A transmitting apparatus includes a first signal outputter configured to output a first signal to a receiving apparatus via a first line; and a communicator connected to a second line that connects a receiving-side ground node and the first signal outputter with an AC connection, the receiving-side ground node being supplied with a ground potential of the receiving apparatus, and the communicator being configured to transmit a second signal from the transmitting apparatus to the receiving apparatus by causing a direct current, a magnitude of which changes based on a logic level of the second signal, to flow in the second line, or to receive the second signal from the receiving apparatus by detecting a magnitude of a direct current flowing in the second line.

A transmitting apparatus includes a first signal outputter configured to output a first signal to a receiving apparatus via a first line; and a communicator connected to a second line that connects a receiving-side ground node and the first signal outputter with an AC connection, the receiving-side ground node being supplied with a ground potential of the receiving apparatus, and the communicator being configured to transmit a second signal from the transmitting apparatus to the receiving apparatus by causing a direct current, a magnitude of which changes based on a logic level of the second signal, to flow in the second line, or to receive the second signal from the receiving apparatus by detecting a magnitude of a direct current flowing in the second line.

An automated store attached to or integrated into a site where vehicles park, such as a gas station, charging station, or parking lot. The store may obtain the identity of the vehicle automatically, for example in a message sent over a charging cable, or by scanning a license plate. An authorization linked to the vehicle identity may be extended to passengers who exit the vehicle, so that these passengers may take items from the store and have them automatically charged to the vehicle's account. Locked cases containing products may be unlocked automatically when a shopper who exited an authorized vehicle arrives at the case. As passengers move around the site and obtain items from the store, messages may be transmitted back to the vehicle, or to a mobile device of the vehicle owner or driver, showing the items that have been taken.

An automated store attached to or integrated into a site where vehicles park, such as a gas station, charging station, or parking lot. The store may obtain the identity of the vehicle automatically, for example in a message sent over a charging cable, or by scanning a license plate. An authorization linked to the vehicle identity may be extended to passengers who exit the vehicle, so that these passengers may take items from the store and have them automatically charged to the vehicle's account. Locked cases containing products may be unlocked automatically when a shopper who exited an authorized vehicle arrives at the case. As passengers move around the site and obtain items from the store, messages may be transmitted back to the vehicle, or to a mobile device of the vehicle owner or driver, showing the items that have been taken.

A bridge connected between a first process control loop and a second process control loop wherein the bridge allows alternating current digital signals to pass between the first process control loop and the second process control loop while preventing direct current analog signals from passing between the first process control loop and the second process control loop.

Concepts and technologies for dynamic cyclic extension (CE) for Fast Access to Subscriber Terminals (G.Fast) are described. According to one aspect described herein, a system can synchronize a G.Fast modem with the default CE value, measure an upstream signal attenuation of a G.Fast cable in a G.Fast circuit to obtain an upstream signal attenuation value, determine a new CE value based upon the upstream signal attenuation value, and determine if the new CE value is not equal to a default CE value. In response to determining that the new CE value is not equal to the default CE value, the system can update and apply a CE value for the G.Fast cable in the G.Fast circuit to the new CE value. If, however, the new CE value is equal to the default CE value, the system can instead apply the default CE value.

Described herein are methods and systems for connecting via a cable a USB host and USB device over distances equal to greater than 50 meters. The methods and systems include having the host and device each send a pilot signal over the cable and the host and device, each detecting that the received pilot signal is valid. After confirming the validity of the pilot signals, the host begins standard USB protocols with the device. The system and methods also allow for the insertion of a power over Ethernet device into the cable to provide power to a remote USB device. In some embodiments, only the D+ and D lines are used allowing multiple independent USB connections over the cable.

Described herein are methods and systems for connecting via a cable a USB host and USB device over distances equal to greater than 50 meters. The methods and systems include having the host and device each send a pilot signal over the cable and the host and device, each detecting that the received pilot signal is valid. After confirming the validity of the pilot signals, the host begins standard USB protocols with the device. The system and methods also allow for the insertion of a power over Ethernet device into the cable to provide power to a remote USB device. In some embodiments, only the D+ and D lines are used allowing multiple independent USB connections over the cable.

The invention provides an irrigation system and control method thereof, an irrigation apparatus, a conveying pipe. The irrigation system includes: a conveying pipe, used for conveying a liquid from an irrigation source; and an irrigation apparatus, connected to the conveying pipe, and irrigating the irrigation region with the liquid conveyed by the conveying pipe, where one conveying pipe is connected to at least two irrigation apparatuses at intervals, each irrigation apparatus includes a valve, each irrigation apparatus further includes a control module, control modules of the irrigation apparatuses independently control the opening or closing of the valves, to enable the at least two irrigation apparatuses to respectively perform irrigation operations within different time periods, the control module includes a communication port for obtaining remote irrigation information, and the control module controls the opening or closing of the valve according to the irrigation information obtained by the communication port.

The invention provides an irrigation system and control method thereof, an irrigation apparatus, a conveying pipe. The irrigation system includes: a conveying pipe, used for conveying a liquid from an irrigation source; and an irrigation apparatus, connected to the conveying pipe, and irrigating the irrigation region with the liquid conveyed by the conveying pipe, where one conveying pipe is connected to at least two irrigation apparatuses at intervals, each irrigation apparatus includes a valve, each irrigation apparatus further includes a control module, control modules of the irrigation apparatuses independently control the opening or closing of the valves, to enable the at least two irrigation apparatuses to respectively perform irrigation operations within different time periods, the control module includes a communication port for obtaining remote irrigation information, and the control module controls the opening or closing of the valve according to the irrigation information obtained by the communication port.