KR101673192B1 - A pos disorders predicted management system using a measurements of power noise of pos terminal - Google Patents

Abstract

The present invention relates to a point of sale (POS) disorder prediction management system using measurement of a power noise of a POS terminal. The POS disorder prediction management system using measurement of a power noise of a POS terminal includes: a POS terminal generating and transmitting POS data for a commodity transaction, and including an ADC measurement module detecting a power noise; a server client storing and managing the POS data of the POS terminal, receiving a digital signal of the power noise, and transmitting the digital signal of the power noise to a POS disorder prediction server by a TCP/IP communications method; and the POS disorder prediction server monitoring the digital signal of the power noise and performing a disorder diagnosis. Therefore, the POS disorder prediction management system can diagnose and prevent performance degradation of the POS terminal in advance.

Description

[0001] POS POSITION PREDICTED MANAGEMENT SYSTEM USING A POWER NOISE OF POS TERMINAL [0002]

The present invention relates to a POS (Point Of Sale) failure prediction management system, and more particularly, to a POS failure prediction management system using power noise measurement of a POS terminal.

The present invention relates to a POS (Point Of Sale) failure prediction management system, and more particularly, to a POS failure prediction management system using power noise measurement of a POS terminal.

The present invention proposes a POS terminal, a server client, and a POS failure prediction server. The POS terminal includes a POS terminal, a POS terminal, The fault diagnosis is performed by analyzing the data of the status information level of the digital signal of the power noise of the ADC measurement module provided through the server client in the POS fault prediction server, further comprising an ADC measurement module for detecting power supply noise (ripple voltage) So that it is possible to predict the main obstacles in the power of the POS terminal in advance so that the POS performance can be degraded and the early diagnosis of the cause of the failure can be made. POS fault prediction using power noise measurement of POS terminal to enable maintenance management And to provide a management system.

In addition, the present invention predicts and manages the occurrence of a failure in advance before reporting a failure in a store where a POS terminal is installed, thereby enabling stable operation of the POS system, and in addition, a service delay due to failure and maintenance is fundamentally interrupted Another object of the present invention is to provide a POS fault prediction management system using power noise measurement of a POS terminal.

In addition, the present invention can be applied not only to increase the convenience of monitoring and managing the status information of POS terminals according to shops in real time on the UI screen, but also to provide POS It is another object of the present invention to provide a POS failure prediction management system that uses power noise measurement of a POS terminal to diagnose and prevent performance degradation of a terminal in advance.

According to an aspect of the present invention, there is provided a POS fault prediction management system using power noise measurement of a POS terminal,

A POS fault prediction management system using power noise measurement of a POS terminal,

A POS terminal further comprising an ADC measuring module for generating and delivering POS data for a merchandise transaction and connected between the SMPS for power supply and the microcomputer and detecting power source noise included in the output power of the SMPS;

A server client that stores and manages POS data of the POS terminal, receives a digital signal of power noise measured from the ADC measurement module, and transmits the digital signal to a POS failure prediction server in a TCP / IP communication manner; And

And a POS fault prediction server for monitoring and receiving a digital signal of power noise of the POS terminal provided from the server client and performing fault diagnosis through data analysis corresponding to a state information level of the digital noise of the power noise, And the like.

Advantageously, the ADC measurement module comprises:

And may be connected and connected between the SMPS and the microcomputer through a Y-shaped connector cable.

More preferably, the ADC measurement module comprises:

As the information for diagnosing the fault of the POS terminal, a ripple voltage included in the output power of the SMPS can be detected and converted to digital.

Advantageously, the POS terminal comprises:

A temperature sensor for measuring the temperature in the POS terminal body; And

Further comprising a dust sensor for measuring dust in the POS terminal body,

The temperature information and the dust information measured by the temperature sensor and the dust sensor may be further provided as information for fault diagnosis.

More preferably,

The POS terminal and the server client are separately configured in a merchandise store and can perform mutual data communication through Zigbee communication.

