Selective control of lighting devices
FIELD OF THE INVENTION
The invention relates to a method of controlling a particular lighting device in an arrangement of lighting devices as defined in the pre-amble of claim 1.
BACKGROUND OF THE INVENTION
US2004/0032226 discloses a method and a system for automatic configuration of devices, such as lighting devices. The system comprises a remote unit for receiving information from a lighting device, which information uniquely identifies the lighting device. A central controller of the system is capable of assigning an address to the lighting device. A communication link of the system is intended for transmitting said unique information to the controller. To start said configuration, the central controller puts the lighting devices in a program mode, such that all lighting devices transmit their unique hardware serial numbers at the same time by modulating a light output supplied with the respective serial numbers. The remote unit is directed to a particular lighting device so as to receive the modulated light output from this device. The remote unit transmits the serial number which was supplied with the received modulated light. When the central controller has received the serial number, it associates a system address with this serial number and transmits the system address to the lighting device having said hardware serial number. The lighting device stores the received system address. During normal operation of the system, i.e. not in the configuration mode, the lighting devices, if addressed by their system address, will respond to commands from the central controller.
The remote unit of the prior-art system is not suitable for transmitting commands controlling a particular lighting device during normal operation of the system. If they do not operate in the configuration mode, the lighting devices do not supply an output which is modulated by any information.
OBJECT OF THE INVENTION
It is an object of the invention to alter the prior-art method and system in such a way that, after the system has been configured, a user can choose and control a particular
lighting device without the need for obtaining an identifier, which identifies the particular lighting device, from the particular lighting system.
SUMMARY OF THE INVENTION The above object of the invention is achieved by providing a method as defined in claim 1.
Said method provides the possibility of using the remote control device for selectively controlling all lighting devices of the arrangement without the requirement of gaining, holding and transmitting identifiers of the lighting devices. In accordance with said method, the object of the invention is also achieved by providing a lighting arrangement, a lighting device, a remote control device and a central control device as defined in claims 7, 8, 9 and 10, respectively.
BRIEF DESCRIPTION OF THE DRAWINGS These and other aspects of the invention are apparent from and will be elucidated with reference to the embodiments described hereinafter.
In the drawings:
Fig. 1 is a diagram of a lighting arrangement according to the invention; Fig. 2 is a flow chart of user operation steps of controlling a lighting device of the arrangement shown in Fig. 1.
DESCRIPTION OF EMBODIMENTS
The lighting arrangement as illustrated in Fig. 1 comprises a plurality of lighting devices 10, a central control device 20 and a remote control device 30.
The lighting devices 10 do not need to be identical. They may accommodate lamps 12 of different types, such as gas discharge lamps, LED lamps or incandescent lamps. The lighting devices 10 may also be equipped with signaling members 12, such as LEDs and sound generators. For simplicity of the drawing, the signaling member 12 in Fig. 1 is indicated as a LED.
If ignited, a lamp 12 may output light, as indicated by arrows 16 (16a and 16b). A continuous light output from a lamp 12 is indicated by solid arrows 16a. A modulated, possibly discontinuous, light output from a lamp 12 is indicated by dotted arrows
16b. No output or no detectable output from a LED 14 is not indicated. A detectable output, possibly modulated or discontinuous, from a LED 14 is indicated by dotted arrows 18.
The central control device 20 may communicate selectively with each lighting device 10 (or a group of lighting devices at a time) through a communication channel 22. The communication channel 22 may be of any type, such as a wireless connection, a modulation of a mains voltage for the lighting devices 10, or a special wire data link. The central control device 20 may send commands through the communication channels 22 to selectively control states of the lighting devices, for example, the intensity of the output provided by their lamps 12 and/or their signaling members 14 (if applied). The central control device 20 further comprises a radio frequency (RF) receiver (not shown), which is connected to an antenna 24, the use of which will be described hereinafter.
The remote control device 30 may be a handheld device. It has at least one sensor 32 which, when properly oriented with respect to outputs 16, 18, is suitable for sensing said outputs 16, 18 from a lighting device 10.
The remote control device 30 further comprises means which may be operated by a user and are indicated for simplicity as keys 34.
The remote control device 30 also comprises a RF transmitter (not shown), which is connected to an antenna 36 for possibly transmitting a RF signal 38, which conveys data generated by the remote control device 30. The RF signal 38 is suitable to be received and processed by the antenna 24 and receiver of the central control device 20.
