RU65655U1 - MULTIFUNCTIONAL DEVICE FOR CONTROL OF INDICATORS OF QUALITY OF ELECTRIC POWER OF THE ELECTRIC NETWORK - Google Patents

Abstract

The proposed utility model of a power quality indicator (PQC) instrument for measuring, calculating, storing and possibly transmitting on-line current data, including those determined by GOST 13109-97, low-voltage and high-voltage single-phase and three-phase networks. The device can be used for energy inspection of enterprises, for monitoring systems and in other cases related to the analysis of the quality of power supply. The device is based on an industrial computer with a processor of class Pentium 111 or higher. This computer additionally hosts multichannel ADC boards and converts input voltage and current signals to the ADC level. In addition to the input connectors, LEDs on the device indicate the presence of voltage and the phase sequence of the measured network. The available input connectors allow voltage input for measuring several lines simultaneously by one PCE device. It is possible to connect an external computer to the device. The device can operate as part of a local measuring network. In offline mode, it is possible to memorize all the information during the continuous operation of the device for more than two years.

Description

Description of utility model.

A multifunctional programmable measuring instrument for monitoring the quality of electric power (PCE) of the electric network is intended for measuring, calculating, storing and possible transmitting on-line current data of low-voltage (220 / 380V) directly and high-voltage (3-110 kV and higher) through measuring transformers single-phase and three-phase three-wire (without a neutral wire) or four-wire (with a neutral wire) networks. These data include current values of currents and voltages, active and reactive powers, frequency, powers and phase shifts of voltages and currents in harmonics, as well as PCEs defined by GOST 13109-97: various indicators of asymmetry and non-sinusoidality of voltages and currents, voltage dips, etc. .

The scope of the device is electric power. The device can be used in energy inspection of enterprises of producers and consumers of electricity, in technological control of PCE, in the analysis of flows and intersystem power flows in

energy systems, for integrated monitoring and control systems for electric networks and in other cases related to measurements in electric networks and analysis of electric power stations, including commercial relations between suppliers and consumers of electricity.

Existing PCE devices do not fully satisfy the often conflicting requirements of a large volume of measurements, calculations and storage of results, simple and reliable data transfer, the possibility of combining similar devices into local communication networks, processing results on-line, small size and lightness, reliability, small cost, etc.

Progress in the development of such devices is determined by the continuous improvement of microprocessor and computer technology, as well as software. Appeared for the first time in the early 90s of the 20th century, SCE devices calculated only a relatively small number of indicators related only to voltage measurements [1, 2]. Such a device is, in fact, a microprocessor system, the basis of which is a high-speed signal processor [2], designed to calculate and process data from an analog-to-digital converter (ADC) in real time. The use of a microcontroller made it possible to control the output devices of the device: a liquid crystal display, parallel (LPT) and serial (RS-232) data transmission channels, non-volatile

device memory. An additional flash memory can be connected via the LPT port and printout of measurement protocols.

Later developments of devices sharply increased the amount of processed data due to indicators characterizing currents and power, which is associated with measurements of not only voltages, but also currents [3].

The disadvantages of programmable devices with a signal processor are limited communication capabilities, insufficient external memory to store the results (maximum continuous operation time with saving all data for 1-2 weeks), the inability to analyze several lines at the same time, etc.

Some of the disadvantages are eliminated by the implementation of the device on the basis of a personal computer [4], but, in turn, in this case, new ones are added: the cost, weight increase sharply, problems arise with the installation and operation of the device, etc.

These shortcomings are eliminated if the programmable PKE device is executed on the basis of a small-sized cheap industrial computer, which in principle does not have a display and has great computing and communication capabilities. Two or more four-channel input connectors for voltages and currents, control buttons and LEDs for indicating the operation of the device, LEDs for indicating the phase sequence of the measured line are installed on the device’s case, and multi-channel cards are built into the case

converting the input signals of the ADC and converting the level of the input signals.

In this case, appropriate software is required.