More preferably, the POS failure prediction server comprises:

The POS terminal detects the failure of the POS terminal by applying the status information of the power noise detected by the ADC measurement module of the POS terminals to the preset guideline information through the TCP / IP communication with the server client. Can be predicted.

Even more preferably,

A device failure state including the down and blue screens of the POS terminal, a failure state (error factor) prediction state of the POS terminal, an allowable guideline state of the POS terminal, and a stable line state of the POS terminal.

Still more preferably, the POS failure prediction server comprises:

The limited internal environment of the POS terminal can be predicted using the measured temperature information and dust information of the temperature sensor and the dust sensor, and the corresponding fault diagnosis can be further performed.

According to the POS fault prediction management system using the power noise measurement of the POS terminal proposed in the present invention, the system includes a POS terminal, a server client, and a POS failure prediction server, and is included in the output power of the SMPS for supplying driving power to the POS terminal And further comprising an ADC measurement module for detecting the power supply noise (ripple voltage) of the power supply noise of the ADC measurement module, which is provided through the server client in the POS failure prediction server, So that it is possible to predetermine the main obstacles in the power of the POS terminal, thereby enabling the POS performance to be deteriorated and the early diagnosis of the cause of the failure to be possible, and also, in advance of the failure of the POS terminal Maintenance management can be made possible.

In addition, according to the present invention, it is possible to predict and manage the occurrence of a failure before a failure is reported in a store where the POS terminal is installed, thereby enabling stable operation of the POS system, .

In addition, the present invention can be applied not only to increase the convenience of monitoring and managing the status information of POS terminals according to shops in real time on the UI screen, but also to provide POS The performance degradation of the terminal can be diagnosed and prevented in advance.

BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 shows a schematic configuration of a general POS system; Fig.
BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a POS fault prediction management system, and more particularly, to a POS fault prediction management system using power noise measurement of a POS terminal according to an embodiment of the present invention.
3 is a view illustrating an internal configuration of a POS terminal applied to a POS failure prediction management system using power noise measurement of a POS terminal according to an embodiment of the present invention.
4 is a diagram illustrating an internal configuration of a server client applied to a POS failure prediction management system using power noise measurement of a POS terminal according to an embodiment of the present invention.
5 is a diagram illustrating an example of guideline information applied to a POS failure prediction management system using power noise measurement of a POS terminal according to an embodiment of the present invention.
6 is a diagram illustrating a monitoring UI screen of the POS failure prediction management system using power noise measurement of a POS terminal according to an embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings, in order that those skilled in the art can easily carry out the present invention. In the following detailed description of the preferred embodiments of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear. In the drawings, like reference numerals are used throughout the drawings.

In addition, in the entire specification, when a part is referred to as being 'connected' to another part, it may be referred to as 'indirectly connected' not only with 'directly connected' . Also, to "include" an element means that it may include other elements, rather than excluding other elements, unless specifically stated otherwise.

FIG. 2 is a schematic diagram of a POS fault prediction management system using power noise measurement of a POS terminal according to an exemplary embodiment of the present invention. FIG. 4 is a diagram illustrating an internal configuration of a POS terminal applied to a POS failure prediction management system using noise measurement. FIG. 4 is a block diagram of a POS failure prediction management system using power noise measurement of a POS terminal according to an embodiment of the present invention. FIG. 5 is a diagram illustrating an example of guideline information applied to a POS failure prediction management system using power noise measurement of a POS terminal according to an embodiment of the present invention, and FIG. 6 is a diagram illustrating a monitoring UI screen of the POS failure prediction management system using power noise measurement of a POS terminal according to an exemplary embodiment of the present invention A time limit diagram. 2 to 4, a POS failure prediction management system 100 using power noise measurement of a POS terminal according to an embodiment of the present invention includes a POS terminal 110, a server client 120, And a POS failure prediction server 130. [

