RU2011111662A - METHOD AND SYSTEM FOR MANAGEMENT OF ELECTRICAL EQUIPMENT, IN PARTICULAR OF THE LIGHTING SYSTEM - Google Patents

Abstract

1. A method for controlling electrical equipment, in particular a lighting system, in which the lamps exchange data with the executive station through the lighting line, characterized in that the data exchange between the lamps and the executive station is carried out as follows, the communication module of the executive station supplies information packets to the lighting line with coded information, in accordance with the exchange protocol, simultaneously to all lamps that are constantly in a receiving state, at any time, without synchronizing their start of transmission with any parameters of the power supply network, a high-pass filter blocks the passage of information packets from the communication module of the executive point into the power supply line of the executive point, and also reduces interference from this line, the transmitted signal is amplified by repeaters, while the controlled luminaires receive the transmission packet, decode it, check the address and phase, and if the luminaire's own address is not coincides with the address of the transmission packet, then the luminaire ignores the packet, and if the luminaire's own address matches the address of the transmission packet, then the luminaire executes the command that is encoded in the received information packet in accordance with the command data, which are also encoded in the information packet, and after the command is executed the luminaires form a response information packet, in which the information obtained as a result of the command is encoded, while, after the information packet has been submitted, the communication module waits for a time, the value of which is determined by the time required for the luminaries

Claims (5)

1. A method for controlling electrical equipment, in particular a lighting system, in which the luminaires exchange data with the executive point via the lighting line, characterized in that the data exchange between the lamps and the executive point is carried out as follows, the communication module of the executive point sends information packets to the lighting line with encoded information, in accordance with the exchange protocol, simultaneously to all luminaires that are constantly in the receiving state, at any time without synchronizing their start of transmission with any parameters of the power supply network, the high-pass filter blocks the passage of information packets from the communication module of the executive point to the power line of the executive point, and also reduces interference from this line, the transmitted signal is amplified by repeaters, while the controlled lamps accept transmission packet, decode it, check the address and phase, and if the lamp's own address does not match the address of the transmission packet, the lamp ignores the packet, and if with Since the luminaire’s address is the same as the address of the transmission packet, the luminaire executes a command that is encoded in the received information packet in accordance with the command data, which is also encoded in the information packet, and after the command is completed, the luminaires form a response information packet in which the information received is encoded as a result of the execution of the command, in this case, after the filing of the information packet, the communication module waits for a time, the value of which is determined by the time necessary luminaries to send the answer to the communication module, and if the answer is not received, the transmission cycles are repeated until the answer is received and if the answer is still not received, then a mark of lack of communication with the lamp is formed in the control controller, and to quickly receive information about the current status of all the lamps , the control controller periodically polls their status and stores the received information in the memory of the control controller in the form of a file or database, which is then transferred to the central control point for decoding, while lighting system works in parallel both in the manual mode, and in a predetermined tabular chart, in which pre-determine necessary to execute the command, the execution time of commands, data teams, and tabular charts forwarded via modem from a central location in the executive point of trip. 2. The method according to claim 1, characterized in that the tabular graphs are sent via a modem, for example, a GSM / GPRS modem, a wired modem, a fiber optic communication modem. 3. The method according to claim 1, characterized in that the information package from the communication module of the executive point to the controlled lamp and vice versa is carried out in accordance with the exchange protocol, which contains the address of the device, its connection phase, service bits, the command that the lamp must execute, command data, control information, which serves to exclude the passage of errors in the transmitted data. 4. A system for controlling electrical equipment, in particular a lighting system, comprising a central control center, a modem connected to a central control center, at least one executive point with a control controller, a communication module for receiving / transmitting packets, peripheral sensors, a switching unit at least one controlled lamp that is connected to the lighting line, characterized in that the system is configured to function in accordance with commands predetermined as a minimum for the whole year, and stored in the memory of the control controller, as well as in accordance with the protocol, according to which an information packet is formed with the information encoded in it, and the system is configured to process the information packet received from the controlled lamp, followed by decoding in the central control center, which contains an interactive control system, including maps of the area where the fixtures are installed, the display of fixtures on these maps in the form of active graphs objects, graphic screens in which tabular graphs of the system’s operation and various modes of the system’s operation are set, and to increase the communication range, repeaters are installed that are connected to the same wires of the lighting line with controlled lights, and a high-pass filter is installed in the control room, which is connected to the input power supply circuits of the executive point, tabulated graphs are placed in the memory of the control controller of the executive point and in the central control point, the control The controller is able to automatically sequentially select commands from the table chart, according to the execution time and execute them, and the system also includes high-pass filters for uncontrolled luminaires that are connected to the power supply gap of each uncontrolled luminaire to prevent information transmission packages. 5. The system according to claim 4, characterized in that an electric power metering device is inserted into the executive point, which is connected to the power supply line by its input and an output to a high-pass filter.