SU1170629A1 - Centralized device for checking control devices - Google Patents

Abstract

1. A CENTRALIZED CONTROL DEVICE CONTROL DEVICE, containing a control unit, a display unit and a quality assessment unit, consisting of a counter of technical failures and a trigger, in order to increase the control efficiency by obtaining individual quantitative characteristics of the number of technical failures of control devices , an input distributor for the occupancy wires, an input distributor for the address wires, a code converter, a unit for creating a part of the address of the instrument are entered into it oors, data entry unit, memory block of thresholds for the number of technical failures, memory block for device zone boundaries, device detection unit for a zone, comparison unit with a threshold, counter for the number of faulty devices, automatic control equipment activation unit, request signal generation unit, and a block of operational memory and a counter for the number of thresholds are entered in the quality assessment unit, with the first, second and third outputs of the main memory unit being connected respectively to the first information the inputs of the number of threshold achievements, the number of technical failures and the trigger, whose control inputs are combined and connected to the first control output of the control unit, the output of the input distributor of the address wires is connected to the input of the code converter, the output of the input distributor of wires is connected to the input of the forming unit parts of the address and with the first information input of the control unit, the second control output of which is connected to the control inputs of the input distributor The first wires and the second outputs of the data input block are connected respectively to the input of the memory block of the device zone boundaries, the control input of which and the control input of the former part of the address of the devices are combined and connected to the third control control output, the fourth, fifth, sched, seventh and (L eighth control outputs of which are connected respectively to the control inputs of the data input unit, memory block threshold values the number of technical failures, the memory block in the quality assessment unit, the comparison unit with the threshold, the counter of the number of faulty devices, and the control inputs of the automatic control equipment enablement unit are connected to the ninth control output of the control unit, the information outputs of the code converter, the unit for forming the part of the instrument address, the storage unit of the threshold values of the number of technical failures, the storage unit for the boundaries of the instrument zones, the counter for the number of faulty instruments, the first information outputs of the counter of the number of achievements of the threshold and the counter of the number of technical failures are combined and connected to the input of the display unit, the address outputs of the code converter and the driver of the device address part are combined and connected to the address inputs of the main memory unit in the quality assessment unit, the second output of the memory block of the zone boundaries devices connected to another

Description

the input of the unit for determining whether the device belongs to the zone, the second output of the memory block of the threshold values of the number of technical failures through the comparison block with the threshold is connected to the information input of the counter of the number of faulty devices, the second output of the comparison block with the threshold is connected to the control input of the automatic control equipment enable switch, informational the inputs of the input distributor of wires of the occupancy, the block, the activation of the automatic control equipment, the block of the formation of the request signal are combined in They are the first input, and the information inputs of the address distributor of the address wires are the second input of the centralized control device for control devices, the output of the automatic control equipment switch-on unit and the output of the query signal conditioning unit are the outputs of the communication with the automatic control equipment.

2. The device according to claim 1, characterized in that the signal matching unit and the unit connected to the ninth control output of the control unit are inserted into the device

transmissions of alarms whose inputs are connected to the data bus of the main memory unit in the quality assessment unit, and the outputs are combined and are the output of communication with the technical operation center.

3. The device according to paragraphs. 1 or 2, characterized in that the control unit comprises an initiation signal counter, an initiation signal demultiplexer, an initiation signal multiplexer, a clock generator, a frequency divider, a first trigger, a control counter, a control demultiplexer, a second trigger, an operation control unit, a counter control unit and the trigger of the quality assessment unit, while the output of the counter of the initiating signals is connected to the address inputs of the demultiplexer of the initiating signals and multiplexers of the initiating signals, the output is via the frequency divider is connected to the counting inputs of the counter of initiating signals and the control counter, the output of which is connected to the address input of the control demultiplexer, the first output of which is connected to the first input of the control unit of the counters and the trigger of the quality assessment unit and the input of the mode control unit, the first output of which connected to the second input of the control unit of the counters and the trigger of the quality assessment unit; the output of the first trigger is connected to the control input of the control counter, W Control output of the demultiplexer through the second trigger is connected to the control input of the control counter, and the multiplexer input of the initiating signals and the initial input of the control counter are the first and second information inputs of the control unit, the output of the control unit of the counters and the trigger of the quality assessment unit are the first and eighth the control outputs of the control unit, the third, fifth, ninth and thc, the seventh outputs of which are connected respectively to the second control output the control unit of the operation modes and with the first output of the control demultiplexer, and the outputs of the demultiplexer of the initiating signals, the multiplexer and the generating signals are respectively the second and fourth control outputs of the control unit.