A POS (Point Of Sale) terminal 110 generates and transmits POS data for commodity trading and is connected and connected between a SMPS (Switched Mode Power Supply) 111 and a microcomputer 112 for power supply, And an ADC (Analog-Digital Converter) measurement module 116 for detecting power supply noise included in the output power of the SMPS 111. [ Here, the ADC measurement module 116 may be connected to the SMPS 111 and the microcomputer 112 via a Y-connector cable. The ADC measurement module 116 detects failure of the POS terminal 110 and detects a ripple voltage included in the output power of the SMPS 111 and converts the detected ripple voltage into a digital signal. In general, the term ripple refers to a ripple voltage when a rectified AC power source is converted into a DC power source, and a signal that does not completely become a DC power source and partially retains an AC signal is referred to as a ripple voltage. If the capacitor of the SMPS 111 is insufficient or the consumption current is large, the ripple voltage becomes high. If the ripple and the noise component of the impulsive noise are not removed, that is, the relative stability coefficient does not fall below the allowable level When the output ripple component is introduced into the system, the logic of the logic element becomes unstable and causes malfunction of the system.

3, the POS terminal 110 includes a temperature sensor 117 for measuring the temperature in the body of the POS terminal 110 and a dust sensor 117 for measuring the dust in the body of the POS terminal 110 118). ≪ / RTI > In addition, the POS terminal 110 may further provide temperature information and dust information measured by the temperature sensor 117 and the dust sensor 118, respectively, as information for fault diagnosis. In addition, the POS terminal 110 is separately configured in a server client 120 and a merchandise store, which will be described later, and can perform mutual data communication through Zigbee communication. 3, the POS terminal 110 includes an SMPS 111, a microcomputer 112, a regulator 113, an uninterruptible power supply (UPS) 114, And a Zigbee communication module 115. Since the configuration of the conventional POS terminal corresponds to a general configuration, an unnecessary description will be omitted. The POS terminal 110 of the present invention is characterized by the circuit design implementation of hardware (H / W) that further includes an ADC measurement module 116, a temperature sensor 117 and a dust sensor 118 in the existing configuration Can be understood.

The server client 120 stores and manages the POS data of the POS terminal 110 and receives a digital signal of the power noise measured from the ADC measurement module 116 and receives the digital signal of the power noise from the ADC measurement module 116, (130). The server client 120 performs data communication with the POS terminal 110 through Zigbee communication. That is, the server client 120 includes a Zigbee communication module 121, a microprocessor 122, a monitor 123, and a communication unit 124, which are separated from the POS terminal 110 provided in a store. Since the internal configuration of the server client 120 corresponds to a general configuration, an unnecessary description will be omitted. The server client 120 transmits information for predicting the failure detected by the ADC measurement module 116 of the POS terminal 110, the temperature sensor 117 and the dust sensor 118 to the POS fault prediction server 130 ) To be transmitted.

The POS fault prediction server 130 monitors and receives a digital signal of power supply noise of the POS terminal 110 provided from the server client 120 and analyzes data corresponding to the state information level of the power supply noise It is a server configuration that performs fault diagnosis. The POS fault prediction server 130 performs data communication with the server client 120 through the TCP / IP communication method. The POS fault prediction server 130 detects the status information of the power supply noise detected by the ADC measurement module 116 of the POS terminals 110 To the preset guide line information to predict the failure diagnosis of the POS terminal 110. That is, as shown in FIG. 5, the POS failure prediction server 130 applies the state information of the power source noise digital signal detected by the ADC measurement module 116 to the preset 12V guide information, ) Power failure diagnosis. 6, the POS failure prediction server 130 monitors the failure diagnosis according to the power fluctuation and the ripple fluctuation of the POS terminal 110 according to each shop through the UI screen.

That is, the fault diagnosis of the POS fault prediction server 130 can be performed by using the guideline information of FIG. 5 to detect a device failure state including the down and blue screens of the POS terminal 1100, Predicted state, allowable guideline state of the POS terminal 110, and stable line state of the POS terminal 110, for example.

The POS failure prediction server 130 predicts the limited internal environment of the POS terminal 110 using the measured temperature information and the dust information of the temperature sensor 117 and the dust sensor 118, Performance degradation and fault diagnosis of the POS terminal 110 according to the amount of heat and dust in the main body 110 can be further performed.

