KR100813663B1 - Power quality data acquisition system - Google Patents

Abstract

A power quality measuring device with an abnormal state alarm function based on the network is provided to inform an inspector of the abnormal state immediately and to check the annul load characteristic. In a power quality measuring device with an abnormal state alarm function based on the network, a differential input converter(11) has an operational amplifier with input impedance to infinity for measuring an input signal of a secondary side of a transformer without loss and excludes a short-circuit. The input converter converts voltage correspondently to the input level of an A/D(Analog To Digital) converter(20). A filter(12) measures commercial cycle in an input signal converted in the input converter and removes high frequency/low frequency DC(Direct Current) input. The A/D converter converts a signal passing through the filter, into high frequency/high harmonic digital data at resolution of 24 bits and sampling frequency within a band of 10 us.

Description

Network-based electrical quality measuring device having an abnormal state alarm function {Power quality data acquisition system}

The present invention has an abnormal state alarm function to determine the load characteristics along with real-time monitoring of electrical quality by measuring the quality of electricity for the operation of the power equipment to immediately notify the network-based monitor of the abnormal situation to generate an alarm alarm. It relates to a network-based electrical quality measurement device.

With the development of industrial technology, equipment that is sensitive to power quality has emerged one after another, and constant voltage and power compensators are being introduced.

In fact, factories that produce goods according to certain rules, such as semiconductor production plants, textile production plants, and plating factories, are often in charge of supplying power to these factories. In the industry, there is a need for a device that measures the quality of electricity in a more practical and innovative way than a primitive analog recording type electric quality measuring device and generates some kind of alarm information when an abnormal condition occurs.

Conventional analogue quality recorders record simple rms (effective value) in units of time, and this method cannot accurately determine the current operating conditions of power facilities due to deterioration of electrical quality. When the 3 ~ 4 cycle SAG (instantaneous voltage drop) occurs at 60Hz, they cause the microprocessor to go down or affect the rotation of the motor. It is causing huge damage to the production site.

The electrical quality measuring apparatus of the present invention uses an analog digital converter with a high sampling frequency and high resolution to maximize the data of electrical quality to be monitored, and adds a function for calculating real-time effective value and setting an abnormal state. In the case of voltage, recording and analysis is performed as in the conventional method, and when an abnormal condition occurs, it operates as an algorithm that automatically analyzes the abnormal condition by storing the actual waveform and operates a network-based system. An alarm window is displayed on the computer of the supervisor who monitors the electrical quality so that it can be recognized elsewhere, and an alarm alarm is generated to inform the current situation of abnormality. It is to have a status alarm function.

The present invention enables to set the trigger level to detect the abnormal state in the existing electrical quality side device, and to monitor the status of the measuring device in real time remotely based on the network to monitor the monitor when the abnormal situation occurs It is an electric quality measuring device that displays the contents of abnormal conditions in a separate screen in real time and enables alarm alarms.It is a load that generates a lot of harmonic currents with high frequency components that are difficult to compensate only by active filters. It is suitable for use at small power demand of about [kVA].

The present invention measures the quality of electricity for the operation of the power facility to immediately notify the network-based monitor of the abnormal situation to generate an alarm alarm, it is possible to monitor the real-time electricity quality, as well as time, weekly, monthly It is effective to grasp the annual load characteristics, such as season and season, and it is possible to establish the standard of power compensation device design by monitoring the electric quality.

The electrical quality measuring apparatus 100 of the present invention is a plurality of each is connected to the network 110, as shown in Figure 1, the network 110 is that a plurality of monitors 120 are connected, Since the measuring device 100 of the present invention is coupled to the network 110 and transmits the measurement data to the server, the server does not act as a client to increase the load of the network, but as a server to reduce the load of the network by transmitting data necessary only for the IP. It works.