Instead of a RF link for a RF signal 38, a different type of communication or any combination of different types of communication may be used. For example, a room in which the remote control device 30 is to be used has an infrared receiver attached to one of its walls or its ceiling, which receiver is capable of receiving an infrared signal instead of RF signal 38 from the remote control device 30. Said infrared receiver may be connected by wire to the central control device 20.
The operation of the arrangement in the case of user control of a particular lighting device 10 (or group of lighting devices including said particular lighting device 10) will now be described with reference to the flow chart of Fig. 2.
From a state of normal operation of the arrangement (indicated by step 40), the user directs the remote control device 30 to a particular lighting device 10, i.e. a lighting device 10 which the user wants to control (step 41). More specifically, the user must orient the sensor 32 of the remote control device 30, such that the sensor 32 may sense an output
from the particular lighting device. Dependent on the specific construction of the lighting device, said output is an output 16 from a lamp 12 and/or an output 18 from a signaling member 14.
Subsequently, the user operates one of the keys 34 of the remote control device 30 (step 42) by which the remote control device 30 will transmit the RF signal 38 conveying data, i.e. a selecting command, indicating upon its reception that a user of a remote control device 30 wants to control one or the other lighting device 10 (step 43).
When the central control device 20 receives a selection command (step 44), it starts a selection sequence during which it transmits commands through channels 22 to all lighting devices 10 so as to temporarily change their output 16, 18 (step 45).
The central control device 20 transmits the temporarily changed output commands to one lighting device 10 at a time or to different groups of lighting devices 10 at a time.
When a lighting device 10 receives a temporarily changed output command (step 46), it temporarily changes its output (from no output or a continuous output (16a) to a modulated, possibly discontinuous output (16b, 18)) (step 47).
When the remote control device 30 detects such a change of output from the lighting device 10 to which its sensor 32 is directed (step 50), it transmits the RF signal 38, which now conveys data indicating upon its reception that a remote control device 30 has detected a change of output from a lighting device 10 (step 51).
Since steps 42 to 51 occur almost simultaneously, a response to a temporarily changed output command transmitted to a particular lighting device indicates that the user directed the remote control device to this particular lighting device 10.
Therefore, when the central control device 20 receives data indicating a change of lighting device output 16, 18 (step 52), it considers the lighting device 10 to which it has just transmitted the changed output command as the particular lighting device 10 that the user wants to control (step 53).
Subsequently, the central control device 20 may abort the selection sequence and, until it receives the next selection command, may handle any command from the remote control device 30 as a command for controlling said particular lighting device 10 accordingly, such as a command for turning on or off, dimming, panning, rotating and changing color (step 54). In fact, the user-operated key by which the remote control device 30 transmitted a selecting command may itself be a command for controlling the particular lighting device 10. Alternatively, any operation of a key of the remote control device 30 may
initiate a selection sequence by the central control device 20 so as to first find or select the particular lighting device 10 to which the user directs the remote control device 30 before actually executing a lighting device control command associated with the operated key. In the arrangement according to the invention, communication between a lighting device 10 and the remote control device is to the remote control device 30 only. Furthermore, the central control device 20 does not require the remote control device 30 to acquire an address of a particular lighting device 10 so as to control this device. Consequently, the arrangement may be manufactured, installed and maintained at relatively low cost, while it has a high capacity for selectively controlling lighting devices 10. In fact, if all lighting devices 10 are connected through individual mains cables to respective
(electronic) drivers of the central control device 20, the arrangement will not need addressing of the lighting devices 10 through communication channels 22 at all, but the method according to the invention can still be applied.
It is to be noted that the use of a signaling member 14, such as a LED, and the response of such a signaling member to only a changed output command from the central control device 20 may be advantageous, because the output of the signaling member 14 may have much shorter rise and fall times than an output of a lamp 12. In that case, a change of output from a lighting device 10 may be minimally annoying to persons in a room in which the particular lighting device 10 is arranged, and the selection sequence may be carried out in a short time, in which the central control device 20 almost instantaneously detects the particular lighting device 10 when a (selection) key on the remote control device 30 is operated. It is also to be noted that the particular lighting device 10 can be detected by the central control device 20 within a shorter time by applying a binary method of transmitting a changed output command to different groups of lighting devices 10 in the sequence. For example, in an arrangement of 1024 lighting devices 10, the central control device 20 needs to transmit a changed output command only ten times so as to detect the particular lighting device.
It is further to be noted that a change of output from a lighting device 10 may be anything that is detectable by the remote control device 30, such as a single event or a sequence of events of turning on/off (or off/on) the lamp 12 and/or the signaling member 14.