As described above, the POS failure prediction management system using power noise measurement of a POS terminal according to an embodiment of the present invention includes a POS terminal, a server client, and a POS failure prediction server, And further comprising an ADC measurement module for detecting a power supply noise (ripple voltage) included in the output power of the SMPS, wherein the POS fault prediction server receives the state information level of the digital signal of the power supply noise of the ADC measurement module, By configuring the fault diagnostics to be performed and monitored through data analysis, it is possible to minimize adverse effects of the software due to the power of the POS terminal and the hardware failure caused by the ripple voltage of the main board, and thus the performance degradation and the early diagnosis of the cause Of course, based on the predicted failure information, You can manage to be. In addition, by predicting and managing the occurrence of a failure before a failure is reported in a store where the POS terminal is installed, the POS system can be operated stably, the service delay due to failure and maintenance is fundamentally blocked, Simplify and improve customer satisfaction through use of POS service.

The present invention may be embodied in many other specific forms without departing from the spirit or essential characteristics of the invention.

10: POS terminal 20: server client
30: External device
100: POS fault prediction management system according to an embodiment of the present invention
110: POS terminal 111: SMPS
112: Microcomputer 113: Regulator
114: UPS 115: Zigbee communication module
116: ADC measurement module 117: Temperature sensor
118: Dust sensor 120: Server client
121: Zigbee communication module 122: Microprocessor
123: monitor 124:
130: POS failure prediction server

Claims (8)

A POS fault prediction management system (100) using power noise measurement of a POS terminal,
An ADC measurement for detecting a power supply noise included in the output power of the SMPS 111 and connected between the SMPS 111 and the microcomputer 112 for power supply, A POS terminal 110 further comprising a module 116;
A server client 110 that stores and manages POS data of the POS terminal 110 and receives a digital signal of the power noise measured by the ADC measurement module 116 and transmits the received digital signal to the POS fault prediction server 130 through a TCP / (120); And
A POS terminal 110 for receiving and monitoring a digital signal of power supply noise of the POS terminal 110 provided from the server client 120 and for performing a fault diagnosis through data analysis corresponding to the status information level of the digital signal of the power supply noise, A failure prediction server 130,
The ADC measurement module (116)
And is connected to the SMPS 111 and the microcomputer 112 via a Y connector cable and is information for diagnosing the fault of the POS terminal 110. The SMPS 111 is connected to the SMPS 111, Detects a ripple voltage and converts it to digital,
The POS failure prediction server 130,
The controller 120 performs data communication with the server client 120 using the TCP / IP communication method. The ADC 116 measures the status information of the digital noise of the power noise detected by the ADC measurement module 116 of the POS terminals 110, To predict the fault diagnosis of the POS terminal 110,
In the fault diagnosis,
A device failure state including a down screen and a blue screen of the POS terminal 110, a failure occurrence (error factor) prediction state of the POS terminal 110, an allowance guideline state of the POS terminal 110, 110). The POS fault prediction management system using the power noise measurement of a POS terminal.
delete delete The system of claim 1, wherein the POS terminal (110)
A temperature sensor 117 for measuring the temperature in the main body of the POS terminal 110; And
Further comprising a dust sensor (118) for measuring dust in the POS terminal (110) body,
Wherein the temperature sensor (117) and the dust sensor (118) further provide temperature information and dust information measured by the temperature sensor (117) and the dust sensor (118) as information for fault diagnosis, respectively.
5. The method of claim 4,
The POS terminal (110) and the server client (120) are separately configured in a merchandise store and perform mutual data communication through Zigbee communication. The POS terminal Predictive management system.
delete delete 5. The system according to claim 4, wherein the POS failure prediction server (130)
Estimates the limited internal environment of the POS terminal 110 using the measured temperature information and dust information of the temperature sensor 117 and the dust sensor 118 and further performs the fault diagnosis corresponding thereto POS fault prediction management system using power noise measurement of POS terminal.

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