Accordingly, there are disclosed herein active cables and methods that enable direct connection between different generations of network interface ports or ports supporting different standards. One illustrative embodiment is an active 1:N breakout cable that includes a unary end connector connected by electrical conductors to each of multiple split end connectors. The unary end connector is adapted to fit into a network interface port of a primary host device to provide output PAM4 electrical signals that convey a multi-lane outbound data stream to the primary host device and to accept input PAM4 electrical signals that convey multi-lane inbound data stream from the primary host device. Each of the split end connectors is adapted to fit into a network interface port of a secondary host device to provide output NRZ electrical signals that convey a split portion of the inbound data stream to that secondary host device and to accept input NRZ electrical signals that convey a split portion of the outbound data stream from that secondary host device.

A connector for use in a free-standing connector port for mating with an external pluggable module is disclosed. The connector has terminals that extend lengthwise of the connector so that cables may be terminated to the terminals and the terminals and cable generally are horizontally aligned together. The connector includes a housing and a pair of connecting elements that flank a card-receiving slot of the connector. The cables exit from the rear of the connector elements and from the connector port. The connector elements engage the connector port to fix the connector in place within the connector port.

A multi-way coupler includes a housing having at least three connector-receiving channels, a circuit board contained within the housing and at least three pairs of contacts including exactly one pair of contacts per each of the at least three connector-receiving channels. Each of the contacts includes a forward end extending into the respective connector-receiving channel and a rearward end electrically coupled to the circuit board. Further, each of the pair of contacts includes a first contact and a second contact with the circuit board including a first set of traces to electrically couple all of the first contacts together and a second set of traces to electrically couple all of the second contacts together. The multi-way coupler has a shielded configuration and a non-shielded configuration

A pogo block includes: a conductor having a first terminal connected to a terminal of a board of an inspection part, a second terminal connected to a terminal of a probe card, and an elastically expandable and contractible connection portion connecting the first terminal and the second terminal, and configured to be expandable and contractible in a direction connecting the first terminal and the second terminal; and a housing having a first holder configured to hold the first terminal, a second holder configured to hold the second terminal, and a guider into which the elastically expandable and contractible connection portion is inserted and configured to guide movements of the first holder and the second holder in the direction connecting the first terminal and the second terminal.

A splitter with equidistant output ports is disclosed herein. In exemplary aspects, the splitter includes a housing, a printed circuit board (PCB) assembly positioned therein, an input port, and a plurality of output ports. The printed circuit board assembly includes a PCB, an input conductor attached to a first surface of the printed circuit board at an input contact point, and a plurality of output conductors attached to a second surface of the PCB. The input port and the plurality of output ports are attached to the housing and surround at least a portion of the input conductor and the plurality of output conductors. The plurality of output ports includes at least three output ports, wherein each output port of the plurality of output ports, and each of the corresponding output conductors, are circumferentially positioned around the input contact point. Thus, the splitter provides improved signal balance and transfer.

An example adapter device includes a host-side connector to connect to a host device, the host-side connector including a host-side electrical contact to connect to a corresponding electrical contact of the host device. The adapter device further includes a storage-side connector to connect to storage devices operable under different protocols, the storage-side connector including a storage-side electrical contact to connect to a connected storage device. The adapter device further includes a circuit to apply a bias voltage to the host-side electrical contact. The host-side electrical contact is to provide a protocol-indicating voltage to indicate to the host device a protocol of the connected storage device. The protocol-indicating voltage is dependent on the connected storage device's influence on the bias voltage.

A connector includes: a terminal fitting connected to an electric wire; a housing including a housing chamber, an electric wire drawing port, a communication hole, and a counterpart fitting chamber where a gap formed between the counterpart fitting chamber and a counterpart terminal fitting is filled with a first sealing member; a lid member; a second sealing member that fills a gap between these and forms a first sealed space part in the housing with the first sealing member; a waterproof member including one end part in close contact with an end part of the housing, the other end part in close contact with the electric wire drawn from the electric wire drawing port, and a tubular part, the tubular part including a second sealed space part communicating with the first sealed space part through the electric wire drawing port; and a ventilation component.

A connector includes: a terminal fitting connected to an end of an electric wire; a housing including a housing chamber and an electric wire drawing port; a first waterproof member that is elastically deformable and fills a space between an inner peripheral surface of the housing and an outer peripheral surface of a cover of the electric wire in the housing chamber to form a first sealed space part between the first waterproof member and the electric wire drawing port; a second waterproof member that is elastically deformable and includes one end part, an other end part, and a tubular part, the tubular part having a second sealed space part that communicates with the first sealed space part through the electric wire drawing port; and a ventilation component.

An electrical connector including a substrate, a pitch transformation routing assembly formed on the substrate and including pitch transformation routing members, a first set of contact members, each contact member extends away from a first end of a corresponding pitch transformation routing member, and a second set of contact members, each contact member extends away from a second end of a corresponding pitch transformation routing member. A first subset of the pitch transformation routing members each includes a first routing section extending in a first direction and a second routing section extending in a second direction. A pitch of the first set of contact members associated with the first subset of the pitch transformation routing members is different from a pitch of the second set of contact members associated with the first subset of the pitch transformation routing members.

A high density coupling panel of the present disclosure presents a compact grouping of coupler wherein each of the couplers couples a first free connector with a second free connector wherein each of the free connectors is coupled to exactly two electrical conductors. The high density coupling panel can be manufactured in a shielded (e.g., metal) or non-shielded (e.g. non-metal) form as appropriate to a specific application. In the shielded configuration, a bonding strip is used to connect all metal components (e.g., shielded free connectors, shielded couplers, and metal panel of the high density coupling panel) to ground via a shielding tab.