RU152097U1 - MULTI-SUBSCRIBER DIGITAL ELECTRIC ENERGY METER WITH REMOTE CONTROL - Google Patents

Abstract

1. A digital electric energy meter with data exchange functions between the meter and an automated system for commercial accounting of electricity and organization of payments for energy consumption, as well as protection against network congestion and unauthorized access to its elements and nodes, containing a microprocessor, network voltage sensor, memory block, programmable real-time clock, liquid crystal display, audible alarm and serial wired communication interface adapter RS-485, characterized in that you it is complete with the ability to simultaneously account for the energy consumption of the n-number of subscribers while providing advanced wireless communication with automated systems for commercial electricity metering through the built-in wireless communication interfaces in the form of: a GSM modem with an antenna and a radio channel with an antenna operating according to the ZigBeeÒ / IEEE 802.15.4 standard, the inputs / outputs of which are connected to the microprocessor; and a PLC modem operating via Data link or Free MODBUS protocol, the first input / output of which is connected to the microprocessor, and the second input / output through the matching device is connected to a data exchange network with an automated system of commercial electricity metering; and according to the number of subscribers served, it includes a set of built-in measuring units, each of which is connected to the counter microprocessor through the SPI adapter and is configured to operate with an individual remote control designed to control the counter during the initial connection of the counter and / or its separate measuring unit to the automated system Electricity metering

Description

The utility model relates to electronic measuring equipment, in particular to devices for multi-subscriber metering and control of electrical energy consumption in single-phase AC circuits, mainly in the residential sector.

Known digital electricity meter (RU No. 2298192, 2007), including a microprocessor and associated with it: power supply, power measurement unit, real-time clock powered by a galvanic cell, power consumption measurement unit containing a voltage sensor and a current sensor, outputs connected to the inputs of the multiplier-converter, the output of which is also connected to the microprocessor, and a display for visual reflection of information. A modem is installed between the power supply line and the microprocessor, which provides access to the microprocessor's memory for the external control device. Such a meter is intended for metering energy consumption by only one subscriber; moreover, it lacks the possibility of organizing electronic payments and the possibility of full integration into automated systems for commercial metering of electricity.

A one-subscriber electric energy meter is also known, which is configured to organize electronic payments (RU No. 130086, 2013) and contains a microcontroller and associated with it: conversion module, liquid crystal display, load control relay, electronic seal to prevent unauthorized access, non-volatile memory , Smart-card reader, communication interface, primary and secondary current sensors, primary and backup power supplies, load control relays and RS-485 communication interface. However, due to the lack of wireless communications, it reduced the ability to integrate into existing, various in type, automated systems of commercial electricity metering (ASKUE), and the contact exchange of data by means of a smart card reader reduces the reliability of the data being read and the reliability of the meter creates inconvenience in using it.

The closest analogue (prototype) of the utility model is a digital electric energy meter (RU No. 117013, 2012), which contains a microprocessor, a memory unit, a system for measuring power consumption in forward and reverse circuits, including current sensors in forward and reverse circuits, the voltage connected to the forward and reverse circuits of the mains, the outputs of which are connected to the inputs of, respectively, the power measurement unit in the forward circuit and the power measurement unit in the reverse circuit, the outputs of which are connected to the first programmable snip and a second programmable counter, connected to the microprocessor. The inputs of the power measuring unit in a direct circuit and the power measuring unit in a reverse circuit, as well as the input of the voltage control device connected to the microprocessor by the upper and lower permissible limits, the output of the network voltage sensor is connected. The meter is equipped with a threshold device for protecting the network from short circuit and overload, a liquid crystal display (LCD), a load control device, primary and backup power supplies, to which a programmable real-time clock is connected, unauthorized access sensors to the meter elements and nodes, a magnetically sensitive contactless device, responsive when exposed to the counter by a vandal external magnetic field.

It has an RS-485 serial communication interface equipped with an adapter used for exchanging data with the automated metering system, and a contact device for exchanging data between the meter and the automated metering system, made in the form of an iButton identifier equipped with an adapter and holder, designed to collect data from the meter when organizing electronic payments.

