Provided is a branch system which includes a power connector attachable to a power supply line; and a branch connector attachable to a branch wire and connectable to the power connector in an attachable and detachable manner, in which the branch connector includes a glass tube fuse, and a first holding portion; the first holding portion is configured to hold the glass tube fuse in an attachable and detachable manner or in a fixed state; and the power supply line and the branch wire are configured to establish an electrical connection through a fusing portion of the glass tube fuse held by the first holding portion upon the branch connector being connected to the power connector.
H01R 13/684 - Structural association with built-in electrical component with built-in fuse the fuse being removable
H01H 85/045 - General constructions or structure of low voltage fuses, i.e. below 1,000 V, or of fuses where the applicable voltage is not specified cartridge type
To provide a coaxial electrical connector that makes it easy to ensure excellent signal transmission quality even in broadband mode, the dielectric bodies 30 include a first dielectric body 31 and a second dielectric body 32 provided in such a manner that a space is formed within an offset from said first dielectric body 31 at a location spaced away from the first dielectric body in the direction of connection, the first dielectric body 31 and second dielectric body 32 retain the center conductor 20 in the radial direction, the first dielectric body 31 has a lower dielectric permittivity than the second dielectric body 32, and the second dielectric body 32 has a higher hardness than the first dielectric body 31.
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 24/52 - 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
Provided is a plug connector mounted on a board, including: a housing, a plurality of terminals, and a pair of metal fittings, the housing has a pair of side wall portions, a pair of coupling wall portions, and a bottom wall portion; the pair of metal fittings is held at both ends of the housing in a longitudinal direction of the plug connector; the metal fitting has a pair of mount portions, a pair of curved portions, an outer portion, and a pair of coupling portions; the mount portion is provided on the bottom side of the housing; the curved portion is curved so as to cover part of an upper surface of the side wall portion; the outer portion covers an upper surface and an outer wall of the coupling wall portion; and the coupling portion couples the outer portion to the mount portion and the curved portion.
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 12/57 - Fixed connections for rigid printed circuits or like structures characterised by the terminals surface mounting terminals
H01R 13/405 - Securing in non-demountable manner, e.g. moulding, riveting
H01R 13/504 - BasesCases composed of different pieces different pieces being moulded, cemented, welded, e.g. ultrasonic, or swaged together
A connector device includes a housing, a plurality of first terminals, and a plurality of second terminals. First contact portions provided in the first terminals are arrayed at predetermined intervals in a first butting surface of the housing in a state of being contactable with second partner terminals of a partner connector device when the connector device is connected to the partner connector device. Second contact portions provided in the second terminals are arrayed at the predetermined intervals in a second butting surface of the housing positioned facing the first butting surface in a depth direction in a state of being contactable with first partner terminals of the partner connector device when the connector device is connected to the partner connector device.
The magnetic sensor comprises a magnetic wire rod that generates a large Barkhausen effect, a coil, and a bobbin; the bobbin has a wire winding portion in whose interior the magnetic wire rod is disposed and on whose outer peripheral portion the coil is provided, and a pair of columnar support portions respectively provided in the sections at opposite ends of the wire winding portion; the pair of columnar support portions protrude downwardly from the respective sections at opposite ends of the wire winding portion; and the amount of protrusion thereof is configured such that, once the magnetic sensor is mounted to the substrate, a component placement space allowing for placement of components is formed between the section on the outer peripheral surface of the coil facing the component-carrying surface and the component-carrying surface itself.
G01D 5/245 - Mechanical means for transferring the output of a sensing memberMeans for converting the output of a sensing member to another variable where the form or nature of the sensing member does not constrain the means for convertingTransducers not specially adapted for a specific variable using electric or magnetic means influencing characteristics of pulses or pulse trainsMechanical means for transferring the output of a sensing memberMeans for converting the output of a sensing member to another variable where the form or nature of the sensing member does not constrain the means for convertingTransducers not specially adapted for a specific variable using electric or magnetic means generating pulses or pulse trains using a variable number of pulses in a train
H01F 3/06 - Cores, yokes or armatures made from wires
H01F 5/02 - Coils wound on non-magnetic supports, e.g. formers
6.
ELECTRIC CONNECTOR MOUNTED BODY, FIRST CONNECTOR, SECOND CONNECTOR, MODULE, AND MODULE COUPLED BODY
An electric connector mounted body includes a circuit board and an electric connector pair, and can mate and connect to mating electric connector mounted bodies in a forward direction (mating direction) in a front-and-back direction perpendicular to a coupling direction. Electric connectors included in the electric connector pair each include a plurality of terminals, and a housing. The electric connectors include a first and a second connector. The first connector can mate and connect to a second mating connector of a mating electric connector mounted body. The second connector can mate and connect to a first mating connector of the other mating electric connector mounted body. The first connector has no portions that come into contact with the second mating connector from a front and from a back. The second connector has no portions that come into contact with the first mating connector from the front and from the back.
H01R 13/514 - BasesCases formed as a modular block or assembly, i.e. composed of co-operating parts provided with contact members or holding contact members between them
H01R 12/72 - Coupling devices for rigid printing circuits or like structures coupling with the edge of the rigid printed circuits or like structures
Provided is a connector which includes a terminal; and a housing, in which the connector includes a terminal row in which a plurality of the terminals is arranged in a longitudinal direction of the connector, and a plurality of the terminal rows is provided so as to face each other in a lateral direction of the connector; the housing has a fitting recessed portion in which a partner connector is to be fitted and a cutout portion; the fitting recessed portion is recessed between the terminal rows on one end side of the housing in a fitting direction perpendicular to the longitudinal direction and the lateral direction; and the cutout portion is recessed between the terminal rows at least on the other end side of the housing in the fitting direction.
Provided is an electric connector including a first terminal; a second terminal; and a housing, in which the first terminal extends in a short-side direction, and the second terminal extends in a long-side direction; a pair of the first terminals is provided so as to face each other in the short-side direction and the pairs of the first terminals are arranged along the long-side direction; a pair of the second terminals is provided so as to face each other in the long-side direction; the housing has a pair of wall portions, and the pair of wall portions holds the pairs of the first terminals; and the pair of the second terminals is provided between the pairs of the first terminals and between the pair of wall portions in the short-side direction, and is provided so as to sandwich the pairs of the first terminals in the long-side direction.
Provided is an electric connector including a terminal; and a housing, the terminal has a first leg portion, a second leg portion, a third leg portion, a fourth leg portion, an extending portion, a first coupling portion, a second coupling portion, a third coupling portion, a mount portion, a fitting recessed portion, and a width changing portion, the first leg portion, the first coupling portion, the second leg portion, and the housing filled in a space surrounded by them are integrally displaceable and the third leg portion, the third coupling portion, the fourth leg portion, and the housing filled in a space surrounded by the them are integrally displaceable, and the width changing portion is provided at least one of the second leg portion or the third leg portion so as to be exposed from the housing, and a width of the terminal changes at the width changing portion.
It is an object to make it possible for magnetic sensors to be readily disposed in such a manner that the position of the magnetic sensors relative to the rotary shaft corresponds to the design position. The magnetic sensor device 3 comprises a magnetic sensor 4 having a magnetic wire rod that generates a large Barkhausen effect, a yoke 21, a casing 22 in which the magnetic sensor 4 and the yoke 21 are accommodated, and sensor securing portions 28 for securing the casing 22 to a substrate. The terminals 15 of the magnetic sensor 4 are compression terminals, and, as the casing 22 is secured to the substrate by the sensor securing portions 28, the terminals 15 are pressed against conductor portions on the substrate and are electrically connected to the conductor portions.
G01R 33/00 - Arrangements or instruments for measuring magnetic variables
G01D 5/14 - Mechanical means for transferring the output of a sensing memberMeans for converting the output of a sensing member to another variable where the form or nature of the sensing member does not constrain the means for convertingTransducers not specially adapted for a specific variable using electric or magnetic means influencing the magnitude of a current or voltage
09 - Scientific and electric apparatus and instruments
Goods & Services
Electromagnetic inductive sensors being measuring apparatus;
magnetic sensors, not for medical purposes, for measuring,
determining, detecting and recognizing motions and
positions; sensors for determining position; motion
recognizing sensors; sensors [measurement apparatus], other
than for medical use; measuring apparatus and instruments;
magnetic cores; resistance wires; electrodes.
To provide an electrical connector for circuit boards capable of implementing a good impedance match while permitting relative movement of the movable housing with respect to the stationary housing. The connector has a dielectric member 40, which is disposed in the interior space formed in the stationary housing 20 and is attached to the movable housing 30, the dielectric member 40 has contoured portions 42A, which are spaced by a clearance from the intermediate portions 15 of the terminals 10 and extend along the intermediate portions 15, and the contoured portions 42A are capable of following the intermediate portions 15 when the intermediate portions 15 are resiliently deformed in the connector width direction perpendicular to the terminal array direction.
