EP3481157A1 - Transmission system for controlling the brightness of lights - Google Patents

Abstract

The invention describes a new unidirectional transmission system. It is optimized for use in the lighting sector. There, information must be transmitted from one transmitter to a large number of lights (receivers). The carrier voltage is a standard mains voltage. In the transmitter, by cutting or connecting half-waves, information is coded to a control phase and transmitted to the receiver via a single wire.

Description

Technical field of the invention

For the illumination of streets, tunnels, industrial halls, etc., a large number of luminaires are used. With a stepless control of the brightness of luminaires, the luminosity can be optimally adapted to the current needs.

• Einsparung an Energie. (Bei modernen Leuchten ist der
• Energieverbrauch praktisch proportional zur Leuchtstärke)
• Sicherheit (In Strassentunneln ist die Anpassung der Leuchtstärke aus Sicherheitsgründen erforderlich)
• Reduktion der Lichtverschmutzung (Eine zu hohe Leuchtstärke in der Nacht ist für Anwohner und Tiere schädlich)
• Anpassung an die Vorschriften (Für Arbeitsplätze und Sportanlagen sind die genauen Leuchtstärken vorgeschrieben)

This offers the following advantages:

• Saving energy. (In modern lights is the
• Energy consumption practically proportional to luminosity)
• Safety (In road tunnels, adjustment of luminosity is required for safety reasons)
• Reduction of light pollution (excessively high luminosity at night is detrimental to residents and animals)
• Adaptation to the regulations (For workplaces and sports facilities the exact luminous intensity is required)

The modern LED lights have a built-in electronic ballast as standard. All leading manufacturers of such ballasts also offer dimmable versions.

In order to synchronize the brightness of a whole road train, it still needs a transmission system to synchronously transmit the information from a central office to a large number of lights.

The invention describes a novel transmission system for this task. It is actually a new kind of bit transfer.

Current state of the art

Wired and radio systems are used as transmission systems for this task. As radio systems have completely different properties, they will not be discussed in more detail here.

• Spezielle Beleuchtungsbus Systeme (DALI,DSI..)
• Feldbusse für allgemeinen Einsatz (KNX, RS-485)
• Kommunikation über Netzkabel (power line)

At the moment, three different groups of wired transmission systems are used:

• Special lighting bus systems (DALI, DSI ..)
• Fieldbuses for general use (KNX, RS-485)
• Communication via mains cable (power line)

The first group includes the DALI bus. It is specified in the standards IEC 62386 and IEC 60929.

It is ideal for indoor and office use. Communication takes place via a two-pole communication cable. The additional communication cable, the maximum length of the communication cable of about 300m and the limited number of lights, complicate the use of this system outdoors.

The existing fieldbuses or other networks all need a special communication cable. Laying this in the ground and the connection to the individual lights requires a lot of effort. Many systems have too short a range or too few devices for outdoor use. For installation, commissioning and service, a network specialist with special measuring devices is required in most cases.

• Die einzelnen Kommunikationsknoten sind technisch aufwendig und recht teuer.
• Es kann in der Praxis Probleme geben, die Verkabelung hat Einfluss auf das Signal, Netzfilter bedämpfen den Träger.
• Für die Installation, Konfiguration, Inbetriebnahme und Service braucht es einen Netzwerkspezialist mit den erforderlichen Messgeräten und Softwaretools

There are also systems with data transmission directly via the mains power line (EN-50090-1). In this case, there is no need for an additional communication cable! The data transmission takes place via a high frequency, which is modulated on the line. However, the system has the following disadvantages:

• The individual communication nodes are technically complex and quite expensive.
• There can be problems in practice, the wiring has an influence on the signal, line filters dampen the carrier.
• For the installation, configuration, commissioning and service, a network specialist with the required measuring devices and software tools is needed

Presentation of the invention

According to the state of the art, the problem of data transmission in this area can not yet be solved optimally. The existing solutions are too expensive, too expensive and too complex.

• Es müssen Daten von einer Zentrale zu einer grossen Anzahl Leuchten über eine weite Distanz synchron übermittelt werden.
• Die Kommunikation soll über einen einzigen Steuerdraht erfolgen. Er soll so im gleichen Kabel geführt werden können wie die Netzspeisung.
• Die erforderlichen elektronischen Geräte, Sender und vor allem die Empfänger sollen einfach und preisgünstig herstellbar sein.
• Ein Ausfall eines Empfängers in einer Leuchte darf die Kommunikation nicht blockieren.
• Bei einem Ausfall eines Senders oder Unterbruch der Steuerleitung sollen die angeschlossenen Leuchten selbsttätig auf Vollicht gehen. (Dieses ist wichtig für den Einsatz in Strassentunnels um die Beleuchtung zu gewährleisten)
• Alle Arbeiten an den Beleuchtungsanlagen, wie Installation, Inbetriebnahme, Konfiguration und Unterhalt sollen von einen Elektrofachmann ohne zusätzliche und spezielle Messgeräte ausgeführt werden können.