The disadvantages of the prototype include the lack of remote, contactless removal of accounting information from the counter when organizing electronic payments, because the collection of information by means of the iButton identifier due to bounce of contacts does not provide the necessary level of information reliability when exchanging with ASKUE. In addition, the presence of only one type of communication with the automated control system for automated communications management and the absence of means for wireless communication, such as a radio channel, PCL modem, and GSM modem, makes it difficult to integrate the meter into existing automatic control systems of various types, and the limited number of communication interfaces "counter - automatic control system" does not allow receiving high reliability data on the energy consumption of the subscriber.

A common drawback inherent in the listed analogues is that multi-subscriber metering and control of energy consumption with their use is possible only by increasing their number in terms of the number of subscribers (consumers) connected to the automated energy metering system, which makes such multi-subscriber metering costly and, therefore, inefficient.

The problem solved by the utility model is aimed at creating a single digital electric energy meter with advanced functionality and enhanced ease of use, providing efficient multi-subscriber metering and energy consumption control.

The technical result achieved by the proposed utility model is to implement the task by:

- reduction of hardware costs for servicing one subscriber associated with the use of the main components and units of the meter for metering energy consumption for all subscribers, and, as a result, the low cost of electricity metering in terms of one subscriber, ease of maintenance and installation of the meter on the spot;

- providing the possibility of using a radio channel, a PCL modem, a GSM modem and an RS-485 interface for exchanging information with an automated control system for automated communications management, which allows integrating the meter into existing automatic control systems, because allows you to select the appropriate type of specific ASKUE interface or communication interfaces "counter-ASKUE";

- regulation of energy consumption and independent disconnection of the consumer from the network for each subscriber unit (separately for each subscriber) in the event of payment arrears, network congestion and unauthorized access to meter nodes and units in various ways;

- improving the operating conditions of the meter during the organization of electronic payments and increasing the reliability of accounting information due to non-contact remote information retrieval through individual (subscriber) remote controls (RC).

The problem is solved in that a digital electric energy meter with data exchange functions between the meter and an automated system of commercial electricity metering and organization of payments for energy consumption, as well as protection against network congestion and from unauthorized access to its elements and nodes, containing a microprocessor, network voltage sensor , memory, programmable real-time clock, liquid crystal display, audible alarm and serial wired communication adapter Yusa RS-485, unlike analogs, is made with the possibility of simultaneous accounting of the energy consumption of the n-number of subscribers while providing advanced wireless communication with automated systems for the commercial accounting of electricity through its built-in wireless communication interfaces in the form of: a GSM modem with an antenna and working according to the ZigBee standard ® / IEEE 802.15.4 radio channels with an antenna, the inputs / outputs of which are connected to a microprocessor; and a PLC modem operating via Data link or Free MODBUS protocol, the first input / output of which is connected to the microprocessor, and the second input / output through the matching device is connected to a data exchange network with an automated system of commercial electricity metering; and according to the number of served subscribers, it includes a set of built-in measuring units, each of which is connected to the counter microprocessor through the SPI adapter and is configured to operate with an individual radio remote control designed to control the counter during the initial connection of the counter and / or its separate measuring unit to automated system for commercial accounting of electricity, programming of a real-time clock of the meter, freelance load shedding and its subsequent connection , File browsing and sharing specific subscriber data for use as a means of organizing power of electronic payments for a particular user and / or electronic receipt; and / or as an additional wireless communication interface with an automated system of commercial electricity metering.

Additional distinguishing features of the utility model are that each of the measuring units built into the meter includes a direct power circuit for measuring and converting power and an element for indicating its operation control and a reverse circuit for measuring and converting power, forward and reverse current sensors mains voltage circuits, outputs connected to the first inputs of the corresponding devices for measuring and converting power, a load control device with a status indication element load, a network voltage calibration device, the input of which is connected to the output of the network voltage sensor, and the output of the power measurement and conversion device in a direct circuit is the calibration output of the subscriber unit and connected to the input of the indication element and, together with the output of the reverse circuit power measurement and conversion device, microprocessor counter, the control input of which is also connected to this microprocessor.

