suitable to be arranged on a second printed circuit board (5). An adapter (6) is arranged in a mounted position between and interconnected to the first and the second connector (2, 4). The adapter (6) comprises an adapter inner conductor (7) and an adapter outer conductor (8). The adapter outer conductor (8) is arranged separate from the adapter inner conductor (7) and comprises a bore (18) in which the adapter inner conductor (7) is arranged.
H01R 12/73 - Coupling devices for rigid printing circuits or like structures coupling with the edge of the rigid printed circuits or like structures connecting to other rigid printed circuits or like structures
H01R 13/6594 - Specific features or arrangements of connection of shield to conductive members the shield being mounted on a PCB and connected to conductive members
H01R 24/50 - Two-part coupling devices, or either of their cooperating parts, characterised by their overall structure having concentrically or coaxially arranged contacts specially adapted for high frequency mounted on a PCB [Printed Circuit Board]
H01R 12/91 - Coupling devices allowing relative movement between coupling parts e.g. floating or self aligning
H01R 24/54 - Intermediate parts, e.g. adapters, splitters or elbows
The invention is directed to a coaxial connecting member (1) for transmitting radiofrequency signals between a first and a second circuit board (2, 3). The connection member (1) comprises an inner conductor (4), an outer conductor (5) and an insulating member (6) arranged between the inner conductor (4) and the outer conductor (5). The inner conductor (4) and/or the outer conductor (5) comprise a first and a second end section (7, 8) to interconnect the inner conductor (4) to the first and the second circuit board (2, 3). The first and the second end section (7, 8) are interconnected to each other by at least one elastically deformable transversal section (9) to compensate axial and/or lateral misalignment of the first and the second circuit board (2, 3) with respect to each other.
H01R 13/24 - Contacts for co-operating by abutting resilientContacts for co-operating by abutting resiliently mounted
H01R 24/50 - Two-part coupling devices, or either of their cooperating parts, characterised by their overall structure having concentrically or coaxially arranged contacts specially adapted for high frequency mounted on a PCB [Printed Circuit Board]
H01R 12/73 - Coupling devices for rigid printing circuits or like structures coupling with the edge of the rigid printed circuits or like structures connecting to other rigid printed circuits or like structures
H01R 24/42 - Two-part coupling devices, or either of their cooperating parts, characterised by their overall structure having concentrically or coaxially arranged contacts specially adapted for high frequency comprising impedance matching means or electrical components, e.g. filters or switches
An electrical connector assembly includes a first connector portion with a first housing with a circumferential inner locking shoulder at a first end of the first housing and a second connector portion interconnectable with the first connector portion, having a second housing with a circumferential outer groove arranged coaxially with respect to a connector axis. A radially deformable locking ring is arranged in the circumferential groove of the second connector portion. The locking ring includes a circumferential outer locking shoulder, behind which the inner locking shoulder of the first connector portion is locked in a connected state of the first and the second connector portion and an unlocking surface that is circumferentially accessible from the outer vicinity in the connected state.
H01R 13/6585 - Shielding material individually surrounding or interposed between mutually spaced contacts
H01R 24/40 - Two-part coupling devices, or either of their cooperating parts, characterised by their overall structure having concentrically or coaxially arranged contacts specially adapted for high frequency
The present invention is directed to a coaxial connector ( 1 ) for electrically interconnecting a coaxial cable (300) with a circuit board (50). The coaxial connector ( 1 ) has a connector front end (2) to be interconnected with a circuit board (50) and a connector rear end (3) to be interconnected with the coaxial cable (300). It further comprises an outer conductor arrangement (200) to be interconnected with an outer conductor (320) of a coaxial cable (300) at the connector rear end (3), which has a compensator means (220) arranged at the connector front end (2) and has at least one cup spring (230) comprising a contacting zone (231 ) configured to contact a contact face (53) of a circuit board (50) to establish an electrical inter-connection between the outer conductor arrangement (200) and the contact face (53). The cup spring (230) has a center aperture (232) that is at least partially encircled by the contacting zone (231 ). The coaxial connector ( 1 ) further comprises an inner conductor arrangement ( 100) to be interconnected with an inner conductor (310) of a coaxial cable (300) at the connector rear end (3), which has a contacting tip ( 1 1 1 ) configured to contact a contacting point (52) of a circuit board (50) via the center aperture (232) of the compensator means (230) to establish an electrical contact between the inner conductor ( 100) and the contacting point (52).
H01R 9/05 - Connectors arranged to contact a plurality of the conductors of a multiconductor cable for coaxial cables
H01R 24/50 - Two-part coupling devices, or either of their cooperating parts, characterised by their overall structure having concentrically or coaxially arranged contacts specially adapted for high frequency mounted on a PCB [Printed Circuit Board]
Waveguide assembly including a waveguide element and a connector body, where the connector body includes recesses defining electromagnetic band gap elements therein
A waveguide assembly which includes an elongated waveguide element (1) and a connector body (2). The connector body (2) is connected to an end of the elongated waveguide element (1) and has a substantially planar bottom surface (24) and an opposing top surface (23). The connector body is made from a single piece of partially metallized dielectric. The connector body has a waveguide coupling element (21) adjacent to the elongated waveguide element (1). The connector body further has an arrangement of electromagnetic band gap elements (27) adjacent to the waveguide coupling element (21).
