DE29813500U1 - Device for parameterizing production-related manipulated variables using wireless active infrared remote transmission for motion detectors - Google Patents

Description

PB 2080/GM 28 July 1998

Applicant: INSTA ELEKTRO GMBH & CO. KG 58511 Lüdenscheid

Device for parameterizing production-related control variables using wireless active infrared remote transmission for motion detectors

The present invention relates to a device according to the preamble of claim 1.

Motion detectors, mainly designed as passive infrared motion detectors, are available in a wide variety of designs. Motion detectors can be divided into devices for indoor and outdoor use, which are designed for either surface-mounted or flush-mounted installation. Motion detectors with adjustable or fixed control variables for running time, brightness and sensitivity thresholds are also available. Motion detectors often differ in design in the color of the lens array.

The differences described above also require a circuit adaptation. For example, motion detectors for indoor use often have a higher sensitivity and a broader filter characteristic than motion detectors for outdoor use, since disturbances caused by environmental influences such as wind or temperature changes are of different importance indoors and outdoors. Motion detectors with and without an adjustment element differ considerably in terms of their components and housing. In variants with different colors of the lens array, the brightness control must be adapted accordingly if it is measured through the lens.

If you combine all the options described above, you get a large number of assembly variants. This means considerable problems and additional work for the workflow in series production: frequent retooling of the SMD assembly machines, changing discrete assembly, separate intermediate storage in the production process, different test steps, separate documentation and increasing planning and administration costs.

The present invention was therefore based on the object of creating a more cost-effective device for parameterizing production-related control variables by means of wireless active infrared remote transmission for motion detectors in order to achieve a production-oriented workflow.

This specification is solved with the features of claim 1. Further advantageous design features of the invention are contained in the following description of the figures and in the subclaims. They show:

Fig. 1: a schematic representation of the light sensor with dual signal utilization;

Fig. 2: a block diagram of the device according to the invention.

Almost every motion detector B contains a light-sensitive component for evaluating the ambient brightness. Only when a limit value is exceeded does a detected movement lead to the load being switched. The light sensor can be designed as an LDR, photodiode Dp or phototransistor Tp. The spectral sensitivity of photodiodes and phototransistors covers not only visible light but also the near IR range. By using the light information twice, the ambient brightness can be determined and a coded IR telegram can be received.

Figure 1 shows a schematic of this double signal evaluation. The light signals are initially received together and converted into electrical quantities Tp or Dp, Ri. The IR signal is prepared in an amplifier unit V so that it can then be processed by a decoder 4. The signal for determining the ambient brightness is initially filtered in a low-pass filter R2, C to eliminate the high-frequency components of the ER signal before it is fed to an evaluation stage 5 (see Figure 2). Both signals are fed separately to a μ controller unit 6, which takes over all evaluations, switching and control tasks of the motion detector B. Optical filters can be connected upstream of the receiving unit 3, which only allow the near ER area to pass through. This spectrally dependent measurement ensures that overloading of the receiving element Tp or Dp by visible light is minimized. In addition, a distinction is made between artificial and daylight for certain lamp loads, since the spectral range of fluorescent lamps is predominantly in the visible range and the light measurement takes place in the near ER range as described.

The additional effort of this solution compared to a conventional circuit is minimal. Both the photoelement and the μ controller are present in most motion detectors. Only the IR amplifier unit V has to be implemented additionally. The decoding and implementation of the ER signal can already take place in the μ controller unit 6. This only means one-time additional effort during programming.

On the other hand, there are savings opportunities throughout the entire production process. No distinction is made between assembly variants in either SMD or discrete assembly. This eliminates set-up times on assembly machines and multiple intermediate storage, and also minimizes sources of error caused by incorrect assembly. Only in the final test device is the type-specific parameterization for the motion detector carried out and variants created using an ER telegram. With appropriately coded IR telegrams, the motion detector B can also be switched to special test modes, e.g. short time, day and night operation, different sensitivity levels, control of switching unit 8, etc., which can minimize test times.

Additional advantages of wireless parameterization can also be used by the installer or end user. With the help of a simple remote control S, consisting of input unit 1 and transmitter 2, the previously mechanical setting of running time, brightness and sensitivity can also be carried out wirelessly, i.e. the setting elements on the device can be omitted. This results in material savings as well as design advantages for the designer and protection against adjustment by unauthorized persons.

Claims (7)

PB 2080/GM 28 July 1998 Applicant: INSTA ELEKTRO GMBH & CO. KG 58511 Lüdenscheid Protection claims 1. Device for parameterizing motion detectors, characterized in that the parameterization of production-related control variables takes place by means of wireless active infrared remote transmission, wherein in the receiving unit (3) a phototransistor (Tp) or a photodiode (Dp) receives and separately processes information about the ambient brightness in addition to the IR telegrams and the IR signals are converted in an amplifier and decoder unit (4), wherein the decoded IR signals are evaluated in a μ-controller unit (6) and, as a result, corresponding stored modes are set. 2. Device according to claim 1, characterized in that the decoding of the IR signal additionally takes place in the μ-controller unit (6). 3. Device according to claim 1 and 2, characterized in that the evaluation of the brightness information additionally takes place in the μ-controller unit (6). 4. Device according to claims 1 to 3, characterized in that the entire evaluation and control of the motion detector (b) additionally takes place in the μ-controller unit (6). 5. Device according to claim 1, characterized in that in addition to production-related variables, additional customer-specific settings can be made via the wireless active infrared remote control (S). 6. Device according to claim 1 and 5, characterized in that adjustment elements on the motion detector (B) can be omitted. 7. Device according to claim 1, characterized in that the range optically detected by the receiving unit (3) is restricted by corresponding optical filters so that only the near IR range is allowed through.