The subscriber units built into the meter provide an extension of the meter’s functionality by conducting multi-subscriber metering of electric energy, which leads to a decrease in hardware costs for servicing one subscriber associated with the use of the main nodes and meter blocks for metering energy consumption for all subscribers, and, as a result, low electricity metering cost per user; ease of maintenance and installation of the meter in place.

At the same time, the composition of the communication interfaces built into the meter — in the form of a radio channel, GSM modem, PLC modem, and RS-485 — provides an extended range of integration of the meter in the automated control system for automated accounting and accounting information (practically in all existing and newly created automated automated control systems for electronic communications), using at least two communication interfaces, which improves the reliability of communication and high reliability of the data.

The exchange of data between each of the subscriber units, the meter and the automated control system for electronic communications by means of a radio key fob (RB) with advanced functionality, which serves not only to organize electronic payments for energy consumption, but also is used to perform a number of tasks related to meter setup and remote control, exchange information between the meter and ASKUE; helps to improve the operational characteristics of the meter, eliminates the likelihood of a negative effect of the human factor on the process of accounting for energy consumption and payments.

In addition, since during payments all current information that is available in the meter’s memory is copied to the RB’s memory, it can also be used as an additional “meter-ASKUE” communication interface in case of failures in those communication interfaces that are built into the meter, and / or those cases when

possibilities of contactless, remote reading of information from the counter and organization of electronic payments.

In the drawings: in FIG. 1 is a structural diagram of the proposed meter (an example with three subscriber units); in FIG. 2 - a general view of the remote control (example).

A multi-site electrical energy meter with remote control (Fig. 1) contains a microprocessor 1 and subscriber units 3 connected through it through adapters 2 of the SPI interface, for example, in the amount of three pieces, each of which includes a direct current measurement and conversion device 4 and a device 5 for measuring and converting power in a reverse circuit, a sensor 6 for current in a forward circuit and a sensor 7 for current in a reverse circuit, outputs connected to the first inputs of the respective devices for measuring and converting power 4 and 5, as well as a load control device 8 with an indication of the load state 9 (constructed using a solid state relay on HD8044ZD3 (www.sensor-moscow.ru/rele_tv.html), and a network voltage calibration device 10. The output of the device 4 is for measuring and converting direct power the circuit is a verification output 11 of the subscriber unit 3, connected to the input of the indication element 12 and, together with the output of the device 5 for measuring and converting the power of the reverse circuit, is connected to the microprocessor 1 through the adapter 2 of the SPI interface, the control input of which is also connected to microprocessor 1.

Devices 4 and 5 are implemented on STMicroelectronics STPM10 microcircuits, the first and second inputs of which are connected to the direct current sensor 6 and to the reverse current sensor 7, respectively, the third input to the network voltage calibration device 10 connected to the voltage sensor by the input 13 (current shunts E961, E962 were used as sensors 6 and 7, and a resistive voltage divider was used as device 10 and sensor 13 of the mains voltage).

Also associated with microprocessor 1:

- programmable real-time clock 14 connected through the isolation device 15 to the main power supply unit of the counter 16 and the backup power source 17 (galvanic cell), the input of which is connected to the charging device 18 (microprocessor 1 and clock 14 are implemented on the STM32F373 microcontroller from STMicroelectronics);

- PLC modem 19 connected via a matching device 20 to a network line (PLC modem is implemented on a ST7580 chip from ST Microelectronics), the input / output of the PLC modem is connected to microprocessor 1;

- GSM modem 21 with an antenna of GSM modem 22 (implemented on the SIMCOM SIM900R scheme);

- radio channel 23 with counter antenna 24 (implemented on a Texas Instruments CC2520 chip);

- magnetically sensitive non-contact device 25, (implemented on the MRSS29D magnetoresistive sensor www.eltech.spb.ru);

- unauthorized access sensors 26,

- liquid crystal indicator 27, (implemented on the WH1202A indicator (WH1602A) from Winstar or on the MELT indicator, www.melt.com.ru);

- serial interface adapter 28, the first input / output that is connected to microprocessor 1, and the second input / output - to the communication line 29 of the RS485 interface (serial interface adapter 28 - is implemented on microcircuits that are available for the RS-485 interface with 64 , 128 and 256 receivers in one network segment www.analog.com/RS485);

- a sound alarm device 30 and a memory unit 31.

