RU213344U1 - Device for monitoring the technical condition and recording the operating time of communication equipment - Google Patents

Abstract

The utility model relates to means for automated control of the parameters of electrical circuits of communication equipment (TS) and can be used to automate the collection, processing and transmission of information in systems for remote automated monitoring of the technical condition and recording the operating time of the vehicle as part of automated communication systems and automated control systems (monitoring) of the technical condition of the vehicle. A device for monitoring the technical condition and recording the operating time of communication equipment, containing an information output unit, a signal receiving unit, a microcontroller, a conversion unit, an interface unit, a power supply unit, while the signal receiving unit is connected to the input of the conversion unit, the output of which is connected to the microcontroller, the input of which connected to the output of the power supply. The fundamental difference between the utility model and the prototype is that the device additionally contains a galvanic isolation unit, the input of which is connected to the output of the conversion unit, and the output is connected to the input of the microcontroller, a reset unit, the output of which is connected to the input of the microcontroller, a real-time clock unit connected by feedback with a microcontroller in order to link all the collected data to astronomical time for displaying them on a computer monitor, and the second input of the real-time clock unit is connected to the output of the power supply, the output of which is connected to the input of the galvanic isolation unit, and the information input and output unit connected by feedback with a microcontroller for the purpose of transferring and displaying the received control (monitoring) data to a computer and reprogramming the microcontroller with a computer. The technical result of the utility model is to increase the reliability of the device.

Description

The utility model relates to means for automated control of the parameters of electrical circuits of communication equipment (TS) and can be used to automate the collection, processing and transmission of information in systems for remote automated monitoring of the technical condition and recording the operating time of the vehicle as part of automated communication systems and automated control systems (monitoring) of the technical condition of the vehicle.

The current level of development, the complexity of building technology, systems and communication networks determines the increased requirements for their reliable operation and the quality of planning measures for technical support of communications. To implement the fulfillment of these requirements, communication technology monitoring systems with subsystems for monitoring the technical condition of communication technology (KTSTS) are being introduced into communication systems and networks. The improvement of the monitoring system should be aimed at increasing the efficiency of the KTSTS and is based on the automation of the processes of the KTSTS on a time scale close to real. One of the ways to increase the level of reliability of the operation of the vehicle is the high-quality planning and implementation of measures for technical support and timely maintenance, which are impossible without determining their timing and taking into account the operating time of the vehicle.

A device for automated control of the electrical parameters of electronic equipment is known, used to control the parameters according to the principle of "normal-not norm". (A.S. 1383306 USSR, MKI G05B 23/02), containing a block of stimulating signals, a switch, a block of meters, a control block, a block of reference signals, an interface block, a common bus, sensors, a control electronic computer (computer). The disadvantages of the known device for automated control of the parameters of electronic equipment is the need for a computer as a control structural element, as well as the complexity of the system and circuit design of the device itself.

A device for automated control of the parameters of communication equipment is known (Patent No. 174477 Russian Federation, IPC G05B 23/00 (2006.01)) containing a measuring unit, an information output unit, a switch, a mode control unit, a block of stimulating signals, a control unit that includes the functions of a control computer, moreover, the outputs of the block of stimulating signals are connected to the corresponding inputs of the switch, the outputs of the mode control block are connected to the inputs of the control block, the outputs of which are connected to the inputs of the block of stimulating signals, the outputs of the switch are connected to the tested circuits and to the inputs of the measuring block, the outputs of which are connected to the inputs of the control block, the outputs of which are connected to the control inputs of the switch and the information output unit. The disadvantages are the low accuracy of measuring operations, the inability to save the results of control and pair the device with a personal computer.

The closest to the utility model from the prior art and taken as a prototype is a device for automated control of the parameters of communication equipment (Patent No. 2729749 Russian Federation, IPC G05B 23/02 (2006.01), SPK G05B 23/02 (2020.02), Appl. 04.12.2019, published on 11.08.2020 Bull. No. 23).

