DE4035070A1 - RADIO ALARM SYSTEM - Google Patents

Abstract

A radio alarm system is described which offers adequate protection against interference due to blocking of the radio paths and against external manipulation. For this purpose, it is proposed that each signalling unit of the alarm system transmits at least two radio signals for an alarm signal, using a different carrier frequency and being coded in identical or different fashion. The central unit accordingly receives with its receivers the at least two radio signals from each signalling unit and checks the affiliation of the signalling units transmitting the radio signals by checking the validity of the coding. It is proposed in addition that an evaluation unit be provided in the receiver unit of the central unit which identifies the field strength of each received radio signal, analyses the associated data telegrams for affiliation to the system of the signalling units transmitting them, if an invalid data telegram is detected, compares the value of the received field strength of the radio signal concerned with a predefinable minimum value and, if this minimum value is exceeded by a predefinable amount, where this amount must be exceeded for a specific time period, triggers a warning indicator. <IMAGE>

Description

The invention relates to a radio alarm system according to the preamble of claim 1.

In security technology exist for erection of security systems, especially alarm systems, for private buildings as well as for commercial buildings Guidelines issued by the Association of Property Insurers (VdS) have been developed and published. These guidelines are based on the VDE regulation 0833 and have been with the commission since 01.01.1990 preventive crime (KVK) added or modified and brought up to date been. These guidelines also include the specific device requirements, such as Temperature behavior, minimum operating time, MTBF values, interference immunity through electromagnetic Fields as well as functional safety, etc. basic Rules for project planning a Security system. These regulations are in three Classes divided by different ones Go out groups of offenders: Class A includes only Private houses, the valuables up to DM 200,000.00 included, Class B private homes with Valuables over DM 200,000.00 and medium Commercial properties such as supermarkets, schools, shops etc. Class C includes jewelry stores, banks, etc.

In class A you’re going to start off in class B of perpetrators with a certain Planning also scout objects beforehand and ultimately in class C of perpetrators, who may be after weeks of observation with extensive Go to measuring instruments and special tools.  

The perpetrator risk that increases from A to C to meet, the demands on the Plant parts as well as the overall project planning a plant from A to C. In the guidelines are now more, also basic, Claims include:

• a) The so-called "environmental compatibility" includes the requirement that False alarm probability of one Plant component as well as the entire Security system as low as possible hold. This is achieved through the strictest technical tests at the Association of Property insurer for all classes equal. Here there are no differences between made the classes.
• b) The possibility of an unintentional False alarm by the operator and owner absolutely prevent the system. This is achieved through the so-called Inevitability, d. H. the operator has none Possibility in the armed object to get in there by mechanical Blocking elements automatically access at armed system is not possible. This lock is only activated when the system is disarmed canceled.

Now these guidelines have resulted in up to at the current state of the art only with copper wire wired systems are able to do this Requirements to meet everyone. Because security systems usually almost always retrospectively, mainly in private homes, the effort comes up for the necessary cable routing  at the customer's resistance. This conflict was on the part of the Association of Property Insurers in Consultation with the criminal police commission preventive crime in this regard worn that on the so-called Outer skin monitoring, with each window on one Open and open with the appropriate glass break detector Breakthrough is monitored in Class A can be dispensed with. The surveillance extends only here on the access doors and focus on monitoring by Passive infrared motion detectors in the rooms. These "Minimization" reduces the cable effort especially in the area of the windows, but all other necessary line connections to the Signalers, to the doors, to the Arming unit and to the Infrared motion detectors still remain consist. That under this "minimization" the Surveillance quality suffers, it is clear that the Perpetrators through an unmonitored window already in the Is located through before the possibility exists trigger a motion detector alarm. These Reduction is accepted, however, with reference to the group of perpetrators. The customer himself is in conflict because he is directly monitoring strives at the house wall boundary, but to the other reluctant to lay the cables.

The only remedy here is a system one does not need any cable laying, on the other nevertheless the guidelines of the Association of Non-life insurers in group A at least corresponds. Everyone takes account of the customer so-called radio alarm systems, which in large numbers are available on the market, but fulfilled after current state of knowledge none of the plants  Security requirements according to the guidelines of the Association of property insurers.

