KR20120079713A - Portable communication system analyzer - Google Patents

Abstract

PURPOSE: A portable communication environment analysis apparatus is provided to analyze a power line communication environment through direct current. CONSTITUTION: A key input unit(140) generates a key operation signal according to an external input. A controlling unit(130) transfers a generating signal of test data from a data generating unit based on the key operation signal. The controlling unit generates a controlling signal capable of displaying an analysis result. A display unit(160) outputs the analysis result according to the controlling signal.

Description

Portable communication environment analysis device {PORTABLE COMMUNICATION SYSTEM ANALYZER}

The present invention relates to a portable communication environment analysis device, and more particularly, to a portable terminal device capable of analyzing power line communication and wireless communication environment by generating test data at an inspection point and analyzing a response of a load end thereof.

Power Line Communication (PLC) refers to a communication technology capable of transmitting data such as voice, text, and video only by using a power line. Power line communication has the advantage that it is possible to use the power line that is already established and used, and the installation cost is low, and the communication fee is almost inexpensive. In order to implement such power line communication, a power line communication modem should be installed. Recently, in a remote meter reading system, a power line communication modem is installed in an electronic power meter and a data concentration unit (DCU) to transmit meter reading data using power line communication. have. Conventionally, under such a power line communication environment, in order to analyze a communication environment, a general-purpose instrument such as a spectrum analyzer or a computer installed with a program provided by a power line modem manufacturer is used to shorten the modem distance between both ends after connecting with the power line communication modem. You can measure the communication status as you go.

However, in the existing communication environment analysis system, AC power should be applied to general-purpose measuring instruments and computers when analyzing power line communication environment. However, many places where power line communication environment analysis is required are difficult to draw AC power such as telephone pole and middle part of incoming power line. However, in order to connect power to general purpose instruments and computers, it is difficult to install temporary outlets or extend power lines. In addition, a computer such as a general-purpose measuring instrument or a notebook computer is not convenient to carry under power line communication in which it is inconvenient to carry and analyzes a communication environment by moving a plurality of inspection points little by little. Until now, the technology development has not been made.

In addition, in recent years, the remote metering system uses the wireless communication (Binary CDMA) together with the power line communication, there is a need for a dedicated instrument capable of analyzing the wired and wireless communication environment to analyze the communication environment of the remote metering system.

An object of the present invention for solving the above problems is to provide a dedicated analysis apparatus that is easy to carry and uses a DC power supply to analyze a communication environment of power line communication in which an AC power supply drawing problem is solved.

In addition, there is another object to provide an analysis device that can analyze a wireless communication environment in addition to power line communication.

A portable communication environment analysis apparatus for achieving the above object includes a PLC communication unit for generating test data, and modulating and demodulating the test data to perform power line communication with a load end; A communication environment analyzer configured to analyze a communication state of a power line based on a response of the load terminal to the test data; A key input unit for generating a key operation signal according to an external input; A control unit which transmits a generation signal of the test data to the data generation unit based on the key operation signal and generates a control signal capable of displaying an analysis result of a communication state; A display unit for outputting an analysis result of a communication state according to the control signal and displaying an operation state of the key input unit; And a power supply unit supplying DC power to operate each functional unit.

The portable communication environment analysis apparatus may further include a wireless communication unit configured to perform demodulation and demodulation of the test data to perform wireless communication with a load end.

In this case, the load stage may be a portable communication environment analysis device, characterized in that any one of the power meter communication power line communication modem and the data concentration unit (DCU) side power line communication modem.

According to the present invention according to the above configuration, it is possible to provide a dedicated analysis device capable of analyzing the communication environment of power line communication, there is an effect that can provide an analysis device without the problem of AC power draw. In particular, it is manufactured to be portable so that the distance can be moved little by little at the inspection point of the power line, and it is possible to conveniently analyze the presence or absence of communication and power line communication environment. In addition, the wireless communication environment can be analyzed together with the power line communication, and in particular, there is an advantage that it can be suitably used for analyzing the communication environment of the remote meter reading system using both the power line communication and the wireless communication.

1 is a block diagram of a portable communication environment analysis device having a PLC communication unit according to an embodiment of the present invention,
2 is a block diagram of a portable communication environment analysis apparatus having a wireless communication unit according to another embodiment of the present invention;
3 is a view illustrating a display screen of the communication environment analysis apparatus of the remote meter reading system, and
4 is a diagram illustrating a method of using a portable communication environment analysis apparatus.