The invention relates to an optical connector assembly (1) comprising a first connector part (2) and a second connector part (3) suitable to be interconnected to the first connector part (2) in a mating direction (x). The first connector part (2) comprises a housing (5) comprising an opening (6) extending in the mating direction (x) through the housing (5) from a front end (24) to a rear end (25) of the housing (5) and a ferrule assembly (7) arranged in the opening (6) displaceable in the mating direction (x) comprising a ferrule (8) terminating at least one optical fibre (9). During mating with the second connector part (3) the ferrule assembly (7) is displaced with respect to the housing (5) against the force of a spring assembly ( 10) interconnecting the housing (5) and the ferrule assembly (7), wherein the spring assembly ( 10) is arranged accessible from the outside. The invention relates further to method for assembling the first connector part (2).
A coaxial connector includes a connector front end connectable with a circuit board and a connector rear end connectable with a coaxial cable. An outer conductor arrangement connectable with an outer conductor of a coaxial cable at the connector rear end, which has a compensator means arranged at the connector front end and has at least one cup spring having a contacting zone configured to contact a contact face of a circuit board to establish an electrical interconnection between the outer conductor arrangement and the contact face. The cup spring has a center aperture that is at least partially encircled by the contacting zone. An inner conductor arrangement includes a contacting tip configured to contact a contacting point of a circuit board via the center aperture of the compensator means to establish an electrical contact between the inner conductor and the contacting point.
H01R 24/50 - Two-part coupling devices, or either of their cooperating parts, characterised by their overall structure having concentrically or coaxially arranged contacts specially adapted for high frequency mounted on a PCB [Printed Circuit Board]
H01R 9/05 - Connectors arranged to contact a plurality of the conductors of a multiconductor cable for coaxial cables
H01R 13/24 - Contacts for co-operating by abutting resilientContacts for co-operating by abutting resiliently mounted
H01R 13/17 - Pins, blades or sockets having separate spring member for producing or increasing contact pressure the spring member being on the pin
H01R 4/64 - Connections between or with conductive parts having primarily a non-electric function, e.g. frame, casing, rail
The invention relates to a cable gland with a grommet comprising a tubular base body made from an elastic material and extending in a direction of a cable gland axis from a first outer end to a second outer end. The tubular base body has at least one flow channel arranged between the first and the second outer end and extending in circumferential direction along an inner surface of the tubular base body. At least one filling hole extends from said flow channel radially outwards through the tubular base body to fill an inner space of the tubular base body with an adhesive. A first circumferential sealing lip arranged in the region of the first outer end and a second circumferential sealing lip arranged in the region of the second outer end to seal an inner space of the tubular base body when mounted on a cable with respect to the cable.
H01R 13/40 - Securing contact members in or to a base or caseInsulating of contact members
H01R 24/54 - Intermediate parts, e.g. adapters, splitters or elbows
H01R 13/506 - BasesCases composed of different pieces assembled by snap action of the parts
H01R 12/91 - Coupling devices allowing relative movement between coupling parts e.g. floating or self aligning
H01R 12/73 - Coupling devices for rigid printing circuits or like structures coupling with the edge of the rigid printed circuits or like structures connecting to other rigid printed circuits or like structures
The invention is directed to an enclosure (1) for a connector on a cable. The enclosure (1) comprises a flange (2) having a base plate (4) with an opening (3) for the cable. First connecting means (7) are arranged around the opening. The enclosure furthermore comprises a plug (9) comprising a plug body (10) with a first end (11) foreseen to interact in a mounted position with the base plate of the flange (2) and a second end (12). A sleeve (14) encompasses in a mounted position the plug body (10) and comprises second connecting means (15) is provided. The second connecting means (15) are foreseen to interact in a mounted position with the first connecting means (7) of the flange (2). The sleeve (14) comprises a first thread (16) and a gland nut (18) comprising a second thread (17) interacting in a mounted position with the first thread (16) of the sleeve (14). A clamping means (19) for the cable is arranged at the second end (12) of the plug body (10). It interacts in the mounted position with the gland nut (18), thereby clamping the cable in the mounted position with respect to the enclosure (1).
09 - Scientific and electric apparatus and instruments
Goods & Services
Connectors, sockets and adapters for the establishment of
electrical and/or fiber-optic connections,
optical/electrical hybrid connectors, connectors with
integrated opto-electronic converters, as well as cable
assemblies with these connectors, cable systems with these
connectors and associated elements, namely junction boxes,
distribution devices and fastening elements; microwave
components, namely waveguides, coaxial cables,
high-frequency connectors, coaxial adapters, coaxial cable
assemblies, phase shifters, delay lines, attenuators,
optical and electrical couplers, optical and electrical
terminations; optical fiber management components, namely
optical fiber distribution cabinets, frames and panels for
physically distributing and routing optical fiber and cable
routing cassettes; antennas; voltage surge protectors;
optical apparatus and instruments.