one

The invention relates to communication technology and can be used in automatic telephone exchanges (ATS), mainly coordinate systems, such as industrial ATS coordinates (ATSC) and ATS improvement (ATSK-U).

The purpose of the invention is to increase the efficiency of monitoring by obtaining individual quantitative characteristics of the number of technical failures of control devices.

FIG. Figure 1 shows the structural electrical circuit of the device, which has the ability to turn on automatic control equipment; in fig. 2 shows a device different from that of FIG. 1 the introduction of units ensuring its communication with the technical operation center (CET); in fig. 3 is a structural electrical circuit of the device control unit.

The centralized control device for controlling instrumentation contains a block 1

control, input distributor 2 address wires, input distributor 3 wires to occupy, converter 4 codes, shaper 5 parts of the address of devices, block 6 data entry, block 7 of memory of boundaries of instruments, block 8 of memory of threshold knowledge, block 9 of quality assessment, operative memory unit 10, counter 11 of the number of thresholds reached, counter 12 of the number of technical failures, trigger 13, block 14 for determining the belonging of a device to a zone, block 15 compared with a threshold, counter 16 for the number of faulty devices, block 17 for switching on the automatic equipment eskogo control (UAC), the unit 18 forming request, the display unit 19 (FIG. 1), the transfer unit 20 alarms, signal matching unit 21 (FIG. 2). Unit 1 contains a trigger 22 for initiating signals, a demultiplexer 23 for initiating signals, a multiplexer 24 for initiating signals, a clock generator 25, a frequency divider 26, a first trigger 27, a control counter 28, a demultiplexer 29 for controlling, a second trigger 30, a mode control unit 31, a block 32 control of the counters and the trigger of the quality assessment unit (Fig. 3). The centralized control device for control devices operates as follows. The device is connected to the address wires of control devices formed in the PBX equipment. These address wires (eight in each control device, and in the hundredth group of control devices, these eight wires are paralleled) are already in the PBX equipment and are designed so that in case of technical failure, the control device involved in this failure to pass on them your address in the code 1-2-4-7. The device can serve several hundred devices, for example 400. Thus, 8x4 32 address wires are required to transmit the addresses of digits of tens and units of four hundredth groups. From the instruments of one hundredth group, one wire of occupancy is also removed, thus, when servicing 400 devices, four wires of occupancy are used. If a technical fault occurs in any of the 400 control devices on the corresponding unit number of the hundredth group of the instrument, a device occupancy signal appears, and on the corresponding eight address wires, the code 1-2-4-7 digits of tens and address units are received. maintenance of the device. The input distributor 3 determines the number of the incoming busy signal and transmits to block 1 a signal about this number. Unit 1, in turn, generates an appropriate initiating signal, necessary for processing information about the received device address of this hundredth group, and also transmits information to shaper 5 to form in the binary code a number of hundreds of this device address. Block 1 acts by the generated initiating signal on the input distributor 2. The latter selects eight wires from the 32 address wires supplied to the device, which are given information about the digits of tens and units of the device address code 1-2-4-7 and outputs it to the converter 4. The latter provides the conversion of a 1-2-4-7 code into a binary code necessary to form a cell address in block 10 assigned to this device. The address outputs of the converter 4 and the former 5 are combined to form an address bus. Information on the numbers of hundreds, tens and units of the device address in binary code is thus delivered to the address inputs of block 10. The cells of unit 10 are assigned to control devices of the PBX, the converted addresses of which are the addresses of the corresponding cells. Each cell stores information on the number of technical failures (for the monitoring period) and on the number of achievements of the threshold value for the number of technical failures (for several, for example, 2-3 control periods) referring to the control device. The outputs of block 10 are connected to centralized counters 11 and 12 and trigger 13, the counter size corresponds to the cell width, and the trigger 13 senses the state of the additional non-serviceable bit provided in the cells of block 10. Preferably, the counter size is equal to the number of bits in cells of block 10, used for storing information processed by the corresponding counter. The output of the data of the meters 11 and 12 and the output of the trigger 13 are combined and form a data bus connected to the information input of the block 10. When a number arrives on the bus that addresses the control device under the influence of block I, information is read (about previous non passes) stored in the cell of unit 10 assigned to this device. The information is read into counters 11 and 12 and trigger 13, then the unit is added to counter 12 and the trigger 13 is set into a working state, which indicates the appearance Failure of a slit in this technical councils yuschem device. After that, in the corresponding cell of block 10, under the influence of block 1, new information is recorded from the data bus. To implement the threshold principle of control, all control devices of ATS, depending on the intensity of the call flow, are divided into zones of the same type.

