DE29814713U1 - Circuit arrangement for setting analog or digital values in devices of the house installation - Google Patents

Description

PB 2078/GM 10 August 1998

Applicant: INSTA ELEKTRO GMBH & CO. KG 58511 Lüdenscheid

Circuit arrangement for setting analog or digital values

in household appliances

The invention relates to a circuit arrangement for setting digital and analog values on devices in the home installation. According to the state of the art, such devices have physical setting elements such as potentiometers, slide switches, DIP switches, coding switches, etc. with which the installer can set certain device parameters such as switching times, operating modes, device addresses during commissioning, compare publication from the brochure of the company ALBRECHT JUNG GMBH & CO. KG, Volmestraße 1, 58579 Schalksmühle from 1987 and publication of the company Paul Hochköpper GmbH & Co. KG, Gartenstraße 49, 58511 Lüdenscheid from the PHC system manual from 6/97, page 11, module view, control module (code switch). With bus devices, the setting of device parameters is often carried out using programming tools via the bus line. In these cases, the values are located in a semiconductor memory of the device, see publication of the ZVEI, Association for Installation Equipment and Systems, Stresemannallee 19, Frankfurt, Handbook for Building System Technology EIB, Chapter 5.1.2.

The use of physical adjustment devices is often difficult for devices in the home installation. For flush-mounted devices such as PIR motion detectors, several adjustment devices are required, but for design reasons they must be installed invisibly. For example, before adjusting a value, the detector attachment must first be removed in order to access the adjustment device. The attachment is then put back on to test the setting. If the value is still not correct, the whole process must be repeated. There are also adjustment devices such as DIP address switches that can only be set by the installer. However, it is difficult to prevent a customer from changing a value. For some devices, the electrical insulation of the adjustment devices is a problem because device circuits in the home installation are often at mains potential. There are also devices that require a large number of adjustment devices, making it difficult to place them on the device surface. Parameter setting via the bus line is not possible with very simple bus devices because they do not support communication with a programming tool.

The invention is based on the task of finding a technical possibility for setting device values that avoids the problems mentioned above.

This object is achieved according to the invention by the features of claim 1. Further advantageous developments are specified in the features of the subclaims.

Connecting a read/write device to read and write device data storage via a connector is often not convenient for design reasons or because of the mains voltage potential of the device circuit. IR or radio connections are not acceptable because of the high price. Inductive coupling is also usually too expensive because of the relatively high circuit complexity. Transponder technology has not yet been considered to solve such tasks because it is normally used for identification and is therefore more of a

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comparable to a magnetic strip or a barcode. In addition, the price for most transponders is also far too high.

Nevertheless, transponder technology was used to solve the problem. It includes bidirectional communication, has an electronic data storage device and works without its own power supply. Through the use of transponder technology in a wide variety of areas, such as identifying dogs or garbage cans, product labeling in department stores, etc., the prices for such transponders will soon drop to a level that will make their use for the described task interesting. However, the memory of such a transponder can currently only be accessed via its coil or antenna.

According to the invention, the transponder circuit, which is housed on a silicon chip, is provided with an additional interface that allows access to the transponder memory with the microcontroller of the home installation device. This chip can then be built into a housing and mounted on the circuit board of the application device like any other component.

The invention will be explained and described in more detail using an exemplary embodiment. It shows:

Fig. 1: a read/write device;

Fig. 2: a transponder;

Fig. 3: a transponder with additional interface;

Fig. 4: an electronic household appliance according to the invention.

The illustrations in Figs. 1 and 2 show the state of the art for a read/write device and a transponder, while Fig. 3 shows the inventive connection of a transponder with an electronic circuit 8.

Fig. 4 shows the block diagram of a passive infrared motion detector 9, in which the setting of important parameters is carried out without externally visible control elements by means of a built-in transponder arrangement 4, 5, 6 with the additional connection 7 according to the invention.

The passive infrared motion detector 9 in Fig. 4 uses the PER detection circuit 11 to detect human movements in a specific detection area. This circuit 11 sends the movement information to a microcontroller 8 via the connection 12. This microcontroller 8 checks the ambient brightness via the brightness sensor 10 with the connection 17 and compares this with the brightness value from the transponder memory 6. The microcontroller 8 reads the transponder memory 6 via the connection 7 described in the main claim. If the ambient brightness is less than the limit value, the relay coil 15 is controlled via the connection 13 so that the contact 14 closes. The length of time for which the relay 14, 15 should remain energized is also stored in the transponder memory 6. The microcontroller 8 reads the time period from the memory 6 and switches the relay 14, 15 off again via the connection 13 after this time period has elapsed. The range of the PIR detection area is also stored in the transponder memory 6. The microcontroller 8 reads the setting value for the range via the

Connection 7 from memory 6 and then adjusts the PIR detection gain via connection 12.

The embodiment shows that according to claim 3, the setting of several setting values is possible with a transponder circuit expanded according to the main claim. The installer makes the above-mentioned settings when commissioning the PIR monitor using a read/write device 1, 2, 3. According to claim 2, he can also make these settings when the PIR detector is not yet connected to the supply voltage 16.

PB 2078/GM 10 August 1998

Applicant: INSTA ELEKTRO GMBH & CO. KG 58511 Lüdenscheid

List of reference symbols

1 Write/read device 2 Write/read device 3 Write/read device 4 Transponder arrangement 5 Transponder arrangement 6 Transponder arrangement 7 Connection 8th Microcontroller 9 motion detector 10 Brightness sensor 11 PIR detection switch 12 Connection 13 Connection 14 relay 15 relay 16 Supply voltage 17 Connection

Claims (4)

III* ·· · PB 2078/GM 10 August 1998 Applicant: INSTA ELEKTRO GMBH & CO. KG 58511 Lüdenscheid Protection claims 1. Circuit arrangement in devices of the domestic installation for setting analogue or digital values which are evaluated by an electronic circuit, characterized in that the setting is carried out by a transponder arrangement (4, 5, 6) Fig. 2, the data memory of which can be viewed and changed without contact via a write/read device (1, 2, 3), wherein the transponder arrangement (4, 5, 6) is additionally provided with an electrical interface (7) via which the electronic circuit (8) can also read the data from the transponder memory or write it into the transponder memory. 2. Circuit arrangement according to claim 1, characterized in that the setting can be made via a read/write device (1, 2, 3) even if the device is not connected to a supply voltage. 3. Circuit arrangement according to claim 1 or 2, characterized in that the transponder memory allows the setting of a plurality of setting values. 4. Circuit arrangement according to claims 1 to 3, characterized in that the electronic circuit (8) is a microcontroller.