Interconnection assembly (1) for a switching device in a server room comprising a. at least one cable (5) with a core (6) comprising a first dielectric material, wherein said core is at least partially surrounded by a second dielectric material having a refractive index different from the first dielectric material; b. a first connector part (9) positioned with respect to at least one antenna (4) comprising i. a fan-out element comprising per antenna at least one hollow conductor (10c, 11c) arranged between the at least one antenna (4) and the core (6) of the at least one cable (5), ii. said at least one hollow conductor ( 10c, 11c) extending in the fan- out element to guide a signal between the at least one antenna (4) and the core (6) of the at least one cable (5), iii. said hollow conductor (10c, 11c) having a first port (10a, 11a) aligned with the at least one antenna (4) and a second port (18), which in an assembled position is in communication with the core (6) of the at least one cable (5); c. at least one second connector part (19) interconnected to the at least one cable (5) positioning the core (6) of the cable (5) in a connected position with respect to the second port (18) of the hollow conductor (10c, 11c).
Disclosed is a high-frequency connector (1), the high-frequency connector (1) having a first interface structure for coupling with a first high-frequency assembly (3) and a second interface structure for coupling with a second high-frequency assembly (2). The high-frequency connector (1) includes an inner contact member (12) and an outer contact member (11). The inner contact member (12) and the outer contact member (11) extend along a longitudinal axis A. The high-frequency connector (1) further includes a resilient insulation member (13). The resilient insulation member (13) is radially arranged between the inner contact member (12) and the outer contact member (11).
09 - Scientific and electric apparatus and instruments
Goods & Services
Connectors, sockets and adapters for the establishment of electrical and fiber-optic connections in the nature of coaxial connectors, high-frequency electrical connectors, electric power connectors, plug and socket connectors, electric connectors being wire to board connectors and board to board connectors, fiber optic connectors and adapters, outdoor optical connectors; optical and electrical hybrid connectors in the nature of plug connectors, electrical radio connectors, outdoor electric connectors; electric connectors with integrated opto-electronic transceivers, telecommunications multiplexers in the nature of multiplexing connectors and de-multiplexing connectors, as well as cable assemblies with these connectors being patch cords, jumper cables, optical and electrical cable assemblies; fiber optic cables, coaxial cables incorporating filters; cable systems with these connectors in the nature of structured cabling systems comprised of telecommunication cables and hardware, and associated component parts, namely, electrical power distribution units being dc blocks, junction boxes, distribution devices being power distributing boxes, accessories for optical cable distribution network, namely, optical distribution boxes, and structural fastening elements in the nature of metal and non-metal cable clamps and mounting brackets; microwave components, namely, electrical microwave cables and microwave connectors; coaxial adapter plugs, coaxial cable assemblies in the nature of patchcords and test leads, optical couplers, optical filters, phase shifters for communications apparatus, delay lines being electrical or optical components that delay the output of an input signal, electrical signal attenuators, data processing equipment in the nature of optical and electrical couplers, electric-optical and electrical terminators; optical fiber management components, namely, cabinets and patch panels specially adapted for housing optical fiber distribution equipment in the nature of optical connectors, optical switches, and splices for optical transmission lines, manual control panels in the nature of frames and panels specially adapted for physically distributing and routing optical fibers, and cases specially adapted for holding fiber optical cables, namely, patching boxes, cable routing cassettes; antennas; voltage surge protectors; optical apparatus and instruments, namely, optical switches, electronic and optical communication instruments and components, namely, Ethernet network interface cards, optoelectronic rack in the nature of fiber media converter
An adapter structure for transferring an electromagnetic signal between an electronic component and an antenna, the adapter structure includes an adapter body having a base surface. The adapter structure further includes at least one ridged adapter waveguide channel, wherein the at least one adapter waveguide channel extends from the base surface into the adapter body. The adapter structure further includes an electromagnetic band gap structure with a plurality of band gap elements, wherein the band gap elements are spaced apart relative to each other, project from the base surface and have a front face spaced apart from the base surface. At least one band gap element is arranged as extension of a ridge of an associated adapter waveguide channel.
A wave conductor for electromagnetic waves, waveguide connector and communications link
A wave conductor for electromagnetic waves, preferably a millimeter-wave wave conductor, in particular for a digital communication application, with a conductor core and a one conductor sheathing. The conductor sheathing surrounds the conductor core at least partially in the longitudinal direction and at least partially in the circumferential direction of the wave conductor. One longitudinal section of the wave conductor has cross-sections which deviate from a circle at the outside of the wave conductor and/or at the outside of the conductor sheathing.
