CH641582A5 - Method for the automatic identification of a transmitter by a receiver and device for carrying it out - Google Patents

Description

641 582 2

PATENT CLAIMS or deformation of the transmitter (6) to the receiver (16)

1. The method for automatically identifying a transmitter-transmitting signal is determined.

by a receiver, wherein in storage media of the 10th device according to one of claims 6 to 9,

Identification information of the sender and the recipient is characterized by the fact that the transmission-side feedback

tion is stored in the transmitter a pulse train with this 5 circle (5) with oscillator (1), counter (3), modulator (2) and

Identification information modulated and the modulated storage medium (4) are constructed as an integrated circuit.

Pulse sequence is transmitted to the receiver, wherein according to claim 11. The device according to claim 10, characterized

the demodulation of the received pulse sequence that the transmitter (6) acts as a portable identification arrangement

gene identification information with which is formed in the receiver.

corresponding information is compared, that 10

characterized in that the modulation in a transmit

Side modulator (2), which receives a periodic pulse sequence from an oscillator (1) and accordingly The invention relates to a method for automatic identification of a transmitter contained in the storage medium of the transmitter by a receiver, wherein tion information pulses of the sequence to one Counter (3) in the storage media of the transmitter and the receiver each averages or suppresses which modulated pulse sequence of identification information is stored, in the transmitter a counter (3) arrives, each of which modulates its counter reading as a pulse sequence with this identification information the storage medium (4) delivers and a part of the identification information stored under this and the modulated pulse sequence at the receivers transmitted to the receivers is gene, wherein after the demodulation of the received via a feedback circuit (5) to the modulator (2) Pulse sequence the identification information received ation, and that the corresponding information at the output of the modulator (2), which is contained in the receiver, is transmitted to the receiver and is compared there, and a device for execution is-modulated and with the identification stored on the receiver side. this procedure.

Fication information is compared. US Pat. No. 3,821,704 describes an electronic locking device

2. The method according to claim 1, characterized in that the direction is disclosed, which has a key, the information of which is transmitted to the receiver in a manner that the signals appearing mechanically on a card in the form of holes at the output of the transmitter-side modulator (2) are transmitted wirelessly to the receiver is.

will. Such electronic locking devices with one

3. The method according to claim 1, characterized in that purely mechanical keys have the disadvantage that the signals appearing at the output of the transmitter-side modulator (2) require a comparatively complex reading device to read the mechanically stored information , are transmitted. From CH-PS 592 797 an identification device is

4. The method according to one of the preceding claims 2. device known, a key and a lock each having and 3, characterized in that the transmitter to be transmitted is equipped with a transmitter and a receiver. These signals in the form of a pulse-width modulated form of a pulse duration device 35 allow an information exchange between about 8 (is and a pulse distance of about 1 or 2 ms see lock and key in both directions, but are transmitted .

5. The method according to claim 4, characterized in, the aim of the present invention is to design a method that the signals to be transmitted in order to increase the and a device for identifying a transmitter by transmission security in an error detection and a receiver the code mentioned above, which allows correction, are transmitted. Disadvantages of the known methods and devices have

6. Device for executing the method according to Antigen, which is inexpensive, outside and during the speech 1, characterized in that the transmitter (6) has the lowest possible power consumption, oscillator (1) and the counter ( 3) and which are safe from interference and sabotage, and in order to increase the security medium (4) in the feedback circuit (5), a large number of combinations are possible, has (2), and that the receiver (16 ) a demodulator converting signals arriving from the invention according to the invention by a method transmitter (6) is achieved, which is characterized (12) by a counter that counts the incoming signals that the modulation is in a transmission end Mo- (13), which is connected to the storage medium (14), takes place, the one of an oscillator, one periodic and one that is converted by the demodulator (12), and so see Impulsfo lge and in accordance with the dium of the transmitter received in the memory receiving signals from the storage medium receiving identification information in the comparator (15), wherein the comparator (15) transmits or suppresses a pulse of the sequence to a counter, actuating device (17) is connected . which modulated pulse sequence arrives at a counter, each of which counts as an address to the memory

7. The device according to claim 6, characterized in 55 and supplies a part stored under this address, that on the receiving side the demodulator, the counter, the identification information via a feedback storage medium and the comparator as microprocessor circuit reaches the modulator, and that they are trained at the exit of the. Signals appearing to modulators to the receiver

8. The device as claimed in claim 7, characterized in that it is demodulated and demodulated there and with the receiving end that the microprocessor (18) is designed to compare the identification information stored in 60. The receiver (16) stores information at all times, and the information stored in the transmitter is only characterized in that the transmitter, the transmitter and the transmitter (6) and receiver (16) have a connection the counter and the storage medium is in the feedback, by means of a modulator arranged in the microprocessor (18) and has a modulator, and that the grammes have to be changed. 65 receiver switches the signals arriving from the transmitter

9. Device according to one of claims 6 to 8, converting demodulator, one of the incoming signals, characterized in that the transmitter (6) has an interrupter-counting counter, the device (8) connected to the storage medium, which is used for blockwise transmission and the one converted by the demodulator and the

Comparator receiving signals received from the storage medium, wherein an actuating device is connected to the comparator.

