NL8902811A - Lighting system with multiple lamps and supplies - has addressed control modules for remote control of each lamp - Google Patents

Abstract

Each addressable lighting module (1) receives address signals from a common bus (9). The address is received (2) and decoded; if applicable to a partic. module an internal processor (3) changes the control signals to a switching circuit (4), switching a lamp on or off by means of ganged switches (7). The supplies (8) to the lamps is fed via current sensors (6), e.g. current transformers, to a detector circuit (5). If the lamp current is correct, the detector signal informs the processor.

Description

Short designation: Lighting system.

The invention relates to a lighting system which is powered from and switched by means of a supply network and which comprises a number of lighting devices, each with one or more lamps.

A lighting system just mentioned in the form of a public lighting system, in which the supply network is the public electricity network and the lighting devices are street lamps, is generally known. The known public lighting system is further provided with one or more common switching device added to a respective group of street lamps, which can selectively connect subgroups of the associated street lamps to a respective phase of the public electricity network. Each common switching device is included in a respective substation, which also contains a tone frequency device coupled to respective common switching device and the public electricity network for controlling the associated common switching device. Said tone frequency device receives switching commands from a central device by means of the public electricity network at a frequency of about 2 kHz, in response to which the tone frequency device controls the associated common switching device.

An object of the present invention is to propose a lighting system in which each lighting device of the lighting system can be operated separately.

In order to achieve the above-mentioned object, the present invention provides a lighting system of the type mentioned in the preamble, characterized in that each lighting device of the plurality of lighting devices is provided with an addressable lighting module for selectively operating the respective lighting device.

The present invention, as will be apparent from the above directly, can therefore also be applied in a hybrid lighting system, in which a number of lighting devices of all lighting devices of the lighting system are provided with an addressable lighting module, while the remaining lighting devices by one or more common switching devices can be switched. The term "switching" and not "companies" has deliberately been chosen here, because according to the state of the art the street lamps can only be switched on and off in groups or in groups, because the known public lighting system has a one-way system from central device to one or more tone frequency chtings.

The lighting system according to the invention is a two-way system, which means, among other things, that each addressable lighting module can receive and send messages, messages sent may be previously received messages or messages generated by the addressable lighting module itself and sending messages in response to receiving groceries are made. For example, the messages can include messages with a switch command, a status request, such as a lamp status request or addressable lighting module status request, and a status message, such as a lamp status message or addressable lighting module status message.

Preferably, an addressable lighting module according to the present invention comprises an individual switching device for selectively switching the respective lighting device on and off, a detection device for generating at least one lamp status signal indicating whether or not a respective lamp of the lighting device is lit or not , a transmit / receive device connected to the power network for transmitting messages on the power network and receiving messages from the power network and an addressable processing device connected to the transmit / receive device for assembling messages to be sent and processing received and to the respective addressable lighting module addressed messages.

Thus, the term "operation" used in the description and claims includes more than prior art switching, and includes, for example, one or more of the selective individual switching on and off and feedback of lights addressed to lamps and addressed modules. Statuses of an addressable lighting module can also be queried at the respective lighting device, for example with the aid of a debugging terminal.

The present invention can also be implemented in a unidirectional lighting system.

The lighting system according to the present invention, which is not limited to a public lighting system, but to which the invention can be applied with great advantage, can further comprise a central device and one or more group modules. The central device communicates via a telecommunication network, such as the public telephone network, with the one or more group modules, which, as said, communicate via, for example, the public electricity network with the respective addressable lighting modules, the one or more group modules being addressable by the addressable lighting modules .

