The present invention is directed to a splitter or hub that provides plural ports for communicating MoCA signals between devices. More particularly, the present invention relates to a passive splitter to communicate MoCA signals between a gateway/amplifier port and customer devices, or a passive hub to communicate MoCA signals between customer devices. The splitter or hub includes a resistive splitter network and may include a MoCA passing filter and a test port.

A cable assembly for terminating a cable. The cable assembly includes a cable assembly mating end and a cable assembly cable receiving end. A metallic outer shell is positioned proximate to the cable assembly mating end of the cable assembly. The metallic outer shell has a mating contact engagement portion. A housing made of dielectric material is positioned in the metallic outer shell. Resilient contact arms are provided on the mating contact engagement portion of the metallic outer shell. The resilient contact arms extend from proximate the cable assembly mating end. Front ends of the resilient contact arms are provided proximate the cable assembly mating end and cooperate with a protection portion of the cable assembly which extends from the cable assembly mating end to prevent the front ends of the resilient contact arms from stubbing when the cable assembly is mated to a mating assembly.

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.

A tap includes an input configured to be connected to a line. The tap also includes a first signal conditioning circuit having a first signal conditioning effect on downstream signals, upstream signals, or both. The tap also includes a second signal conditioning circuit having a second signal conditioning effect on the downstream signals, the upstream signals, or both. The second signal condition effect is different than the first signal conditioning effect. The tap also includes one or more subscriber ports configured to be connected to a subscriber premises. The tap also includes a path-selection device connected to the input, the first signal conditioning circuit, and the second signal conditioning circuit. The path-selection device is configured to selectably route the downstream signals from the input, through the first and second signal conditioning circuits, to the one or more subscriber ports.

A splitter includes an input configured to be connected to a cable television (CATV) network. The splitter also includes a first output connected to the input. The first output is configured to be connected to a first subscriber device. The splitter also includes a second output connected to the input. The second output is configured to be connected to a second subscriber device. A path between the first output and the second output is configured to provide an isolation that is less than 30 dB.

A tap for a cable-television network includes a coupling device configured to receive downstream signals from a distribution line, to provide upstream signals to the distribution line, or both, a plurality of signal conditioning circuits each configured to apply a signal conditioning effect to the downstream signals, the upstream signals, or both, a path-selection device electrically connected to the coupling device and configured to selectably route signals to one or more of the plurality of signal conditioning circuits, and one or more subscriber ports configured to receive at least some of the signals that are selectably routed by the path-selection device, and configured to connect to one or more cables extending to a subscriber premises.

A splitter for use in an in-home network includes an input and a plurality of outputs including at least a first output and a second output. A split point is between the input and the plurality of outputs. A first resistor and a first capacitor are connected in series between the input and the split point. A second resistor and a second capacitor are connected in series between the split point and the first output. A third resistor and a third capacitor are connected in series between the split point and the second output. The input, the first output, and the second output form a resistive Wye-type splitter. A first path exists between the input and the first output. A second path exists between the input and the second output. The first path and the second path have a substantially equal series resistance, series impedance, insertion loss, and isolation.

A multi-tap device for a cable television (CATV) system includes a tap housing and a faceplate configured to be connected to the tap housing. The device also includes a first circuit board configured to be connected to the tap housing. The device also includes a second circuit board configured to be connected to the faceplate and to the first circuit board. The device also includes an access cover connected to the tap housing. The access cover is configured to be opened to provide access to disconnect the first circuit board from the tap housing and from the second circuit board and to subsequently remove the first circuit board from the tap housing, thereby changing a tap value of the multi-tap device. The second circuit board is configured to remain connected to the faceplate and positioned within the tap housing when the first circuit board is removed from the tap housing.

A multi-tap device for a cable television (CATV) system includes a tap housing and a first circuit board positioned within and removably connected to the tap housing. A directional coupler is connected to the first circuit board. A faceplate is integral with the tap housing. One or more subscriber tap ports are connected to the faceplate. An access cover is connected to the tap housing. The access cover is configured to be opened to provide access to an interior of the tap housing for a user to disconnect the first circuit board from the tap housing.

A splitter for allowing a hardline cable to be connected to the spotter as an input and a connector to be connected to the splitter as an output includes a housing portion. The housing portion includes an input portion; the input portion is configured to receive a hardline input cable; the housing portion includes an output portion; the input portion includes an engagement portion configured to engage a hardline back nut; the sputter is configured to connect to the hardline input cable; and the connection of the splitter to the hardline input cable is configured to allow the splitter to be installed on the hardline input cable without additional hardware to connect the splitter to the hardline input cable.