To provide an electrical connector for circuit boards capable of implementing a good impedance match while permitting relative movement of the movable housing with respect to the stationary housing. The intermediate portions 15 of the terminals 10 are, at least in part, located in the interior space 25 of the electrical connector for circuit boards 1, the electrical connector for circuit boards 1 has contoured portions 23 made of dielectric material which, relative to the intermediate portions 15, are positioned on the side opposite the interior space 25 and extend along the intermediate portions 15 while being spaced by a clearance from the intermediate portions 15, and the contoured portions 23 are capable of following the intermediate portions 15 when the intermediate portions 15 are resiliently deformed in the connector width direction perpendicular to the terminal array direction.
The magnetic sensor device 3 comprises a sensor unit 4 and substrate-side connectors 24, 25. The sensor unit 4 comprises a magnetic sensor, a yoke, and a casing 19. The magnetic sensor comprises a magnetic wire rod that generates a large Barkhausen effect, a bobbin having the magnetic wire rod disposed therein, a coil formed by winding an electrical wire around the bobbin, a sensor-side connector provided in the left end portion of the bobbin, and a sensor-side connector provided in the right end portion of the bobbin. The magnetic sensor device 3 is provided on the substrate 35 by mounting the substrate-side connectors 24, 25 to the substrate 35 and, thereafter, connecting the sensor unit 4 to the substrate-side connectors 24, 25.
G01D 5/20 - Mechanical means for transferring the output of a sensing memberMeans for converting the output of a sensing member to another variable where the form or nature of the sensing member does not constrain the means for convertingTransducers not specially adapted for a specific variable using electric or magnetic means influencing the magnitude of a current or voltage by varying inductance, e.g. by a movable armature
G01B 7/30 - Measuring arrangements characterised by the use of electric or magnetic techniques for measuring angles or tapersMeasuring arrangements characterised by the use of electric or magnetic techniques for testing the alignment of axes
15.
MAGNETIC SENSOR DEVICE AND ROTATION SENSING DEVICE
The magnetic sensor device 3 comprises a plurality of magnetic sensors 4, which have a magnetic wire rod 5 that generates a large Barkhausen effect and a coil provided at the outer periphery of the magnetic wire rod 5, and a casing 16 to which each of the plurality of magnetic sensors 4 is secured, with the plurality of magnetic sensors 4 being disposed on a reference plane coincident with the lower surface of the casing 16 at predetermined intervals in a circumferential direction about a reference line perpendicular to the reference plane, and such that the direction of extension of the magnetic wire rods 5 is parallel to the reference plane.
G01D 5/20 - Mechanical means for transferring the output of a sensing memberMeans for converting the output of a sensing member to another variable where the form or nature of the sensing member does not constrain the means for convertingTransducers not specially adapted for a specific variable using electric or magnetic means influencing the magnitude of a current or voltage by varying inductance, e.g. by a movable armature
G01B 7/30 - Measuring arrangements characterised by the use of electric or magnetic techniques for measuring angles or tapersMeasuring arrangements characterised by the use of electric or magnetic techniques for testing the alignment of axes
Provided is a connector assembly which includes a first connector; and a second connector, wherein the first connector has a plurality of first terminals, a conductive first shell, and an insulating first housing, the first shell has a first peripheral wall surrounding the first terminals, the first housing holds the first terminals and the first shell, the second connector has a plurality of second terminals, a conductive second shell, and an insulating second housing, the second shell has a second peripheral wall surrounding the second terminals, the second housing holds the second terminals and the second shell, the first housing is formed integrally with the first terminals and the first shell, the second housing is formed integrally with the second terminals and the second shell, and at least any one of the first peripheral wall or the second peripheral wall has a jointless structure over an entire circumference.
09 - Scientific and electric apparatus and instruments
Goods & Services
Electromagnetic inductive sensors being measuring apparatus; magnetic sensors, not for medical purposes, for measuring, detecting and recognizing motions and positions; sensors for determining position; motion recognizing sensors; magnetic cores, resistance wires and electrodes, all being parts of sensors
Provided is a housing which includes: a housing portion; a cover portion; and an attachment structure, the attachment structure has an engagement groove provided in the housing portion and an engagement piece provided in the cover portion, the engagement groove has a first and a second inner end surface, the second inner end surface is positioned on a back side of the engagement groove, the engagement piece has a first and a second outer end surface, the second outer end surface is positioned on a back side of the engagement piece, the second inner end surface and the second outer end surface are an inner inclined surface inclined backward from up to down, and a lower portion of the inner inclined surface of the second inner end surface and a lower portion of the outer inclined surface of the second outer end surface contact each other.
The terminals 111 have a connection portion 111D formed at one end of the terminals 111 and capable of being connected to a mounting face of a circuit board, a contact point portion 111E-1 formed at the other end of the terminals 111 and capable of making contact with a counterpart connect body, a stationary-side retained portion 111A retained in a stationary housing, a movable-side retained portion 111B retained in a movable housing, and a floating portion 111C located between the stationary-side retained portion 111A and the movable-side retained portion 111B and capable of resilient deformation, and the floating portion 111C is formed bulging in the connector width direction, which is parallel to the aforementioned mounting face and perpendicular to the terminal array direction.
The socket terminals, whose lateral faces opposed in the connector width direction perpendicular both to the direction of mating connection and to the terminal array direction are exposed from within the socket housing over at least part of the extent, are enabled to make contact with the plug terminals using the faces proximate to the receiving space; the socket housing, along with having, on the opposite outer sides of the terminal array range in the terminal array direction, end supporting portions capable of supporting the plug housing toward the socket terminals in the connector width direction, has the receiving space open to the opposite side from the socket terminals in the connector width direction within the terminal array range in the terminal array direction; and the plug terminals have the lateral faces thereof opposed in the connector width direction exposed from within the plug housing over part of the extent.
The coupling member 70 has coupling portions 71 extending in the connector array direction along the end portions of the housings located in the terminal array direction; the coupling portions 71 have formed therein groove portions 72A which, along with being open on the circuit board side in the direction of connection, are sealed on the opposite side from the circuit board; the stationary housing, in the end portions located in the terminal array direction, has press-fit portions 122, 322, 522 press-fittingly retained in the groove portions 72A; the movable housing, in the end portions located in the terminal array direction, has restricted portions 132, 232, 532 accommodated in the groove portions 72A; and the restricted portions 132, 232, 532 are positioned spaced by a gap from the inner edges of the groove portions 72A in the terminal array direction and in the direction of connection.
H01R 12/71 - Coupling devices for rigid printing circuits or like structures
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
Connectors to reduce the occurrence of return loss if high-speed signals are transmitted and to flexibly adapt to changes in the distance between the two circuit boards in the direction of mating connection of the connectors if low-speed signals are transmitted.
Connectors to reduce the occurrence of return loss if high-speed signals are transmitted and to flexibly adapt to changes in the distance between the two circuit boards in the direction of mating connection of the connectors if low-speed signals are transmitted.
The plug resilient portion is formed of a smaller cross-sectional area than the maximum cross-sectional area of the plug retained portion, and the socket resilient portion is formed of a smaller cross-sectional area than the maximum cross-sectional area of the socket retained portion. When, upon connector mating, the plug contact point portion makes contact with the socket resilient portion, the socket contact point portion is adapted to make contact with the plug resilient portion, and when, upon connector mating, the plug contact point portion and the socket retained portion come into contact, the socket contact point portion is adapted to make contact with the plug retained portion.
H01R 13/514 - BasesCases formed as a modular block or assembly, i.e. composed of co-operating parts provided with contact members or holding contact members between them
H01R 12/71 - Coupling devices for rigid printing circuits or like structures
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
An electrical connector includes a fitting held by a housing, the fitting includes a mounting portion to be mounted to a mounted portion of a mounted object, the mounting portion includes a first surface which is provided on one side of a base material in a thickness direction and which is a mounting surface opposing a mounted surface of the mounted portion and a second surface which is provided on another side of the base material in the thickness direction and which is positioned on an opposite side to the mounting surface in the thickness direction, the first surface and the second surface are to be plated after insert molding, and a first thickness of the first surface is greater than a second thickness of the second surface.
An electrical connector includes a housing and a fitting, a terminal of the fitting includes: a first wall which is provided so as to extend in a Z direction orthogonal to a mounting surface of a mounting portion of the terminal and which forms a first wall surface including a single contact point configured to come into contact with a counterpart terminal; and a second wall which is provided at an end on one side of the first wall in the Z direction and which forms an exposed surface being spaced apart from the mounting surface and not coming into contact with the housing, the terminal being configured to come into contact with the counterpart terminal by the single contact point, and a first thickness of a plated portion on the first wall surface is greater than a second thickness of a plated portion on the exposed surface.
H01R 13/405 - Securing in non-demountable manner, e.g. moulding, riveting
H01R 13/03 - Contact members characterised by the material, e.g. plating or coating materials
H01R 13/213 - Pins, blades, or sockets shaped, or provided with separate member, to retain co-operating parts together by bayonet connection
H01R 13/514 - BasesCases formed as a modular block or assembly, i.e. composed of co-operating parts provided with contact members or holding contact members between them
An electrical connector includes a housing and a fitting held by the housing, wherein the fitting is a reinforcement fitting or a shield fitting and includes: a mounting portion; a first wall which is provided so as to protrude in a first direction orthogonal to a mounting surface; and a second wall which forms an exposed surface that does not come into contact with the housing, the mounting surface of the mounting portion and the exposed surface of the second wall are to be plated after insert molding, and a first thickness of a plated portion having been plated on the mounting surface is greater than a second thickness of a plated portion having been plated on the exposed surface of the second wall.