The prototype contains a block of meters, an information output block, a switch, a mode control block, a block of stimulating signals, a control block that includes the functions of a control computer, an analyzer block, a comparison block and a synchronization block, moreover, the outputs of the block of stimulating signals are connected to the corresponding inputs of the switch, the block outputs control modes are connected to the inputs of the control unit, the outputs of which are connected to the inputs of the block of stimulating signals, the outputs of the switch are connected to the tested circuits and to the inputs of the measuring unit, the outputs of which are connected to the inputs of the control unit, the outputs of which are connected to the control inputs of the switch and the information output unit. The fundamental difference is that a reference voltage source, a memory unit, a conversion unit, an interface unit are additionally introduced, and the output of the reference voltage source is connected to the input of the control unit, the outputs of which are connected to the memory unit, the outputs of which are connected to the inputs of the interface unit, the outputs of which are connected to the inputs of the memory block, the outputs of the block of stimulating signals are connected to the conversion block, the output of which is connected to the input of the control block.

However, the main disadvantage of the prototype is the low level of reliability of the device, which, in the event of sudden voltage drops that occur in the measuring unit, can lead to malfunctions or errors in the control unit.

To eliminate this shortcoming, a new technical solution "Device for monitoring the technical condition and recording the operating time of communication equipment" is directed, the technical task of which is to increase the reliability of the device.

The implementation of the task allows to achieve the following technical result: improving the reliability of the device.

The specified technical result is achieved by the fact that the claimed device for monitoring the technical condition and recording the operating time of communication technology contains an information output unit, a signal receiving unit, a microcontroller, a conversion unit, an interface unit, a power supply unit, while the output of the signal receiving unit is connected to the input of the conversion unit, the output of which is connected to the microcontroller, the input of the microcontroller is connected to the output of the power supply.

The fundamental difference from the prototype is that the device additionally contains a galvanic isolation unit, the input of which is connected to the output of the conversion unit, and the output is connected to the input of the microcontroller, the reset unit, the output of which is connected to the input of the microcontroller, the real-time clock unit, connected by feedback to the microcontroller in order to bind all collected data to astronomical time for displaying them on a computer monitor, and the second input of the real-time clock unit is connected to the output of the power supply, the output of which is connected to the input of the galvanic isolation unit, and the information input and output unit connected by feedback to the microcontroller for the purpose of transferring and displaying the received control (monitoring) data to a computer and reprogramming the microcontroller with a computer.

A distinctive feature contained in the device, a galvanic isolation unit, allows you to protect the device from damage by electric current when registering electrical signals received for their processing.

The presence of a reset block in the device allows you to reset the firmware for reprogramming the microcontroller.

The presence of a real-time clock block in the device allows you to link all the collected data to astronomical time.

The presence in the device of an input and output information block, which includes the functions of an interface block and an information output block, additionally, an information input function appears, which allows reprogramming the microcontroller with a computer. The essence of the utility model is illustrated by the drawing:

Fig. 1. A device for monitoring the technical condition and recording the operating time of communication equipment. Functional diagram. The diagram shows:

1) microcontroller;

2) signal receiving unit;

3) conversion block;

4) block of galvanic isolation;

5) power supply;

6) real time clock block;

7) reset block;

8) block of input and output of information.

The microcontroller 1, made on the AVR chip, is designed to process digital information, manage the processes of this processing, due to the possibility of remote programming of the microcontroller using the developed computer program "Program for monitoring the technical condition of communication equipment", for which a certificate of state registration of a computer program has been received No. 2021614774, date of state registration in the Register of Computer Programs 03/30/2021). The choice of a specific microcontroller is due to the required amount of information processing, depending on the amount of controlled communication technology.

The signal receiving unit 2 is designed to receive signals from the built-in control system of communication technology about its technical condition.

Conversion unit 3 is designed to convert the operating voltage of the controlled signal into the voltage required for its registration on the device.

The galvanic isolation unit 4 is designed to protect the device from electric shock, register the electrical signals coming from the conversion unit 3 and transmit information signals about the technical condition of the communication technology to the microcontroller 1 for their processing.

The power supply unit 5 is designed to provide a constant highly stable voltage by converting the mains voltage up to 5 V, it supplies voltage to the galvanic isolation unit 4, the real-time clock unit 6 and the microcontroller 1.

The real-time clock block 6 is designed to record chronometric data (current time, date, day of the week, etc.), as well as to transmit information through the microcontroller 1 and the information input and output block 8 to the computer.

Reset block 7 RESET is designed to manually reset the firmware of the microcontroller 1.

The information input and output unit 8 is designed for device interaction with the computer, microcontroller 1 firmware, real-time clock block programming, information transfer via the USB-B(A) port to the computer, and, in addition, can serve as a backup power source for the device.