Thus, by a system of a central device, a number of group modules and a number of addressable lighting modules, a management system for public lighting can be obtained. Such a management system is a modular system that can be expanded step by step in both size and facilities. The central device may comprise a computer with peripherals, a database and an electronic card box file, into which relevant data relating to street lanterns, luminaires and lamps have been entered. Lanterns or groups of lanterns for switching actions can be selected via maps. Dynamic data, such as the number of hours burned and whether or not the lamps are defective, can be automatically updated by the central device. One-off items, such as the last painting, can be entered manually. The management system offers facilities to request all kinds of data, such as exceeding 80% of the number of lamp burning hours per lantern or group of lanterns. In addition, it can be indicated where and how the requested data must be presented with the aid of peripherals, such as printer or screen, sorting by date of placement, street name or manufacturer.

The exchange communicates with one or more group modules via the public telephone network. A group module can control many thousands of addressable lighting modules, spread over several kilometers, via the public electricity network, i.e. switching the lights on and off or dimming and requesting information on whether or not the luminaire is functioning. A group module will often be installed to replace or supplement the current ripple control substations. A substation with a group module can function completely independently, but for coordination, control and status reporting, for example, it needs direct contact with the central establishment once every 24 hours, but in emergency situations. This contact is preferably established via a telephone line, a telephone modem with security and encryption.

The addressable lighting module, which every street lamp is equipped with, is based on an electronic circuit that is housed in a few chips.

With the public lighting management system according to the present invention, it is possible to individually light and extinguish each street lamp, or more general light point, of the public lighting at any time. This is done from the central device at a time predetermined by the user or directly from the keyboard connected to the computer. The central establishment is notified whether a light point is actually burning or is not burning for any reason.

The public lighting management system according to the invention makes it possible to treat light points as a group or to treat several groups together. In addition, each light point is stored when it is placed, how long it burned in total, etc.

Every day, status reports can be created, which can be printed using a computer-connected printer, indicating the number of light defect points and indicating repair or replacement recommendations. It is also possible to make directions for repairs.

Because there are numerous data from each street lamp in the management system, various overviews can be made regarding the lifespan, type and design of the street lamps.

The public lighting system according to the invention offers advantages in the form of energy saving, switching lighting routes on and off as desired, for shopping evenings, football matches, special transports, etc. It can be used for crime prevention by controlling crime-prone situations with special lighting and drivers. In addition, the feedback facility and the built-in database simplify the maintenance of the public lighting system and make it cheaper. The lifespan of each light point is monitored, so that there is optimal use of the lamps used.

The public lighting system in accordance with the present invention offers economic advantages, makes it possible to tailor public lighting precisely to the wishes of the public and offers excellent possibilities as a complete management system.

The invention will now be described in more detail with reference to the drawing, in which:

Figure 1 schematically shows an addressable lighting module according to the invention; figure 2 schematically shows a group module connected to a number of addressable lighting modules according to the invention in a station; figure 3 shows schematically a group module according to the invention; figure 4 shows schematically a central device according to the invention; and figure 5 shows a circuit diagram of a possible implementation of the addressable lighting module in accordance with the present invention

In Figure 1, an addressable lighting module 1 of a lighting system in accordance with the present application is shown.

Reference numeral 2 designates a transmit / receive device for transmitting / receiving messages on / from a supply network, more particularly a supply line 9, which may be a phase act of the public electricity network. If desired, instead of the transmit / receive device 2, only a transmit device or only a receive device may be provided, more particularly if in the addressable lighting module 1, respectively, only a detection device indicated in Figure 1 with the reference numeral 2 is provided or an individual switching device indicated by reference numeral 4 in Figure 1, the latter devices 4, 5 of which will be described below. The transmit / receive device 2 is connected to an addressable processing device 3, which in turn is connected to the individual switching device 4 and detection device 5. The switching device 4 is provided with one or more switches 7 for the addressable processing device. device 3 controlled switching on and off of the one or more lamps, which are not shown in figure 1, connected across the respective terminals 8, 8 '.

With regard to the lamp current carrying connections between one or more sets of terminals 8, 8 ', one or more current sensors 6, for example current transformers, are placed in the said lamp current carrying lines, which form part of the detection device 5. The number of switches 7 and current sensors 6 may be greater than the number two shown in Figure 1. The switching device 4 can operate its switches 7 either jointly or individually. The switches 7 can be solid state relays.