H01R 13/504 - BasesCases composed of different pieces different pieces being moulded, cemented, welded, e.g. ultrasonic, or swaged together
H01R 12/58 - Fixed connections for rigid printed circuits or like structures characterised by the terminals terminals for insertion into holes
H01R 13/03 - Contact members characterised by the material, e.g. plating or coating materials
H01R 13/405 - Securing in non-demountable manner, e.g. moulding, riveting
H01R 13/6595 - Specific features or arrangements of connection of shield to conductive members the shield being mounted on a PCB and connected to conductive members with separate members fixing the shield to the PCB
An electrical connector includes a housing and a fitting, each terminal of the fitting includes a mounting portion, a first wall, a second wall, and a third wall and is configured to come into contact with a counterpart terminal by at least two contact points including a first contact point and a second contact point, a first wall surface of the first wall and an exposed surface of the third wall are plated after insert molding, and a first thickness of a plated portion on the first wall surface is greater than a second thickness of a plated portion on the exposed surface of the third wall.
The present application provides a waveguide array antenna, comprising a metal plate, a waveguide antenna unit, a waveguide bending structure, a waveguide power divider, and a waveguide transmission line. An accommodating cavity is formed in the metal plate; one end of the waveguide bending structure is connected to the waveguide transmission line, and the other end of the waveguide bending structure extends in the horizontal direction, and is provided with an upward bending part; the waveguide power divider is connected to the upper end of the bending part; the waveguide antenna unit is connected to the upper end of the waveguide power divider.
Provided is an electrical connector for flat conductor which includes: a housing, terminals, a slider, and a movable member, the slider is attached to the housing such that the slider is movable in the longitudinal direction between a retreat position and a forward position the movable member is attached to the housing such that the movable member is rotatable between an open position and a closed position, the movable member has a cam part, and a front-side pressing part of the cam part presses the slider toward a front side when the movable member rotates in a closing direction, a rear-side pressing part of the cam part presses the slider to a rear side when the movable member rotates in an opening direction, and a rotation center of the movable member is located in a range of the cam part in the longitudinal direction when viewed in the lateral direction.
H01R 12/88 - Coupling devices connected with low or zero insertion force contact pressure producing means, contacts activated after insertion of printed circuits or like structures acting manually by rotating or pivoting connector housing parts
H01R 13/629 - Additional means for facilitating engagement or disengagement of coupling parts, e.g. aligning or guiding means, levers, gas pressure
A cable connector includes a terminal, a housing, and a shell. The shell has: a lock portion having an engagement portion that, upon the cable connector mating with a counterpart connector, is engaged with a protruding portion or a recessed portion formed on an outer side surface of the counterpart connector and locks the counterpart connector; a housing holding portion; and a cable holding portion. The shell further has: a first slit formed on a second side opposite in the axial direction to a first side that mates with the counterpart connector, the first slit extending along a circumferential direction of the shell; two second slits extending respectively from two end portions of the first slit toward the second side; and a third slit extending along the axial direction from an end portion on the first side of the shell to the first slit.
The inventive self-repairing connector 1 is a self-repairing connector which, along with mating with a counterpart connector 20 and placing respective terminals 10, 24 in electrical communication, is adapted to self-repair continuity faults between the respective terminals, said connector comprising a housing 6 and terminal members 10 that make contact with the counterpart terminals 24 via points of terminal contact 10b, wherein a holding portion 14 holding a dispersion C of metal nanoparticles B and fluid communication portions 12 effecting fluid communication between the holding portion 14 and the terminal members 10 in the vertical direction are formed in the housing, and the dispersion of metal nanoparticles held in the holding portion is dropped onto the points of terminal contact upon occurrence of a continuity fault.
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 12/71 - Coupling devices for rigid printing circuits or like structures
H01R 13/502 - BasesCases composed of different pieces
H01R 13/639 - Additional means for holding or locking coupling parts together after engagement
An electrical connector 10 disposed on a circuit board 1 covered by an electrically conductive cover 70, the connector comprising an electrically conductive tubular outer conductor 11 mounted on the circuit board 1 and extending axially along the direction of mating Z with a counterpart electrical connector 20, 40, and an electrically conductive supporting portion 14 provided in the outer conductor 11 and having a connection portion at the top in the direction of mating Z, wherein the connection portion of the supporting portion 14 and the cover 70 are brought into direct or indirect contact when the circuit board 1 is covered by the cover 70, thereby electrically connecting the electrical connector 10 and the cover 70.
It is an object to provide a cable connector capable of performing reliable communication of digital signals between devices with respect to AC-coupled signals using DC blocking. The inventive cable connector 1 comprises a first connector section 4 having a first connector 10 comprising multiple terminals 12, and a first connector substrate 30 having multiple wires 32 placed thereon; a second connector section 6 having a second connector 16 comprising multiple terminals 18, and a second connector substrate 34 having multiple wires 36 placed thereon; a cable section 2, 2a for electrically connecting the multiple wires 32, 36 to one another; and multiple capacitors 40 for DC blocking provided in the first connector section.
H01R 12/72 - Coupling devices for rigid printing circuits or like structures coupling with the edge of the rigid printed circuits or like structures
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 13/66 - Structural association with built-in electrical component
An electrical connector for electrically contacting to a terminal includes a plurality of plates encircling an insertion space of the terminal, and a ring encircling the plates to insert an elastic force on the plates. The plates have a predetermined electrical conductivity to carry electric power to the terminal. The ring has a less electrical conductivity than the electrical conductivity of the plates, and more elasticity than elasticity of the plates.
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 13/03 - Contact members characterised by the material, e.g. plating or coating materials
H01R 13/15 - Pins, blades or sockets having separate spring member for producing or increasing contact pressure
The engaging portions 34 of the mating detecting member 30 are provided at locations offset upwardly from the pressure-receiving portion 32A of the operating portion 32 and, when the mating detecting member 30 is located in the retracted position, are positioned in a manner that permits locking engagement, from the rear, with sections of the housing 10 other than the locking arm portion 12; and, when pressure is applied from the rear to the pressure-receiving portion 32A of the operating portion 32 of the mating detecting member 30 located in the retracted position, the location of locking engagement of the engaging portions 34 and the housing 10 is used as a fulcrum to displace the front end of the mating detecting member 30 upward and the abutment portion 35 abuts part of the locking arm portion 12 from the rear.
H01R 13/641 - Means for preventing, inhibiting or avoiding incorrect coupling by indicating incorrect couplingMeans for preventing, inhibiting or avoiding incorrect coupling by indicating correct or full engagement
The engaging portions 34 of the mating detecting member 30 are provided at locations offset upwardly from the pressure-receiving portion 32A of the operating portion 32 and, when the mating detecting member 30 is located in the retracted position, are positioned in a manner that permits locking engagement, from the rear, with sections of the housing 10 other than the locking arm portion 12; and, when pressure is applied from the rear to the pressure-receiving portion 32A of the operating portion 32 of the mating detecting member 30 located in the retracted position, the location of locking engagement of the engaging portions 34 and the housing 10 is used as a fulcrum to displace the front end of the mating detecting member 30 upward and the abutment portion 35 abuts part of the locking arm portion 12 from the rear.
To provide an electrical connector assembly capable of reliably restricting the tilting of an adaptor connected to a connector to a predetermined angle or less, an electrical connector assembly includes a first connector, an adaptor, a tubular portion forming part of the adaptor with a supporting portion made of a rigid material, a plurality of resilient pieces, and engagement portions protruding radially outwardly from the distal end portions of the resilient pieces. The first connector involves a main body portion having an opening the main body portion has a peripheral wall forming a recess portion; and, when the adaptor is tilted a predetermined angle relative to the first connector while the adaptor is engaged in a mated state, the supporting portion restricts further tilting of the adaptor by abutting the peripheral wall.
A flat conductor connector includes terminals, a housing, a slider movable between a retreat position and an advance position, and a detection member detecting the advance position. The housing includes a locking portion lockable to a flat conductor. The locking portion protrudes in an upper-lower direction. The slider allows at the retreat position, and restricts at the advance position, removal of the flat conductor. The slider includes an abutting portion and an arm portion. The abutting portion restricts movement of the flat conductor. The arm portion is lockable to the housing when the slider is at the advance position. The detection member attached to the slider moves around a detection position, and includes a restriction portion. The detection member at the detection position makes the restriction portion abuttable with the arm portion The detection member absent from the detection position prohibits the restriction portion from abutting the arm portion.
The intermediate circuit board has a plate-shaped substrate and a plurality of signal transmission line pairs for differential signal transmission extending on a major face of the substrate from one end to the other end of the substrate in the direction of connection to the counterpart connect bodies; the substrate has a fiber cloth formed by braiding a plurality of fibers used to reinforce the substrate in a mesh pattern and a plate-like member made of plastic having the fiber cloth embedded therein; the plurality of signal transmission line pairs have straight pairs and cross pairs disposed in an alternating manner in the width direction of the substrate; and the straight pairs and cross pairs, when viewed in the through-thickness direction of the substrate, are formed extending inclined at an angle relative to the fibers of the fiber cloth.