Hereinafter, exemplary embodiments of the present invention will be described with reference to the accompanying drawings. In the drawings, the same reference numerals are used to designate the same or similar components, and the same reference numerals will be used to designate the same or similar components. Detailed descriptions of known functions and configurations are omitted.

1 is a block diagram of a portable communication environment analysis apparatus having a PLC communication unit according to an embodiment of the present invention. Referring to FIG. 1, the portable communication environment analysis apparatus includes a data generation unit 110, a PLC communication unit 110, a communication environment analysis unit 120, a control unit 130, a key input unit 140, a storage unit 150, The display unit 160 and the power supply unit 170 may be included.

The test data is set to communicate based on a protocol of power line communication, and the generated data includes an address of a load end to receive the data. For example, the load terminal included in the test data may be a power meter or a power line communication modem on a data concentration unit (DCU) side connected to a power line to perform power line communication.

The PLC communication unit 110 generates test data for performing power line communication, modulates and demodulates the generated data to a frequency suitable for power line communication, and transmits the generated test data to the load terminal. The test data is set to communicate based on a protocol suitable for each communication method, and the generated data includes an address of a load end to receive the data. For example, the load terminal included in the test data may be a power meter or a power line communication modem on a data concentration unit (DCU) side connected to a power line to perform power line communication.

The PLC communication unit 110 includes a demodulation circuit capable of modulating and demodulating test data to a frequency suitable for power line communication, and a communication coupler capable of connecting to a power line to be measured. Power line communication consists of two band signals, a low frequency band of 9k to 450kHz for transmitting a small amount of data such as remote meter reading data and other control signals, and a high frequency band of 2M to 30MHz for high speed data communication environment. Use The demodulation circuit may demodulate and test data for both frequency bands according to a control signal of the controller 130 generated based on a user input of the key input unit 140. The PLC communication unit 110 transmits the generated data in packet units, and receives a response from the load end thereof. In this case, the PLC communication unit 110 is given a MAC address or an IP address to perform TCP / IP communication.

The communication environment analysis unit 120 analyzes a communication environment of power line communication according to the power line communication result. First, it is determined whether power line communication is possible at the inspection point according to whether or not the test server receives a response signal for the packet transmitted from the PLC communication unit 110. The operator may recognize that a failure has occurred on the power line when the response signal of the load stage is not received. Communication environment analysis unit 120 is based on the response signal received from the test server corresponding to the test packet Signal to Noise Ratio (SNR), data transmission rate, round trip time (RTT: Round Trip Time) of the packet, It generates information such as packet loss rate and can analyze the communication environment of the channel in the power line communication.

The controller 130 may generate a warning signal based on the communication environment analysis result of the communication environment analysis unit 120. If any one of the SNR, data transmission rate, RTT, and packet loss rate of the power line communication is above or below the set reference value, it may be determined that the power line communication environment is inadequate, and a warning signal may be generated to inform the operator. By generating a warning signal, the operator can determine the necessity of installing a repeater at the inspection point. A warning message may be displayed through the display unit 160 or the operator may be notified of the warning signal of the controller 130 by using a mechanical sound.

The storage unit 150 may store information on a signal-to-noise ratio, a data transmission rate, and a packet loss rate according to a control command of the controller 130, and may store reference data that is a basis for generating a warning signal of the controller 130.

For example, the upper limit value and / or the lower limit value of the SNR, the data transmission rate, the RTT, and the packet loss rate may be determined in the reference data, and the controller 130 may generate a warning signal based on the reference data.

The key input unit 140 determines a key operation signal that determines on / off of the communication environment analyzer, frequency band setting of the power line communication, sampling time setting, display items of the display unit 160, etc. according to the operator's input. Generates and transmits it to the controller 130. When the inspector sets the frequency band of the power line communication, the controller 130 transmits a control signal regarding the modulation band information of the data to the PLC communication unit 110, and the PLC communication unit 110 modulates the data based on the control signal. . In addition, the controller 130 may output the power line communication class of at least one of the stored SNR, data transmission rate, RTT, and packet loss rate and the corresponding location to the display unit 160 based on the key operation signal of the key input unit 140. Can be. The operator may input the address of the load terminal through the key input unit 140 to set the data generated by the signal generator to be transmitted to the load terminal.

The display unit 160 displays the items of the SNR, the data transmission rate, and the packet loss rate generated by the power line communication environment analyzer 120 on the screen based on the control signal of the controller 130, and displays the key operation status of the operator. can do.