The following objects are to be achieved with the invention:

• Data must be transmitted synchronously from one control center to a large number of lights over a long distance.
• Communication should be via a single control wire. He should be able to be guided in the same cable as the mains supply.
• The required electronic devices, transmitters and especially the receiver should be easy and inexpensive to produce.
• A failure of a receiver in a luminaire must not block the communication.
• In the event of a transmitter failure or interruption of the control line, the connected luminaires should automatically go to full control. (This is important for use in road tunnels to ensure lighting)
• All work on the lighting systems, such as installation, commissioning, configuration and maintenance should be carried out by an electrician without additional and special measuring devices.

Solution according to independent patent claims

The basis of the invention for the optimal solution of the tasks is a new bit transmission system. As a carrier of the information directly the mains voltage (L, N) is used. The system can be adapted for different mains voltage and mains frequencies. In Europe, above all, the mains voltage 230V 50Hz is used.

The system consists of a transmitter (TR) in the control panel and receivers (REC) in each light. The data is transmitted from the transmitter to the receivers via a single wire (control phase U2). The neutral (N) of the supply of the luminaire serves as return.

The transmitter has an electronic switch (S) installed. He can switch the mains phase (L, UI) to the control phase (U2) or disconnect it.

The switch is controlled by electronics (TR LOGIC) in the transmitter. This synchronizes the switching operation of the switch S so that it can only be switched off in the current zero crossing and in the voltage zero crossing.

There are two operating modes of the switch (S) standard and inverted. In standard mode, the switch (S) is in the idle state too. In order to send data, it is opened for one or more half-waves and so these half-waves are cut out in the control phase.

Examples for coding the data bits are shown in FIG.

Signal A (standard operation)

The switch is closed here in idle state. The network phase (L, U1) is applied to the control phase (U2). Cutting one half-wave (START) starts the transmission of one byte. With the state of the switch for each following half cycle, the individual bits are transmitted.

Signal B (inverted operation)

The switch is open here in the idle state. There is no voltage at the control phase (U2). When a half-cycle START is switched on, the transmission of one byte is started. With the state of the switch (S) for each following half wave, the individual bits are transmitted.

The system can work with different encodings. A bit can also be defined as a series of multiple halfwaves or sequences. A specific encoding is not yet defined.

Details of the embodiment of the invention

The transmitter (TR) is built according to the current state of the art. The digital logic controls a microcontroller. High demands are placed on the quality and precision of the zero-crossing circuit. If the half-waves are not switched exactly, disturbances occur on the network.

The receiver (REC) has a detector with which it can detect the voltage on the control phase and evaluate accordingly. These tasks can be solved with the current state of the art with standard circuit parts. The evaluation of the data and further processing is most easily done with a microcontroller (REC LOGIC).

The receiver processes the signals and can then directly drive a dimmable ballast.

The circuit part for the reception and processing of the signal can also be implemented directly in a ballast.

Advantageous effect of the invention

The data transfer is very slow compared to others and only in one direction (unidirectional).

However, the data speed is quite sufficient for the application for controlling the brightness of outdoor lights. The change in brightness does not have to be fast.

In networks with unidirectional data transmission, the individual receivers do not need to be addressed or configured. All receive the same data. Lighting systems are very easy to test. Set the brightness to an average and then see immediately which lights are too light or dark.

In safety-relevant systems, the brightness of the lighting can be monitored with special cameras or sensors. Since the luminaires go to full power in the event of communication failure, only with such an independent system do we have the effective lighting condition of the object.

Experiments and calculations have shown that this system can drive several hundred lights over a distance of several kilometers.

The biggest cost savings come with our system in cabling, installation and assembly. It only needs one more wire in the feeder cable and no additional data line.

Since the data communication is very slow, the transmission of the telegrams can be observed with a simple voltage tester as a flicker. The exact course of the signal can be observed with any simple oscilloscope. Many multimeters have already incorporated such a feature. So it needs no special measuring devices for maintenance.

Claims (2)

A bit transfer system used to transfer data from one sender to a larger number of receivers. The data is transmitted via a control phase with only one wire.
In the idle state, a standard mains phase with alternating voltage is switched to the control phase.
To encode the bit information, one or more sine halfwaves are cut out in sequence. This mode is called standard operation.
A sender can generate such a signal to send data. A receiver can receive and process data from such a signal.
The claim is made for all devices that can serve as transmitter or receiver of data of this bit transmission system and use this data communication directly or indirectly for controlling or configuring lights. The system can be adapted to different mains voltages and mains frequencies. A bit transfer system used to transfer data from one sender to a larger number of receivers. The data is transmitted via a control phase with only one wire.
At rest, there is no tension on the control phase.
To encode the bit information, one or more sine halfwaves are switched to the control phase as a result of a mains phase. This mode is called inverted mode.
A sender can generate such a signal to send data. A receiver can receive and process data from such a signal.
The claim is made for all devices that can serve as transmitter or receiver of data of this bit transmission system and use this data communication directly or indirectly for controlling or configuring lights. The system can be adapted to different mains voltages and mains frequencies.