Herein is an electrical connector with an inner conductor extending in the mating direction, a main body portion extending in the mating direction to accommodate one end of the inner conductor and to which a coaxial cable is attached, and a mating portion extending in the mating direction to accommodate the other end of the inner conductor and mates with a counterpart connector. An accommodating space in the main body portion accommodates one end of the inner conductor. An attachment aperture communicates with the accommodating space by extending in the lateral direction perpendicular to the mating direction and attaches the coaxial cable to the main body portion to connect its center conductor to one end of the inner conductor. The attachment aperture of the main body portion includes a tapered portion decreasing in diameter toward the accommodating space at the end proximal to the accommodating space.
A flat conductor electric connector to hold a flat conductor inserted in a front-back direction includes: terminals arrayed in the flat conductor width direction; a housing holding the terminals; and a slider. The housing includes a receiving portion receiving the flat conductor and a locking protruding portion upwardly protruding in the receiving portion and lockable to the flat conductor. The slider is attached to the housing and movable in the front-back direction between a retreat position and an advance position, and includes a first abutting portion to abut the flat conductor at the advance position and a second abutting portion to abut the flat conductor at the retreat position. The second abutting portion is on a front side from the first abutting portion. An upper end of the second abutting portion is at a position identical to or higher than the upper end of the locking protruding portion.
H01R 12/79 - Coupling devices for flexible printed circuits, flat or ribbon cables or like structures connecting to rigid printed circuits or like structures
H01R 12/59 - Fixed connections for flexible printed circuits, flat or ribbon cables or like structures
H01R 12/88 - Coupling devices connected with low or zero insertion force contact pressure producing means, contacts activated after insertion of printed circuits or like structures acting manually by rotating or pivoting connector housing parts
43.
CRIMP TERMINAL, TERMINAL COUPLED BODY AND CONNECTOR
A crimp terminal includes a crimped part crimped to a cable; and a terminal connection part provided to be bent with respect to the crimped part. The cramped part includes: a base part on which the cable extending in a first axial direction is placed; and a barrel piece protruding from the base part in one direction of a second axial direction orthogonal to the first axial direction, and caulked to be crimped to the cable. The terminal connection part is extended in one direction of a third axial direction orthogonal to the first axial direction and the second axial direction.
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 4/16 - 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 bending
A flat conductor electric connector to hold a flat conductor inserted in a front-back direction includes: terminals arrayed in a flat conductor width direction; and a housing holding the terminals. Each terminal includes an attachment portion attached, on one end side, in a fixed manner to the housing, a contact arm portion extending in the front-back direction on the other end side to contact a circuit portion of the flat conductor, and an elastically-displaceable elastic portion provided between the attachment portion and the contact arm portion. The elastic portion is elastically displaceable at least in one of the front-back direction, the terminal alignment direction, or an upper-lower direction which is a flat conductor thickness direction. The contact arm portion is elastically displaceable at least in the upper-lower direction. When the elastic portion is elastically displaced, the contact arm portion is displaceable together with the elastic portion.
H01R 12/79 - Coupling devices for flexible printed circuits, flat or ribbon cables or like structures connecting to rigid printed circuits or like structures
H01R 12/88 - Coupling devices connected with low or zero insertion force contact pressure producing means, contacts activated after insertion of printed circuits or like structures acting manually by rotating or pivoting connector housing parts
H01R 12/89 - Coupling devices connected with low or zero insertion force contact pressure producing means, contacts activated after insertion of printed circuits or like structures acting manually by moving connector housing parts linearly e.g. slider
H01R 13/639 - Additional means for holding or locking coupling parts together after engagement
The first board connector 2, at the opposite ends in the connector width direction, has fittings 80 that extend in the connector length direction perpendicular to both the connector width direction and the vertical direction; the fittings 80 have resilient pieces 83 that extend upwardly and are resiliently deformable in the connector width direction; the resilient pieces 83, in the top end portions thereof, have locking portions 83B that protrude outwardly in the connector width direction; the intermediate connector 1 has a housing 20 capable of receiving the first board connector 2 from below; the housing 20 has lateral walls 22 that extend in the connector length direction at the opposite ends in the connector width direction; and the lateral walls 22 have lockable portions 22C-1 lockingly engageable with the locking portions 83B from below at locations corresponding to the resilient pieces 83 in the connector length direction.
H01R 13/514 - BasesCases formed as a modular block or assembly, i.e. composed of co-operating parts provided with contact members or holding contact members between them
H01R 12/71 - Coupling devices for rigid printing circuits or like structures
The supported portions of the substrate are positioned offset from the center of the substrate in the vertical direction; adjacent intermediate bodies are provided in orientations vertically inverted relative to each other and every two supported portions are positioned so as to differ by a predetermined dimension P in the vertical direction; the lower lateral walls of the housing have formed therein, in an alternating manner, first lower supporting portions and second lower supporting portions positioned so as to differ by the predetermined dimension P in the vertical direction; the first lower supporting portions protrude upwardly of the second lower supporting portions and support from below the supported portions of the intermediate bodies in which the supported portions are positioned with an upward offset; and the second lower supporting portions support from below the supported portions of the intermediate bodies in which the supported portions are positioned with a downward offset.
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 13/502 - BasesCases composed of different pieces
H01R 31/06 - Intermediate parts for linking two coupling parts, e.g. adapter
[Problem]
[Problem]
To provide a coaxial electrical connector that makes it easy to ensure excellent signal transmission quality even in broadband mode.
[Problem]
To provide a coaxial electrical connector that makes it easy to ensure excellent signal transmission quality even in broadband mode.
[Means of Solution]
[Problem]
To provide a coaxial electrical connector that makes it easy to ensure excellent signal transmission quality even in broadband mode.
[Means of Solution]
Dielectric bodies 30 include a first dielectric body 31 and a second dielectric body 32 provided such that a space 43B-1 is formed within an offset from the first dielectric body 31 at a location spaced apart from the first dielectric body 31 in the vertical direction; a center conductor 20 has an abutment portion 23C-2 abutting the second dielectric body 32 from below; the first dielectric body 31 retains the center conductor 20 in the radial direction; and the second dielectric body 32, when pressed from below by the abutment portion 23C-2, is resiliently deformable toward a space 43C formed directly above the second dielectric body 32.
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]
[Problem]
[Problem]
To provide a probe and a probe device that can be easily attached to and detached from circuit boards and make it possible to conduct testing of circuit boards or electronic components in an efficient manner.
[Problem]
To provide a probe and a probe device that can be easily attached to and detached from circuit boards and make it possible to conduct testing of circuit boards or electronic components in an efficient manner.
[Means of Solution]
[Problem]
To provide a probe and a probe device that can be easily attached to and detached from circuit boards and make it possible to conduct testing of circuit boards or electronic components in an efficient manner.
[Means of Solution]
A first clamping piece 20 has first clamping portions 25 at one end located adjacent to the circuit board P that make contact with one surface of a circuit board P; a second clamping piece 30 has a second clamping portion 31 at one end located adjacent to the circuit board P that makes contact with the other surface of the circuit board; the first clamping piece 20 and second clamping piece 30 have operative portions 26, 32 at the other end located on the side distal from the circuit board P for receiving an operating force opposing a biasing force exerted by a biasing member 40.
A plurality of first terminals has two terminal groups. The first terminal belonging to the terminal group is a power supply terminal sequentially arranged at a predetermined pitch. The second terminal is disposed outside a region of the terminal group in a terminal arrangement direction. In the first terminals belonging to the terminal group, a gap greater than the predetermined pitch is formed between a specific first terminal arranged on an innermost side in the terminal arrangement direction and another first terminal not belonging to the given terminal group, the other first terminal being adjacent to the specific first terminal.
A reinforcement metal fitting of a ribbon conductor connector includes a held portion held in a housing on the front end side of the housing, an elongating portion elongating from the held portion to a front side, and elongating outside the housing, a regulating portion elongating downward from the elongating portion, and a fixing portion located below the regulating portion and fixed to a circuit board. The main body has a regulated portion located corresponding to the reinforcement metal fitting in a terminal arrangement direction. The regulated portion is located so as to be contactable with the regulating portion facing from the front when the movable member is at the closing position.
H01R 12/88 - Coupling devices connected with low or zero insertion force contact pressure producing means, contacts activated after insertion of printed circuits or like structures acting manually by rotating or pivoting connector housing parts
H01R 12/77 - Coupling devices for flexible printed circuits, flat or ribbon cables or like structures
Provided is an electric connector which includes: a terminal; and a housing, in which the terminal has a bottom portion, a first leg portion, and a second leg portion, the housing has a first side wall, the first leg portion extends in a fitting direction of fitting to a partner connector from a first direction side of the bottom portion, and is elastically deformable in a first direction, the second leg portion extends in the fitting direction from a second direction side of the bottom portion, and is elastically deformable in a second direction, the first side wall extends in the fitting direction to hold the second leg portion, and when a terminal of the partner connector is inserted into between the bottom portion, the first leg portion, and the second leg portion, the second leg portion and the first side wall are elastically deformed in the second direction.
