A network distribution method applied to a Power Line Communication (PLC) sub-device includes: acquiring Wi-Fi configuration information from a PLC parent device through a power line in response to the PLC sub-device to be distributed accessing the power line; and performing Wi-Fi configuration on the PLC sub-device based on the configuration information. By connecting the power line, the PLC parent device sends the Wi-Fi configuration information to the PLC sub-device to be distributed, and the PLC sub-device performs network distribution based on the Wi-Fi configuration information and the router, thereby simplifying the network distribution process of the smart devices, the user only needs to electrically connect the PLC sub-device to be distributed to the power line through the socket to implement the network distribution process.

Novel tools and techniques are provided for implementing easy digital subscriber line (“DSL”) signal detection. In various embodiments, after a connector of a signal detector has been inserted into a network service port, a processor of the signal detector may determine whether at least one C-tone is present on at least one signal wire communicatively coupled to the network service port, the at least one C-tone being indicative of network service being ready for provision via the at least one signal wire. If so, the processor of the signal detector may cause a display device to indicate to a user that the network service port is ready to provide the network service. A modem can then be installed by connecting with the network service port. The connector, the processor, and the display device are integrated within a single, compact, handheld form factor of the signal detector.

Novel tools and techniques are provided for implementing easy digital subscriber line (“DSL”) signal detection. In various embodiments, after a connector of a signal detector has been inserted into a network service port, a processor of the signal detector may determine whether at least one C-tone is present on at least one signal wire communicatively coupled to the network service port, the at least one C-tone being indicative of network service being ready for provision via the at least one signal wire. If so, the processor of the signal detector may cause a display device to indicate to a user that the network service port is ready to provide the network service. A modem can then be installed by connecting with the network service port. The connector, the processor, and the display device are integrated within a single, compact, handheld form factor of the signal detector.

CAN bus drive slew rate control is used to suppress ringing using bus impedance matching that is only activated during and shortly after the bus driver unit transitions from driving the bus “dominant” to “recessive”. In one embodiment a bus impedance matching unit is a differential input and differential output operational trans-conductance amplifier (OTA). The differential OTA absorbs or provides the ringing current based on bus differential voltage. In another embodiment a bus impedance matching unit is a back-to-back connected R.sub.ON regulated transistor pair together with a gate control related circuit. Where the total R.sub.ON is equal to the CAN bus characteristic impedance.

CAN bus drive slew rate control is used to suppress ringing using bus impedance matching that is only activated during and shortly after the bus driver unit transitions from driving the bus “dominant” to “recessive”. In one embodiment a bus impedance matching unit is a differential input and differential output operational trans-conductance amplifier (OTA). The differential OTA absorbs or provides the ringing current based on bus differential voltage. In another embodiment a bus impedance matching unit is a back-to-back connected R.sub.ON regulated transistor pair together with a gate control related circuit. Where the total R.sub.ON is equal to the CAN bus characteristic impedance.

A ringing suppressor circuit is connected to a differential signal transmission line that includes a high potential signal line and low potential signal line pair for transmitting high and low level differential signals, and includes a ringing suppressor and a stopper. When the differential signal changes to a high level, the ringing suppressor suppresses ringing by lowering the impedance between the signal lines by turning ON of a switching element. When a differential signal voltage drops below a voltage lowering determination voltage, the stopper stops the impedance lowering function of the ringing suppressor by turning OFF another switching element.

A ringing suppressor circuit is connected to a differential signal transmission line that includes a high potential signal line and low potential signal line pair for transmitting high and low level differential signals, and includes a ringing suppressor and a stopper. When the differential signal changes to a high level, the ringing suppressor suppresses ringing by lowering the impedance between the signal lines by turning ON of a switching element. When a differential signal voltage drops below a voltage lowering determination voltage, the stopper stops the impedance lowering function of the ringing suppressor by turning OFF another switching element.

A cord for suppressing noise from a modem includes a hot wire, a neutral wire, and a signal balancing device. The hot wire is configured to connect to a hot power port of a modem. The neutral wire is configured to connect to a neutral power port of the modem. The signal balancing device is configured to connect to an outer conductor of a coaxial radiofrequency (RF) port of the modem and to the neutral wire or a ground wire. The signal balancing device is configured to balance RF signals transmitted through the coaxial RF port.

A cord for suppressing noise from a modem includes a hot wire, a neutral wire, and a signal balancing device. The hot wire is configured to connect to a hot power port of a modem. The neutral wire is configured to connect to a neutral power port of the modem. The signal balancing device is configured to connect to an outer conductor of a coaxial radiofrequency (RF) port of the modem and to the neutral wire or a ground wire. The signal balancing device is configured to balance RF signals transmitted through the coaxial RF port.

A ringing suppression circuit is provided at one or more nodes each having a communication circuit executing communication with another node by transmitting a differential signal through a pair of communication lines connected to the nodes. The circuit includes a suppression circuit and an operation mode controller: The suppression circuit is configured to execute a suppression operation for suppressing ringing in the differential signal. The operation mode controller is configured to set an operation mode of the suppression circuit to one of: a normal operation mode, which enables the suppression circuit to execute the suppression operation in response to detecting a change in a level of the differential signal, and a permanent off mode, which disables the suppression circuit to execute the suppression operation on a steady basis.