An electronic system for a vehicle includes: a first module including: a first circuit board having a predetermined form factor; a first module on the first circuit board and including a plurality of pins; a first electrical connector disposed on a first surface of the first circuit board and including a plurality of pins; and a plurality of electrical conductors connecting the pins of the first electrical connector with the pins of the first module, respectively; and a second module including: a second circuit board having the predetermined form factor; a second module on the second circuit board and including a plurality of pins; a second electrical connector disposed on a first surface of the second circuit board and including a plurality of pins, the second electrical connector coupled to the first electrical connector.

Implantable medical devices that include a battery to power circuitry utilize a battery connector to electrically interconnect the battery to the circuitry. The battery connector may be mounted directly to a device housing to have the battery connector a fixed position within the device. Battery terminals of the battery are electrically connected to terminals on the battery connector, and the terminals on the battery connector are electrically connected to power terminals of the circuitry. The battery connector may include various features such as mounting grooves formed in a connector body, tapered pins to connect to power terminals on a circuit board, as well as plates to engage the battery terminals. The device housing may provide mounting features that allow the battery connector to be affixed directly to the device housing.

Implantable medical devices that include a battery to power circuitry utilize a battery connector to electrically interconnect the battery to the circuitry. The battery connector may be mounted directly to a device housing to have the battery connector a fixed position within the device. Battery terminals of the battery are electrically connected to terminals on the battery connector, and the terminals on the battery connector are electrically connected to power terminals of the circuitry. The battery connector may include various features such as mounting grooves formed in a connector body, tapered pins to connect to power terminals on a circuit board, as well as plates to engage the battery terminals. The device housing may provide mounting features that allow the battery connector to be affixed directly to the device housing.

An electrical connector assembly can include a plug connector and a receptacle connector that can mate together. Conductive communication between the plug and receptacle connectors is established by mating signals terminals and mating ground terminals contained in terminal subassemblies accommodated in each connector. To align and support the signal and ground terminals, the terminals may be part of a terminal wafer and the terminal subassembly can be assembled from one or more wafers. The terminal wafer may include grounding features to improve the electrical characteristics and data transmission through the electrical connector assembly.

An electrical connector assembly can include a plug connector and a receptacle connector that can mate together. Conductive communication between the plug and receptacle connectors is established by mating signals terminals and mating ground terminals contained in terminal subassemblies accommodated in each connector. To align and support the signal and ground terminals, the terminals may be part of a terminal wafer and the terminal subassembly can be assembled from one or more wafers. The terminal wafer may include grounding features to improve the electrical characteristics and data transmission through the electrical connector assembly.

An electrical connector assembly includes a housing having a card slot at a mating end configured to pass through a panel opening of a panel forward of the panel for receiving a circuit card. A cable end of the housing is rearward of the panel. The electrical connector assembly includes contacts held in the housing. The electrical connector assembly includes cables terminated to the contacts and extending from the housing. The electrical connector assembly includes a connector mounting bracket having a collar surrounding a window receiving the housing. The connector mounting bracket has mounting latches extending from the collar with latch fingers configured to be coupled to the panel. The connector mounting bracket includes a biasing element configured to engage the panel to bias the panel against the mounting latches.

A pluggable network interface device is provided comprising a split-shell housing having a shielded side portion that protects a side of a circuit substrate disposed in the split-shell housing. The split-shell housing comprises a first shell portion that covers a first side of the circuit substrate and a second shell portion that covers a second side of the circuit substrate that is arranged opposite the first side. The shielded side portion is inset from a width of the split-shell housing and offset a distance from an electrical interconnection end of the circuit substrate. The shielded side portion is arranged at least partially in a notch of the circuit substrate disposed at the electrical interconnection end of the circuit substrate.

A pluggable network interface device is provided comprising a split-shell housing having a shielded side portion that protects a side of a circuit substrate disposed in the split-shell housing. The split-shell housing comprises a first shell portion that covers a first side of the circuit substrate and a second shell portion that covers a second side of the circuit substrate that is arranged opposite the first side. The shielded side portion is inset from a width of the split-shell housing and offset a distance from an electrical interconnection end of the circuit substrate. The shielded side portion is arranged at least partially in a notch of the circuit substrate disposed at the electrical interconnection end of the circuit substrate.

Certain aspects of the present disclosure provide techniques for pinless interconnect for twinaxial cables to an IC. This includes a socket coupled to an integrated circuit (IC), a port structure coupled to the socket, and a ground connector inserted into the port structure. It further includes a twinaxial cable including a pair of conductors inserted through the ground connector to establish an electrical connection between the twinaxial cable and the IC.

Certain aspects of the present disclosure provide techniques for pinless interconnect for twinaxial cables to an IC. This includes a socket coupled to an integrated circuit (IC), a port structure coupled to the socket, and a ground connector inserted into the port structure. It further includes a twinaxial cable including a pair of conductors inserted through the ground connector to establish an electrical connection between the twinaxial cable and the IC.