with a threshold for the number of technical omissions defined for each zone. The numerical value of the boundaries of the instrument zones and the threshold values are entered into blocks 7 and 8, respectively, using block 6, the latter, under the influence of block 1, providing the ability to quickly change the boundaries of the zones and threshold values for any zone of the instruments. Block 6 may, for example, be two counters — a zone counter and a threshold counter, with a keyboard. Both counters are controlled by the operator. At startup, the zone counter counts the zones. The counting of zones upon reaching the required level is terminated by the operator. Using the keyboard, the device number is set, which defines the upper limit of the zone. The threshold value for a zone is selected using a threshold counter, which is controlled in the same way as a zone counter. The information from the threshold counter and the keyboard is rewritten into block 7 and block 8, respectively.

The device uses the threshold principle of control, in which for any given period of control a threshold value of the number of technical failures corresponding to a specific zone of devices can be set.

Under the control of block 1, from block 7, information on the values of the zone boundaries is sequentially read, starting with the first zone, and fed to block 14, in which these values are compared with the number received from the address bus to another input, taken by the control device. . If the address of the device is expressed by a number less than or equal to the value of any zone boundary, then the device belongs to this zone, and block 14 generates and transmits to block 1 a special signal indicating that the zone of the device belongs. The search for the device zone is stopped and the processing of the information stored in the cell of the block 10 assigned to this device begins. Under the control of blocks 6 and 1, block 8 reads information about the threshold value assigned to the found zone. This information is fed to the input of block 15, to the other input of which information is received from the data about the new value of the number of technical defects. These values are compared in block 15 and, if the number of technical failures of the serviced device has reached the threshold value, this device is considered faulty and from block 15 under the influence of block 1, the counter 16 is turned on.

In addition, the fact that the number of technical failures of the device has reached the threshold value is indicated by the operation of the counter 11. During one monitoring period for each serviced

the period of the control device, the counter 11, can be triggered only once. During the subsequent monitoring periods, when the number of technical failures of the device re-reaches the threshold value, each time the counter 11 is triggered, marking the number of monitoring periods in which the threshold value set for this device is reached or exceeded.

From the converter 4 and the imaging unit 5, through the corresponding outputs, information about the numbers of hundreds, tens and units of the device address with technical non-passage enters block 19, where it is displayed on

5 digital indicators. In addition, the digital indicators of block 19 can display information about the value of the boundary of the zone of the device belonging, removed from the output of block 7, information about the threshold value of this zone, removed from the output of block 8, information about the number of achievements of the threshold, removed from the output of counter 11, information on the number of technical failures, removed from the output of counter 12, information on the number of uncorrected devices, removed from the output of counter 16.