The remote control (RC) 32, individual for each subscriber unit 3 included in the meter (a general view is shown in Fig. 2), contains a microcontroller 33 and associated multi-color LED indicators 34, a set of touch buttons 35, a radio channel 36 with an antenna 37 and equipped with a galvanic cell 38, the output of which is connected to all components of the remote control.

Remote control 32 with built-in radio channel 36 and microcontroller 33 can be implemented on a CC2530 chip from Texas Instruments.

The set of touch buttons on the remote control includes: button 39, which is used to select the real-time clock setting mode or the counter archive viewing mode, button 40 - increases the content value of the selected position, button 41 - decreases the content value of the selected position, button 42 - disconnects the load from the network, button 43 - connecting the load to the network, button 44 - reading data from the counter to the remote control, button 45 - writing data from the remote control to the counter, button 46 - writing data from the remote control to the automated control system, button 47 - reading data from the automatic control system to the remote control.

Two-color LED of the load state 48 - when the load is off - green, and when the load is connected - red.

Two-color LED 49 for remote control data exchange with a counter - blinks red during data exchange, and green when the exchange is completed correctly.

Two-color LED 50 for remote control data exchange with ASKUE - blinks red during data exchange, and green when the exchange is completed correctly.

The principle of operation of the counter:

The initialization of the meter is carried out by representatives of energy retail companies through the remote control 32 of the first subscriber connected to this meter. Programming the remote control 32 for initializing the counter, connecting and registering the first subscriber is done on the automatic control system, where the remote control 32 records the number of the counter and the number of the subscriber (apartment), while the remote control number 32 is automatically generated by the automatic control system and is recorded on the remote control 32. Each subscriber connected to this the remote subscriber electric energy meter receives a remote control 32 with its individual number, which is then used to organize payments as an electronic payment card and to control a subscriber unit 3 tchika (file browsing and current readings, tripping or load connection, etc.). The data exchange of the remote control 32 and ASKUE is performed using the buttons 46 and 47 of the remote control.

After installing the meter in place and connecting the subscriber or subscribers, the meter is in its original state and does not record electricity, i.e. device 8 disconnects the load from the electrical network, and the counter is in standby mode for the initial setting of the real-time clock, carried out using buttons 39, 40 and 41 of the remote control 32: buttons 39 - selects the clock setting mode and selects the position - the first time you press this button on the LCD 27 a blinking cursor is displayed in the first position on the left, where you need to set the day of the month. To do this, use the button 40 to set the value of the number in the selected position up or the button 42 to set the value of the number in the selected position down.

After setting the date and time, by pressing the button 39 for at least 5 seconds. the mode for setting the time and date is exited, and button 39 is subsequently used to enter the archive viewing mode, and buttons 40 and 41 in this mode will allow you to view the archive up and down, respectively. To transfer the meter to the electricity metering mode, it is necessary to write service information from the remote control 32 to the counter by pressing button 45 - the counter number, subscriber number and remote control number 32 and other necessary data are recorded in the meter, which depend on the method of organizing payments to the automated accounting system. In the process of writing data from the remote control 32 to the counter on the remote control, the red LED 46 starts flashing, and when the recording process is completed correctly, the LED 46 lights up in green for 2 seconds. Thus, the remote control 32 is linked to this counter, and in the counter to this subscriber. Further all procedures of the subscriber with the counter can only be performed using this remote control 32.