The transceiver 2 may be implemented in the form of a modem, specifically a power line modem, to distinguish it from a telephone modem.

The transmit / receive device 2 sends / receives on / from the power network messages related to operation of the respective lighting device (not shown) comprising, for example, one or more luminaires with one or more lamps, such as a street lamp.

The addressable processing device 3 processes the messages addressed by the transmitting / receiving device 2 and addressed to the addressable lighting module 1, which includes the transmitting / receiving device 2, and composes the messages to be sent by the sending / receiving device 2, which, when sent to one point is sent need not be addressed, but if, for example, another addressed lighting module 1 is to be sent, it is addressed. Thus, the individual switching device 4 selectively switches the respective lighting device on and off.

The detection device 5, which is also individual, generates one or more lamp status signals, two in Figure 1, which indicate whether or not respective lamps of the associated lighting device are lit. An analog / digital converter for digitizing the lamp status signals may be included in the detection device 5 or in the addressable processing device 3.

Figure 2 shows a substation 11, which is arranged in accordance with the present invention and, via the public electricity network, connections R, S, and T, a group of addressable lighting modules 1, in this case three on the respective phase wires R, S and T affiliated, operating respective subgroups A, B and C. The group module 10 is in turn connected to a communication network, in this case telephone line 12. For the rest, the same reference numerals as in Figure 1 are used in Figure 2.

Figure 3 shows a possible embodiment of a group module 10 in accordance with the invention. The group module 10 is provided with a telephone modem 13 connected to the telephone line 12 and a first processing device 14 connected thereto. The communication on the telephone line 12 is preferably encrypted, in which case the modem 13 provides decryption. The first processing device 14 is connected to a memory device in which switching programs are stored, for example day / night switching programs. Also, the first processing device 14 is connected to a buffer device 15 for storing messages. A second processing device 17 is connected to the first processing device 14, which in turn is connected to the public electricity network R, S and T by means of a supply line modem 18. The second processing device 17 provides decoding of messages received via the supply line modem 18 and contains an overview of the addresses of the addressable lighting modules 1 connected to the respective group module. Furthermore, the second processing device 17 comprises addressing means for addressing messages to be transmitted; the second processing device 17 is thus an addressable processing device via the public electricity network.

The "addressing" of the first processor 14 is by number dialing.

Figure 4 shows a possible central device 20 according to the present invention. The central device 20 is provided with a telephone modem 21 which is coupled to the telephone line 12. Modem 21 is in turn connected to a processing device 22 for sending and receiving messages over the telephone line 12 to and from first processing device 14 of group module 10 via modem 13. Processing device 22 is connected to a user interface 23 and a report generator 24.

The processing device 22, user interface 23 and report generator 24 communicate with file management means 25, which in turn communicate with a file of, for example, fixture, lamp and mast data. The user interface 23 is connected to a keyboard 27 and a display 28, while report generator 24 is connected to a printer 29 and the display 28. In addition to the file 26, the aforementioned database and electronic card box can also be provided.

The group module 10, an exemplary embodiment of which is shown in Figure 3, has an autonomous switching and query program for all connected lighting devices which is stored in memory device 16.

Via the telephone line 12, a group module 10 is provided by the central device 20, an example of which is shown in Figure 4, with program changes or new programs for storage in the memory device 16 of the group module 10. The group module 10 transmits at the request of the central device. 20 the collected messages stored in buffer device 15, including, for example, measurement data. In the central device 20, for example, overviews can be made on the printer 29 or the screen 28 at any time. The keyboard 27 can, among other things, be used to request reports, which are compiled by the report generator 24 on the basis of announcements and the file 26 by means of the file management means 25, and commands can be entered, for instance to request the measurement data of a specific group module10. This can of course now also be done under program control. Other possibilities for arriving at a management system have already been indicated in the introduction.