In order to illustrate the problems inherent in the known radio alarm systems, a typical system configuration and its mode of operation will first be described with reference to FIG. 1.

The wireless alarm system of FIG. 1 comprises the control unit 20 a, a power supply device 20 b, a radio receiver 20 and a radio transmitter 20 c d. An infrared motion detector 21 a is connected to a voltage supply device 21 b and a radio transmitter 21 c. In the event of an alarm event, the motion detector 21 a sends a control command to the radio transmitter 21 c. This then sends a so-called data telegram to the radio receiver 20 c. The wireless alarm center handles the further processing.

The same applies to an opening contact 22 a, for example on a door, which is connected to a voltage supply device 22 b and a radio transmitter 22 c. To arm the system is a bolt switch lock 23 a, which is connected to a mechanical locking element 23 e, a radio transmitter 23 c, control electronics 23 d and a voltage supply device 23 b. In the case of arming, a radio pulse is emitted to the radio receiver 20 c of the alarm center via the radio transmitter 23 c, whereupon the system is activated.

Furthermore, a telephone dialing device 24 a is provided, which is connected to a radio receiver 24 c, a voltage supply device 24 b (for example a power supply unit with a battery emergency power supply) and a radio transmitter 24 d. In the event of an alarm, the radio transmitter 20 d is actuated by the control center and emits a radio signal to the radio receiver 24 c. This radio receiver 24 c controls the telephone dialer 24 a via an output. The same applies to the radio transmitter 24 d: This transmits a sabotage message to the radio receiver 20 c of the alarm center.

Finally, an external siren 25 is provided a, d to control electronics 25, a power supply device 25 b, a radio receiver 25 c and a radio transmitter 25 is connected e. In the event of an alarm, the external siren 25 a receives a signal via the radio transmitter 20 d and the receiver 25 c. The receiver 25 c controls the external siren 25 a via the control electronics 25 d. The radio transmitter 25 e is used to transmit a sabotage message to the radio receiver 20 c of the alarm center.

In order to clarify the basic functional sequence of radio transmission within the alarm system, reference is made to FIG. 2.

A detector 30 opens or closes its alarm contact and thus controls a switching logic 31 . The same applies to battery monitoring 32 and sabotage monitoring 33 . A fixed coding, which is set, for example, with dip-switch switches or can also be hard-wired, is modulated together with the switching states in a modulation stage 34 and transmitted via the transmitter 35 as a data telegram already mentioned. This data telegram is received by the receiver 36 and demodulated in the demodulation stage 41 . In order to adapt the receiver 36 to the transmitter in terms of coding, it is also possible here to work either with dip-switch switches or with hard wiring. If the data telegram is recognized as valid, the switching logic 42 controls z. B. the outputs 38 , 39 or 40 . Usually 10 bits are used for transmitter identification (coding), so that 1024 codings are possible.

Known radio alarm systems have the advantage that no complex cabling has to be carried out, so that the installation times are short. They are also completely reusable when moving house. However, they have the following serious disadvantages:
There is the possibility of blocking the radio links from outside by strong third-party transmitters of the same frequency, which in the event of an alarm event overshadow the radio signal of the alarm detector in question, so that the alarm center does not respond to the alarm radio signal.

Furthermore, there is the possibility of direct manipulation from the outside with an identical radio transmitter Trying out all possible coding variants at Usually only 1024 possible combinations given. Once the correct coding is found, can be an alarm function from the outside as often as required are provoked, which initially turns out to be a false alarm proves, but also a certain one Fatigue effect on the staff of the connected Security company or directly with the house owner brings itself so that in the event of a real alarm event, such as burglary, does not respond adequately becomes.  

Especially because of the given Manipulation possibility from the outside as well as the Possibility of blocking the radio link through External transmitters correspond to known radio alarm systems not the VdS guidelines.

The invention has for its object a Specify radio alarm system which the described Disadvantages of known systems does not have.

In particular, manipulation from outside, especially with identical transmitters, and one wanted or unwanted blocking of a transmission from a radio transmitter to the alarm center or from the Alarm center to an alarm device does not or only possible under very difficult circumstances be.