The demodulator, the counter, the storage medium and the comparator are preferably designed as microprocessors at the receiving end.

Preferably, a pulse interval modulation with a pulse width of about 8 jis and a pulse interval of about 1 10 or about 2 ms is preferably carried out for signal transmission from transmitter to receiver, depending on whether it is a logical “1” or a logical “0” . As a result, there will be enough time between the individual pulses to be able to use inexpensive and low-power microprocessors and storage media. This signal form 15 of the pulse spacing modulation allows a cost-effective design of the supply of the transmitter if a transmitter is used for wireless transmission. The longer time between the short pulses can be used to charge a capacitor, which means that 20 much smaller currents are drawn from the supply, which ultimately has a positive effect on the size of a battery or the size of a power supply.

The transmitter is advantageously equipped with an interrupter device in order to enable block-wise transmission of the signals from the transmitter to the receiver. In this way, time for the comparison of the signals with the stored values, time for the decision and triggering of the actuating device can be gained between the individual blocks and the recognition of the blocks can be facilitated. 30th

Another embodiment of the receiver, which is more intended for the case of a wired connection between the receiver and the transmitter, allows the information present in the transmitter to be stored.

This version is intended for the identification arrangements which have multiple users and / or where a particular increase in security is in place. This requires a two-way connection between the receiver and the transmitter, which does not pose any problems with a wired connection, but provides a suitably designed transmitter and a receiver on each side for a wireless connection. The use of appropriate, reprogrammable storage media is a matter of course before.

The entire electronic circuit of the transmitter is preferably integrated, so that its size corresponds to mechanical keys. Of course, the electronic circuit of the receiver can also be integrated, which is actually the case when using a microprocessor. 50

Exemplary embodiments of the invention are explained in more detail below with reference to the accompanying drawings. Show it:

1 shows an embodiment of a transmitter according to the invention,

2 shows an embodiment of a receiver according to the invention,

3 shows another embodiment of the receiver with a microprocessor,

4 shows an embodiment of an electronic identification arrangement with wireless transmission,

5 shows an embodiment of the transmitter with interrupter device,

6 shows an embodiment of an electronic identification device in which the information in the storage medium of the transmitter can be changed, and

7 shows an advantageous signal form of the pulse spacing modulation.

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In Fig. 1, a transmitter, which is called "key" in analogy below, is drawn with an oscillator 1, which generates a periodic pulse train, e.g. The period T1 designated in FIG. 7 with the logical “1” is generated and output to a modulator 2. The modulator 2 is designed in such a way that it suppresses a pulse or forwards it to a counter 3 in accordance with the information from a storage medium 4. At the beginning of the pulse train, the counter 3 will have the first address of the storage medium 4 at its output and will increase the address at its output for each new pulse arriving from the modulator 2. A value stored at this address appears at the output of the storage medium 4 and is fed back to the modulator 2 via a feedback circuit 5. Depending on this stored value, only the next pulse arriving from oscillator 1 is suppressed by modulator 2 or passed on to counter 3. If this pulse is suppressed by the modulator, which occurs with a stored value “0”, the next pulse that comes after this suppressed pulse is passed on by the modulator 2 to the counter, which is used to query the next address of the storage medium 4 subsequent value. In this way, a signal shape appears at the output of the modulator 2, which is known as pulse spacing modulation and which will pass on the information stored in the storage medium 4 in series to the lock. The pulse interval in the case of a value “1” stored in the storage medium 4 can be approximately one ms long and corresponds to the simple pulse interval arriving from the oscillator 1, because in this case no pulse was suppressed by the modulator 2. If the value stored in the storage medium 4 has the logical value “0”, the pulse interval will be approximately 2 ms long and correspond to twice the pulse interval arriving from the oscillator 1 because only a single pulse has been suppressed by the modulator 2. This arrangement allows any expansion of the counter and the storage medium, which can lead to an arbitrarily large combination of keys and thus also to an increase in security. Let's take just one example of an inexpensive storage medium available on the market with a storage capacity of only 1 k bit, which corresponds to 1024 bits. The number of combinations becomes 21024, which is more than IO300. If someone tried to send a new combination to the lock every second with a generator to open the lock, they would have to spend more than 10287 billion years because a year only has about 3,156 x 107 seconds. This enormous amount of combinations can of course be reduced by a known type of coding the pulse train to increase the transmission security.

