DE3627960C1 - Monitoring device for loudspeaker installations - Google Patents

Abstract

The invention relates to a monitoring device for locating a loudspeaker failure for an installation comprising a number of loudspeakers (3) which are in each case allocated a fault detector (10) and a test circuit (11). A central unit (1) signalling the failure of a loudspeaker (3) in each case supplies to all test circuits (11) a differently coded digital serial test signal containing an address. A test circuit (11) only supplies a response signal to the central unit (1) when the address contained in the test signal corresponds to the address of the test circuit (11) and when the fault detector (10) has not found any fault. The fault detector (10) contains a function detector (14) for testing the operability of the loudspeaker coil and a pilot signal detector (13) for detecting an interruption or a short circuit in the loudspeaker transmission link (2) to which a pilot signal is applied. <IMAGE>

Description

The invention relates to a monitoring device for Localization of a loudspeaker failure for a system with multiple speakers, each with a mistake detector and a test circuit are assigned, the Establishment of a loudspeaker failure report Central unit has, each one different encoded digital serial containing an address Test signal feeds all test circuits, which each a comparator to compare the address of the test signals with one in each test circuit contain differently stored addresses and at Match the saved address one of the Central unit feedable digital serial response generate signal.

For loudspeaker systems that cause warnings or alarms Announcements must be used, the functionality the loudspeaker system to be constantly monitored to the Ensure operation at all times. About security devices, the errors or failures of certain Detect and report speakers.

A monitoring device to determine the condition from alarms in e.g. Object protection alarm systems or Hazard detection systems are known from DE-OS 29 46 169. Here, a central unit generates digital serial Test signals that contain an address and a command. These test signals are sent to alarm devices, where then a comparator is used to check whether the Address of the test signal with the stored address of the  The alarm device matches. In the alarm raised digital serial response signal is generated, which is the address of this alarm transmitter and a status information according to the command via the alarm device contain. After generation, the response signal is the Central unit supplied, in which the response signal out is evaluated and the state of the alarm concerned displays. Here, both when a Error as well as an error-free response signal creates what complicates the setup.

The invention has for its object an over monitoring device for locating a loudspeaker fails for a system with multiple speakers create that is simple and yet reliable is working.

This task is carried out at a monitoring facility type mentioned solved in that each error detector a pilot signal detector for detecting a Interruption or a short circuit of the one Pilot signal loaded speaker transmission range and a function detector for testing the Functionality of the loudspeaker coil contains and only then an enable signal to be supplied to the test circuit generated to give a response signal when the pilot signal detector and the function detector no error determine.

In the monitoring device according to the invention a function detector is assigned to each loudspeaker a pilot signal detector and a function detector contains. The pilot signal detector determines whether that for example from the central unit to the over transmission path for the useful signal of the speaker  given pilot signal is present. Will this pilot signal not measured by the pilot signal detector, so lies either an interruption on the transmission link or a short before. The function detector checks whether the loudspeaker coil is defective, i.e. whether this under is broken. If no error from the error detector is reported, it emits an enable signal.

Each speaker is also a test circuit arranges. There is a different one in each test circuit Address saved by which the test circuits each Marked are. The central unit runs everyone Test circuit to a test signal that contains an address, with the stored address of a test circuit matches. So in each test circuit Address of the test signal with the saved address compared. The comparator makes the match fixed, an answer will be given in the test circuit concerned signal generated only when the release signal from Fault detector is present. If the central unit detects that after generation of the test signal no response signal from a test circuit is supplied, for example the same test signal to increase security submit once. If a response signal has been delivered, has the following test formed by the central unit signal another address.

In the monitoring device according to the invention Contrary to the known monitoring device from the DE-OS 29 46 169 a response signal only if there are no errors generated. The central unit and the test circuit are therefore much more simple. The test signal and the response signal, since it is generated one after the other be put on a line. Furthermore is due to the much simpler form of the error message increases the reliability of the facility.  

In a further development of the monitoring device the invention provides that the test circuit a Serial-parallel converter, which has the in the test signal present as a serial digital word in a parallel digital word to be fed to the comparator implements. This makes the comparison simple the address of the test signal with the stored address enables.