The power supply unit 170 supplies power for operating the portable power line communication device. The power supply unit 170 is a rechargeable battery that can be charged, and may include one of lithium ion, nickel cadmium, nickel metal hydride, and lead-acid. Can be.

The power supply unit 170 may supply charged DC power to each functional unit so that each functional unit may operate. The power supply unit 170 may be provided with an inverter (not shown) so as to receive an external AC power and convert it into DC power to charge the power.

2 is a block diagram of a portable communication environment analysis apparatus having a wireless communication unit according to another embodiment of the present invention. For example, in a remote system, when the meter reading data is transmitted wirelessly, in order to analyze the wireless communication environment, the communication environment analysis device of the remote meter reading system replaces the PLC communication unit 110 of FIG. 1 or the PLC communication unit 110. In parallel, the wireless communication unit 110a may be included.

At this time, the communication method of the wireless communication unit 110a includes a communication method that can be used in the remote meter reading system, and preferably may be Zigbee or Binary CDMA.

In order to transmit meter reading data wirelessly in a remote meter reading system, an electronic electricity meter and a data concentration unit (DCU) may be interconnected by a wireless communication modem. At this time, the operator can communicate with the wireless meter of the electronic electricity meter or data concentrator using the communication environment analysis device of the remote meter reading system.

The operator can check whether the wireless communication is performed smoothly according to the analysis of the communication environment of the data communication unit at the inspection point. At this time, the communication environment analysis unit 120 derives communication environment information such as SNR, data transmission rate, and packet loss rate from the received signal of the communication environment analysis apparatus of the remote meter reading system.

In addition, the communication environment analysis unit 120 may measure the strength of the received communication signal, and RSSI (Receive Signal Strength Indication) function of converting the strength of the communication signal received by the wireless communication unit 110a into a digital value for display. It can be provided to measure the strength of the communication signal as a digital value.

The controller 130 generates a control signal to display the information such as the SNR, the data transmission rate, the packet loss rate, the RSSI, and the like on the display unit 160 based on the key operation signal of the user through the key input unit 140. In this case, the reference data stored in the storage unit 150 for generating the warning signal by the controller 130 is generated based on the SNR, the data transmission rate, the RTT, the packet loss rate, and the RSSI. That is, when at least one of the SNR, the data transmission rate, the RTT, the packet loss rate, and the RSSI exceeds or falls below a preset reference value, the controller 130 may generate a warning signal.

When the portable communication environment measuring device includes both the PLC communication unit 110 and the wireless communication unit 110a, the operator selects a communication environment to be checked during power line communication or wireless communication through the key input unit 140, and the control unit 130. By selectively driving the PLC communication unit 110 or the wireless communication unit 110a, it is possible to control the communication environment analysis to be made selectively.

Figure 3 illustrates a display screen of the communication environment analysis device of the remote meter reading system. The display unit 160 of the power line communication apparatus displays communication environment analysis results such as SNR, data rate, packet loss rate, and the like, and when the communication environment of wireless communication is analyzed, the measured RSSI value is also output to the display unit 160. do. In addition, the display 160 may output a warning message based on a current remaining amount of the battery and a failure signal of the controller 130.

4 illustrates a method of using a portable communication environment analysis apparatus.

The operator connects the power line to the portable communication environment analysis device 100 at the inspection point, and inputs an address of a frequency band and a load end suitable for the power line communication environment. In the remote meter reading system, when power line communication is used, the most important factor to consider is whether the meter reading data is transmitted to the data concentrator from the customer-side electricity meter. It is preferably used in the communication line between the 200 and the electricity meter (300). In this case, the load stage may be a power line communication modem of the power meter 300 or the data concentrator DCU 200, and the operator may use the power meter 300 or the data concentrator connected to the corresponding power line through the key input unit 140. Input the power line communication modem address. The portable communication environment analysis apparatus 100 generates test data and transmits it to the load end, and the communication environment analysis unit 120 analyzes the response to the transmitted packet to analyze the communication environment of the remote meter reading system. The analyzed data is implemented in the display unit 160 according to the control signal of the controller 130, so that the operator can grasp the communication environment of the remote meter reading system. In addition, in the recent remote meter reading system, since the power line communication and the wireless communication using the wireless CDMA method are performed in parallel, the wireless communication unit 110a is further included in the portable communication environment analysis device to provide the power line communication environment and the wireless communication environment. Can be analyzed and checked

In the present application, the portable communication environment analysis apparatus is applied to the remote meter reading system for easy explanation of the present invention. However, the present invention is not limited to the communication environment analysis of the remote meter reading system. The terminology used in this application is used only to describe a specific embodiment and is not intended to limit the invention. Singular expressions include plural expressions unless the context clearly indicates otherwise.