The proposed multifunctional instrument for measuring the quality of electricity in an electric network, designed to measure, calculate, store and possibly transmit on-line current data of low and high-voltage single-phase and three-phase networks, uses an industrial computer containing a processor of the Pentium III or higher class, random access memory, hard a disk for data storage, a network card (Ethernet), at least one USB port, one RS-232 serial port and one RS-482 or RS-485 serial port, a power supply, and to this computer A multichannel ADC board that converts the analog signal to digital form, and a board for channel-by-channel conversion of input signals to the ADC level, reducing the input voltage and currents of the device to the input values of the ADC, and at least two connectors for voltage and current inputs are installed on the device , LEDs to indicate the presence of voltage and the phase sequence of the measured line, one or more control buttons and LEDs to indicate the operation of the device, and at the same time to calculate the quality indicators Islands with related software.

In this device, each of the channel-by-channel converters of the board for converting the input signals to the ADC level is, for example, a resistor voltage divider.

If three additional input connectors are installed on the device’s case, two are used for direct input of three phase or interphase voltages of 220/380 V and / or transformer input (through voltage measuring transformers) of three phase or interphase voltages of a 3-110 kV network, and the third one for signals input from external sensors (for example, from measuring current transformers), - linear currents and neutral current.

In the described device, it is possible to simultaneously connect the connectors for voltage inputs to various lines, for example to different transformers, and at the same time, their indicators can be simultaneously calculated.

For each of the connectors for voltage inputs, a group of three LEDs is installed to indicate the presence of voltage and the phase sequence of the line, evenly lit during normal connection and blinking if the phases are reversed, and if there is no phase, the corresponding LED does not light.

It is possible to connect an external computer, such as a laptop, to send device data on-line to it.

This device using a network card can work as part of a local network of several similar devices, providing the creation of a measuring system for the quality of electric energy.

The device under consideration provides for reading information on flash drives using the USB port in automatic mode.

The operation of the device begins after connecting the power and voltage and current sensors to the measured line. Input analog values are continuously fed to the input signal converters, and from the latter to the corresponding ADC channels. From the output of the latter, digital signals are sent to the processor, which performs the necessary calculations and stores the results on the hard disk.

When USB flash drives are connected to USB ports, PCEs accumulated on the hard disk are downloaded to them in a predetermined way for a certain period, for example, automatically by default for the last week of measurements.

When working with an external computer (such as a laptop), the data from the device is sent there via the mentioned ports via plug-in standard cables, and the PCE in on-line mode can be displayed on a computer screen for analysis and visualization.

When the device is operating with LEDs, there is a constant indication of the phase sequence of the measuring network.

The proposed device is implemented as an analyzer of power quality indicators PPKE-3-50 [7].

Typical input signals for this device are:

- voltages (phase / interphase) with the current rated voltage Unom = 220 / 380V in the range (0.8-1.2) Unom;

- secondary voltages (phase / interphase) from measuring transformers for networks of 3-110 kV with an effective nominal voltage Un = 57.7 / 100V in the range (0.8-1.2) Un;

- signals from non-contact current sensors of the “current clamp” type with a rated current In = 1000A in the range (0.01-1.2) In;

- signals from measuring current transformers or other sources with an effective value of Inom = 1A or 5A in the range (0.01-1.2) Inom supplied to the input terminals of the device through current clamps.

The device meets the requirements of technical specifications TU 4222-002-18791019-05: ambient temperature 0 - +50 degrees. C, relative humidity 30-95%. With a mains frequency of 50/60 Hz and a supply voltage of 100V to 240V, the power consumption does not exceed 300 watts. The mass of the device is not more than 4 kg.

The device is based on an IPC-644 industrial computer [5], which contains a Pentium III class processor, random access memory (RAM), hard disk (HDD), network interface card (Ethernet), a timer, two USB ports and one RS-232 serial port (for cable up to 2 m) and RS-482 or RS-485 (for cable up to 1, 2 km), internal data bus (cross-board), power supply. Added to it are the built-in twelve-digit sixteen-channel ADC board LA-2m5RSI [6] and the channel-by-channel board

converting input signals to the ADC level. Connectors for voltage and current inputs, LEDs for indicating the presence of voltage and the order of alternating phases of the network, a control button and LEDs for indicating the operation of the device are additionally placed on the device body.

Each of the channel-to-channel input signal converters for the ADC uses a resistor voltage divider, allowing you to lower the level of the input AC voltage from 450V to 10V.

