KR100760631B1 - Digtal measurement system with embedded simulator for remote verification and compensation and control method thereof - Google Patents

Abstract

A measurement system with a remote inspection and compensation function and a control method thereof are provided to perform inspection and compensation of the measurement system at the remote place by embedding a remote inspection and compensation module and forming a web server. In a circuit for enabling a web client(6) to communicate with various systems and control the systems through the internet(5), a measurement system(10) with remote inspection and compensation functions is composed of a remote inspection and compensation module(2) connected through one side of a digital measuring unit(1) and composed of a reference signal generating unit(21) and a compensation circuit unit(22); a web server(3) connected through the other side of the digital measuring unit to provide service for inspection and compensation; an inspection and compensation platform(31) formed in the web server to allow a web client who exists in the remote place, to be connected with the web server through a web browser; a dynamic web service provision unit(32) formed in the web server to form a web page according to the result transmitted from the inspection and compensation platform; and an Ethernet communication module(4) communicating with the web server.

Description

Digital measurement system with embedded simulator for remote verification and compensation and control method

1 is a schematic diagram showing a digital measurement system incorporating a remote test and compensation function module of the present invention;

Fig. 2 is a flowchart showing an operation state of a digital measurement system incorporating a remote test and compensation function module according to the present invention.

Explanation of symbols on the main parts of the drawings

1: Digital measuring unit (measurement unit) 2: Remote test and compensation function module

3: Web Server 4: Ethernet Communication Module

5: Internet 6: Web Client

10: digital measurement system (measurement system) 21: reference signal generator

22: compensation circuit part (compensation circuit part capable of digital adjustment)

31: test and reward platform 32: operation web service provider

RT1, RT2, RT3: Routine S1, S2, S3 ...: Step

In the present invention, the remote measurement and compensation function module is embedded in an Ethernet-based digital measurement system, and a web server for remote verification and compensation can be constructed to perform the measurement and compensation of the measurement system remotely through the Internet. The present invention relates to a measurement system having a remote calibration and compensation function and a control method thereof.

Currently, since the instruments have been shipped from the factory, most users do not have high confidence in the measurement accuracy of the instrument because there is little means for the instrument user to verify the measurement accuracy of the instrument itself.

Therefore, if you want to be calibrated or compensated to ensure the reliability of the instrument, you should contact the instrument manufacturer or the organization that can

Since the instrument must be sent, it takes a long time and increases the logistics cost.

In addition, since the instrument requires movement for calibration and compensation, there is a high possibility of damage to the digital measurement system due to inadvertent handling during movement, and various problems are exposed such that productivity is lowered due to delayed measurement work.

Increasingly widespread use of measuring systems is becoming more common, and from the stand alone approach to the complete system without the need for assistance from other devices, the measurement system is gradually becoming a distributed measuring system. Advances are made, and measurement period communication is becoming a prerequisite for this.

At this time, there are various communication methods, but in the future, Ethernet-based communication methods are expected to become mainstream in measurement systems.

The present inventors raced to perform the calibration and compensation function through the Internet at a remote location by embedding a circuit capable of performing the calibration and compensation function in the instrument based on Ethernet as the communication system.

The present invention is to solve this problem,

An object of the present invention is to build a function module for remote calibration and compensation in the Ethernet communication-based measurement system and to build a calibration and compensation platform in a web server, using a web browser in a remote web client web server of the measurement system It is intended to provide a measurement system with built-in remote verification and compensation that can be accessed by accessing the verification and compensation platform.

Measurement system with a built-in remote calibration and compensation function of the present invention,

In the circuit that the web client communicates with and controls various systems through the Internet,

A web that is connected through one side of the digital measurement unit, is connected via a remote test and compensation function module having a reference signal generator and a compensation circuit therein, and the other side of the digital measurement unit, and provides a service for calibration and compensation. Server,

The web server is constructed on the web server, and the web client of the remote site is connected to the web server using a web browser, and the web page is constructed on the web server and the result is delivered from the test and reward platform. And a measuring instrument system having a dynamic web service providing unit and an Ethernet communication module for communicating with the web server and connected to the web client through the Internet.

The compensation circuit unit may be configured as a tuning circuit (tuning circuit or compensation circuit or programmable characteristic curve) according to the input sequence to compensate the measurement error of the instrument.

Another purpose is to provide a platform for accessing a digital measurement system through a web browser from a web client, and then provide a platform to select the calibration and compensation functions from a browser to perform remote calibration and compensation functions that can be performed remotely. It is to provide a control method of the built-in measurement system.

