AT15536U1 - Method for address assignment - Google Patents

Abstract

A method for assigning addresses to devices provided with a bus interface, comprising the following steps: a.) Sending a command or request by a device (5) to its own address to all devices (5 ', 5 ") via a bus (3, 4), b.) Monitoring the bus (3, 4) by the device (5) for a response on the bus (3, 4), c.) Detecting a double assignment of the address by the device (5) if another device (5 ', 5 ") responds to the command or query.

Description

description

PROCEDURE FOR ADDRESS AWARD

The present invention relates to address assignment to devices provided with a bus interface.

In general, addressing methods are used to select a single device from a set of devices connected to a bus, for example, to then assign a unique address to that selected device. This procedure must be repeated until all devices of a bus system have been assigned a unique address within the relevant system.

From the German patent application DE 103 29 682 A1 discloses a method is known in which a center at the same time transmitted to all electrical control gear, which are connected to the control center via a bus, a transmission command. Following this, each operating device attempts to contact the control center after a certain transmission delay time, which is selected randomly for each operating device. The operating device, which reports first, then receives an address from the control center, so that ultimately all operating devices can be assigned an individual address.

From the German patent application WO 2009121622 A2 a method is known in which a central office performs an address assignment by means of collision detection.

Based on this prior art, it is an object of the present invention to provide an improved way to address allocation by means of collision detection.

The object is achieved by a method according to claim 1 or 2 and an operating device according to claim 13 and a control system according to claim 14.

Advantageous developments of the invention are the subject of the dependent claims.

Similar to the publication WO 2009121622 A2 also according to this invention an address assignment by means of collision detection.

In contrast to the prior art, however, the review of whether there is a conflict in the address assignment, not only carried out or initiated by the central office, but it can perform independently provided with a bus interface device independent of the control panel independently, whether there is a conflict in the assignment of addresses.

The device may preferably check at startup whether its own address has already been allocated on the bus. The device can, for example, send a command or query (query) to its own address. Subsequently, the device monitors the bus for a response on the bus. If another device has assigned this address, this device will send a corresponding response to the command or query received from the device. The device can detect, by monitoring the bus, that the address has already been allocated due to the sending of a response by another device.

If the device has detected that its address has already been allocated on the bus and thus a double assignment of the address is present, the device can respond to such an addressing error in different ways. For example, the device can independently search for a free address. Alternatively or additionally, the device can signal that an addressing error is present. For example, the device can send a corresponding information to the center via a signal on the bus, and / or output the addressing error by an optical or acoustic signal, for example by a flashing of the light source connected to the device.

For example, the device may independently search for a free address by temporarily setting a new address for itself. The definition of this temporary address can be done, for example, by means of a random number generator. The device can then, for example, send a command or, for example, a query to the temporary address. Subsequently, the device monitors the bus for a response on the bus. If another device has already assigned this temporary address, this device will send a corresponding response to the command or query received from the device. The device can detect by monitoring the bus that the temporary address has already been allocated due to the sending of a response by another device.

If no device responds to the command or query, the device may assume that the temporary address has not yet been allocated. In this case, the device may set the temporary address as its new address.

According to another aspect of the present invention, there is provided a device having a digital signal input and a controller programmed to support such methods. Finally, the invention also relates to control systems comprising a central processing unit and such a device.

The invention will be explained in more detail with reference to the accompanying drawings.

Figure 1 shows schematically a bus system, as it can find application in the present invention.

As can be seen in Figure 1, a control system 1 for devices, which are designed here as electrical operating devices 5, 5 ', 5 ", a bus, consisting of two bus lines 3, 4 and a central unit 2. Die Busleitungen 3 4 are, as can be seen, directly connected to the operating devices 5, 5 ', 5 ". The devices may be command receivers, such as here the electrical operating devices 5, 5 ', 5 ", but also command / information transmitters, such as switches, dimmers or even sensors The operating devices 5, 5', 5 illustrated in FIG "can be used for the operation of a wide variety of electrical equipment, in particular in the building technology common devices such as lamps 7, air conditioning / ventilation equipment 8 or other building services equipment 9.

Each of the electrical operating devices 5, 5 ', 5 "has a digital interface 6, 6', 6", by means of which it can exchange bidirectionally via a pair of bus lines 3, 4 signals, for example, with the center 2. Furthermore, each operating device 5, 5 ', 5 "has a local control unit (controller) 10, 10', 10".

A first embodiment will now be explained in more detail with reference to the further sequence described sequence. As an example of a device, the invention is explained below with reference to an exemplary electrical operating device 5.

The electrical operating device 5 as an exemplary device, for example, when starting to check whether his own address has already been assigned on the bus. The starting up can for example be the switching on of a supply voltage. However, the check as to whether the own address has already been allocated on the bus can also be, for example, of a specific temporal event such as the expiry of a certain operating time or even the very first commissioning of the device.

The electrical operating device 5 preferably has an address. This may be, for example, an address assigned during the installation, a randomly selected address or a factory identification number stored in the operating device 5 (as the source address assigned by the manufacturer during production).