Referring back to Figure 3, of incoming messages containing a message, the address is decoded by the second processor 17 and the message contained in the respective message together with the address is stored in the buffer device 15 by the first processor 14. The messages which the group module 10 transmits to the supply line modem 18 on the basis of the program in the memory device 16 by means of the first processing device 14 and the second processing device 17 are provided by the second processing device 17 with an address of an addressable lighting module 1 and by the power line modem 18 sent to the public power network.

Referring also to Figure 2, the messages transferred between an addressable lighting module 1 and an associated group module 10 may be messages with a switching command, messages with a lamp status request, messages with a lamp status message, messages with a forwarding command, messages with a request status of an addressable lighting module 1 and include messages indicating a status of an addressable lighting module 1.

In the case of a message with a switching command, the addressable processing device 3 is provided with means for determining the switching command with a switching command received from a modem 2 and addressed to the relevant addressable lighting module 1, and determining the switching command and in response to the determined switching command controlling the individual switching device 4 included in the addressable lighting module 1 in question.

In the case of a message with a lamp status message, the addressable processing device 3 is provided with means for determining the lamp status from the lamp status signal of the detection device 5 and compiling the lamp status message on the basis of the determined lamp status.

In the case of a lamp status request message, the addressable processing device 3 is provided with means for determining a message received from the modem 2 and addressed to the addressable lighting module 1 with a lamp status request and the modem in response to the determined lamp status request 2 send a message with the lamp status message composed by the addressable processing device 3 to the supply network, connection 9.

In the case of a message with a forwarding command, the addressable processing device 3 is provided with means for determining a message with a forwarding command received from a modem 2 and addressed to the addressable lighting module 1, and determining the forwarding command and the addressee, which another addressable lighting module 1 or a group module 10, and in response to the given forwarding command and addressed, the addressable processing device causes the modem 2 to send the message received by the modem 2 addressed to the particular recipient on the power network.

In the case of a message with a request to send a status of an addressable lighting module 1, hereinafter simply status request, and a message containing a status message of an addressable lighting module 1, hereinafter simply status message, the addressable processing device 3 is provided with means for determining a status of the addressable lighting module 1 and compiling the status message on the basis of the determined status, determining the status request message with a status request received from a modem 2 and addressed to the addressable lighting module 1 and, in response to the determined status request, cause the modem 2 to send a message with its compiled status message on the power network.

With the lighting system according to the present invention, a status of each connected addressable lighting module 1 or the status of each lamp of the connected addressable lighting modules can be read back via the public mains. Each addressable lighting module 1 can send and receive messages over the public electricity network. Since it is preferred to operate at a relatively high frequency of, for example, about 200 kHz, relatively little power is required to achieve a large distance. Moreover, by giving each addressable lighting module 1 the option of also functioning as an "intermediate station", the distance to be bridged can be increased considerably.

An addressable lighting module 1 located at a great distance from a group module 10 can be achieved by first sending the corresponding message to a closer addressable lighting module 1, in which the order is included to retransmit the message to a next, an intermediate or the intended addressable lighting module 1 In this way, for example, a message can be passed from addressable lighting module 1 to addressable lighting module 1 until the destination addressable lighting module 1 is reached. The same path can be followed from a particular addressable lighting module 1 at a great distance to the associated group module 10. In the first processing device 14 of each group module 10, a "reachability path" for each addressable lighting module 1 connected thereto can be stored.

With reference to Figure 5, a concrete implementation of the addressable lighting module 1 of Figure 1 will now be described.

In Figure 5, the reference numbers of Figure 1 are used as much as possible.

