RU99115781A - COMMUNICATION SYSTEM AND METHOD FOR CHECKING COMMUNICATION EQUIPMENT - Google Patents

Claims (19)

1. A communication system comprising telephone communication equipment (KV) comprising a plurality of telephones (T ₁ to T _n ), in particular mobile telephones, a plurality of electrical trunk lines, and at least one transmitting station (UEV) for transmitting signals in telephone communication equipment (KV), characterized in that it contains test equipment (TV) for testing telephone communication equipment (KV) under working load conditions, comprising a central signal processing device (ZV) having at least one programmable device about data processing (S), generating test commands for checking telephone communication equipment (KV), and a converter (WV) connected to the programmable data processing device (S) and designed to convert digital test signals generated by the programmable data processing device (S), according to test commands into operating signals, and at least one interruption device (UV) connected to the converter (WV) and intended, for systematic interruption, in accordance with the operating signals, separate electrical connecting lines or groups of electrical connecting lines for the time intervals specified by the working signals of the converter (WV), and due to systematic interruptions in the telephone communication equipment (KV), signal changes are made in the communication equipment, with the possibility of their signaling, when deviating from the associated changes in the reference signal.  2. The communication system according to claim 1, characterized in that the individual electrical connecting lines or groups of electrical connecting lines located inside at least one transmitting station (UEV) and / or between different transmitting stations (UEV) are configured to interrupts by interrupt device (UV).  3. The communication system according to claim 1 or 2, characterized in that the response signals received from the transmitting station (UEV) are converted into digital operational response signals by a converter (WV). 4. The communication system according to any one of paragraphs. 1 to 3, characterized in that the transducer (WV) is designed for the operational control of keypads and microphones of telephones (T _n ) by means of a programmable data processing device (S) by controlling additional test commands and for converting response signals received from loudspeakers and calling devices telephones (T _n ), into digital operational response signals and for transmitting them to a programmable data processing device (S) and recording them in it. 5. The communication system according to any one of paragraphs. 1 to 4, characterized in that the test apparatus (TV) also contains a connecting device through which a transducer (WV) is connected to each of the telephones (T ₁ - T _n ), and through which operating signals are transmitted from the transducer (WV) to the selected telephones (T _n ), and response signals are transmitted from telephones (T _n ) dialed by these signals, or from selected telephones (T _n ) to the converter (WV).  6. The communication system according to claim 5, characterized in that the connecting device comprises an adapter on the telephone connected to a keyboard, microphone, speaker and ringing device of the telephone, and a detachable connecting line provided between the adapter on the telephone and the converter.  7. Communication system according to any one of paragraphs. 1 - 6, characterized in that the transducer (WV) contains a storage device, and the data characterizing the telephones and / or transmitting stations are recorded in the configuration files of the transducer storage device (WV), thereby adapting the transducer (WV) to various phones and / or transmitting stations (UEV). 8. The communication system according to any one of paragraphs. 1 to 7, characterized in that the programmable data processing device (S) of the central signal processing device (ZV) is connected via a remote data transmission device (DFV) to a plurality of external programmable data processing devices (C ₁ -C _n ) and / or display devices data.  9. The communication system according to claim 8, characterized in that a local area network (LAN) is provided for remote data transmission.  10. The communication system according to claim 8, characterized in that the Internet is provided for remote data transmission. 11. The communication system according to any one of paragraphs. 1 to 10, characterized in that at least one interrupt device (UV) is located between the contact strips (KL ₁ ) of at least one mounting plate (SK) and the contact strips (KL ₂ ) of the mounting plate holder (ST) transmitting station (UEV).  12. The communication system according to claim 11, characterized in that the plurality of circuit boards are connected together in series, and each contains its own address, and the circuit boards are configured to be controlled via a single control line.  13. The communication system according to any one of paragraphs. 1 to 10, characterized in that at least one interrupt device (UV) is located on the corresponding front end of the circuit boards (SK) of the transmitting station (UEV) attached to the holder of the circuit boards (ST).  14. The communication system according to any one of paragraphs. 1 to 13, characterized in that the transmitting station (UEV) is a GSM transmitting station containing a mobile services switching center (MSC), a base switching center (BSC) and a base transceiver station (BTS). 15. A method of checking, under the conditions of a work load, telephone communication equipment that contains a plurality of telephones (T ₁ to T _n ), in particular mobile telephones, and a plurality of electrical trunk lines, and at least one transmitting station (UEV) for transmitting signals in telephone communication equipment (KV), characterized in that test instructions are generated and executed by a programmable data processing device (S) of the central signal processing device (ZV), for testing telephone communication equipment (KV), digital test signals are transmitted the signals generated according to the test commands to the converter (WV) and convert the digital test signals into operating signals for systematically interrupting at least one electric line from the plurality of electrical connecting lines, transmit operating signals from the converter (WV) to the interrupt device (UV ) and operatively control the interrupt device (UV) according to the working signals, for interrupting at least one electrical connecting line at time intervals specified by the working signals, comparing changes in the actual signal in the communication equipment made through systematic interruptions with changes in the associated reference signal, and signal deviations of changes in the actual signal from changes in the reference signal.  16. The method of checking telephone communication equipment according to claim 15, characterized in that the keyboards and microphones of the phones are operatively controlled by means of a transducer (WV) by applying additional test commands and receiving response signals from the loudspeakers and ringing devices of the phones, and converting the response signals into digital work signals, and transmit digital operational response signals to a programmable data processing device (S). 17. A method for checking telephone communication equipment according to claim 15 or 16, characterized in that a voice channel is established between each pair of telephones from a plurality of telephones (from T ₁ to T _n ) in a call involving two parties or in a conference call , involving three or more participants, on the basis of the first telephone, they carry out a repeated transmission with a given frequency through the voice channel of the test set of pulses of a tone signal, which clearly identifies the first telephone and controls receipt in the second telephone While on a call, the test set of tone pulses of the first telephone transmitted through the voice channel, the transmission of the test set of tone pulses between the first and second phones includes speech compression and speech expansion, and the test set of tone pulses is selected so that the identification of the first A telephone was possible when a test set of tone pulses was received in a second telephone using speech compression and speech expansion.  18. A method of checking a telephone communication device according to any one of paragraphs. 15 to 17, characterized in that transmit the working signals from the Converter (WV) to the phones selected according to the test commands through the connecting device, and transmit response signals from the called phones to the converter through the connecting device. 19. A method of checking a telephone communication device according to any one of paragraphs. 15 to 18, characterized in that the data is transmitted via a remote data transmission device (DFV) between the programmable data processing device (S) of the test apparatus (TV) and a plurality of external programmable data processing devices (C ₁ -C _n ) and / or display devices data.