Provided is an electric connector including: a terminal; and a housing holding the terminal. The terminal has a mounting portion and a pair of arm portions. The pair of arm portions is coupled to the mounting portion, extends in a lateral direction of the electric connector from the mounting portion, and is configured such that a terminal of a partner connector is inserted into between one and other arm portions of the pair of arm portions. Each of the one arm portion and the other arm portion has a holding target portion and a contact piece, the holding target portion is held on the housing, and the contact piece is coupled to the holding target portion and is configured to contact the terminal of the partner connector. A plate thickness direction of the pair of arm portions is substantially perpendicular to a plate thickness direction of the mounting portion.
Provided is a connector assembly including: a first connector; and a second connector fitted to the first connector. The first connector has a first housing and a first terminal held on the first housing. The second connector has a second housing and a second terminal held on the second housing. The first housing has an island-shaped raised portion, a first inner peripheral wall, a first receiving portion, a first outer peripheral wall, and a recessed portion. The second housing has a second inner peripheral wall, an island-shaped recessed portion, a second outer peripheral wall, and a second receiving portion. Upon fitting of the first connector and the second connector, the first terminal is displaced by contact between the first terminal and the second terminal, and part of the displaced first terminal abuts an inner wall of the second outer peripheral wall.
[Problem] To provide test probes that are smaller and have, or are capable of having, shielding capability in a simple manner, as well as a test socket for use with said test probes.
[Problem] To provide test probes that are smaller and have, or are capable of having, shielding capability in a simple manner, as well as a test socket for use with said test probes.
[Means of Solution] A test probe comprising a hollow outer casing made of an electrically conductive material, a resilient member installed within the outer casing in a manner permitting contraction and expansion in an axial direction, and contact members installed within the outer casing in a state of being constantly biased by the resilient member while partially protruding outside of the outer casing, wherein the probe is configured such that the outer casing includes a cylindrical main body portion extending in the axial direction and a shielding portion provided along the axial direction as a protrusion in a radial direction of the main body portion in part of the peripheral surface of the main body portion, or alternatively, such that the outer casing includes a cylindrical main body portion extending in the axial direction and a recessed portion provided along the axial direction as an indentation in a radial direction of the main body portion in part of the peripheral surface of the main body portion, and an end of the shielding portion and/or an end of a shielding member of another test probe to be coupled can be installed in the recessed portion.
Provided is a connector including a terminal and a housing, wherein the terminal includes a first mount portion, a first leg portion, a top portion, a second leg portion, a bottom portion, and an elastic portion, the terminal is configured to house a terminal of a partner connector in a fitting recessed portion formed by the second leg portion, the bottom portion, and the elastic portion, and the second leg portion and the elastic portion contact the terminal of the partner connector, a side wall portion of the housing extends in the fitting direction, and contacts or is provided close to the elastic portion of the terminal, the elastic portion of the terminal and the side wall portion of the housing are elastically deformed together in a lateral direction of the connector when the terminal of the partner connector is inserted into the fitting recessed portion of the terminal.
H01R 13/639 - Additional means for holding or locking coupling parts together after engagement
H01R 13/514 - BasesCases formed as a modular block or assembly, i.e. composed of co-operating parts provided with contact members or holding contact members between them
Provided is a connector device including: a first connector; and a second connector connected to the first connector. The first connector includes a first terminal, a first lock member, and a first housing. The second connector includes a second terminal, a second lock member, and a second housing. The first housing has a first plate portion, a first inner protruding portion, a first outer protruding portion, a first inner space, and a first outer space. The second housing has a second plate portion, a second inner protruding portion, a second outer protruding portion, and a second inner space. The first lock member has a first inner lock portion and a first outer lock portion. The second lock member has a second inner lock portion locked to the first inner lock portion and a second outer lock portion locked to the first outer lock portion.
A flat conductor electric connector includes: a housing; multiple terminals arrayed and held in a terminal array direction; a metal fitting arranged outside a terminal array area in the terminal array direction and held on the housing; and a movable member movable between a closed position and an open position, in which the movable member has a locking portion, and removal of a flat conductor from the housing is blocked by the locking portion, and is allowed by release of the locking portion, the metal fitting has a body portion adjacent to the movable member with a plate surface at a right angle to the terminal array direction, and a biasing portion on the movable member, the body portion having a movable arm portion deformable in a thickness direction of the flat conductor, the biasing portion extending from the movable arm portion toward the movable member biasing the movable member.
H01R 12/88 - Coupling devices connected with low or zero insertion force contact pressure producing means, contacts activated after insertion of printed circuits or like structures acting manually by rotating or pivoting connector housing parts
H01R 12/77 - Coupling devices for flexible printed circuits, flat or ribbon cables or like structures
H01R 12/79 - Coupling devices for flexible printed circuits, flat or ribbon cables or like structures connecting to rigid printed circuits or like structures
A terminal crimping apparatus clamps a barrel portion of a terminal between an anvil and a crimper and caulks the barrel portion so as to enclose a core wire of a cable with the barrel portion. The terminal crimping apparatus comprising: a pressing part which is provided adjacent to the crimper side by side, is capable of separating from and approaching to the cable by movement of at least one of the anvil and the crimper, and prior to caulking of the barrel portion, pushes the cable outward while coming into contact with the cable and being applied with pressing force so as to bring the core wire into contact with a base surface of the barrel portion; and a regulating part which interferes with the pressing part which brings the core wire into contact with the base surface, and regulates pushing out the cable by the pressing part.
Provided is a cable holding device including: a housing includes a terminal having a crimping portion, a cable holding member includes an insertion hole and a guide portion, the crimping portion is insertable into the cable holding member through the insertion hole, the guide portion is provided in the insertion hole, has such a recessed shape that the crimping portion inserted into the insertion hole is fittable therein, and an inner wall of the guide portion includes a first inner wall and a second inner wall provided on a far side with respect to the first inner wall in the insertion hole, and a horizontal width of the second inner wall is set smaller than a horizontal width of the first inner wall such that the second inner wall restricts expansion of a horizontal width of the crimping portion when the crimping portion crimps the cable.
A flat conductor electric connector includes: a housing with a receiving space open to a back such that the flat conductor is inserted forward into the housing; and multiple terminals arrayed and held on the housing with plate surfaces of the terminals at right angle to a terminal array direction, wherein each terminal has an arm portion with a support target arm portion on an inner surface of a wall portion extending in a front-back direction, and with an arm portion having a first portion extending from a back end of the support target arm portion and elastically displaceable in a thickness direction of the flat conductor, and a second portion, on a receiving space side from the first elastic portion, being bent forward from a back end of the first portion, being elastically displaceable in the thickness direction, and having a contact portion contactable with the flat conductor.
Provided is a cable holding member including: a main body; a through-hole; and a cover portion, wherein the through-hole is configured to allow a cable to be inserted therethrough the main body, a part of the cover portion is configured to, upon the cover portion being bent relative to the main body, be capable of covering a plane intersecting with a direction where the cable is inserted, at an opening end face of an opening portion of the through-hole, the main body includes a latch portion, the cover portion includes a cantilever elastic piece having a latched portion, and it is configured in such a manner that upon the cover portion being bent relative to the main body, the elastic piece is elastically displaced at least in a direction along the direction where the cable is inserted, and the latched portion is capable of being latched to the latch portion.
To provide test probes with an increased path for current flow and a test socket having such test probes, involving a support of an electrically conductive material having a first face and a second face, first contact members provided adjacent to the first face of the support, and second contact members provided adjacent to the second face of the support. At least either one of the first contact members or second contact members is provided as a plurality of members, and a plurality of the first contact members and at least one second contact member, or a plurality of the second contact members and at least one first contact member, are electrically connected through the support.
A center conductor 20 has an abutment portion 22A placed in surface contact with a dielectric body 30 from below, the dielectric body 30 has a first dielectric body 31 and a second dielectric body 32 provided in contact with the first dielectric body 31 from below, the first dielectric body 31 has a lower dielectric dissipation factor than the dielectric dissipation factor of the second dielectric body 32, the second dielectric body 32 has a higher deflection temperature under load than the first dielectric body 31, and the surface area of the top face placed in surface contact with the bottom face of the first dielectric body 31 is larger than the surface area of the top face of the abutment portion 22A placed in surface contact with the bottom face of the second dielectric body 32.
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]
A connector assembly method which includes connecting an external connector fixed to a case of equipment and an internal connector on an internal substrate in the case. A lead extending inward of the case is provided at the external connector, a contact terminal is provided in a socket opening formed at the internal connector, and the connecting the external connector and the internal connector includes inserting a tip end side of the lead into the socket opening in such a manner that the socket opening of the internal connector and a tip end of the lead of the external connector relatively approach each other.