Further, a waveguide connector for electromagnetic waves, preferably millimeter-wave waveguide connectors, in particular flying or installable waveguide connectors for a wave conductor. The waveguide connector has a wave conductor plug-in recess in which a longitudinal section of the wave conductor is directly placeable. The wave conductor plug-in recess has an inner circumference coding formation by means of which the wave conductor is placeable in at least one specific orientation in the wave conductor plug-in recess.
The invention is directed to a connector assembly (1) comprising a first connector part (2) which is interconnectable to a second connector part (3). The first con- nector part (2) comprises a ferrule (13) which is encompassed by a shutter frame (17) and a thereto attached shutter (16). The shutter (16) is arranged movable with respect to the ferrule (13) in a first direction (x) between a closed position, in which the shutter (16) encompasses a connection face (37) of the ferrule (13), and an open position, in which the connection face (37) is set free from the shutter (16). The shutter frame (17) and/or the shutter (16) comprises at least one locat- ing surface (36) which during mating interacts with the second connector part (3) such that the shutter (16) is displaced relative to the ferrule (13) from the closed to the open position.
A connector assembly includes a first connector and a second connector. The first connector includes a housing holding at least one jack assembly with an inner conductor and an outer conductor arranged coaxial to the inner conductor. The second connector includes a socket with at least one opening extending in an axial direction. The opening includes a contact surface which in a mated position is electrically interconnected to an outer conductor of the jack assembly. In a direction of the axial extension (z-direction) of the opening, a contact surface is arranged which in the mated position is electrically interconnected to the inner conductor of the first connector part.
H01R 13/187 - Pins, blades or sockets having separate spring member for producing or increasing contact pressure the spring member being in the socket
H01R 13/512 - BasesCases composed of different pieces assembled by screw or screws
H01R 13/629 - Additional means for facilitating engagement or disengagement of coupling parts, e.g. aligning or guiding means, levers, gas pressure
H01R 13/66 - Structural association with built-in electrical component
H01R 9/05 - Connectors arranged to contact a plurality of the conductors of a multiconductor cable for coaxial cables
H01R 24/50 - Two-part coupling devices, or either of their cooperating parts, characterised by their overall structure having concentrically or coaxially arranged contacts specially adapted for high frequency mounted on a PCB [Printed Circuit Board]
H01R 12/71 - Coupling devices for rigid printing circuits or like structures
76.
Coaxial connector having accidental mating prevention
The invention is directed to a coaxial connector jack for the interconnection to a corresponding connector plug. The connector jack comprises an inner conductor extending in an axial direction and an outer conductor in the form of a slotted contact sleeve arranged coaxial with respect to the inner conductor. Furthermore the coaxial connector comprises an insulator positioning the inner conductor with respect to the outer conductor and a spacer arranged inside the insulator extending along an inner side wall of the slotted contact sleeve. The spacer extends in the axial direction at least to the same axial position as the slotted contact sleeve or exceeds it.
H01R 9/05 - Connectors arranged to contact a plurality of the conductors of a multiconductor cable for coaxial cables
H01R 24/38 - Two-part coupling devices, or either of their cooperating parts, characterised by their overall structure having concentrically or coaxially arranged contacts
77.
ELECTRICAL CONNECTOR ASSEMBLY WITH UNLOCKING DEVICE FOR THE UNLOCKING PROCESS
Electrical connector assembly (1) comprising a first connector portion (2) with a first housing (6) with a circumferential inner locking shoulder (10) at a first end (8) of the first housing (6) and a second connector portion (2) interconnectable with the first connector portion (2), having a second housing with a circumferential outer groove (9) arranged coaxially with respect to a connector axis (5). A radially deformable locking ring (4) arranged in the circumferential groove (9) of the second connector portion (2). Said locking ring is comprising a circumferential outer locking shoulder (11), behind which the inner locking shoulder (10) of the first connector portion (2) is locked in a connected state of the first and the second connector portion (2, 3) and an unlocking surface (12) that is circumferentially accessible from the outer vicinity in the connected state. Furthermore, the invention relates to a method for unlocking said connector assembly (1) and an unlocking device (27) which may be used for unlocking such a connector assembly (1).
H01R 43/26 - Apparatus or processes specially adapted for manufacturing, assembling, maintaining, or repairing of line connectors or current collectors or for joining electric conductors for engaging or disengaging the two parts of a coupling device
H01R 13/633 - Additional means for facilitating engagement or disengagement of coupling parts, e.g. aligning or guiding means, levers, gas pressure for disengagement only
H01R 24/40 - Two-part coupling devices, or either of their cooperating parts, characterised by their overall structure having concentrically or coaxially arranged contacts specially adapted for high frequency
Disclosed is a waveguide assembly which includes an elongated waveguide element (1) and a connector body (2). The connector body (2) being connected to an end of the elongated waveguide element (1) and has a substantially planar bottom surface (24) and an opposing top surface (23). The connector body is made from a single piece of partially metallized dielectric. The connector body has a waveguide coupling element (21) adjacent to the elongated waveguide element (1). The connector body further has an arrangement of electromagnetic band gap elements (27) adjacent to the waveguide coupling element (21).