That is, each measuring device 100 is connected to the network 110 to operate as a server so that the monitor 120 can monitor the necessary measuring device 100 using IP in the state connected to the network 110. Therefore, regardless of time and place can be confirmed the measurement at the same time can be confirmed by the alarm from the abnormal situation from the measuring device 100.

The measuring device 100 of the present invention includes an input device 10 having a high input impedance without loss of an input signal, and an A / D converter 20 for converting the input of the input device 10 into a high resolution data. And a processor 30 that calculates and stores the input of the A / D converter 20, transmits the measurement result according to the input through the network 110, and transmits an alarm signal in an abnormal situation. Will be done.

The detailed configuration of the measuring device 100 is as shown in FIG.

That is, the input device 10 constituting the measuring device 100 of the present invention is composed of an input conversion device 11 and a filter 12 to receive the secondary input of the transformer, the conversion in the input device 10 The input is applied to the processor 30 through the A / D converter 20, and the processor 30 is composed of the computing device 31, the storage device 32, and the network device 33. .

Herein, the input converter 11, the filter 12, the A / D converter 20, the processor 30, and the like are supplied with stable power of the battery so that no variable appears in the measurement, and the battery power is supplied to each substation. Since the battery power is always maintained to maintain a constant power, it is suitable for use as a driving power of the measuring device 100 as the present invention.

Referring to the operation of the present invention with reference to the flow chart of Figure 3 as follows.

First, supply the battery power so that the measuring device 100 can be supplied normally, and use the stable battery power. However, if necessary, the commercial power supply can be used after voltage down. Accurate measurement is made in the measuring device 100 only when the stable voltage can be maintained.

After the battery power is input to the operating power, the secondary voltage of the transformer is inputted, and the secondary voltage of the transformer is converted by the input converter 11, and the input converter 11 is input. Using an op amp of near impedance, the input signal can be measured without loss of input signal while the differential input device is used to eliminate the risk of short circuit, and voltage conversion can be performed to match the input level of the A / D converter 20. Let's do it.

The signal subjected to voltage conversion in the input conversion device 11 is passed through the filter 12 for removing unnecessary signals for increasing the reliability of the measurement, and then input to the A / D conversion device 20, and the filter 12 The DC input should be removed for measurements of commercial frequencies and for harmonic / low frequency measurements.

The measurement input through the filter 12 is converted to digital data through the A / D converter 20, but the A / D converter 20 implements a high resolution of 24 bits while a high 10 kHz band. High frequency / harmonic data can be acquired at a sampling frequency of 1600/1 cycle (@ 60 Hz).

The digital data converted by the A / D conversion apparatus 20 is input to the arithmetic unit 31. At this time, the monitor 120 sets the trigger level after confirming the ID and password through the network device 33. The trigger level is set by receiving the user authentication, the monitor is to set the reference level for setting the abnormality of the item to be measured by the measuring device 100, which is different from the existing method.

That is, the existing electrical quality measuring device cannot be changed when the trigger level is set in advance when the set is manufactured, and cannot actively cope with a situation that changes frequently, but the present invention uses the network 110 to monitor 120. It is possible to set the trigger level after the user authentication by accessing the measurement device 100 from a remote location, and active measurement of the measurement item is possible.

After the input signal is converted into digital data by the A / D converter 20 in this manner, the trigger level set by the monitor 120 is compared with the calculation device 31 to determine whether an abnormal level is detected, and the abnormal level is determined. If detected, the waveform at that time is stored in the storage device 32. If the abnormal level is not detected, the operation is performed and the operation result is stored in the storage device 32.

In this case, the calculation device 31 performs calculation based on the trigger level, enabling high-speed operation by using a CPU of 3 GHz or more, and enabling calculation using a window comparison algorithm. The efficiency of computation is increased by comparing the period before measurement with the current measurement in one window.

Functions performed by the operation unit 31 include: rms calculation and triggering, peak value calculation and triggering, distortion factor calculation and triggering, frequency calculation and triggering, each function 1 second average and maximum, minimum value calculation, 1 minute maximum minimum average value The reason for comparing the effective value and the peak value separately in the operation device 31 of the present invention is that the waveform such as surge has a short generation period and thus does not significantly affect the actual effective value, but it hinders electrical quality. Because of this, the comparison is made separately.

