LU82304A1 - TELEPHONE ALARM TRANSMITTER - Google Patents

Description

. . 3 v the present invention relates to the transmitters of an alarm condition by automatic dialing of numbers, this telephone and automatic sending of messages over the switched network from the monitored site where the transmitter is located to the corresponding caller. automatically by the transmitter. ·

In known devices of this kind, the messages transmitted during an alarm condition are recorded on a magnetic tape in human language. Such devices have the drawback of requiring mechanical devices for driving the strip 10 which can become jammed and involve a high cost if good reliability is desired. With these devices, there is no written record of the alarm condition, unless manually transcribed by the operator called by the transmitter.

Transmitters are also known in which the message is coded in the form of pulse trains at vocal frequencies requiring on the side called specific, complicated and expensive decoding equipment.

On known automatic transmitters, the first programming or modification of the telephone numbers to be called * 20 requires the programming of a read-only memory, or of an optical or magnetic medium, or of coding using straps; The programming operation is therefore heavy, expensive, and requires specific programming equipment.

The automatic transmitter object of the invention aims to avoid these drawbacks. With this one, in fact, the message transmitted in the event of an alarm is clearly written on the side called on a standard teletypewriter connected to the telephone via a standard modulator-demodulator (MODEM). The transmitted message can include not only the origin of the call but also other data which may be of interest to the supervisor called the accuracy of the sensor which caused the alarm, time elapsed since the manifestation of the alarm, etc.

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On the transmitter which is the subject of the invention, the programming of the parameters specific to each transmitter (eg telephone numbers to be called, origin of the call, waiting time before the cé-i 55 activation of a local alarm. .) can be carried out remotely via the switched telephone network and using the keypad teleprinter installed at the site of the supervisor. It follows that with the same equipment: keypad and MODEM, the supervisor can both receive the alarm message and program .40 new transmitters installed, or modify when necessary - * "'2 * This is a particular feature of the invention which simplifies the ownership procedure and reduces its cost.

The transmitter object of the invention can operate according to 2 5 different cycles, the algorithms of the 2 cycles are memorized on a dead monolithic memory and are executed by a monolithic microprocessor · the first cycle is the alarm cycle; it begins during the physical manifestation of an alarm condition (ex: rupture of a loop crossed by a current), the transmitter 10 then checks that its non-volatile memory, where its operating parameters are recorded, is correctly programmed ; this control is carried out using redundancy words written in memory at the end of a programming cycle (see below). If the non-volatile memory is not correctly signed (in the case of a blank transmitter), it will trigger a local alarm if the monitored site is equipped with it. In fact, under these conditions, the transmitter does not have a telephone to call. If the volatile memory is correctly signed, the communicator will call the parties whose telephone numbers are saved in a list in non-volatile memory.

When a called correspondent has picked up, the transmitter, identifying the carrier frequency of the KCDEK at the other end of the line, will send its message in modulation conforming to KODEMS standards. He will then wait for an acknowledgment corresponding to the character fr & pne on the keyboard of the called correspondent; once the acknowledgment 25 has been received, the transmitter object of the invention will have completed its alarm cycle. If the correspondents do not respond, or if the transmitter does not obtain an acknowledgment of his messages, he will append the other correspondents of the list of Los programmed in his non-volatile memory by exploring the list in a circular manner.

50 If within the programmed time during a programming cycle (see below), the transmitter has still not had a response or an acknowledgment, it will trigger a local alarm if the site monitored is equipped with it, and will continue to call ur. after the other the programmed correspondents until they have ur. acquitted, or until the end of 55 a total duration of action programmed also during a programming cycle.

the second cycle according to which the transmitter object of the invention can operate is the programming cycle; this cycle begins following a manual action on a key on the transmitter, 40 indicating that you want to program it. He then takes the telephone line and talks to the correspondent at the other end of the | é

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'»·"' | R line, always via keypad teleprinter and dj 5 MODEM; dialogue is in the form of questions asked by the transmitter; transmitter, displayed on the operator's teletypewriter , and of 5 responses struck by the operator on his keyboard, analyzed and memorized by the transmitter in his non-volatile memory. In case of syntactic or semantic error struck by the operator, the communicator iterates his questions until he has a correct answer.

The programming cycle ends when all the parameters! XO having been correctly given to the transmitter, he expects one; at „dd special command struck by the operator and signifying him to hang up. He will then add words to this redundancy in his memory | non-volatile so that during an alarm cycle (see above), it! can deduce that its memory is correctly programmed, then, | 15 ends his cycle. Note that the programming cycles can be repeated indefinitely, each time it is necessary to: modify all or part of the transmitter parameters.

;;; The appended drawing illustrates by way of example the architecture of a possible execution of the transmitter which is the subject of the invention.