The task is solved by the radio alarm system according to claim 1. Further advantageous Further training is in the subclaims specified.

According to the invention it is accordingly provided that Reporting units each have at least two radio signals radiate a different carrier frequency and have more specific data telegrams Encoding are encrypted.

Blockage of a transmission path from one Detector with a transmitter unit that has at least two Emits radio signals, so becomes the central unit avoided by having several Transmitter-receiver pairs with different Frequency are used, so that at Interruption or disturbance of a Transmitter-receiver route the others  Transmitter-receiver lines still in operation stay. The likelihood of wanted or unwanted blocking of a transmission link takes drastically with increasing number of used Transmitter and receiver modules in the reporting unit or in the central unit.

Manipulation from the outside, especially with identical transmitters, is prevented by a hard-wired for each transmitter for each signaling unit Coding is assigned. This hardwired In practice, coding becomes optical and mechanically secured that the necessary Wiring, for example, by potting compound is protected so that it is only possible a Data telegram, which encodes the detector contains, to determine with the most complex measuring devices or imitate. Security can also be affected be increased that the modulation of the Data telegram from a customer-specific IC is carried out, which is not in the trade is available.

Security can be increased further by the fact that those emitted by the individual reporting units Radio signals are coded differently. Each Each transmitter unit can therefore have its own transmitter hard-wired coding can be assigned.

The coding of the radio signals is preferably fixed wired to a printed circuit board or plug-in card given. The plug-in card can be in the transmitter modules be plugged in, with the same coding of all emitted radio signals from a reporting unit only a plug-in card in the transmitter unit each Notification unit needs to be plugged in. At different coding of the radio signals from  a reporting unit are the number of in the Transmitter unit contains a corresponding number of transmitters To provide circuit boards or plug-in cards. These Printed circuit boards then contain the required Wiring, which in turn can be protected by an opaque potting compound so that it not for the installer, for example it is possible to understand the codes.

As a further security measure is preferred to provide that in the receiver unit Central unit a device is provided which is the field strength of each received radio signal captures the data telegrams belonging to the reporting units to the system analyzed, in the event of finding a invalid data telegram the value of the received Field strength of the radio signal in question with a compares predetermined minimum value and at This value is exceeded by a predefinable one Amount and after exceeding a certain Duration, which is preferably approximately 10 seconds. triggers a warning indicator. Background this Security measure is that the signal signals of the respective transmitter modules with the associated ones Field strengths stored in the central unit can be, so that the least arriving valid field strengths are known. It can therefore be of the device in the central unit be whether the incoming field strength with a invalid data telegram is strong enough to get a to block any valid message from the transmitter modules. If an invalid data telegram is received is decided in the device whether the associated field strength the minimum value of a valid Radio signal exceeds. If so, one will Warning indicator triggered.  

According to a further embodiment, that said device upon detection of the Invalid all received data telegrams as well if the minimum field strength values are exceeded, which are stored as described, each Radio signal triggers the alarm by the predefinable amount. In this case, the entire radio system is inoperable.

The radio system according to the invention is based on a Embodiment explained in more detail. Here shows:

Fig. 3 The principle of the detector-side transmitter structure and the principle of the receiver structure in the central unit of the alarm system, and

Fig. 4 further details of a transmitter and a receiver unit.

The circuits shown can be implemented in a radio alarm system with the units, as has already been explained with reference to FIG. 1.