Rosenberger Hochfrequenztechnik GmbH & CO. KG (Germany)
Huber+Suhner AG (Switzerland)
Radiall S.A. (France)
Inventor
Wimmer, Martin
Fraunhofer, Florian
Krautenbacher, Josef
Manser, Franz
Brocheton, Claude
Abstract
The invention relates to a connector comprising a first connector portion and a second connector portion, the first connector portion comprising a seal, a resilient detent element and an outer conductor portion, a portion of the resilient detent element contacting a radially outward facing surface of the outer conductor portion, the second connector portion comprising a counterpart detent element, in a mated configuration of the first connector portion and the second connector portion, the resilient detent element engages the counterpart detent element and locks the first connector portion to the second connector portion, and a compression of the seal in the mated configuration effecting a force parallel to a longitudinal axis of the first connector portion, the force inhibiting play between the resilient detent element and the counterpart detent element.
H01R 24/40 - Two-part coupling devices, or either of their cooperating parts, characterised by their overall structure having concentrically or coaxially arranged contacts specially adapted for high frequency
Rosenberger Hochfrequenztechnik GmbH & CO. KG (Germany)
Huber+Suhner AG (Switzerland)
Radiall S.A. (France)
Inventor
Wimmer, Martin
Fraunhofer, Florian
Krautenbacher, Josef
Manser, Franz
Brocheton, Claude
Abstract
The invention relates to a connector having a first coaxial connector having first and third guide surfaces and a second coaxial connector having second and fourth guide surfaces wherein, in a first partially mated condition, the third guide surface contacts the fourth guide surface and the first and second guide surfaces do not contact each other, and wherein, in a second partially mated condition, the first and third contact surfaces contact the second and fourth guide surfaces, respectively, and an outer conductor of the first coaxial connector and an outer conductor of the second coaxial connector do not contact each other.
H01R 9/05 - Connectors arranged to contact a plurality of the conductors of a multiconductor cable for coaxial cables
H01R 24/40 - Two-part coupling devices, or either of their cooperating parts, characterised by their overall structure having concentrically or coaxially arranged contacts specially adapted for high frequency
H01R 24/38 - Two-part coupling devices, or either of their cooperating parts, characterised by their overall structure having concentrically or coaxially arranged contacts
H01R 13/52 - Dustproof, splashproof, drip-proof, waterproof, or flameproof cases
H01R 13/631 - Additional means for facilitating engagement or disengagement of coupling parts, e.g. aligning or guiding means, levers, gas pressure for engagement only
The invention is directed to a connector assembly (1) comprising a first connector part (2) and a second connector part (3) suitable to be interconnected to the first connector part (2) in a first direction (x). The first connector part (2) comprises an outer housing (4) and an inner housing (5), which during mating with the second connector part (3) is arranged translatable in the first direction (x) with respect to the outer housing (4). A gear mechanism (6) interconnected to the first and the second connector part (2, 3) influences the relative movement between the inner and the outer housing (4, 5) of the first connector part (2) in relation to the relative movement between the first connector part (2) and the second connector part (3) during mating by a gear ratio A.
The invention relates to a cable gland (1) with a grommet (2) comprising a tubular base body (5) made from an elastic material and extending in a direction of a cable gland axis (6) from a first outer end (14) to a second outer end (15). The tubular base body (5) has at least one flow channel (7) arranged between the first and the second outer end (14, 15) and extending in circumferential direction along an inner surface (8) of the tubular base body (5). At least one filling hole (9) extends from said flow channel (7) radially outwards through the tubular base body (5) to fill an inner space (10) of the tubular base body (5) with an adhesive. A first circumferential sealing lip (12) arranged in the region of the first outer end (14) and a second circumferential sealing lip (13) arranged in the region of the second outer end (15) to seal an inner space (10) of the tubular base body (5) when mounted on a cable with respect to the cable.
The invention is directed to a connector housing (100) for a connector (300, 330) comprising a housing body (101) which has an outer surface (102) and a bearing (103) arranged at the outer surface (102). The bearing (103) is arranged to fit a first type of coupling means (210) to establish a mechanical interconnection with a corresponding mating connector. As well, the bearing (103) is arranged to fit a second type of coupling means (310) to establish a mechanical interconnection with a corresponding mating connector, the first type of coupling means (210) and the second type of coupling means (310) being different types of coupling means.
A connector assembly, preferably for coaxial cables, comprises a first and a second connector portion. The first connector portion comprises a first housing having an outer peripheral latching step arranged coaxially with respect to a connector axis. The second connector portion is interconnectable with the first connector portion along a connector axis and comprises a second housing and a thereto interconnected locking element. The locking element further comprises an annular base and multiple therefrom extending resilient latching fingers extending essentially in the direction of the connector axis. ln the region of their free end a latching tooth is formed, suitable to automatically latch behind the peripheral latching step of the first connector portion during locking of the first and the second connector portion. The resilient latching fingers further comprise a first actuating portion on the latching teeth. An actuating sleeve is arranged peripheral with respect to the locking element displaceable in the direction of the connector axis, comprising a second actuating portion foreseen to interact during unlocking with the first actuating portion to disengage the resilient latching fingers with respect to the outer peripheral latching step. An alignment means is arranged between the locking element and the actuating sleeve, which limits the axial displacement of the actuating sleeve.