All structural elements of the device for monitoring the technical condition and recording the operating time of communication equipment are connected by electrical connections. The input of the signal receiving unit 2 receives a signal from the built-in control system of the tested communication technology, the output of the signal receiving unit 2 is connected to the input of the conversion unit 3, the output of which is connected to the input of the galvanic isolation unit 4, the output of which is connected to the input of the microcontroller 1, the first output of the power supply 5 is connected to the input of the galvanic isolation unit 4, the second output of the power supply 5 is connected to the input of the microcontroller, the third output of the power supply 5 is connected to the input of the real-time clock unit, the output of which is connected by feedback to the microcontroller 1, the output of the reset unit 7 is connected to the input of the microcontroller 1 , the output of the microcontroller 1 is connected to the input of the information input and output unit 8 and is connected by feedback to the microcontroller 1 in order to transmit and display the received control (monitoring) data on the computer and reprogram the microcontroller with the computer.

The device works as follows.

The input voltage 220 V/50 Hz is supplied to the power supply unit 5. The power supply unit 5 supplies voltage to the microcontroller 1, to the real-time clock unit 6 and to the galvanic isolation unit 4. When voltage is applied from the power supply unit 5, the microcontroller 1 starts working. From the built-in control system of communication technology, signals are received at the input of the signal receiving unit 2, which are then transmitted to the conversion unit 3, in which the voltages of the controlled signals are converted into the voltages necessary for their registration on the galvanic isolation unit 4, where the electrical signal is recorded in the form unlocking the photodiode element, through which a voltage of 5 V is supplied from the power supply 5, which is an information signal about the good condition of the communication technology, and then from the galvanic isolation unit 4 supplied to the microcontroller 1 for its processing. Upon receipt of information signals about the health of the state of communication technology to the microcontroller 1, the real-time clock unit 6 is turned on, which begins to keep records of chronometric data, namely the date and time of switching on, the total operating time of the communication technology, which are displayed visually on the computer monitor by transmitting the appropriate signals through the microcontroller 1 and the block of input and output of information 8. Using the block of input and output of information 8, the processed information is transferred, namely the results of control (monitoring) to the computer, and the programming of the microcontroller 1 and the real-time clock block 6 is carried out. In addition, the information input and output unit 8 additionally performs the function of a backup power source for the device due to power supply from the USB port of the computer. In the absence of signals from the built-in control system of communication technology about the technical condition of communication technology to the signal receiving unit 2 and, accordingly, the absence of the control voltage coming from the conversion unit 3 to the galvanic isolation unit 4, the power supply unit 5 will not send an information signal to the microcontroller 1, in which the non-working state of the communication technology is recorded, which is visually displayed on the computer monitor through the input and output unit of information 8 in the form of a message about the unavailability of the communication technology for operation. At the request of the operator, using the reset unit 7, it is possible to manually reset the firmware of the microcontroller 1 through the RESET input of the microcontroller 1, after which it is possible to reprogram it from the computer through the information input and output unit 8.

The technical result of the utility model is to create a new device for monitoring the technical condition and recording the operating time of communication equipment, which ensures an increase in the reliability of the device.

The claimed device for monitoring the technical condition and recording the operating time of communication technology is industrially applicable, since for its implementation widely used components and products of the radio engineering industry and computer technology are used.

Claims (1)

A device for monitoring the technical condition and recording the operating time of communication equipment, containing an information output unit, a signal receiving unit, a microcontroller, a conversion unit, an interface unit, a power supply unit, while the signal receiving unit is connected to the input of the conversion unit, the output of which is connected to the microcontroller, the input of which connected to the output of the power supply, characterized in that the device additionally contains a galvanic isolation unit, the input of which is connected to the output of the conversion unit, and the output is connected to the input of the microcontroller, a reset unit, the output of which is connected to the input of the microcontroller, a real-time clock unit connected by feedback with a microcontroller in order to bind all the collected data to astronomical time for displaying them on a computer monitor, and the second input of the real-time clock unit is connected to the output of the power supply, the output of which is connected to the input of the galvanic isolation unit, and the information input and output unit connected back and communication with the microcontroller in order to transfer and display the received control (monitoring) data on a computer and reprogram the microcontroller with a computer.

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