FIG. 2 shows an embodiment according to the invention of a receiver, which in the figurative sense is referred to as a lock 16, which is mainly intended for the reception, processing and comparison of the signals arriving from the key. The signals are simultaneously applied to the reception of a demodulator 12 and a counter 13. The demodulator 12 converts the pulse intervals into their corresponding logical “0” or “1” values and outputs them to the first input of a comparator 15. Like the counter 3 of the key, the counter 13 will have the first address of a storage medium 14 at its output at the beginning of the pulse sequence and will increase the address for each new pulse arriving. These addresses are fed to the input of the storage medium 14, the values stored in the storage medium appearing at the output thereof in the form of logical values “1” or “0” which are output to the second input of the comparator 15. If all the values stored in lock 16 match those of key 6.

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transmitted values match, the comparator is a Si An advantageous embodiment of the key is passed on in gnal to the actuating device, shown by a Fig. 5, this form being the same as in Fig. 1 and only

To move the lock bolt on a door, etc. or a direction provided with an additional interrupter device 8 for opening or closing a door or gate. The interrupter device 8 serves one from the

To put operation. 5 storage medium 4 completely read out and in pulse

FIG. 3 shows another version of the lock, which represents a standstill modulation converted pulse train for the same, in which the functions of the demodulator, counter and period, which corresponds to the length of this pulse train, are taken over by a microprocessor as un-comparator. This gives the castle time for a possible event. The advantage of this embodiment is that, without processing and with an additional expenditure of material that is confirmed with the next pulse sequence, error detection and so-called decision about the triggering of the actuating device, even error correction of the code sent by the key, are made available. The interrupter device 8 and in this case redundant pulse sequence can preferably also be used for a pulse length deformation. To do this, you can use the known types of coding, such as the type e.g. 7 may be provided, e.g. use the Hamming code. The coded information, if this has not already been determined beforehand by the oscillator, is in the key as usual in its memory.

The medium is stored and after transmission in the microprocessor by means of a suitable program. In FIG. 6, an embodiment of the invention is shown, which checks occurring errors and with the values stored in the memory, a very flexible application of the electronic identifier of the microprocessor according to or tion arrangement and mainly the key allowed. It compared before decoding. The storage medium may include the possibility of a change made by the microprocessor 18 in the microprocessor itself or a change made to it in the storage medium 4 of the key. Because these are already known types of information 6 stored. The use of coding, error detection and microprocessor and pro devices of this type is particularly advantageous where grammar architecture is concerned, more detailed descriptions of several people using the same identification arrangement are dispensed with. Need 25 and after a change e.g. of staff or workers

A further embodiment in which the error detectors of a house or loss of the key, with mechanical

nation and coding takes on special meaning, is a change of key and in niche devices

Fig. 4 shows schematically and sees an application make a lock necessary.

Nes associated with the key 16 transmitter 7 and one for this change takes place in the present invention

Lock 16 associated receiver 19 for a wireless 30 by simply reprogramming the at most

Transmission before. In this case, the key 16 of the key and lock still stored is preferably stored

attached to the transmitter separably and with the supply of the mation. The need for reprogrammable storage

Transmitter 7 supplied to the size of the key as possible. The medium is a clear requirement.

to keep small. This enables the key 6 in a simple way. The possibility of reprogramming or re-programming

connection with both a e.g. in a 35 programming of the storage media only during assembly

Fixed car, for opening or closing one of the identification arrangement allows an inexpensive

Garagetores provided transmitter 7 as well as with the manufacture and storage of the same units, which only at

Garage door or lock associated with another door 16 for the selected key combination.

bring to. be grammed.

Preferably, the electronic circuit of the 40 The application of the invention is not only for key 6 with the supply of the transmitter 7 or the lock locking devices in the narrow sense, but is supplied by the 16 in order to keep the size of the key 6 as small as possible with the possibility of storing a large number of information

hold. To do this, the line-bound connection must be minimized, even for payment transactions with bank, post office or other

at least two contacts for connecting the key 6 to their institutions. The sender can act as an account

the supply and possibly a contact for the signal card, as a petrol station key, or as an information

have more if the signal transmission is not sluggish with account no., address, AHV no. etc. used

via a feed line. will.

C.

2 sheets of drawings