To connect the consumer to the network, press button 43 and hold it pressed for at least 5 seconds for security reasons. During the execution of this command, the LED 48 lights up in green, and the sound alarm device 30 generates a sound signal, after connecting the load, the LED 48 lights up in red. At the same time, the meter keeps track of the power consumption of the connected subscriber, and the indicator 12 starts flashing, which is a sign of the meter working in the energy metering mode. When connecting another subscriber to the meter and assigning an individual remote control 32 to it, you must also press button 39 for at least 5 seconds, and then press the button 45 to write in the remote control 32 the counter number, the subscriber number and the remote control number 32. The previously recorded number is compared the counter (during the initial initialization of the counter) and the number recorded from the remote control 32, and if these numbers coincide, the subscriber’s number and the remote control 32 are stored in the counter memory unit 31 (the counter number is stored in block 31 during the initial initialization). Upon the correct completion of writing data from the remote control 32 to the counter, the LED 48 lights up green, and then the subscriber's load is connected to the network by pressing button 43 - the LED 48 lights up red, display element 12 of the corresponding subscriber unit 3 starts flashing.

The signals from current sensors 6, 7 and 13 are fed through voltage calibration devices 10 to the inputs of devices 4 and 5, which convert power to a digital code, microprocessor 1 polls the subscriber units 3 - through the SPI adapter 2 reads data from the subscriber units 3 , saves them in the memory block 31. Moreover, the data are also read from devices 4 and 5. Microprocessor 1 compares the data received from devices 4 and 5, saves the greater value from them in the memory block 31. This method of accounting for electric nergii allows to protect against theft of electricity meter by reverse phase neutral and ground lines. Data is saved for all subscribers in separate areas of the memory block 31 of the counter. The current readings for each subscriber and the subscriber number on the LCD 27 are displayed automatically with an interval of 5 seconds, and when the button 39 is pressed on the remote control 32, the LCD displays 27 only the readings for a specific subscriber. View each data (current values, archive) or control subscriber unit 3 and / or counter (disconnect or connect the load, read data from the counter or write data to the counter) each consumer can only use an individual remote control 32.

Sensors 26 of unauthorized access (unauthorized access) monitor and issue an unauthorized signal when removing the covers of the meter and / or pads, and the magnetically sensitive contactless device 25 - in the presence of external magnetic influence on the meter. Based on these signals, the microprocessor 1 records in the memory unit 31 the time and date of the NRM, the counter reading and generates a load disconnect signal for the load control device 8 according to the corresponding subscriber unit 3, i.e. disconnects a specific consumer from the network, and also transmits information about the unauthorized access to the dispatch center of the automated accounting and control system for communication via the communication interface.

In this case, to reconnect the load to the network, you must:

- copy the contents of the memory unit 31 of the counter to the microcontroller 33 of the remote control. The information is read from the counter by means of the remote control 32 when the button 44 is pressed on the remote control 32. After the data is read on the remote control, the green LED 49 lights up, and the sound alarm device 30 generates an intermittent sound signal, which indicates the end of the process of reading information from the counter in microcontroller 33 remote control;

- transfer the remote control 32 to the payment center for electricity payments, where an automated system of commercial electricity metering (ASKUE) is installed, developed taking into account the functionality of the proposed meter and adapted to the information provided by the storage formats for servicing the proposed meter;

- using the remote control 32 to record information from the microcontroller 33 remote control in the automated control system by using the button 46 on the remote control 32. The subscriber data is automatically displayed on the display screen of the automatic control system and information on unauthorized access to the elements and nodes of the counter (date, time, counter readings) will be displayed in red ;

- the consumer to pay for energy consumption, taking into account penalties for unauthorized access, in accordance with the agreement for the supply of electricity. After that, the operator of the automated control system for automated accounting and control operations records in the microcontroller 33 of the remote control the payment code, the amount of paid electricity and the permission code for reconnecting the consumer to the network using button 47 on the remote control 32;

- the consumer writes data from the remote control 32 to the counter, using the button 45 on the remote control 32, after the data is written to the counter on the remote control 32, the green LED 49 lights up, and the sound alarm device 30 generates an intermittent sound signal, which indicates the end of the information recording process with remote control 32 to the counter. The microprocessor 1 checks the availability of the corresponding authorization codes and connects the load to the network, while comparing the amount of paid and current electricity. The balance of unpaid electricity is determined, this balance is stored in the memory unit 31 as the initial value for accounting for this subscriber and is displayed on the LCD 27.

