Abstract: In a first contact of a connector, an insulation-displacement connection portion has two insulation-displacement blades and has a narrow slit and a wide slit. The insulation-displacement blades are different from each other in position in a first direction and correspond to the narrow slit. The insulation-displacement blades are obliquely intersected with the first direction. The narrow slit and the wide slit extend in the front-rear direction. In the first direction, the insulation-displacement blade is located between the narrow slit 362 and the wide slit 364. In a second direction, a middle of the wide slit 364 is different from a middle of the narrow slit 362 in position. When covered wire is pushed into the narrow slit, it is pressed on the insulation-displacement blades at different timings in order.

Abstract: An electronic equipment comprises a case and a connector which is attached to the case. The connector comprises a housing and a waterproofing member. The waterproofing member is sandwiched by a mating connector and a side portion of the housing in a second direction when the connector is mated with the mating connector. The waterproofing member has at least one first contact portion, at least one second contact portion, at least one third contact portion and at least one fourth contact portion. The third contact portion is pressed against the side portion in the second direction by elasticity of the waterproofing member upon the mating of the connector with the mating connector. The fourth contact portion is pressed against and in contact with the mating connector in the second direction by the elasticity of the waterproofing member upon the mating of the connector with the mating connector.

Abstract: A cantilever spring is positioned in a slit in a shell, and has a free end and a fixed end fixed to the shell. The cantilever spring extends in a height direction of the shell. The fixed end of the cantilever spring is positioned near a part that is attachable to a board, and the free end of the cantilever spring is apart from that part.

Abstract: A first housing of a first connector is provided with a second guided portion, and a second housing of a second connector is provided with a second guiding portion. The second guided portion and the second guiding portion regulate upward movement of the first connector with respect to the second connector in the up-down direction between a preliminary mated state and a final mated state and in the final mated state. The second housing further has a movable member with a regulating portion. When the movable member is positioned at a locked position, the regulating portion regulates rearward movement of the first housing with respect to the second housing.

Abstract: An antenna includes a split-ring conductive portion and a ring-inside conductive portion. The split-ring conductive portion is positioned outside a region and is positioned in an area which extends along an outline of the region except for a split. The ring-inside conductive portion is positioned inside the region. The ring-inside conductive portion is continuous with one of parts of the split-ring conductive portion, the split being put between the parts of the split-ring conductive portion. At least a part of the ring-inside conductive portion is bent so as to extend parallel to the split-ring conductive portion.

Abstract: A connector device comprises a connector and a mating connector. The connector comprises a housing and a slider having a second regulated portion. The mating connector comprises a mating housing having a second regulation portion. The connector is movable between an open position and a closed position. The slider is held by the housing to be movable between a first position and a second position. When the connector is moved to a predetermined position together with the slider which is located at the second position upon a movement of the connector from the closed position toward the open position, the second regulated portion is brought into abutment with the second regulation portion, and a movement of the connector toward the open position beyond the predetermined position is regulated. When the slider is moved to the first position, the connector is movable to the open position.

Abstract: In a connector, movement of a contact is appropriately restricted in detaching a counter connector from the connector. The connector fittable with the counter connector in a first direction includes the contact and a housing. The contact includes: a press-fitted portion press-fitted into the housing in a second direction intersecting the first direction; an extension portion that extends from the press-fitted portion in a third direction intersecting the first and the second directions; and a contact portion that extends from the extension portion and contacts the counter contact. The housing includes a protrusion portion that protrudes from a rising portion in the third direction. In a state where the press-fitted portion is press-fitted in the housing, a surface of a distal end portion in the third direction of the extension portion contacts the protrusion portion, which surface faces a side where the counter connector is situated.

Abstract: A connector is mateable with a mating connector. The connector comprises a housing and a terminal. The terminal has an arm, a contact portion and a held portion held by a holding portion of the housing. The arm couples the held portion and the contact portion to each other and supports the contact portion so that the contact portion is movable. The contact portion has a bottom portion, a first support portion, a second support portion, a first contact point and a second contact point. Each of the first support portion and the second support portion extends upward from the bottom portion. The first contact point is supported by the first support portion. The second contact point is supported by the second support portion. Under a mated state, a mating terminal of the mating connector is sandwiched and held between the first contact point and the second contact point.

Abstract: The present invention reduces measurement time. A gyroscope of the present invention includes a planar ion trap part, a microwave irradiation part, a laser irradiation part and a measurement part. The planar ion trap part includes two rf electrodes and two DC electrode rows, and forms ion traps that trap one ion on a substrate, a normal direction of the surface of the planar ion trap part corresponds to a z direction. The rf electrodes are disposed in the x direction on the substrate at a predetermined interval. The DC electrode rows are disposed in the x direction on the substrate so as to sandwich the two rf electrodes. The DC electrode rows each include at least five DC electrodes in the x direction. The trapped ions are spaced so as not to interfere with each other. The microwave irradiation part irradiates the ions with ?/2 microwave pulses.

Abstract: In a connector assembly in which a connector that includes a ground terminal including a plate portion and a mating connector that includes a mating ground terminal including a mating plate portion are fitted to each other, the plate portion and the mating plate portion have plate surfaces that are parallel to each other, the plate portion is composed of a pair of U-shaped portions that are adjacent to each other, the mating plate portion is shaped to have a pair of projection portions forming a concave portion therebetween, the projection portions formed in a pair are respectively positioned in U shapes of the pair of U-shaped portions, each of leg portions of the mutually-adjacent U shapes in the pair of U-shaped portions is positioned in the concave portion, and protrusion portions of the leg portions are respectively in contact with the projection portions.

Abstract: An electrical connecting element includes a stretchable insulation sheet, two or more first conductive threads on one surface of the insulation sheet, and two or more first resin threads on the one surface of the insulation sheet. The first conductive threads extend in a predetermined direction and are disposed in parallel with each other orthogonally to the predetermined direction. The first resin threads have thermal adhesiveness. The first resin threads do not overlap with any of the first conductive threads.