H01R 24/40 - Two-part coupling devices, or either of their cooperating parts, characterised by their overall structure having concentrically or coaxially arranged contacts specially adapted for high frequency
H01R 13/633 - Additional means for facilitating engagement or disengagement of coupling parts, e.g. aligning or guiding means, levers, gas pressure for disengagement only
85.
Broadband omnidirectional antenna, in particular for rail vehicles, and rail vehicle of this type
A broadband omnidirectional antenna for rail vehicles comprises a baseplate and a monopole radiator, which comprises a foot point and an opposing end region. The radiator extends away from the baseplate and widens in cross section along the longitudinal axis thereof in at least a first portion located between the foot point thereof and the end region thereof, diverging walls of the radiator forming an accommodating chamber. An inner contour of a shell-shaped or trough-shaped holding and/or accommodating device is adapted at least over part of the periphery to an outer contour of the first portion of the radiator, resulting in at least part of at least the first portion of the radiator dipping into the holding and/or accommodating device and being held thereby. The first end of a holding means is fixed to the baseplate and a second end thereof is fixed to the radiator.
An optical plug connector (1) having a base body (2) extending in a longitudinal direction (x) with a front end (24) having a first opening to receive a ferrule (7) protruding above the front end (24) of the base body (2) and a rear end (25) having a second opening to receive an optical cable. An articulated locking arm (4) is formed on the front end (24) of the base body (2) and protrudes obliquely toward the rear. A cap (10) is arranged at the base body (2 ) in front of the articulated locking arm (4) pivotable about a hinge axis (20) of a hinge (19) to protect the ferrule (7) in a closed position and releases the ferrule (7) in an open position. The cap (10) is arranged above the ferrule (7) and in front of the locking arm (4) in a transversal direction (y).
Disclosed is an antenna, in particular array antenna. The antenna includes an antenna top surface (1a) and an antenna bottom surface (1b). The antenna further includes a waveguide channel structure with a plurality of waveguide end branches (111). Each waveguide end branch (111) opens into an associated waveguide opening (100) in the antenna top surface (1a) in a one-to-one relation, wherein the waveguide openings (100) are arranged in a pattern of rows and columns. A plurality of recesses (101) extends from the antenna top surface (1a) towards the antenna bottom surface (1b), the plurality of recesses (101, 101b) being arranged such that a recess (101b) is present between pairs of neighboring waveguide openings (100) of the same row and/or column.
The invention is directed to an enclosure (1) for a connector on a cable. The enclosure (1) comprises a flange (2) having a base plate (4) with an opening (3) for the cable. First connecting means (7) are arranged around the opening. The enclosure furthermore comprises a plug (9) comprising a plug body (10) with a first end (11) foreseen to interact in a mounted position with the base plate of the flange (2) and a second end (12). A sleeve (14) encompasses in a mounted position the plug body (10) and comprises second connecting means (15) is provided. The second connecting means (15) are foreseen to interact in a mounted position with the first connecting means (7) of the flange (2). The sleeve (14) comprises a first thread (16) and a gland nut (18) comprising a second thread (17) interacting in a mounted position with the first thread (16) of the sleeve (14). A clamping means (19) for the cable is arranged at the second end (12) of the plug body (10). It interacts in the mounted position with the gland nut (18), thereby clamping the cable in the mounted position with respect to the enclosure (1).
A connector assembly (1) including a first connector unit (2) and a second connector unit (3) interconnectable with respect to each other. The first connector unit (2) includes at least one connector (5) arranged at least partially inside a plug housing (4). The at least one connector (5) is operatively connected to the plug housing (4) by a latching mechanism (7) which provides an engaged configuration in which the at least one connector (5) is latched with respect to the plug housing (4) and a disengaged configuration in which the at least one connector (5) is disengaged from the plug housing (4).
The present invention relates to an adapter (1) for a coaxial connector assembly (2) comprising a tubular outer conductor (3) and a pin-shaped inner conductor (4) both extending in a mounted position in a longitudinal direction (z) and a spacer (5) which in the mounted position is arranged inside the outer conductor (3) encompassing the inner conductor (4) at least partially and by which the inner conductor (4) is positioned with respect to the outer conductor (3). The spacer (5) comprises a first half (5a) and a second half (5b) which are interconnectable to each other along a separation plane extending in the longitudinal direction (z), wherein the first and/or the second half (5a, 5b) comprise at least one holding means (6) to hold the inner conductor (4) in the mounted position.