When the address of the number of the serviced device arrives on the bus with technical failure under the control of unit 1, the information stored in the corresponding cell of unit 10 is read,

0 to the counters 11 and 12 and the trigger 13, which goes into operation when the corresponding control device is first accessed by the device. The state of the flip-flop 13 is rewritten into the aforementioned additional bit of the non-availability of the corresponding cell of the block 10.

In order to determine non-operating devices, the state of a bit is non-occupied: the bridges of the corresponding cells of block 10 are analyzed after a predetermined session has elapsed.

monitoring non-operating devices. A control session of non-occupied devices may include several periods of control of devices with technical failure. If during the monitoring session of the non-operating devices, the non-usability bits of the corresponding cells of block 10 did not receive a single value, information on the corresponding non-occupied devices is displayed on the digital indicators of block 19.

0When working together with equipment

in the initial state, with the help of block 18, the group control signals of the AAC request, in the presence of which the control devices have the right to occupy the AAC, form the automatic control device (ACC).

5 When the VAR is occupied, the VAK patterns are printed on roll paper using an electrically controlled mashchinki, which are equipped with the VAR. The UAK codograms reveal the nature of the technical failure of the device contacting the device, and facilitate the work of operational personnel in detecting damages in the PBX equipment.

If several control devices are simultaneously addressed to the AAC, distortions of the codogram may occur due to their overlap. In order to practically exclude the probability of this occurrence, which takes place in the relay-executed UDC, a query generation unit 18 is introduced into the device.

When a device occupy signal arrives at its input occupancy wires, unit 18 cuts off the corresponding group wire of the AAC request. This makes it possible to reliably avoid occupying the AAC at the same time by several control devices and distorting their codograms.

In order to simplify the procedure for operating personnel with UAK roll paper, a block 17 is entered to reduce the total number of UAK codegrams and print the device waveforms with a greater number of technical failures, which receives a signal from block 15 to turn on the UAK if the number of technical failures of the device being serviced is more than a predetermined the selected value (this value depends on the specific operating conditions and can be either equal to the aforementioned threshold value or be part of it, for example half). According to the signal from block 1, block 17 sends a signal to the UAK occupancy wire, and the UAK electromine imprints a codogram of technical failure of this instrument. Thus, codograms of devices are not printed.

with a small number of technical failures that are random in nature, it is easier for service personnel to analyze and systematize a limited number of codograms.

FIG. 2 shows a block diagram of a device that can be used for operation in a centralized operation system with the possibility of transmitting accumulated information to CTE. For this purpose, a signal matching unit 21 is entered into the device, which receives information on the number of thresholds reached and on the number of technical failures of control devices from the data and, under the control of unit 1, ensures the sequential transmission of this information over the communication channel to the CET.

In addition, an alarm transmission unit 20 in the CTP, associated with data length, is additionally introduced into the device. In the known operational control device, emergency and pre-emergency signals are transmitted to the CET only at the end of the monitoring period, and not as an emergency situation arises in the PBX equipment. In the proposed device, if counter 12 overflows or when counter 11 reaches a predetermined number of monitoring periods in which a certain device reached or exceeded the threshold number of technical failures, an alarm signal is generated and immediately transmitted to the CET. Thus, in the device in accordance with the invention, prompt transmission of signals in the CTE is ensured in the event of an emergency situation in the PBX equipment.

Claims (3)