; 20 processor 3 is of type 6602 of Cie KCT02C1A include I2E

bytes of RAM o. The program executed by the urocessor is recorded in read-only memory 4 of type 2716 of Cie II "TEL, whose capacity is 2046 bytes. The decoder 6, of the 74LS 135 type receives the high address weights from the processor and generates exclusive selection signals from each other to the circuits 4,7,8 and I The multiplexer 9, of the 4512 type, allows to multiplex towards the bit: ΐ of high weight of the data bus 30 one of the input signals 21 to 27 selected by three of the bits of the address bus 31. The output register, of the type 74 LS 259, is consisting of eight registers, one bit 30 each, individually addressable; the loaded bit being of low address weight, it is loaded at the address aonr.ée by three between bits of the address bus 3 I. The non-volatile memory 6, of type 5ICI, is in CMOS technology and is selected not only by the decoder 6 but also by the output register "IC via the integrating network 35.

! * i _ At rest, the potential line 2 floats so that only the non-volatile memory 6 and the union gate IC of the éC "c type are energized since supplied by the battery 12. Without these conditions, the consumption of the transmitter is negligible.

40 As soon as one of the input lines 21 to 2 ~! trap in state 4.

W "- r active, relay II, activated by gate 10, will bond and supply all of these components by bringing potential 2 to potential” of the battery · processor 3 will then execute its sequence initialization at power up, programmed in read-only memory 4, and 5 will act on the output register 41, which will have the effect of re-rusting the supply of all the components on the battery 12.

The processor 3 uses the output register 44 to pick up, dial the Los, and hang up the telephone line, this thanks to the relay 14. The output register 43 allows the processor to directly send the modulation by frequency hopping corresponding to PTT standards; the filter 19 is an active low-pass filter whose rSle is to suppress the high frequency component contained in the rectangular signal at the level of the register 43 · The output recovery 42 allows the processor 3 to activate a local alarm 15 if such device is connected to register 42. The voice signal carrying information relating to the different telephone tones on the one hand, and to the modulation generated by the MODEM at the other end of the telephone line on the other hand, is amplified to saturation by the operational amplifier 18 of type 2 K 324, then is applied to the interrupt input 100 of the processor 3 · This distortion allows the programmed frequency measurement with easy software filtering - The input line 21, read via the multiplexer 9, indicates to the processor 3 when it is active that the requested cycle is a programming cycle and not an alarm cycle. If, on the other hand, one of the lines 22 to 27 is active, the processor 3 will execute an alarm cycle and, depending on the active line 22 to 27, it will send a corresponding message (e.g. the LL for line 22, vol for line 23, etc ... '

The processor calculates the elapsed time with reference to the program which it executes and to the duration of the machine cycle given by its quarter clock.

At the end of the programming or alarm cycle, the processor 3 * undertakes itself to cut the voltage to the system by opening the relay II by means of an action on register 41. Sufficiently before this action on register 41, the processor will deselect the non-volatile memory 8 by acting on the register 40 in order to protect the volatile memory ncr B against false writes which could accidentally occur on power-off.

The integrator network 15 ensures the deselection that the memory & during the twists that could have the line tZ 40 during the switching on and off · ^ 5 $ of silk only according to the state of integration techniques, all or provided with components constituting the architecture described above can be integrated into an rr-onocircuit without this constituting a modification of funds of the present invention.

5 i'® automatic telephone transmitter according to the invention can be used in all cases where it is desired that one (or more) correspondents be called during the manifestation of an exceptional condition t on the site or find this transmitter.

Its use will be all the more useful in all applications where it is desired to adapt the same telephone transmitters to the specific conditions of different sites in; monitor, or if you want to modify the function parameters— I · ing of a transmitter already installed, with minimal effort and cost i of adaptation (practically, the cost of a communication!.

; 15 telephone). · / Ï

Claims (8)

6 * · «* RE VEli DI CA TI ON SX) Alarm telephone transmitter, capable of automatically dialing telephone Kos following an alarm condition, characterized in that it includes a KOjer for transmitting coded messages to Modulator standards for a switched telephone network, so that the message is printed in plain text on the teleprinter of the self-annulled correspondent, provided that the latter is equipped with a teleprinter and a standard MODEM. 2. Transmitter according to claim I, characterized in that the modulation function is programmed in memory monoli—% 10 thique which a processor executes the code. 3. Transmitter according to claims I and 2, characterized in that the speed of sending of the message by the transmitter can be as much 110 bits / seconds as 30C bits / seconds. 4. Transmitter according to claim I, characterized in that it comprises means for recognizing the frequency of the Space state generated by a modulator as an acknowledgment to a message sent. 5. Transmitter according to claim 4, characterized in that the detection of the frequency of the Sjace state generated by a modulator is ensured by software in read-only memory. 6. Transmitter according to claim I, characterized by the fact that it comprises a monolithic random access memory, in ZV.CZ technology, managed so as not to volatilize for the memorization of the operating parameters specific to each application. 7) Transmitter according to claims Elet 6, characterized by the fact that it comprises a means of programming by telephone its non-volatile memory by demodulating the signal transmitted by a MODEM at the other end of the telephone line. 8. Transmitter according to claim 7, characterized in that the demodulation function is ensured by software in read-only memory which is executed by a processor. 9. Transmitter according to claim I, characterized in that it recognizes the different tones necessary for the ccnnοι ^ sition of telephone Kos and for the establishment of a telephone comturica- tion 35, thanks to a software in read-only memory. East . executed by a processor. ; i; · Λ