Modem 2 is built around an integrated modem circuit 50, in the case shown the NE5050, which will be referred to as modem IC.50. A coupling circuit 34 is connected to modem_IC50, which consists of a high-pass filter composed of a signal transformer 41 and coupling capacitors 42-44. Signal transformer 41 provides galvanic separation between the electronics and the mains capacitor 45 over the secondary winding of the signal transformer 41 together with this signal transformer 41 forms a tuned circuit at the desired carrier frequency. By tuning the core of signal transformer 41 it is possible to adjust to the carrier frequency. Two limiting diodes 46 and 47 are provided for suppressing voltage spikes.

Reference numeral 36 designates a carrier amplifier circuit connected to the modem IC50.

For filtering out the desired carrier wave, a band filter circuit 35 is connected to the modem IC 50. Band filter circuit 35 consists of a low-frequency transformer 48 and a ceramic capacitor 49. Both resistors 51 and 52 in series with this filter 48, 49 attenuate the interference signals as well as the desired carrier wave. Increasing resistances 51, 52 renders the addressable lighting module 1 more insensitive to interference signals in the vicinity of the carrier wave, but the minimum input voltage required therefore increases proportionally. In environments with a lot of interference near the carrier frequency, a ceramic filter must be used instead of the aforementioned filter 48, 49. The advantage of such a filter is the narrow bandwidth and no need to adjust the transmission characteristic. A drawback can be the attenuation and the availability of the desired frequency, for example 260 kHz.

Finally, the modem device 2 is provided with a separator circuit 37 connected to the modem IC 50, which comprises an LC filter from capacitor 53 and low frequency transformer 54. The separator circuit 37 is adjusted to the same frequency as the bandpass filter 48, 49.

The addressable processing device 3 is built around an integrated microcontroller circuit, in this case the 80535, which, as is known, includes a central processing unit, the 8051, an optional 16k mask ROM 256 bytes data memory, an analog / digital converter with eight inputs, a serial link circuit, an interrupt control, a watch dog, timers and a clock generator, the clock frequency being 10 MHz. The addressable processing device 3 further comprises an external integrated memory circuit 33, in this case the 27256, which is known per se with an integrated latching circuit 32, in this case the 74HCT37 on the addressable processing device IC, hereinafter simply processing IC 30 is connected. External EPR0M-IC 33 contains the necessary software. Finally, a DIP switch 31 is connected to the processing IC30 for setting the address of the addressable processing device 3. If a switching element of the DIP switch 31 is open, the relevant port of the processing IC.30 makes sense "1" while when closed the logic level is "0".

In figure 5 a single lamp 40 is used, while a solid-state relay 39 is used as switch 7. The solid state relay 39 is driven by a driving circuit 38. The said parts 38, 39 (7) are part of the individual switching device 4. The current transformer is indicated by the reference numeral 6 and is included in the detection device 5. The one of the Current transformer 6 is fed AC current through a resistor 55, thereby creating an AC voltage which is supplied through a special rectifier circuit 56 to the analog / digital converter in processing IC 30. Limiting diodes 57 and 58 are placed over the secondary coil of the current transformer 6 to limit voltage peaks caused by, for example, switching on a gas discharge lamp 40.

A service terminal can be connected to the serial interface of the processing IC 30 to request statuses of the addressable lighting module 1.

With regard to the DIP switch 31, it can be noted that address 0 can be reserved for special purposes, for example for sending a message intended for all connected addressable lighting modules 1 and not for all individual addressing modules 1 to be addressed .

Parts not discussed in Figure 5 are in accordance with the guidelines issued by the manufacturers of the said ICs.

All data to be sent is sent as frames in frames. Each grid is preceded by and ends with a flag. Each frame also contains a destination address, a source address, a type designation of the frame, information and a CRC control. The characters are eight bits long and the bit time is chosen to be 1.8 ms.

