DE10035813A1 - Installation device for connection to bus line in domestic cable system has bus and load connections, sensor with bus coupler, switching function trigger, relay driver and bistable relay - Google Patents

Abstract

The device has first connections (ND,VDD) for a bus line and second connections (20,21) for a load, a sensor (40) with a bus coupler, a sensor functional unit for triggering a switching function with a control signal and a relay driver that outputs a relay control signal to a sensor control output and a bistable relay (50) with a switch contact connected to the load connections.

Description

The invention relates to an installation device connected to a Hausleitsy bus lines stems, in particular the European installation bus EIB, and that is set up to switch a consumer on / off.

A circuit arrangement known in the EIB system is shown in FIG. 1. A bus is shown there, which according to the specifications of the European Installation Bus Association (EIBA) is a twisted pair of wires via which both information and energy for the on-board power supply of subscriber devices are provided. To implement the function "switching a consumer" two subscriber devices are required, namely an EIB device 1 designed as a sensor and an EIB device 2 designed as a switching device. Each of the subscriber devices contains a bus coupling, which means that a certain amount of equipment is required, and in addition, due to a limitation in the number of participants in the EIB system, there is also a limitation of the possible control functions.

The sensor, ie the EIB device 1, can be a motion detector or an on, for example be device by means of buttons that at the location of the switching device EIB device 2 or far away is located remotely. The switching device EIB device 2 contains an electromechanical relay with a floating switch contact that ver with a switching output of the device 2 is bound.

In the EIB system, the participants are supplied with energy using a 24 V DC tension. According to national and international regulations for the construction of  Heavy current systems, this low voltage is safe from the low voltage, e.g. B. the Disconnect 230/400 V AC voltage, which is used to supply loads, and is therefore applied to the switching contact of the relay in the switching device.

The invention has for its object an installation device for controlling a To create consumers in a home control system, especially in the EIB system, that meets the requirements with less equipment.

This object is achieved by an installation device, which is specified in claim 1 features given. Advantageous embodiments are in further claims Chen specified.

In the case of the proposed installation device, only one bus coupling is advantageous needed. A standard sensor can be used with only three cable entries gene. The use of a bistable relay in conjunction with a suitable Neten control causes a low power consumption of the installation device, so of the subscriber device on the bus.

A further description of the invention and its advantages follows below hand of an embodiment shown in drawing figures.

Show it:

Fig. 1 shows a known arrangement for implementing a control function by means of two devices,

Fig. 2 is a block diagram of an installation device that combines the function of a sensor and a switching device, and

Fig. 3 shows a control circuit for use in the installation device.

FIG. 2 shows an installation device 10 which contains a sensor 40 with a bus coupler 41 , with a sensor function unit 42 and with a relay control 43 , and also a bistable relay 50 . The sensor 40 can, for example, be a movement detector or a key input. The sensor function unit 42 contains, for example, the optoelectronic devices of a motion detector. The Relaisansteue tion 43 is controlled by means of a control signal IN output by the sensor function unit 42 , and outputs a relay control signal to a control output 5 of the sensor 40 , which is fed to the relay 50 . The plus potential of the bus lines +/- is routed via the VDD connection of the first installation device connections GND, VDD and via a first connecting line 3 to a first bus connection 1 of the sensor 40 . The minus and at the same time ground (GND) potential of the bus lines +/- is routed via the GND connection of the installation device 10 and a second connecting line 4 to a second bus connection 2 of the sensor 40 , as well as to the bistable relay 50 . Contact connections on the relay 50 are made as a switching output on second connections 20 , 21 , to which a consumer 30 can be connected, which is operated on a low-voltage network L, N.

The sensor function unit 42 and the bus coupler 41 are standard components that require no further explanation. The bus coupler 41 enables feedback of the current switching state of the bistable relay to other participants or remote control of the relay by other participants on the bus.

A preferred electrical circuit for implementing the relay control 43 is shown in FIG. 3. The circuit includes three controlled semiconductor switches Q1, Q2, and Q5, two capacitors C19 and C20, and three resistors R32, R40 and R45. Resistor R45 limits the current consumption of the control. After applying a voltage between VDD and GND, the capacitor C19 is charged. The capacitor C20 is initially not charged and thus has a low resistance. The control signal IN acts on the semiconductor switch Q2 via the series resistor R40. When the drive signal IN is pulled to ground, the semiconductor switch Q5 turns on and the charged capacitor C19 drives a switching current through the actuation coil of the relay 50 , so that the relay switches. The capacitor C20 is charged and thus has a high resistance, which means that the capacitor C19 is virtually no longer drawn any current. The capacitor C19 is recharged. If the control signal IN is pulled to 5 V, the semiconductor switch Q5 blocks and the semiconductor switch Q1 switches through. As a result, a discharge current of the capacitor C20 can flow through the operation coil of the relay 50 through the semiconductor switch Q1. Since this discharge current is inverted from the previous charge current, the bistable relay 50 switches to its other position.

Claims (3)

1. Installation device ( 10 ), which has:

• a) first connections (GND, VDD) for connecting the installation device ( 10 ) to bus lines (+, -) of a house control system, in particular the EIB bus system, and second connections ( 20 , 21 ) for connecting a consumer ( 30 ) .
• b) a sensor ( 40 ) which contains:
  a bus coupler ( 41 ) for connecting the sensor ( 40 ) via its bus connections ( 1 , 2 ) and first and second connecting lines ( 3 , 4 ) to the first connections (GND, VDD),
  a sensor function unit ( 42 ) for triggering a switching function by means of a control signal (IN), and
  a relay control ( 43 ) to which the control signal (IN) is supplied as an input signal and which is set up to output a relay control signal at a control output ( 5 ) of the sensor ( 40 ), and
• c) a bistable relay ( 50 ) with a shaft contact ( 51 ) which is connected to the second connections ( 20 , 21 ).

2. Installation device ( 10 ) according to claim 1, characterized in that the sensor function unit ( 42 ) is a motion detector. 3. Installation device ( 10 ) according to claim 1 or 2, characterized in that the relay control ( 43 ) is set up, each after a corresponding change of the control signal (IN) a short current pulse at the control output ( 5 ) of the sensor ( 40 ) to output, which causes the bistable relay ( 50 ) to switch into its other position.