In addition, the storage device 32 of the present invention employs an internal large capacity hard disk drive and makes a backup by using an external DVD RAM, or a backup by using a USB, and the measurement data and abnormality within a normal range. Separate triggered data.

The storage device 32 stores the average value of the effective value, peak value, distortion ratio, and frequency for 1 minute, and stores the triggered waveform separately for each data.

On the other hand, in the present invention, when the abnormal level is not detected by comparing the input data with the trigger level, the storage is stored in the storage device 32 and the connection IP is checked to determine whether the monitor 120 is connected through the network device 33. If there is no connection IP afterwards (no supervisor connection), the process of detecting and storing an abnormal level by comparing the input data with the trigger level is repeated.If there is a connection IP above (if there is a supervisor connection) At the same time, the abnormal data is stored in the storage device 32 and the data is transmitted to the monitor 120 through the network 110.

In the present invention, when the abnormal level is detected by comparing the input data with the trigger level, the waveform is stored in the storage device 32 and the connection IP is checked to determine whether the monitor 120 is connected through the network device 33. If there is no connection IP afterwards (no supervisor connection), the process of detecting and storing an abnormal level by comparing the input data with the trigger level is repeated.If there is a connection IP above (if there is a supervisor connection) In the) by the data transmission and alarm alarm to the monitor 120 through the network 110, the monitor 120 to notify that the abnormality occurred by the alarm.

In this case, the network device 33 of the present invention enables data transmission using a general-purpose TCP / IP protocol, while operating data of a field as a server to perform data transmission and alarm transmission only when a supervisor is connected. The network load is reduced by reducing the transmission amount, and the network device 33 performs a function of automatically detecting the access IP of the supervisor 120, while inputting a password when changing the server setting of the supervisor 120. do.

The monitoring program block diagram according to the present invention is as shown in FIG.

1 is a block diagram of the present invention

2 is a detailed circuit diagram of the present invention.

3 is a flow chart of the present invention

4 is a block diagram of the monitoring program of the present invention.

[Description of Symbols for Main Parts of Drawing]

10: input device 11: input conversion device

12 filter 20 A / D converter

30 processor 31 computing device

32: storage device 33: network device

100: measuring device 110: network

120: watcher

Claims (1)

The input side of the transformer consists of an op amp with an input impedance close to infinity and a differential input device that eliminates short circuits so that the secondary input signal of the transformer is measured without signal loss. An inverter 11; A filter (12) for measuring the commercial frequency and removing the high frequency / low frequency DC input from the input signal converted by the input conversion device (11); An A / D conversion device (20) for converting the signal passing through the filter (12) into high frequency / harmonic digital data at a resolution of 24 bits and a sampling frequency of 10 kHz; The data converted by the A / D converter 20 calculates and stores the abnormal level in comparison with the trigger level set by the monitor 120 through the network device 33 through which data is transmitted, and the result value is connected to the IP. And a processor 30 for performing data transmission networking depending on whether the processor 30 has an effective value by comparing the input data level converted by the A / D conversion apparatus 20 and the trigger level set by the monitor. Arithmetic unit 31 for calculating arithmetic and triggering, peak arithmetic and triggering, distortion factor arithmetic and triggering, frequency arithmetic and triggering, each function 1 second average and maximum, minimum value operation, 1 minute maximum minimum average value The calculation result in 31 is stored using the hard disk drive, the external DVD RAM, and the USB to store the average value of the effective value, peak value, distortion ratio, and frequency for 1 minute and trigger. Network-based having an abnormal state alarm function comprising a storage device 32 for storing waveform data, and a network device 33 for transmitting data only when an IP connection is made with a supervisor and an IP connection is established. Electrical quality measuring device.

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