Claims (19)

Lighting system which is powered from and switched by means of a supply network and which comprises a number of lighting devices with one or more lamps each, characterized in that each lighting device of the number of lighting devices is provided with an addressable lighting module for selective operation of the respective lighting device. Lighting system according to claim 1, characterized in that the addressable lighting module comprises a receiver connected to the power network for receiving messages from the power network related to the operation of the respective lighting device, and an addressable processing device connected to the receiver. processing messages received by the receiving device and addressed to the addressable lighting module. Lighting system according to claim 1 or 2, characterized in that the addressable lighting module is provided with an individual switching device for selectively switching the respective lighting device on and off. Lighting system according to claims 2 and 3, characterized in that the messages comprise messages with a switching command and the addressable processing device is connected to the individual switching device for determining a message with a switching command received from a receiving device and addressed to the addressable lighting module. of the shift command and controlling the individual shift device in response to the determined shift command. Lighting system according to any one of claims 1 to 4, characterized in that the addressable lighting module comprises a transmission device connected to the power network for transmitting messages related to the operation of the respective lighting device on the power network and addressable processing device connected to the sending device for assembling messages to be sent by the sending device. 6. Lighting system according to any one of the preceding claims, characterized in that the addressable lighting module is provided with a detection device for generating at least one lamp status signal indicating whether or not a respective lamp of the lighting device is lit or not. Lighting system according to claims 5 and 6, characterized in that the messages comprise messages with a lamp status message and the addressable processing device connected to the transmitter is connected to the detection device for determining the lamp status and determining the lamp status on the basis of the lamp status signal. compose certain lamp status from the Lamp status message. Lighting system according to any one of claims 2 to 6 and 7, characterized in that the messages comprise messages with a lamp status request and receive the addressable processing device connected to the receiving device from one of the receiving device. addressable lighting module addressed message with a lamp status request determines the lamp status request and, in response to the determined lamp status request, the addressable processing device connected to the transmitting device causes the transmitting device to send a message with the lamp status message it has composed on the power network. Lighting system according to any one of claims 5 to 7, characterized in that the messages comprise messages with a forwarding command and the addressable processing device connected to the receiving device from a message received from the receiving device and addressed to the addressable lighting module with a forwarding command the forwarding command and the addressee determine and, in response to the particular forwarding command, the addressee's addressable processing device associated with the transmitting device causes the transmitting device to send the message received by the receiving device addressed to the particular recipient on the power network. Lighting device according to any one of claims 5 to 9, characterized in that the messages comprise status request messages and status message messages, the addressable processing device connected to the transmitting device is provided with means for determining a status of the addressable lighting module and the compiling of the status message on the basis of the determined status and the addressable processing device connected to the receiving device are provided with means for determining the status request message received from a receiving device and addressed to the addressable lighting module with the status request and, in response to the determined status request, the addressable processing device connected to the transmitting device causes the transmitting device to send a message with the composed status message on the supply network. Lighting system according to one of claims 5 to 10, characterized in that the addressable processing device connected to the receiving device and the addressable processing device connected to the transmitting device form one processing device and the transmitting device and the receiving device form part of a combined transmitting device. receiving device. Lighting system according to claim 11, characterized in that the processing device comprises a microcontroll IC and the transceiver device a modem IC. Lighting system according to any one of the preceding claims, characterized in that the lighting system comprises at least one group module, which is connected to a number of addressable lighting modules of the lighting system for two-way traffic of messages via the supply network. Lighting system according to claim 13, wherein a number of group modules is provided, characterized in that the group modules are addressable on the supply network. Lighting system according to claim 13 or 14, characterized in that it further comprises a central device connected by means of a telecommunications network to the one or more group modules for controlling the one or more group modules. Lighting system according to claim 15, characterized in that the telecommunications network is the public telephone network. Lighting system according to any one of the preceding claims, characterized in that it is a public lighting system, the supply network is the public electricity network and the lighting devices each comprise one or more luminaires with one or more lamps. Lighting system according to any one of the preceding claims, characterized in that the lighting devices are street lamps. An addressable lighting module with one or more features of an addressable lighting module in the lighting system according to any of the preceding claims.