H01R 12/91 - Coupling devices allowing relative movement between coupling parts e.g. floating or self aligning
H01R 13/506 - BasesCases composed of different pieces assembled by snap action of the parts
H01R 24/54 - Intermediate parts, e.g. adapters, splitters or elbows
H01R 12/73 - Coupling devices for rigid printing circuits or like structures coupling with the edge of the rigid printed circuits or like structures connecting to other rigid printed circuits or like structures
ROSENBERGER HOCHFREQUENZTECHNIK GMBH & CO. KG (Germany)
HUBER+SUHNER AG (Switzerland)
RADIALL PARIS (France)
Inventor
Wimmer, Martin
Fraunhofer, Florian
Krautenbacher, Josef
Manser, Franz
Brocheton, Claude
Abstract
The invention relates to a plug connector (2), in particular a high frequency plug connector, comprising a first connector (4), in particular a coaxial connector, which has a first inner conductor part (14), a first outer conductor part (28), and a first insulation part (26) for retaining the first inner conductor part (14) radially inside and coaxially to the first outer conductor part (28), and also comprising a second connector (6), in particular a coaxial connector, which is designed for axial insertion into the first connector (4) in a mating direction (F) and has a second inner conductor part (34), a second outer conductor part (38), and a second insulation part (36) for retaining the second inner conductor part (34) radially inside and coaxially to the second outer conductor part (38), wherein in an inserted state of the first and second connectors (4, 6) the first inner conductor part (14) electrically and mechanically contacts the second inner conductor part (34) and the first outer conductor part (28) electrically and mechanically contacts the second outer conductor part (38), wherein the first connector (4) has a first surface (11) and the second connector (6) has a second surface (12), between which in the inserted state a seal (8) is arranged and is compressed in the axial direction. According to the invention, the first connector (4) has at least one detent element (22) and the second connector (6) has at least one counterpart detent element (24), such that during axial insertion of the first connector (4) into the second connector (6) in an inserted state the at least one detent element (22) and the at least one counterpart detent element (24) engage in one another and the first connector (4) is locked with the second connector (6) in the inserted state, wherein the first connector (4) and the second connector (6) are pushed apart by a restoring force of the compressed seal (8) in the axial direction and contrary to the mating direction (F), in such a way that the detent element (22) is pushed without play counter to the engagement with the counterpart detent element (24).
H01R 24/40 - Two-part coupling devices, or either of their cooperating parts, characterised by their overall structure having concentrically or coaxially arranged contacts specially adapted for high frequency
ROSENBERGER HOCHFREQUENZTECHNIK GMBH & CO. KG (Germany)
HUBER & SUHNER AG (Switzerland)
RADIALL PARIS (France)
Inventor
Wimmer, Martin
Fraunhofer, Florian
Krautenbacher, Josef
Manser, Franz
Brocheton, Claude
Abstract
The invention relates to a plug connector (2), in particular a high-frequency plug connector, comprising a first connector (4), in particular a coaxial connector, which has a first inner conductor parts (14), a first outer conductor part (28) and a first insulating part (26) for holding the first inner conductor part (14) radially inside and coaxially with respect to the first outer conductor part (28), and comprising a second connector (6), in particular a coaxial connector, designed to be plugged axially into the first connector (4) in a joining direction (F), which connector has a second inner conductor part (34), a second outer conductor part (38) and a second insulating part (36) for holding the second inner conductor part (34) radially inside and coaxially with respect to the second outer conductor part (38), wherein, when the first and second connector (4, 6) are plugged in, the first inner conductor part (14) contacts the second inner conductor part (34) electrically and mechanically, and the first outer conductor part (28) contacts the second outer conductor part (38) electrically and mechanically, wherein the first outer conductor part (28) has a first outer conductor contact section (32) for making electrical and mechanical contact with a second outer conductor contact section (40) on the second outer conductor part (38), wherein the first outer conductor part (28) has a first guide face (20) and the second outer conductor part (38) has a second guide face (18) which, when the first connector (4) is plugged into the second connector (6), are designed to slide on one another mechanically. The first guide face (20) and the first outer conductor contact section (32) of the first connector (4) are arranged to be spaced apart from one another in the axial direction with respect to a longitudinal axis (50) of the plug connector (2), and the second guide face (18) and the second outer conductor contact section (14) of the second connector are arranged to be spaced apart from one another in the axial direction with respect to the longitudinal axis (50) of the plug connector (2). The first connector (4) has a further third guide face (44) for guiding the second connector (6) by interacting with a further fourth guide face (42) of the second connector (6) as the first connector (4) is joined together with the second connector (6).
H01R 24/40 - Two-part coupling devices, or either of their cooperating parts, characterised by their overall structure having concentrically or coaxially arranged contacts specially adapted for high frequency
H01R 13/52 - Dustproof, splashproof, drip-proof, waterproof, or flameproof cases
H01R 13/631 - Additional means for facilitating engagement or disengagement of coupling parts, e.g. aligning or guiding means, levers, gas pressure for engagement only
09 - Scientific and electric apparatus and instruments
Goods & Services
Connectors and adapters for the making of electrical and/or
fiber-optic connections, hybrid optical or electrical
connectors, connectors with integrated optoelectronic
converters, as well as cable connections with these
connectors, cable systems with these connectors and related
elements, namely distribution boxes, cable distributors and
fastening parts.