Unless defined otherwise, all terms used herein, including technical or scientific terms, have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. Terms such as those defined in commonly used dictionaries are to be interpreted as having a meaning consistent with the contextual meaning of the related art and are to be interpreted as either ideal or overly formal in the sense of the present application Do not.

100: portable communication environment analysis device 110: PLC communication unit
110a: wireless communication unit 120: communication environment analysis unit
130: control unit 140: key input unit
150: storage unit 160: display unit
170: power supply unit 200: data concentrator (DCU)
300: power meter

Claims (12)

A PLC communication unit configured to generate test data, and modulate and demodulate the test data to perform power line communication with a load terminal;
A communication environment analyzer configured to analyze a communication state of a power line based on a response of the load terminal to the test data;
A key input unit for generating a key operation signal according to an external input;
A control unit which transmits a generation signal of the test data to the data generation unit based on the key operation signal and generates a control signal capable of displaying an analysis result of a communication state;
A display unit for outputting an analysis result of a communication state according to the control signal and displaying an operation state of the key input unit; And
Power supply unit supplying DC power for each functional unit to operate
Portable communication environment analysis device comprising a.
The method of claim 1,
The load stage is any one of a power metering power line communication modem and a data concentrator (DCU) side power line communication modem.
The method of claim 1,
And a communication state analysis result of the communication environment analysis unit includes at least one of a signal-to-noise ratio, a data transmission rate, a packet round trip time, and a packet loss rate.
The method according to claim 1 or 3,
The control unit further generates a warning signal based on a communication state analysis result of the communication environment analysis unit, the storage unit portable communication environment analysis device, characterized in that for storing the reference data on which the warning signal generation base.
The method of claim 4, wherein
And the reference data is a threshold value of at least one of a signal-to-noise ratio of the communication state analysis result, the data transmission rate, the packet round trip time, and the packet loss rate.
The method of claim 1,
The warning signal is a communication environment analysis device of the remote meter reading system, characterized in that output to the display in the form of a warning message or a machine sound.
A wireless communication unit which generates test data and modulates and demodulates the test data to perform wireless communication with a load end;
A communication environment analyzer configured to analyze a wireless communication state based on a response of the load end to the test data;
A key input unit for generating a key operation signal according to an external input;
A control unit which transmits a generation signal of the test data to the data generation unit based on the key operation signal and generates a control signal capable of displaying an analysis result of a communication state; And
A display unit for outputting an analysis result of a communication state according to the control signal and displaying an operation state of the key input unit;
Portable communication environment analysis device comprising a.
The method of claim 7, wherein
The load stage is a portable communication environment analysis device, characterized in that any one of the power meter wireless modem and data concentration unit (DCU) side wireless modem.
The method of claim 7, wherein
And a communication state analysis result of the communication environment analysis unit includes at least one of a signal-to-noise ratio, a data transmission rate, a packet round trip time, a packet loss rate, and an RSSI.
The method according to claim 7 or 9,
The control unit further generates a warning signal based on a communication state analysis result of the communication environment analysis unit, the storage unit portable communication environment analysis device, characterized in that for storing the reference data on which the warning signal generation base.
11. The method of claim 10,
And the reference data is a threshold value of at least one of a signal-to-noise ratio, the data transmission rate, the packet round trip time, the packet loss rate, and the RSSI of the communication state analysis result.
A PLC communication unit configured to generate first test data, and modulate and demodulate the first test data to perform power line communication with a load terminal;
A wireless communication unit which generates second test data and modulates and demodulates the second test data to perform wireless communication with a load end;
A communication environment analyzer configured to analyze a communication state of a power line based on a response of the load terminal to the first test data or the second test data;
A key input unit for generating a key operation signal according to an external input;
A control unit which transmits the test signal generation signal to the data generation unit based on the key operation signal, generates a control signal capable of displaying an analysis result of a communication state, and selectively drives the PLC communication unit and the wireless communication unit. ; And
A display unit for outputting an analysis result of a communication state according to the control signal and displaying an operation state of the key input unit;
Portable communication environment analysis device comprising a.

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