In order to minimize the effort of the monitoring device hold is provided in another training that the response signal generated by the test circuit Address of this test circuit includes. The generation of the Response signal can be done so that the test scarf device further comprises a parallel-serial converter, the those in a memory as a parallel digital word stored address in a serial digital word converts the address contained in the response signal forms.

After a further development of the invention Pilot signal detector designed so that it is an equal judge for rectification of the speakers Voltage, a ver with the output of the rectifier bound filter for the pilot signal and a comparator contains an error in the absence of the pilot signal signal. The function detector preferably contains a comparator that outputs an error signal when the Voltage on the loudspeaker coil rises.

The release signal can only be generated if if the function detector and the pilot signal detector deliver no error signal. The error detector therefore points a logic circuit on that with the outputs of the Function detector and the pilot signal detector connected and which emits an enable signal when the  Function detector and the pilot signal detector no error deliver signal.

An embodiment of the invention is shown below explained in more detail with reference to the drawing. It shows

Fig. 1 is a speaker system with a monitoring device and

Fig. 2 shows a part of the monitoring device shown in Fig. 1 for the localization of a speaker failure.

In Fig. 1, a loudspeaker system and a monitoring device for monitoring the individual speakers of this system is shown schematically. A central unit 1 outputs a useful signal to a loudspeaker transmission path 2 , via which the useful signal is supplied to each loudspeaker 3 of the loudspeaker system. A transmitter 4 is arranged between each loudspeaker transmission path 2 and a loudspeaker 3 and transforms the useful signal to a required value for the loudspeaker. A decoupling capacitor 7 is connected between a connection of the loudspeaker 3 and a connection on the secondary side of the transformer 4 . Each speaker 3 is assigned a monitoring module 5 , which checks whether there is an interruption in the respective speaker transmission path 2 , a short circuit or inoperability of the speaker coil. Each monitoring module 5 has a connection 6 to the central unit 1 . The central unit 1 queries each individual monitoring module 5 one after the other whether there is an error and reports such an error. It specifies the speaker with which an error has occurred.

Such a monitoring module 5 is shown in Fig. 2 Darge. The monitoring module 5 contains an error detector 10 and a test circuit 11 . An input 12 of the error detector 10 is connected between a connection of the loudspeaker coil and a connection of the decoupling capacitor 7 . The input 12 is also the input of a pilot signal detector 13 contained in the error detector 10 and a function detector 14 . The pilot signal detector 13 serves to determine an interruption on the loudspeaker transmission path 2 or a short circuit. The central unit 1 overlays the useful signal with a high-frequency pilot signal of, for example, 20 kHz, which the pilot signal detector 13 detects. If the pilot signal detector 13 determines that there is no pilot signal, there must be either an interruption or a short circuit.

The pilot signal detector 13 has a capacitor 16 at its input, which blocks the DC voltage component. The signal supplied to the loudspeaker 3 is rectified in a downstream rectifier 17 . The rectified output signal of the rectifier 17 is amplified in an amplifier 18 and the amplified signal is fed to a filter 19 . The cut-off frequency of the filter is designed so that the low-frequency components of the useful signal are filtered out and only the rectified pilot signal is fed to a comparator 20 . The comparator 20 compares the output voltage of the filter 19 with a reference voltage. If there is a short circuit or an interruption, then the output voltage of the filter 19 has a very low voltage value since the pilot signal could not be detected. Then the comparator 20 generates an error signal. For example, the output signal of the comparator 20 can have a higher potential in the event of an error than if there is no error.

The function detector 14 determines whether the speaker coil is interrupted. For this purpose, the voltage at the loudspeaker coil is compared with a reference voltage with the aid of a comparator 21 , which then emits an error signal when the voltage is greater than when there is freedom from error, ie when the loudspeaker coil has no defect. Such a comparator 21 can be implemented, for example, by a Schmitt trigger NAND gate. The error signal from the function detector can also be in a higher state than when there are no errors.

The error detector 10 also has a logic circuit 22 , which links the output signals of the pilot signal detector 13 and the function detector 14 . Only if no error signal is supplied by the two detectors 13 and 14 does the logic circuit emit an enable signal. Such a logic circuit 22 can also be implemented by a Schmitt trigger NAND gate.