Disclosed is an adapter plate (1) for high-frequency coupling a flat waveguide structure of a printed circuit board ( PCB) to a waveguide coupling structure of an antenna (3 ), the adapter plate (1) being designed to be sandwiched between the PCB (2) and the antenna (3 ), the adapter plate (1) including:- an antenna-facing adapter surface (10a);- a PCB-facing adapter surface (10b), the PCB-facing adapter surface (10b) being adjacent to the antenna-facing adapter surface (10a); a number of adapter waveguide channels (15) extending inside the adapter plate (1) between the antenna-facing adapter surface (10a) and the PCB-facing adapter surface (10b), wherein a cross sectional contour of the adapter waveguide channels (15) varies along a channel length between the PCB-facing adapter surface (10b) and the antenna-facing adapter surface (10a). Disclosed is further an antenna assembly with an adapter plate and a method for manufacturing an antenna assembly.
ROSENBERGER HOCHFREQUENZTECHNIK GMBH & CO. KG (Germany)
HUBER + SUHNER AG (Switzerland)
Inventor
Qin, Shan
Zhai, Peng
Abstract
The invention relates to a coaxial connection system in which solid insulating structures are used and it is provided a lengthening of the guide portion of the connectors, while ensuring an axial immobilization of the ground contacts independently of the locking device that mechanically locks the plug to the jack when they are in mutual connection configuration.
H01R 24/40 - Two-part coupling devices, or either of their cooperating parts, characterised by their overall structure having concentrically or coaxially arranged contacts specially adapted for high frequency
H01R 13/631 - Additional means for facilitating engagement or disengagement of coupling parts, e.g. aligning or guiding means, levers, gas pressure for engagement only
H01R 13/24 - Contacts for co-operating by abutting resilientContacts for co-operating by abutting resiliently mounted
H01R 13/50 - BasesCases formed as an integral body
Disclosed is an adapter structure for transferring an electromagnetic signal between an electronic component (2') and an antenna (3'), the adapter structure includes an adapter body (3c') having a base surface (130b). The adapter structure further includes at least one ridged adapter waveguide channel (170), wherein the at least one adapter waveguide channel (170) extends from the base surface (130b) into the adapter body (3c'). The adapter structure further includes an electromagnetic band gap structure with a plurality of band gap elements, wherein the band gap elements (160, 161) are spaced apart relative to each other, project from the base surface (130b) and have a front face spaced apart from the base surface (130b). At least one band gap element (161) is arranged as extension of a ridge of an associated adapter waveguide channel (170).
The invention is directed to a cable assembly (10, 10a-b), comprising a cable (10, 10a-b) with a cable hose (11, 11a-b) and at least one conductor (12, 12a-f) arranged therein. The cable hose (11, 11a-b) is spaced a distance apart from the conductor (12) forming a first interstitial space (15, a-b) between the at least conductor (12) and the cable hose (11, 11a-b). At least one tube (20, 20a-b) for conveying of a cooling fluid (21), and a connector (30) comprising at least one contact member (31) interconnected to the at least one conductor (12) and a chamber (32). Said chamber (32) comprises a first port (33) which is interconnected to the first interstitial space between the at least one conductor (12, 12a-f) and the cable hose (11, 11a-b) and a second port (34a, 34a-b) which is interconnected to the at least one tube (20, 20a-b).
The invention relates to a wall box (10) for the protected storage of a prefabricated optical cable (19) of given length in a wound state, from which an individual cable length is able to be unrolled during an installation. Good protection together with easy use is achieved by a winding reel (15) for winding up the cable (19), said winding reel (15) being mounted in a rotatable manner on a base plate (12) that is firmly attachable to a wall and being surrounded by an external housing (13) which is connectable to the base plate (12) and which encloses the inner end of the cable (19) in a dust-tight and moisture-tight manner.
The invention is directed to a connector assembly (1) comprising a first connector (2) and a second connector (3). The first connector (2) comprises a housing (5) holding at least one jack assembly (7) with an inner conductor (12) and an outer conductor (13) arranged coaxial to the inner conductor (12). The second connector (3) comprises a socket (29) with at least one opening (30) extending in an axial direction (z). The opening (30) comprises a contact surface (31) which in a mated position is electrically interconnected to an outer conductor (13) of the jack assembly (7). In direction of the axial extension (z-direction) of the opening (30) a contact surface (33) is arranged which in the mated position is electrically interconnected to the inner conductor (12) of the first connector part (2).
H01R 9/05 - Connectors arranged to contact a plurality of the conductors of a multiconductor cable for coaxial cables
H01R 24/50 - Two-part coupling devices, or either of their cooperating parts, characterised by their overall structure having concentrically or coaxially arranged contacts specially adapted for high frequency mounted on a PCB [Printed Circuit Board]
H01R 12/71 - Coupling devices for rigid printing circuits or like structures