The consumer can be automatically disconnected from the network in case of a short circuit in the load circuit, as well as when exceeding the set limit for energy consumption by this subscriber. The reverse connection in these cases is made by pressing the button 43 on the remote control 32 for 5 seconds.

The use of load control device 8 and remote control of the meter via a radio channel will allow individualizing the energy consumption mode for each subscriber, increasing the reliability of the exchange of accounting information with the meter and the automated metering and control system, organizing electronic payments, as well as improving the meter’s performance and eliminating the human factor influence on the process of metering energy consumption and payments .

Data exchange between the meter and ASKUE can be carried out simultaneously via two communication interfaces in various versions: via radio channel 23 + PLC modem 19 or radio channel 23 + RS-485 28 or PLC modem 19 + RS-485 28 or GSM modem 21 in combination with any other of the listed interfaces. This is dictated by the fact that all communication interfaces have their drawbacks, are subject to interference, malfunctions, etc., therefore, it is advisable to exchange data simultaneously on two communication interfaces and at the receiving point of the automated control system for electronic communications to compare data received on different communication interfaces, and when mismatch to re-poll the counter. This approach allows you to significantly expand the integration capabilities of the meter in the automated control system for automated accounting and accounting services, and will increase the reliability of communication lines and the reliability of credentials.

The presence of a data exchange device between the meter and ASKUE in the form of a remote control 32 with advanced (unlike the prototype) capabilities, which serves not only to organize electronic payments for energy consumption, but also is used to perform a number of tasks on setting up and remote control of information exchange in the system " counter - PDU - ASKUE ”, helps to improve the operational characteristics of the meter, eliminates the influence of the human factor on the process of accounting for energy consumption and payments.

The manufacture of the proposed meter does not require significant capital financial investments. Its production can be established on existing production facilities using universal equipment and widely known and generally available components. At the same time, there is a great demand for digital meters with the characteristics attainable during the implementation of the utility model in the current market for electricity metering and control devices.

Claims (2)

1. A digital electric energy meter with data exchange functions between the meter and an automated system for commercial accounting of electricity and organization of payments for energy consumption, as well as protection against network congestion and unauthorized access to its elements and nodes, containing a microprocessor, network voltage sensor, memory block, programmable real-time clock, liquid crystal display, audible alarm and serial wired communication interface adapter RS-485, characterized in that you it is complete with the ability to simultaneously account for the energy consumption of the n-number of subscribers while providing advanced wireless communication with automated systems for commercial electricity metering through the built-in wireless communication interfaces in the form of: a GSM modem with an antenna and a radio channel with an antenna operating according to the ZigBeeÒ / IEEE 802.15.4 standard, the inputs / outputs of which are connected to the microprocessor; and a PLC modem operating via Data link or Free MODBUS protocol, the first input / output of which is connected to the microprocessor, and the second input / output through the matching device is connected to a data exchange network with an automated system of commercial electricity metering; and according to the number of subscribers served, it includes a set of built-in measuring units, each of which is connected to the counter microprocessor through the SPI adapter and is configured to operate with an individual remote control designed to control the counter during the initial connection of the counter and / or its separate measuring unit to the automated system commercial metering of electricity, programming of the real-time clock of the meter, freelance shutdown of the load and its subsequent connection, p review of the archive and data exchange of a particular subscriber, for use as a means of organizing electronic payments for the energy consumption of a particular subscriber and / or electronic receipt; and / or as an additional wireless communication interface with an automated system of commercial electricity metering. 2. The counter according to claim 1, characterized in that each of the measuring units built into the counter includes a direct power circuit for measuring and converting power and an operation control indication element and a reverse circuit for measuring and converting power, direct current sensors and reverse circuits of the mains voltage, outputs connected to the first inputs of the corresponding devices for measuring and converting power, a load control device with an indication of the load status, a calibration device voltage of the network, the input of which is connected to the output of the voltage sensor of the network, and the output of the device for measuring and converting power in a direct circuit is the verification output of the subscriber unit and is connected to the input of the indication element and, together with the output of the device for measuring and converting power of the reverse circuit, is connected to the counter microprocessor whose input is also connected to this microprocessor.

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