The control method of the measurement system incorporating the remote verification and compensation function of the present invention provides a web client platform for verification and compensation after performing a web server connection step of accessing a digital instrument from a web client using a web browser. An instrument connection routine comprising a platform drive step for executing a step of selecting a desired execution command according to the platform, a test and compensation determination step for determining an instruction executed by the execution step, and the test and compensation determination step When the calibration function is selected, the instrument test routine performs the reference signal generator driving step, the reference signal transmission step, the transmission step to the calibration and compensation platform, and the web client transmission step, and when the compensation function is selected in the calibration and compensation judgment step. Compensation circuit drive step, compensation signal transmission step, calibration and compensation It is characterized by consisting of the instrument compensation routine to perform the transmission step, the web client transmission step to the platform,

Hereinafter, described in detail with reference to the accompanying drawings.

1 is a schematic diagram showing a digital measurement system incorporating a remote test and compensation function module of the present invention.

The digital measuring instrument used herein may be used in a scope, a digital multimeter, a spectrum analyzer, and the like, but is not limited thereto and may be applied to other measuring instruments.

Such a digital measurement system 10 includes a digital measurement unit 1 therein, which is connected to a remote test and compensation function module 2 on one side.

Here, the digital measurement system 10 is a system that is subject to a test and compensation service, and is equipped with an Ethernet communication module as described below for connecting to the Internet, and a remote test and compensation function module for remote test and compensation (2). It is built-in and receives the signal generated from the remote test and compensation module according to the test and compensation items requested by the web client, and provides the measurement result to the web server.

The remote test and compensation module 2 includes a reference signal generator 21 and a compensation circuit 22 therein.

This remote test and compensation module is a device that generates a reference signal required for the calibration of the measurement system 10. The remote test and compensation function module generates a corresponding reference signal according to the test item selected by the web client in the test and compensation platform built in the web server. To the measurement system.

And it is configured to ensure the reliability of the instrument by compensating for the measurement error of the instrument by using the tuning circuit (tuning circuit or compensation circuit or programmable characteristic curve) in the input sequence.

In addition, the other side of the digital measuring instrument 10 is connected to the web server (3), the test and compensation platform 31 and the dynamic web service providing unit (32) built in the web server (3) is connected.

The digital measuring device 10 is provided with an Ethernet communication module 4 for mutual communication with the web client 6 via the Internet 5.

This Ethernet communication module 4 is a communication means necessary for remotely performing calibration and compensation of the measurement system, and the measurement system is connected to the Internet through this.

The web server 3 is built in the measurement system and is implemented to provide a web service for verification and compensation to the web client 6 connected remotely.

In particular, the web server 3 is manufactured using a dynamic web service technique capable of receiving a command for the test from the web client 6 and dynamically providing the corresponding test result to the web client.

The test and reward platform 31 is built on a web server and is a kind of operating system that is provided when a remote web client 6 accesses a web server using a web browser. The web client 6 is a test and reward platform. In (31), the desired test and reward service can be selected individually or in a group, and the result of the test and reward can be confirmed.

Fig. 2 is a flowchart showing an operation state of a digital measurement system incorporating a remote test and compensation function module according to the present invention.

This flowchart largely includes the instrument connection routine (RT1) in which the instrument system 10 is connected to the web client through the Internet, and the instrument system 10 is connected to the web client. An instrument calibration routine (RT2) to perform, an instrument compensation routine (RT3) for performing the performance necessary for compensation of the instrument system 10 after the instrument system 10 is connected to the web client, and the instrument assay routine (RT2) and the It consists of a test for selecting the instrument compensation routine RT3 and a compensation judgment step S10.

The instrument connection routine RT1 is composed of a web server connection step S1, a platform driving step S2, and an execution step S3, and the test and compensation determination step S10 of the state executed by the execution step S3 is performed. Is judged by).

The instrument calibration routine (RT2) is composed of a reference signal generator driving step (S4), a reference signal transmission step (S5), a transmission step (S6) and a web client transmission step (S7) to the calibration and compensation platform,

The instrument compensation routine RT3 is composed of a compensation circuit unit driving step S11, a compensation signal transmission step S12, a transmission step S13 and a web client transmission step S14 to the calibration and compensation platform.

In the present invention configured as described above, when the user is using or wants to perform the calibration and compensation as necessary, when performing the web server connection step (S1) as shown in FIG. 2, the web client 6 uses the remote web browser and the web browser. The compensation function module is connected to the web server 3 inside the digital measurement system 10 embedded therein.

When the web server 3 and the digital measurement unit 1 are connected, the platform driving step S2 is performed so that the web server 3 provides the web client 6 with the verification and compensation platform 31.

That is, in the verification and compensation platform 31 of FIG. 1, the above-described verification and compensation platform 31 is built in a web server, which is provided when a remote web client 6 accesses a web server using a web browser. As a kind of operating system, the web client 6 executes an execution step S3 on which the desired test and reward service can be selected individually or in groups on the test and reward platform 31.

In the execution step S3, if the test and the compensation can be selected, the executed state is judged by the test and the compensation judgment step S10, and the instrument test routine (RT2) is performed during the test function, and the compensation function is selected. Perform instrument compensation routine (RT3).