There are three connectors on the instrument case: two for two groups of three phase (interphase) voltages 220 / 380V (direct input) and 57.7 / 100V (transformer input) and one for a group of four inputs for three linear currents and currents neutral from sensors.

The presence of two groups of voltage inputs makes it possible to simultaneously measure and calculate indicators for two different lines with one device, for example, two transformers at one substation.

The device has a function of indicating the presence of voltage and the phase sequence for each of the supplied voltages using groups of LEDs installed on the housing.

A hard disk with a capacity of 80 GB or more is used as non-volatile memory for storing the data array, which is sufficient for continuous operation of the device for more than two years.

To calculate the quality indicators using software running Windows XP.

The device can work autonomously in the mode of accumulating data on the hard disk or in conjunction with an external computer or laptop that controls the device and controls its operation through the exchange interfaces. The device is connected to a computer using a standard RS-232 or RS-485 cable through the corresponding connectors or a standard Ethernet cable.

The joint work of the device with an external computer expands the capabilities of the device. Using software on a computer screen, you can observe on-line graphs of changes in all measured parameters over a specified measurement interval, store them in a database, obtain statistics and distribution curves, generate measurement results protocols, compare them with standard values, display them on print results.

The device is equipped with a network card and can work as part of a local network.

The device’s USB ports make it possible to read information on compact flash drives in automatic mode when a disk is connected to the device.

Bibliography

1. Ptitsyn OV, Kuznetsov I.Yu. Device for monitoring the quality of electricity, patent RU 2024877 C1, publ. in BI No. 23, 1994.

2. Electricity quality indicators. Devices and software controls. M., ed. MGOU, 1996.

3. Resource UF2. Manual. ET.422252.007RE. Penza, NPP Energotechnika, 2006.

4. IWK-8-500. Operation manual, Omsk, "ENETECH", 2003.

5. IPC-644 User's Manual. On the stove in Taiwan, May 1999.

6. LA-2m5RSI. Universal A / D conversion board for IBM PC / AT to PCI bus. User's manual. M., ZAO Rudnev-Shilyaev, 2001.

7. The analyzer of the parameters of the electric network PPKE-3-50. Manual. M., LLC NPF Solis-S, 2006. Also www.ppke.ru.

Claims (7)

1. A multifunctional device for monitoring the quality indicators of electric power in an electric network, designed to measure, calculate, store and possibly transmit on-line current data of low and high-voltage single-phase and three-phase networks, uses an industrial computer containing a processor of the Pentium III or higher class, RAM , a hard disk for data storage, a network card (Ethernet), at least one USB port, one RS-232 serial port and one RS-482 or RS-485 serial port, a power supply, and in this computer a multi-channel board of an analog-to-digital converter (ADC) is built in, which converts the analog signal to digital form, and a board for channel-by-channel conversion of input signals to the ADC level, reducing the incoming input voltages and currents of the device to the input values of the ADC converter, and at least , two connectors for voltage and current inputs, LEDs to indicate the presence of voltage and phase sequence of the measured line, one or more control buttons and operation indication LEDs s of the device, and at the same time, appropriate software is used to calculate quality indicators. 2. The device according to claim 1, characterized in that in it, with three additional input connectors, two serve for direct input of three-phase or interphase voltages 220/380 V and / or for transformer input of three-phase or interphase voltages of a network of 3-110 kV, and the third is for signals input from external linear current sensors and neutral current sensors. 3. The device according to claim 2, characterized in that it can simultaneously connect the connectors for voltage inputs to various lines, for example to different transformers, and at the same time, their indicators are simultaneously calculated. 4. The device according to claim 1, characterized in that for each of the voltage input connectors there is a group of three LEDs indicating the presence of voltage and the phase sequence of the line, evenly lit during normal connection and blinking if the phases are reversed, and if not phase, the corresponding LED is off. 5. The device according to claim 1, characterized in that it is possible to connect an external computer, including a laptop, to the corresponding port of the device to send data to it. 6. The device according to claim 1, characterized in that it can be used as part of a local network from several similar devices using a network card. 7. The device according to claim 1, characterized in that it is possible to read information on flash drives using a USB port in automatic mode.