H01R 9/26 - Clip-on terminal blocks for side-by-side rail or strip-mounting
H01R 13/508 - BasesCases composed of different pieces assembled by clip or spring
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
Provided is an adaptor including: a housing; and a terminal held by the housing, in which the housing includes: a first mating recess opening in a first opening direction; a plurality of second mating recesses opening in a second opening direction opposite to the first opening direction; and a projection portion, the terminal includes: a first contact portion extending in the first opening direction in the first mating recess; and a plurality of second contact portions extending in the second opening direction in the plurality of second mating recesses, respectively, and the projection portion is configured to protrude in the first opening direction from an inner surface, which is orthogonal to the first opening direction, of the first mating recess along the first contact portion in the first mating recess.
Provided is an electric connector which includes: a housing; and a pair of reinforcement brackets reinforces both end sides of the housing in a longitudinal direction, wherein the housing has a bottom wall, a pair of short walls, a pair of long walls, an island-shaped protruding wall surrounded by the short walls and the long walls, and pairs of corner portions between a corresponding pair of short and long walls, each reinforcement bracket has an outer plate portion, a short wall protection portion, a pair of side plate portions, a pair of long wall protection portions, a pair of connection portions connecting the outer plate portion to the side plate portions, and a pair of corner protection portions, and each corner protection portion extends from either one of the outer plate portion or the side plate portions, and is formed to cover an upper surface of the corner portions.
A circuit board electrical connector includes: plurality of terminals; fixed housing fixed to a circuit board via the terminals; and a movable housing relatively movable with respect to the fixed housing, in which the terminals are provided to be bridged between the fixed housing and the movable housing, the terminals include fixed side held portion held by the fixed housing, a movable side held portion positioned on an inner side in a connector width direction than the fixed side held portion and held by the movable housing, and an elastically deformable intermediate portion positioned. between the fixed side held portion and the movable side held portion, the intermediate portion includes a plurality of elastic portions reversed by repeating a bending direction in a connector height direction, and the specific elastic portion of the plurality of elastic portions is positioned to he different in the connector height direction from another elastic portion and positioned to have a range overlapping in the connector width direction.
A circuit board electrical connector includes: a plurality of terminals; a fixed housing fixed to a circuit board via the terminals; and a movable housing relatively movable with respect to the fixed housing, in which the terminals are provided to be bridged between the fixed housing and the movable housing, the terminals include a fixed side held portion held by the fixed housing, a movable side held portion positioned on an inner side in a connector width direction than the fixed side held portion and held by the movable housing, and an elastically deformable intermediate portion positioned between the fixed side held portion and the movable side held portion, the intermediate portion includes at least one of elastic portions bent in a connector height direction, and a specific elastic portion of the elastic portions can abut on the fixed housing when being elastically deformed by a predetermined deformation amount.
[Problem]
To provide an electrical connector capable of adequately ensuring a stable state of electrical communication between ground members.
[Means of Solution]
The retaining member, which retains rows of signal transmission paths consisting of multiple signal transmission paths arranged side by side in a direction along the major faces of the retaining member together with a first and a second ground member, has perforation portions extending in the through-thickness direction of the retaining member at locations between adjacent signal transmission paths; the electrical connector has provided therein a shorting member of electrically conductive plastics co-molded with the first ground member and second ground member; and the shorting member has first base portions that are located at the first ground member side and are in contact with the first ground member, second base portions that are located at the second ground member side and are in contact with the second ground member, and coupling portions that are located within the perforation portions and couple the first base portions and the second base portions.
H01R 13/652 - Protective earth or shield arrangements on coupling devices with earth pin, blade or socket
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 13/405 - Securing in non-demountable manner, e.g. moulding, riveting
H01R 13/504 - BasesCases composed of different pieces different pieces being moulded, cemented, welded, e.g. ultrasonic, or swaged together
H01R 13/6471 - Means for preventing cross-talk by special arrangement of ground and signal conductors, e.g. GSGS [Ground-Signal-Ground-Signal]
H01R 43/24 - Assembling by moulding on contact members
Example implementations described herein involve a media adaptor configured to provide electrical/optical and optical/electrical conversion for a multi-mode waveguide (MMWG) interconnect, the media adaptor involving one or more ball grid arrays; and a tail-cut fiber array block (tcFAB) connected to a first array of photodiodes and a second array of laser diodes from direct optical wire (DOW) bonding.
A seat occupancy identification method and a vehicle control method using same. The seat occupancy identification method comprises: sampling each antenna echo signal within a preset area, so as to obtain a time-domain echo signal set, wherein each antenna echo signal within the preset area is an echo signal that is obtained by means of performing detection on the preset area inside a vehicle; for each time-domain echo signal in the time-domain echo signal set, performing one-dimensional FFT processing on the time-domain echo signal, so as to obtain distance information of the time-domain echo signal; and according to the distance information of each time-domain echo signal in the time-domain echo signal set, determining valid echo signal sets respectively corresponding to seat occupancy areas inside the vehicle, and according to the valid echo signal sets respectively corresponding to the seat occupancy areas, respectively determining whether the seat occupancy area are occupied.
G01S 7/41 - Details of systems according to groups , , of systems according to group using analysis of echo signal for target characterisationTarget signatureTarget cross-section
G01S 3/14 - Systems for determining direction or deviation from predetermined direction
G01S 13/931 - Radar or analogous systems, specially adapted for specific applications for anti-collision purposes of land vehicles
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
B60H 1/00 - Heating, cooling or ventilating devices
B60J 7/00 - Non-fixed roofsRoofs with movable panels
B60R 22/48 - Control systems, alarms, or interlock systems, for the correct application of the belt or harness
B60Q 9/00 - Arrangement or adaptation of signal devices not provided for in one of main groups
G01S 13/88 - Radar or analogous systems, specially adapted for specific applications
G06K 9/00 - Methods or arrangements for reading or recognising printed or written characters or for recognising patterns, e.g. fingerprints
G06F 17/14 - Fourier, Walsh or analogous domain transformations
Terminals have a retained portion located forwardly of a receiving space and retained in a housing, and a contact arm portion that extends toward the rear from the retained portion; a contact arm portion has a contact portion that protrudes toward the receiving space in the connector thickness direction perpendicular to the forward-backward direction and the terminal array direction and is capable of contacting the counterpart connect body; a contact portion faces the interior surface of the receiving space across a gap in the connector thickness direction; the terminals have an extension portion located forwardly of the contact portion; the extension portion has a reflective portion in the rear end portion thereof; the reflective portion has a rear end face within a range that includes the protruding end of the contact portion when viewed from the rear; and the rear end face is formed as a reflecting surface.
A living body detection method, a terminal (4), and a computer readable storage medium. The method is applied to a millimeter-wave radar, and comprises: obtaining distance dimension data of the millimeter-wave radar (S101); intercepting the distance dimension data according to a preset effective distance range, and obtaining a target index corresponding to the maximum peak value in the intercepted data (S102); obtaining, according to the target index, n adjacent distance measurement units centered on a distance measurement unit corresponding to the target index, and sequentially obtaining an amplitude difference between the distance dimension data of each distance measurement unit at a kth time point and a (k-1)th time point in N consecutive time points (S103); performing windowing and fast Fourier transform for the amplitude difference corresponding to any distance measurement unit to obtain a spectrum corresponding to the distance measurement unit (S104); and determining, according to the spectrums corresponding to the n distance measurement units, whether a target exists at an Nth time point (S105). The living body detection method can improve the living body detection precision.
G01S 7/41 - Details of systems according to groups , , of systems according to group using analysis of echo signal for target characterisationTarget signatureTarget cross-section
G01S 13/04 - Systems determining presence of a target
The locking members have an upper arm portion, a mountable portion, and a strut portion; the upper arm portion has a. pressure-receiving arm portion and a locking arm portion; the mountable portion has an upper clamping portion and a lower clamping portion that extend in the forward-backward direction, and a coupling portion that couples the upper clamping portion and the lower clamping portion, with the upper clamping portion being resiliently displaceable in the up-down direction, and the mounting portion of the housing being clamped by the upper clamping portion and lower clamping portion in the up-down direction; the strut portion extends upwardly from the upper clamping portion and is coupled to the upper arm portion; the movable member has cam portions located above the pressure-receiving arm portions; and the cam portions depress the pressure-receiving arm portions downward when the movable member moves from the closed position to the open position.
The locking members have an upper arm portion that extends in the forward-backward direction, a mountable portion that is mounted to the housing downwardly of the upper arm portion, and a strut portion that extends upwardly from the mountable portion and is coupled to the upper arm portion, the upper arm portion has a pressure-receiving arm portion that extends forwardly from the top end of the strut portion and a locking arm portion that extends toward the rear from the top end of the strut portion, the locking arm portion has an engaging portion positioned so as to permit engagement with the flat-type conductor when the movable member is in the closed position, the pressure-receiving arm portion has its front end portion located downwardly of the other parts while forming a pressure receiving portion.
A method and apparatus for detecting a living body in a vehicle by means of a radar, and a terminal device. The method comprises: acquiring a time domain echo signal array that is obtained by means of a target radar performing detection on the interior of a target vehicle (S101); converting the time domain echo signal array from a time domain to a frequency domain, and extracting a phase of a frequency domain signal corresponding to each sampling point (S102); performing filtering to extract a first frequency domain signal array corresponding to a target frequency interval (S103); for any sampling point, determining an association confidence level of the sampling point on the basis of a phase of a first frequency domain signal corresponding to the sampling point within each time period (S104); and if the number of sampling points having an association confidence level greater than a first preset threshold value is greater than a first sampling point number, determining that a living body is present in the target vehicle (S105). In the method, on the basis of the characteristic that a living body has regular micro-motion signals, correlation analysis is performed on phases of frequency domain signals within a plurality of time periods, such that regular micro-motion signals can be identified, thereby improving the accuracy of detecting a living body in a vehicle.