In this way, when the digital measurement unit 1 is connected to the web server 3 and performs a necessary command according to the request of the web client 6, the dynamic web service providing unit 32 performs a web server when there is a service request. Through this service, if there is no service request, other services can be executed to prevent unnecessary load on the web server.

At this time, if the remote test function is selected, the reference signal generator driving step (S4) proceeds to the reference signal generator 21 to generate the reference signal required for the selected test in the provided calibration and compensation platform 31, the drive command Send it.

Next, the reference signal generator 21 which receives the execution command by performing the reference signal transmission step S5 generates a reference signal and sends it to the digital measurement unit 1.

The reference signal used here is a reference voltage, a reference frequency, etc., and may vary depending on the type of measuring instrument.

That is, the reference voltage and the reference frequency are the reference signals necessary for the calibration and compensation of the measurement system, and in most measurement systems, the reference voltage and the reference frequency are the common signals necessary.

 Next, by performing the transmission step S6 to the verification and compensation platform, the digital measurement unit measures the received reference signal, and transmits the result of the error between the measurement result and the reference signal to the verification and compensation platform 31.

Then, the web client transmission step (S7) is performed to transmit the result received from the verification and compensation platform 31 to the web client 6 through the Ethernet communication module 4 and the Internet 5 to verify the instrument. Check for abnormalities.

In this state, when the compensation is selected in the verification and compensation determination step S10, the compensation circuit driving step S11 is performed, and the user (web client) is compensated through the browser screen through the verification and compensation platform 31. Commands for generating a signal required for the digital signal are sent to the compensation circuit unit 22 which can be digitally adjusted. In the next compensation signal transmission step S12, the compensation circuit unit 22 generates a compensation signal to the digital measurement unit 1. send.

Upon performing the transmission step (S13) to the next verification and compensation platform, the digital measuring unit 1 compensates the instrument by using the received compensation signal, and then verifies the result by the request command for the result. Is sent to, and the web client transmission step (S14) is performed.

In the web client transmission step S14, the dynamic web page is constructed using the dynamic web service providing unit 32 with the result received from the verification and compensation platform 32, and then transmitted to the web client.

This dynamic web page stores data about the verification and compensation history, allowing for smoother traceability services.

As described above, the present invention can perform the verification and compensation of the instrument at a remote location by embedding the remote test and compensation function module in the Ethernet-based measurement system, and the following effects can be obtained.

 (1) It is possible to verify and compensate the measurement system at a remote location via the Internet.

 (2) Both users and manufacturers can expect to reduce the cost and time of transmission and reception of the measurement system, and can prevent damage due to logistics movement.

 (3) The user can secure the reliability of the measurement through regular or irregular calibration and compensation of the measurement system.

 (4) The manufacturer can provide the history management service in response to the user's request by managing the calibration and compensation history of the instrument.

 (5) In the future, by enabling remote diagnosis of measuring instrument failure, the instrument manufacturer can provide users with rapid remote diagnosis service.

Claims (3)

In a circuit in which a web client 6 communicates with and controls various systems via the Internet 5, A remote test and compensation function module 2 connected through one side of the digital measurement unit 1 and having a reference signal generator 21 and a compensation circuit unit 22 therein; A web server 3 connected through the other side of the digital measurement unit 1 and providing a service for verification and compensation; A verification and reward platform 31 built in the web server 3, wherein a remote web client is connected to the web server using a web browser; A dynamic web service providing unit (32) built in the web server (3) and constituting a web page as a result received from the verification and reward platform; A measurement system incorporating a remote calibration and compensation function, comprising a measurement system 10 having an Ethernet communication module 4 for communicating with the web server 3 and connected to a web client via the Internet. The remote calibration of claim 1, wherein the compensation circuit unit 22 is configured as a tuning circuit or a compensation circuit or a programmable characteristic curve in accordance with an input sequence so that measurement errors of the measuring instrument are compensated for. Measurement system with built-in and compensation After performing the web server connection step (S1) connecting to the digital measuring instrument using the web browser in the web client, the platform driving step (S2) for providing a platform for testing and compensation to the web client, and the desired execution command according to the platform. Instrument connection routine (RT1) consisting of the execution step (S3) for selecting the, A test and compensation determination step S10 for determining an instruction executed by the execution step S3, When the test function is selected in the test and compensation determination step (S10), the reference signal generator driving step (S4), the reference signal transmission step (S5), the transmission step (S6) and the web client transmission step to the test and compensation platform are sequentially performed. Instrument assay routine (RT2) to perform (S7),  When the compensation function is selected in the test and compensation determination step (S10) sequentially  A compensation circuit routine (RT3) for performing a compensation circuit unit driving step (S11), a compensation signal transmission step (S12), a transmission step (S13), and a web client transmission step (S14) to the calibration and compensation platform. Control method of measuring system with built-in calibration and compensation function

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