The central unit 1 consecutively checks the functionality of the various loudspeakers 3 . For this purpose, the central unit 1 sends out a test signal which is sent to the line 6 and is fed to each test circuit 11 . Such a test signal is, for example, a digital serial signal that contains a start and stop bit and an address of 8 bits. In each test circuit 11 , in a converter circuit 25 , after a test signal has been supplied and the start bit has been recognized, the serial address is converted into a parallel address in a serial-parallel converter contained in the converter circuit 25 . The converter circuit 25 receives a clock signal from a clock signal generator 26 . The start, stop and an address bit can last, for example, 16 cycles. In each test circuit 11 of a monitoring module 5 , the address of the test signal present as a parallel digital word is compared in a comparator 27 with a stored address. This stored address is stored in a memory 28 . A different address is stored in each test circuit 11 . The comparator 27 only generates a comparison signal if the supplied address matches the stored address. If a comparison signal has been generated by the comparator 27 and an enable signal by the error detector 10 , a digital serial response signal is formed in the converter circuit 25 . For this purpose, the stored address is supplied to a parallel-serial converter contained in the converter circuit from the memory 28 , which generates a serial address. A start and stop bit is added to this digital serial address signal so that the response signal can be given on line 6 .

In the central unit 1 , after it has received a response signal, a test signal with a new address is generated.

If there is now an error, ie the error detector 10 does not emit an enable signal, the test circuit 11 does not generate a response signal after receiving a test signal. The central unit 1 then again generates a test signal with the same address, so that a randomly occurring fault does not lead to an error message. This test signal repetition can also be repeated several times. If, after repeated transmission of the same test signal, there is no response signal, the central unit reports an error in the loudspeaker in question.

Claims (7)

1. Monitoring device for localizing a loudspeaker failure for a system with several loudspeakers ( 3 ), each of which is assigned an error detector ( 10 ) and a test circuit ( 11 ), the device reporting a central unit ( 1 ) reporting the failure of a loudspeaker ( 3 ) has a differently coded, one address-containing digital serial test signal to all test circuits ( 11 ), which each contain a comparator ( 27 ) for comparing the address of the test signal with a differently stored address in the individual test circuit and in accordance with the stored address generate a digital serial response signal that can be fed to the central unit, characterized in that each error detector ( 10 ) has a pilot signal detector ( 13 ) for detecting an interruption or a short circuit in the loudspeaker transmission path ( 2 ) to which a pilot signal is applied and contains a function detector ( 14 ) for testing the functionality of the loudspeaker coil and only then generates a release signal for emitting a response signal to be supplied to the test circuit ( 11 ) if the pilot signal detector and the function detector do not detect any errors. 2. Monitoring device according to claim 1, characterized in that the test circuit ( 11 ) has a serial-to-parallel converter which converts the address present in the test signal as a serial digital word into a parallel digital word to be supplied to the comparator ( 27 ). 3. Monitoring device according to claim 1 or 2, characterized in that the response signal generated by the test circuit ( 11 ) contains the address of this test circuit ( 11 ). 4. Monitoring device according to claim 3, characterized in that the test circuit ( 11 ) further comprises a parallel-to-serial converter which converts the address stored in a memory ( 28 ) as a parallel digital word into a serial digital word which contains the response signal Address forms. 5. Monitoring device according to one of the preceding claims, characterized in that the pilot signal detector ( 13 ) has a rectifier ( 17 ) for rectifying the speaker ( 3 ) voltage present, a filter ( 19 ) connected to the output of the rectifier ( 17 ) for contains the pilot signal and a comparator ( 20 ) which emits an error signal if the pilot signal remains off. 6. Monitoring device according to one of the preceding claims, characterized in that the function detector ( 14 ) contains a comparator ( 21 ) which emits an error signal when the voltage at the loudspeaker coil rises. 7. Monitoring device according to claim 5 or 6, characterized in that the error detector ( 10 ) has a logic circuit ( 22 ) which is connected to the outputs of the function detector ( 14 ) and the pilot signal detector ( 13 ) and which emits an enable signal when the function detector ( 14 ) and the pilot signal detector ( 13 ) provide no error signal.