G01S 13/88 - Radar or analogous systems, specially adapted for specific applications
G01S 7/41 - Details of systems according to groups , , of systems according to group using analysis of echo signal for target characterisationTarget signatureTarget cross-section
G01V 3/12 - Electric or magnetic prospecting or detectingMeasuring magnetic field characteristics of the earth, e.g. declination or deviation operating with electromagnetic waves
79.
KICK SIGNAL RECOGNITION METHOD AND APPARATUS, AND TERMINAL
The present application provides a kick signal recognition method and apparatus, a terminal, and a storage medium. The method comprises: acquiring point cloud information of each echo data frame detected by a radar; determining whether the point cloud information satisfies a preset condition, and if the point cloud information satisfies the preset condition, marking the data frame corresponding to the point cloud information; when the number of acquired data frames reaches a preset value n, every time a new data frame is acquired, counting the number of marked data frames in the first n data frames of the newly acquired data frame to obtain a continuously updated quantity sequence; and recognizing kick signals according to the continuously updated quantity sequence. The present application can improve recognition accuracy of the kick signals.
G01S 13/88 - Radar or analogous systems, specially adapted for specific applications
G01S 7/41 - Details of systems according to groups , , of systems according to group using analysis of echo signal for target characterisationTarget signatureTarget cross-section
80.
Electrical connector, electrical connector assembly, electrical connector with circuit board, and electrical connector assembly with circuit board
The signal transmission paths are transmission path pairs 22, 24 located spaced apart in the arrangement direction of the signal transmission paths 22, 24, the transmission path pairs 22, 24 have two types of pairs, straight pairs 22 and cross pairs 24, the straight pairs 22 and the cross pairs 24 are alternately disposed in the arrangement direction, the signal transmission paths arranged in the arrangement direction form signal transmission path rows, a plurality of the signal transmission path rows are provided, and of two adjacent signal transmission path rows, at least a part of the transmission path pairs 22, 24 of one signal transmission path row in the height direction is offset in the arrangement direction with respect to the transmission path pairs 22, 24 of the other signal transmission path row.
In an electrical connector wherein signal transmission paths 53 have signal connecting portions 53C soldered to signal circuit units on a circuit board, ground members 54, 55 have ground connecting portions 54C, 55C soldered to ground circuit units on the circuit board, and the ground connecting portions 54C, 55C are positioned in the arrangement direction of the signal transmission paths 53 between the signal connecting portions 53C of adjacent signal transmission paths, a width range WG between the opposite end locations of the ground connecting portions 54C, 55C of the ground members 54, 55 in the width direction, which is parallel to the mounting surface of the circuit board and perpendicular to the arrangement direction, extends beyond the width range WS of the signal connecting portions 53C of the signal transmission paths 53.
An in-vehicle radar seat occupancy recognition method and apparatus, and a vehicle-mounted radar, being applicable to the technical field of radars. The method comprises: obtaining a region division matrix and a spatial position matrix corresponding to a target vehicle, and a plurality of frames of point cloud data obtained by scanning the interior of the target vehicle by a vehicle-mounted radar (S101); according to the spatial position matrix corresponding to the target vehicle and each frame of point cloud data, counting the number of point clouds falling within each space, so as to obtain a corresponding point cloud counting matrix (S102); according to a segmentation threshold, performing classification and value assignment on elements in each frame of point cloud counting matrix, so as to obtain a first matrix corresponding to each frame of point cloud data (S103); finally, determining the initial centroid position of each frame of point cloud data in the spatial position matrix according to a neighbor clustering method and each frame of first matrix (S104); and according to the initial centroid position, determining a seat occupancy region in the target vehicle (S105). By means of space division, the method can quickly determine an in-vehicle seat occupancy condition according to the number of point clouds of each space, thereby improving an in-vehicle seat occupancy recognition effect.
Housings have blade receiving portions for blade insertion formed in a peripheral wall by two side walls facing each other in the through-thickness direction of the blades and two end walls; the multiple connecting units include end connecting units located at the opposite ends in the through-thickness direction of the blades and intermediate connecting units located between the end connecting units; engagement grooves engaging with counterpart connect bodies formed in the intermediate connecting units between the side walls and the end walls of the housing to extend in the through-thickness direction of the blades and be open toward the counterpart connect bodies; and no grooves are formed in end connecting units to an extent equal to or greater than the depth of the engagement grooves of the intermediate connecting units between the end walls and the outer side walls located on the outside in the through-thickness direction of the blades.
Provided is a cable holding member which includes: an insulated main body; a through-hole; a bend portion; and a cover portion, in which the through-hole is configured to allow a cable to be inserted therethrough from one end side toward the other side of the main body, the cover portion is configured in such a manner as to be bendable relative to the main body along the bend portion, and at least a part of the cover portion is configured to, upon the cover portion being bent relative to the main body, be capable of covering a plane intersecting with a direction where the cable is inserted, at an opening end face of an opening portion of the through-hole, the opening end face being located on the other end side, or a vicinity thereof.
H01R 4/2433 - Flat plates, e.g. multi-layered flat plates mounted in an insulating base one part of the base being movable to push the cable into the slot
H01R 13/506 - BasesCases composed of different pieces assembled by snap action of the parts
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
85.
Connector with bent piece such that the bent piece can block fitting of the partner connector by a bent piece surface forming the tip end portion, and therefore prevent erroneous insertion
An electric connector includes: a housing having a plate-shaped body; multiple terminals held on the plate-shaped body; and a metal shell surrounding the plate-shaped body and the terminals and having a tubular shape, the shell has: a fitting port in which a partner connector is to be fitted; two or more side walls provided along a partner connector fitting direction; a coupling portion coupling adjacent ones of the two or more side walls; and a first branched band-shaped piece provided closer to a fitting port side than the coupling portion is to the fitting port side, the first branched band-shaped piece is bent about an axis along the fitting direction from one of the adjacent ones of the two or more side walls, and extends toward another one of the adjacent ones of the two or more side walls, and an edge of the first branched band-shaped piece opposite to the coupling portion forms part of the fitting port.
H01R 13/64 - Means for preventing, inhibiting or avoiding incorrect coupling
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
86.
IN-VEHICLE LIFE DETECTION METHOD AND APPARATUS, DEVICE, AND STORAGE MEDIUM
Provided are an in-vehicle life detection method and apparatus, an electronic device, and a computer readable storage medium, which are applicable to to the technical field of intelligent vehicles. The method comprises: obtaining an xth radar frame signal acquired by a preset millimeter wave radar in a vehicle (S110); performing demodulating sampling and time-frequency transformation on the xth radar frame signal, so as to obtain a first distance dimensional signal array (S120); filtering the first distance dimensional signal array, so as to obtain a second distance dimensional signal array (S130); extracting a phase and confidence of a preset detection point from the second distance dimensional signal array (S140); according to a phase and confidence of the preset detection point of an (x-1)th radar frame signal extracted in advance, iteratively filtering the phase and the confidence of the preset detection point of the xth radar frame signal, so as to obtain a filtering result of the preset detection point of the xth radar frame signal (S150); and when the filtering result is greater than a preset threshold, determining that a life exists at the preset detection point (S160). The present method is suitable for in-vehicle life detection in a variety of scenarios, and the detection effect is good.
G01S 13/04 - Systems determining presence of a target
G01S 7/41 - Details of systems according to groups , , of systems according to group using analysis of echo signal for target characterisationTarget signatureTarget cross-section
G01S 13/88 - Radar or analogous systems, specially adapted for specific applications
B60R 21/015 - Electrical circuits for triggering safety arrangements in case of vehicle accidents or impending vehicle accidents including means for detecting the presence or position of passengers, passenger seats or child seats, e.g. for disabling triggering
Provided a connector including a plurality of terminals insert molded with a housing. At least one of terminals includes a first terminal portion and a second terminal portion spaced apart from the first terminal portion in a direction along a direction of mating to a counterpart connector. The first terminal portion includes a first surface extending along a plane crossing the mating direction on a side opposite to the side that mates to the counterpart connector. The first surface includes a portion that does not overlap the second terminal portion as the first and second terminal portions are viewed in the direction from the side opposite to the side that mates to the counterpart connector. At least a partial region of the portion, which does not overlap the second terminal portion, of the first surface is exposed to an outside of the housing through an opening of the housing.
The rotation sensing device comprises a magnet, magnetic sensors, and yokes, which are secured to the base and control the magnetic flux of the magnetic field formed by the magnet; each magnetic sensor comprises a magnetic wire, a coil, and a bobbin; each yoke comprises a left yoke piece and a right yoke piece partially covering the left portion and the right portion of the magnetic sensor; the left yoke piece has a left front plate portion, the left front plate portion, which extends linearly from the front of the left portion of the bobbin, which is to the left of the section where the coil is provided, all the way to the front of the coil, and is inclined with respect to the direction of extension of the magnetic wire such that the right end thereof is located rearwardly of left end thereof.
