A connector integrated with a protection element, which includes a connector housing; first terminals disposed in an inner space of the connector housing; second terminals configured to extend from the inside of the connector housing to the outside of the connector housing in a state of being separated from the first terminals and be soldered to the PCB; and a protection element configured to electrically connect the first terminals and the second terminals and mounted to one side of the connector housing.

A charge dissipation plate for aircraft electronic systems comprises a machined metal plate 1 have at least one through opening 2a, 2b, 2c machined therein and an integrally formed collar 3a, 3b, 3c associated with and extending around the or each opening 2a, 2b, 2c. The or each collar 3a, 3b, 3c upstands from the plane of the plate 1 and has a threaded outer surface 4a, 4b, 4c. The or each collar 3a, 3b, 3c forms a housing for receiving an electronic connector therein, the threaded outer surface 4a, 4b, 4c, in use, being engagable by a mating threaded connector for connecting with the electronic connector mounted in the collar.

A first connector is connected to a second connector. The first connector is provided with a first frame body, first signal terminals, and a grounded part. The first frame body has a first opening. The second connector is inserted in the first frame body through the first opening. The first signal terminals are disposed inside the first frame body so as to be brought into connection with second signal terminals that are provided to the second connector. The grounded part is disposed in such a manner as to come into contact with the second signal terminals after initiation of insertion of the second connector into the first frame body and before establishment of a connection state where, upon completion of the insertion, the first signal terminals and the second signal terminals come to be connected respectively, and also to separate away from the second signal terminals in the connection state.

An alternating current/direct current input device includes an appliance input socket and an information and communications technology (ICT) device. The ICT device is powered by the appliance input socket. The appliance input socket includes a ground contact, a positive electrode contact, a negative electrode contact, and a signal switch. A contact depth of the signal switch in the appliance input socket is less than a contact depth of the positive electrode contact or the negative electrode contact in the appliance input socket. The signal switch is configured to generate a control signal when a direct current connector is separated from the appliance input socket. The control signal can be used to enable the ICT device to disconnect the appliance input socket from a conductive electrode of the direct current connector after the ICT device enters a no load state.

A male connector (100) includes a contact pad substrate (101) and a connector shell (102). The contact pad substrate (101) includes a linear array of contact pads (103a, 103b, 103c, 103d) that are adapted for aligning with corresponding contacts (103′a, 103′b, 103′c, 103′d) of a contact-bearing tongue (104′) of a corresponding female connector (100′) that conforms to a USB Series A receptacle contact pad pitch specification. The two outermost contact pads (103a, 103d) of the linear array are electrically connected together. The connector shell (102) is formed from an insulating material and comprises a tubular portion (102a) for insertion into the corresponding female connector (100′), and a handling portion (102b) for handling during insertion.

A USB device includes a base, a circuit board disposed on the base and having front-end and rear-end portions and a ground circuitry, an upper cover, solder points, a switch and a button mount. The rear-end portion is used for inserting into a connection port of a computer terminal. The upper cover covers the front-end portion and has an opening. The solder points are formed on the front-end portion and coupled to the ground circuitry. The switch having a metal cover is soldered to the solder points for controlling wireless connection between the computer terminal and an external device. The button mount is movably disposed through the opening and sleeves the front-end portion for triggering the switch. An electrostatic discharge entering from the opening can pass through a first guide hole of the button mount and is conducted to the ground circuitry via the metal cover and the solder point.

Disclosed are an input/output terminal for connecting an electronic device to an external device and an electronic device comprising the input/output terminal, the input/output terminal comprising: a signal pin allowing signals to be transmitted/received between the electronic device and the external device; a ground pin connected to a ground part of the electronic device; and a resistant material disposed at the end part of the signal pin or the ground pin. Other various embodiments are possible.

An electronic member provided in a circuit board having a connector. The connector has a card mounting port and holds a memory card in a state where a tip of the memory card is exposed from the card mounting port at a connection position where a connection terminal of the memory card and a connection terminal of the circuit board are connected. The electronic component includes a device that adds capacitance at a position separated from and facing at least a part of the tip of the memory card, in a state where the memory card is held at the connection position by the connector, and a connector having first and second end portions in which the first end portion is connected to the device that adds capacitance and the second end portion is connected to a ground of the circuit board.

The present invention discloses a terminal stand that includes a base body, a movable part, a metal elastic part, a first signal element and a second signal element. The base body includes a first receiving slot and a second receiving slot. The metal elastic part is disposed in the first receiving slot. One end of the metal elastic member includes two first abutments. The first signal element is disposed in a second receiving slot. One end of the first signal element includes a first contact portion and a second abutment. The second signal element is disposed in the second receiving slot. When the movable member is pressed, the movable member drives the two first abutments to move, and the abutment drives the second abutment to move, with the first contact portion leaving the second contact portion, and the signal circuit is in an off-state state.

A cable with terminals in the present disclosure includes a shielded cable (80) and an outer conductor (40). The shielded cable (80) includes wires (81) and a shield. The outer conductor (40) includes a tube. The tube collectively covers the outer peripheries of the wires (81) exposed from the shield, and includes a first cover and a second cover. The first cover covers the wires from a first side, and the second cover covers the wires from a second side opposite to the first side with clearances (S) defined between the first and second covers. At least one of the first and second covers includes leakage suppressing portions (58). The leakage suppressing portions (58) extend toward a wire arrangement area (48) where the wires (81) are arranged in the tube.