Preferably, the bus is placed in the idle state, which means, for example according to the DALI standard, that the bus voltage is set to "high". The electrical operating device 5 can send a command or, for example, query (query) to its own address. Subsequently, the electrical operating device 5 monitors the bus, whether a response is made on the bus. If another device has assigned this address, this device will send a corresponding response to the command or query received from the device. The electrical operating device 5 can recognize by monitoring the bus that the address has already been allocated due to the sending of a response by another device.

If the electrical operating device 5 has detected that its address has already been assigned to the bus and thus there is a double assignment of the address, the electrical operating device 5 can respond to such addressing errors in different ways. For example, the electrical operating device 5 independently search for a free address. Alternatively or additionally, the electrical operating device 5 signalize that an addressing error is present. For example, the electrical operating device 5 can send a corresponding information to the control center via a signal on the bus, and / or output the addressing error by an optical or acoustic signal, for example by a flashing of the light source connected to the electrical operating device 5.

The electrical operating device 5, for example, independently search for a free address by temporarily setting itself a new address. The definition of this temporary address can be done for example by means of a random number generator. The electrical operating device 5 can then, for example, send a command or, for example, a query to the temporary address. Subsequently, the electrical operating device 5 monitors the bus, whether a response is made on the bus. If another device has already assigned this temporary address, this device will send a corresponding response to the command or query received from the device. By monitoring the bus, the electrical operating device 5 can recognize that the temporary address has already been allocated due to the transmission of a response by another device.

If no device responds to the command or the query, the electrical control unit 5 can assume that the temporary address has not yet been awarded. In this case, the electric operating device 5 may set the temporary address as its new address.

The invention also relates to a method for assigning addresses to devices provided with a bus interface, comprising the following steps: a.) Sending a command or request by a device 5 to its own address to all devices 5 ' B.) Monitors the bus through device 5 for a response on the bus, c.) Detects a double assignment of the address by the device 5 if another device 5 ', 5 "responds to the command or query.

The device 5 can independently search for a free address, if it was detected that a double assignment of the address is present.

If there is a double assignment of the address, the following steps can be performed: d.) Setting a temporary address, e.) Sending a command or query by a device 5 to the temporary address to all devices 5 ', 5 "which are connected via a bus 3, 4, f.) Monitoring of the bus by the device 5, whether a response is made on the bus, g.) Detecting a double assignment of the temporary address the device 5, if another device 5 ', 5 "responds to the command or interrogation, h.) setting a temporary address as the new address of the device 5, if no other device 5', 5" on the or the query answers.

The steps d.) To h). can be repeated until it has been determined that there is no double assignment of the temporary address.

For the above-mentioned method, the DALI standard can be used.

The device 5 can output by an optical or acoustic signal that has been detected that there is a double assignment of the address.

The invention also relates to a device comprising a digital signal input 6, 6 ', 6 "and a controller programmed to support a method according to any one of the preceding claims.

The invention also relates to a control system 1, comprising a central unit 2, a bus 3,4 and at least one device 5, 5 ', 5 "according to the invention.

The invention also relates to lighting system, comprising a control system according to the invention and at least one lamp in which a device 5 is arranged.

Claims (9)

claims A method of address assignment to devices provided with a bus interface, comprising the following steps: a. Sending a command or request by a device (5) to its own address to all devices (5 ', 5 ") connected via a bus (3, 4), b.) Monitoring the bus (3, 4) by the device (5), whether a response on the bus (3, 4) takes place, c.) detecting a double assignment of the address by the device (5), if another device (5 ', 5 ") to the command or Query answers. 2. The method according to claim 1, characterized in that the device (5) independently searches for a free address, if it was detected that a double assignment of the address is present. 3. The method according to claim 2, characterized by the following steps: a. ) Set a temporary address, b. Sending a command or request by a device (5) to the temporary address to all devices (5 ', 5 ") connected via a bus (3, 4), c.) Monitoring the bus by the device (5 ), whether a response on the bus (3, 4) it follows, d) Detecting a double assignment of the temporary address by the device (5), as far as another device (5 ', 5 ") responds to the command or query , e. Set a temporary address as the new address of the device (5) if no other device (5 ', 5 ") responds to the command or query. 4. The method according to claim 3, characterized in that the steps are repeated until it has been established that there is no double assignment of the temporary address. 5. The method according to any one of the preceding claims, characterized in that the DALI standard is used. 6. The method according to claim 1, characterized in that the device (5) outputs by an optical or acoustic signal that has been recognized that a double assignment of the address is present. An apparatus comprising a digital signal input (6, 6 ', 6 ") and a controller programmed to support a method according to any one of the preceding claims. 8. Control system (1), comprising a central unit (2), a bus (3, 4) and at least one device (5, 5 ', 5 ") according to claim 7. 9. lighting system, comprising a control system according to claim 8 and at least one lamp in which a device (5) is arranged.