G01B 7/30 - Measuring arrangements characterised by the use of electric or magnetic techniques for measuring angles or tapersMeasuring arrangements characterised by the use of electric or magnetic techniques for testing the alignment of axes
G01D 5/20 - Mechanical means for transferring the output of a sensing memberMeans for converting the output of a sensing member to another variable where the form or nature of the sensing member does not constrain the means for convertingTransducers not specially adapted for a specific variable using electric or magnetic means influencing the magnitude of a current or voltage by varying inductance, e.g. by a movable armature
Provided is a connector which includes: an insulating housing; and a conductive terminal, in which the terminal is fixed to the housing, and includes a mounting portion connected to a board and a contact portion protruding from the mounting portion in a fitting direction, and a thickness of the contact portion is greater than a thickness of the mounting portion in a direction perpendicular to the board.
A housing having a height, width, and a depth direction, and cantilevered terminals having one end side secured to the housing on one side in the depth direction and having a resilient member forming a free end in an end portion on the other end side opposite to said one end side on the side opposite to the one side in the depth direction. Counterpart terminals are inserted into an insertion space within the housing from locations spaced apart in the height direction through insertion apertures occupying a predetermined area in a plane formed by the depth direction and width direction of the housing, the resilient member has contact points that contact with counterpart terminals inserted through the insertion apertures, and at least a portion of the resilient member other than the contact points, along with the contact points, is positioned within the bounds of the predetermined area in at least the plane.
A method of manufacturing an electrical system for reducing differential-to-differential far end crosstalk (DDFEXT) includes converting a first S parameter representative of a design of a first electrical system into a differential-only S parameter, generating a second differential-only S parameter configured to add even-mode propagation delay and odd-mode propagation delay of the differential-only S parameter of the electrical system such that a total even-mode propagation delay and odd-mode propagation delay of the differential-only S parameter are substantially equivalent, and reconfiguring a second electrical system from the differential-only S parameter and the second differential-only S parameter.
Provided is a connector including a housing. The housing has a terminal array wall, an insertion/detachment direction restriction portion provided in an area defined by the terminal array wall and contacts the partner connector to set a maximum depth position of the partner connector upon fitting, and an inclination restriction portion. The inclination restriction portion is, at a position outside the area defined by the terminal array wall, positioned with a predetermined clearance from a corresponding portion of the partner connector at the maximum depth position upon fitting in a connector insertion/detachment direction. Upon detachment of the partner connector, when the partner connector is inclined such that a one-end-side portion of the partner connector is lifted, the other-end-side portion of the partner connector contacts the inclination restriction portion in the connector insertion/detachment direction to restrict inclination of the partner connector with an angle greater than a predetermined angle.
A flat conductor electric connector mounted on a circuit board and electrically connected to a front end side portion of a band-shaped flat conductor extending in a front-back direction, comprising: multiple terminals in such a shape that metal plate members are bent in a plate thickness direction thereof; and a housing holding, by insert molding, the multiple terminals arrayed in a terminal array direction which is a band width direction, wherein each of the multiple terminals has, at least at one end portion in the front-back direction, a holding target portion held on the housing and an extending portion extending from the housing and formed with a mounting portion to be mounted on the circuit board by soldering, and the holding target portions adjacent to each other and the extending portions adjacent to each other are arrayed and positioned in the terminal array direction. The mounting portion includes an opening to receive a pin of a molding device.
H01R 13/15 - Pins, blades or sockets having separate spring member for producing or increasing contact pressure
H01R 12/72 - Coupling devices for rigid printing circuits or like structures coupling with the edge of the rigid printed circuits or like structures
H01R 12/85 - Coupling devices connected with low or zero insertion force contact pressure producing means, contacts activated after insertion of printed circuits or like structures
Provided is an antenna device includes a base connector fixed to a support substrate, a module connector connected to the base connector to the base connector, and an antenna module fixed to the module connector and configured to transmit or receive a radio wave. The base connector includes a base-side casing, a base-side fitting portion, and multiple base-side terminals. The module connector includes a module-side casing, a module-side fitting portion, and a multiple module-side terminals. The antenna module includes an antenna substrate and an antenna element provided on a front surface of the antenna substrate. In a state in which the base connector is fixed to the support substrate and the module connector is connected to the base connector, the antenna module is fixed to the module-side casing such that the front surface of the antenna substrate faces up diagonally to the outside of the module connector.
Provided is a connector protection member for protecting a connector. The connector includes a housing having a center raised portion including a raised portion end wall, a raised portion end side wall, and a raised portion end upper surface connecting the raised portion end wall, and the raised portion end side wall. A raised portion side surface protection portion of the connector protection member includes: a side portion covers part of the raised portion end wall and part of the raised portion end side wall, and a transition portion formed continuously to the side portion covers a three-surface connection portion formed by an end wall connection portion between the raised portion end wall and the raised portion end upper surface and a side wall connection portion between the raised portion end side wall and the raised portion end upper surface.
An electrical connector with a flat-type conductor 1 for matingly connecting a front end section of a flat-type conductor C with a strip-like configuration extending in the forward-backward direction to a counterpart electrical connector 2, said electrical connector with a flat-type conductor 1 comprising the flat-type conductor C and a housing 10 holding the front end section of the flat-type conductor C, wherein the housing 10 has a locking portion 11E lockable to the counterpart electrical connector 2 and receiving spaces 10D for receiving counterpart terminals 30 provided in the counterpart electrical connector 2, and the locking portion 11E, along with being positioned differently from the position of the receiving spaces 10D when viewed in the thickness direction of the flat-type conductor C, is positioned so as to at least partially overlap with the receiving spaces 10D in the thickness direction of the flat-type conductor C.
H01R 12/79 - Coupling devices for flexible printed circuits, flat or ribbon cables or like structures connecting to rigid printed circuits or like structures
The housing has a locking portion, which is positioned within the range between the circuits positioned at the outermost ends in the strip width direction of the flat-type conductor and is lockable to the counterpart electrical connector, and a holding space, which holds the retainer along with the front end section of the flat-type conductor, the front end section of the flat-type conductor has formed therein a pass-through portion extending through the flat-type conductor in the thickness direction of said flat-type conductor at a location at least partially overlapping with the locking portion in the strip width direction, and the retainer has a protrusion that protrudes in the thickness direction of the flat-type conductor and enters the pass-through portion of the flat-type conductor, thereby making it possible to limit the rearward movement of the flat-type conductor with the help of said protrusion.
H01R 12/79 - Coupling devices for flexible printed circuits, flat or ribbon cables or like structures connecting to rigid printed circuits or like structures
98.
Electrical connector with flat-type conductors, counterpart electrical connector and electrical connector assembly
To provide an electrical connector with flat-type conductors, a counterpart electrical connector, and an electrical connector assembly, in which the size of the connector is not increased in the thickness direction of the flat-type conductors when using two flat-type conductors disposed in parallel opposite each other.
H01R 12/79 - Coupling devices for flexible printed circuits, flat or ribbon cables or like structures connecting to rigid printed circuits or like structures
H01R 12/59 - Fixed connections for flexible printed circuits, flat or ribbon cables or like structures
H01R 13/629 - Additional means for facilitating engagement or disengagement of coupling parts, e.g. aligning or guiding means, levers, gas pressure
H01R 12/77 - Coupling devices for flexible printed circuits, flat or ribbon cables or like structures
99.
Magnetic sensing device and rotation sensing device
The magnetic sensing portion 30 of the rotation sensing device comprises three magnetic sensors 31-33 and a substrate 45 for mounting these magnetic sensors, with each magnetic sensor comprising a magnetic wire 34 generating large Barkhausen effects, a coil 35, and a bobbin 36. The magnetic sensors are disposed on the substrate 45 such that the directions of extension of the magnetic wires 34 are parallel to the substrate 45, the magnetic sensing portion 30 is disposed on the outer periphery of the trackway of the magnetic field forming portions such that the directions of extension of the magnetic wires 34 are parallel to the axial direction of the rotary shaft 3, and the location of the magnetic wire installation portion 38 in the bobbin 36 of each magnetic sensor is configured such that the respective magnetic wires 34 of the three magnetic sensors are respectively equidistant from the rotary shaft 3.
G01D 5/20 - Mechanical means for transferring the output of a sensing memberMeans for converting the output of a sensing member to another variable where the form or nature of the sensing member does not constrain the means for convertingTransducers not specially adapted for a specific variable using electric or magnetic means influencing the magnitude of a current or voltage by varying inductance, e.g. by a movable armature
Provided is a connector terminal which includes: a mounting portion having a flat surface in a width direction and a depth direction; a holding target portion formed continuously to the mounting portion, formed in an inverted U-shape in a height direction; a base portion formed continuously to the holding target portion and having a flat surface in the width direction and the depth direction; and an elastic arm portion formed continuously to the base portion, having a standing portion extending in the height direction, and having a length in the width direction, in which a length of the standing portion in the width direction is approximately maximum among lengths of the connector terminal in the width direction.