Fig. 3 shows an example of the configuration of a transmitter module of a detector 1, for example, an infrared motion detector. Control electronics 2 are arranged within a housing 27 which is advantageously made of metal and which is controlled by signals from detector 1 via lines 3 . This information is forwarded by the control electronics 2 via a line 4 to a modulation stage 5 , the coding of a hard-wired coding stage 6 being adopted by the modulation stage 5 and processed into a common data telegram and finally being forwarded to the transmitter unit 7 . A voltage supply 8 supplies all components of the module, the voltage of the voltage supply 8 being continuously checked by a voltage monitoring unit 9 . The sending unit sends all information to the receiver level in the alarm center. The receiver stage consists of a receiver unit 10 , which forwards the incoming radio signals to a demodulation stage 11 , from where the data telegrams in the evaluation stage 12 for data telegrams are checked for validity - or invalid - on the basis of the coding assigned to the respective detector 1 and in which the Information content of the transmitted switching states is forwarded to the interface 13 . The switching states contain information regarding the current state of each detector. A central controller 14 takes the information present from the interface 13 and forwards it to a processing stage 15 or to the display 16 . The receiver unit 10 , the demodulation stage 11 and the evaluation stage 12 for the data telegrams are preferably arranged in a metallic housing 17 in order to avoid electromagnetic interference.

Fig. 4 shows further details of the transmit and receive modules.

Each transmission unit 22 consists of several transmitters a to n, which emit signals with different carrier frequencies. The transmitted signals are encoded. The transmitters a to n receive the codes from a likewise n-stage modulation stage which is connected upstream of the transmitter unit 22 . The modulation stage 21 imprints codings on the signals, which it receives from the n-stage coding stage 20 connected upstream of it. Switching states are also added to the coding via a line 28 . The transmitter unit 22 thus sends n radio signals, each of which has a different frequency and is coded differently. According to a simplified embodiment, it is possible to give the same coding to all n radio signals.

An n-stage receiver stage 23 is provided on the receiver side, which receives the n radio signals of the transmitter unit 22 . Each receiver a to n is assigned to the modulator a to n in a demodulation stage 24 . The demodulated signals are connected via a line 29 in the present embodiment, shifted in time of the evaluation stage 12 for data messages according to FIG. 3, respectively.

In addition to supplying the received radio signals a to n to the demodulation stage 24 , the received signals are fed to an analog / digital converter 25 . The latter transmits the converted signals to an evaluation unit 26 . This structure enables the received field strength of the individual radio signals a to n to be monitored. The evaluation unit 26 checks whether the data telegrams belonging to the individual radio signals a to n are valid or invalid, that is to say whether they belong to the radio alarm system Unity or not. If the check reveals that a data telegram is invalid, the field strength size is used to determine whether there is a radio interference. For this purpose, the messages from the respective transmitters a to n with the associated field strengths are stored in the evaluation unit 26 , so that the at least valid field strengths arriving are known. Accordingly, it can be decided whether the received field strength of a received radio signal with an invalid data telegram is strong enough to block a valid message from the transmitter. If such a field strength exceeds the stored value for field strengths of signals with a valid data telegram, this can be displayed in the display device. The evaluation unit 26 is also designed such that it triggers an alarm when it is determined that all incoming data telegrams are invalid and all field strengths exceed the said minimum value for a predetermined period of time, since in this case the alarm system is inoperative.

Claims (5)

1. Radio alarm system, consisting of a central unit with a receiver unit for receiving radio signals from reporting units in the form of data telegrams, each representing an event, the receiver unit being matched to the radio signals so that it can only process data telegrams from reporting units belonging to the system in order to trigger an alarm or a function, characterized in that the signaling units ( 1 ) each emit at least two radio signals which have a different carrier frequency and are encoded in data telegrams of fixed, predetermined coding. 2. Radio alarm system according to claim 1, characterized in that the radio signals emitted by the individual signaling units ( 1 ) are coded differently. 3. Radio alarm system according to claim 1 or 2, characterized characterized in that the coding of the Radio signals hardwired to one PCB is specified. 4. Radio alarm system according to one of claims 1 to 3, characterized in that an evaluation unit ( 26 ) is provided in the receiver unit of the central unit, which detects the field strength of each received radio signal, analyzes the associated data telegrams for the belonging of the reporting units to the system, in the event of an invalid data telegram being determined, comparing the value of the received field strength of the radio signal in question with a predetermined minimum value and, if this minimum value is exceeded by a predeterminable amount, which amount must be exceeded for a certain period of time, triggers a warning display. 5. Radio alarm system according to claim 4, characterized in that the evaluation unit ( 26 ) triggers alarm upon detection of the invalidity of all received data telegrams and when the minimum value of the field strengths of each radio signal is exceeded.