1. A CENTRALIZED CONTROL DEVICE CONTROL DEVICE, comprising a control unit, an indication unit and a quality assessment unit, consisting of a counter of the number of technical failures and a trigger, characterized in that, in order to increase the control efficiency by obtaining individual quantitative characteristics of the number of technical failures of the control devices, the input distributor of occupation wires, the input distributor of address wires, the code converter, the unit for forming a part of the device address, are entered ok data entry, a memory block of threshold values of the number of technical failures, a memory block of the boundaries of the zones of devices, a unit for determining the belonging of a device to a zone, a unit for comparing with a threshold, a counter for the number of faulty devices, a unit for turning on automatic control equipment, a block for generating request signals, and an evaluation unit of quality, a RAM block and a counter of the number of threshold achievements were introduced, while the first, second and third outputs of the RAM block are connected respectively to the first information inputs of the counter the number of threshold attainments, the number of technical failures and the trigger, the control inputs of which are combined and connected to the first control output of the control unit, the output of the input distributor of address wires is connected to the input of the code converter, the output of the input distributor of occupation wires is connected to the input of the unit for forming part of the address and with the first information input of the control unit, the second control output of which is connected to the control inputs of the input distributor of the address wires of the instrument in, the input distributor of the occupation wires and the code converter, the first and second outputs of the data input unit are connected respectively to the input of the unit of memory of the boundaries of the instrument zones, the control input of which and the control input of the driver unit of the part of the device address are combined and connected to the third control output of the control unit § , the fourth, fifth, sixth, seventh and eighth control outputs of which are connected respectively to the control inputs of the data input unit, the memory unit of the threshold values of the number of technical passages, the RAM block in the quality assessment block, the threshold comparison block, the number of malfunctioning devices counter, and the control inputs of the automatic control equipment switching unit are connected to the ninth control output of the control unit, information outputs of the code converter, unit for generating a part of the device address, memory block threshold values of the number of technical failures, the memory block of the boundaries of the zones of the devices, the counter of the number of faulty devices, the first information outputs of the number counter to the threshold and counter number of technical failures are combined and connected to the input of the display unit, the address outputs of the code converter and the driver of the part of the device address are combined and connected to the address inputs of the RAM unit in the quality assessment unit, the second output of the unit of the zone boundaries of the devices is connected to another SU. „, 1170629 by the input of the unit for determining the device’s affiliation to the zone, the second output of the memory block of the threshold values of the number of technical failures through the comparison unit with the threshold is connected to the information input of the counter of the number of failed devices, the second output of the comparison unit with the threshold is connected to the control input of the automatic equipment switching unit control, information inputs of the input distributor of the occupation wires, unit, switching on of automatic control equipment, unit for generating a signal of request us and are the first input and the data inputs of the input distributor wires are addressable second input of the centralized control device control devices, the output switching unit of the automatic control equipment and the output formation unit outputs the request signal is an automatic control equipment. 2. The device according to π. 1, characterized in that the device includes a signal matching unit and an alarm transmission unit connected to the ninth control output of the control unit, the inputs of which are connected to the data bus of the random access memory in the quality assessment unit, and the outputs are combined and are the communication output with the technical operation center . 3. The device according to paragraphs. 1 or 2, characterized in that the control unit comprises an initiating signal counter, an initiating signal demultiplexer, an initiating signal multiplexer, a clock generator, a frequency divider, a first trigger, a control counter, a control demultiplexer, a second trigger, an operating mode control unit, a counter control unit and a trigger of the quality assessment unit, wherein the output of the initiating signal counter is connected to the address inputs of the initiating signal demultiplexer and initiating signal multiplexers, clock output of the generator through a frequency divider is connected to the counting inputs of the counter of initiating signals and a control counter, the output of which is connected to the address input of the control demultiplexer, the first output of which is connected to the first input of the counter control unit and the trigger of the quality assessment unit and the input of the operating mode control unit, the first output of which connected to the second input of the counter control unit and the trigger of the quality assessment unit, the output of the first trigger is connected to the control input of the control counter, the second you One of the control demultiplexer is connected through the second trigger to the control input of the control counter, and the input of the initiating signal multiplexer and the initial input of the control counter are respectively the first and second information inputs of the control unit, the output of the control unit of counters and the trigger of the quality assessment unit is the first and eighth control outputs of the control unit , the third, fifth, ninth and sixth, seventh control outputs of which are connected respectively to the second control output of the control unit detecting operating modes and a first control output of the demultiplexer, the demultiplexer outputs and initiating signals, the multiplexer is initiated signals are respectively the second and fourth control outputs of the control unit.