CN105527601A - Fluke electric energy power standard source control system and using method thereof - Google Patents

Abstract

The invention discloses a Fluke electric energy power standard source control system which comprises a Fluke electric energy power standard source, a GPIB communication card, a test host and a test signal line, wherein the test host is in communication connection with the Fluke electric energy power standard source via the GPIB communication card, the Fluke electric energy power standard source is connected with a tested device via the test signal line, and the test host includes an operating system of the windows NT kernel, and comprises a control module in control connection with the Fluke electric energy power standard source and an interaction module through which the test host controls the control module. The invention also discloses a using method of the Fluke electric energy power standard source control system. According to the Fluke electric energy power standard source control system and the using method thereof, the electric power standard source is controlled to output assigned detection signals automatically, participation of humans is greater reduced, the possibility of faults during detection is reduced, the automation degree of detection is improved, and the working efficiency and quality of detection are improved.

Description

A kind of Fluke electric energy power standard source control system and using method thereof

Technical field

The present invention relates to electric power checkout equipment technical field, more specifically, relate to a kind of Fluke electric energy power standard source control system and using method thereof.

Background technology

Fluke6100A electric energy power standard source is the exact instrument of the measurement mechanism of a calibration measurement electric energy amplitude and quality.Utilize 6100A standard source, user can synthesize irregular signal, comprises voltage harmonic, m-Acetyl chlorophosphonazo, modulation harmonic wave, flickering, rise sharply rapid drawdown.Be widely used in verifying in product design and production test, measuring, examine and determine the power measuring devices performance etc. used.Have effective, quick, the easy advantage of detection check process, and ensure that the process accuracy very of verification, and all method of testings all meet the requirement of international standard, test result has internationally recognized property.

But Fluke6100A electric energy power standard source also has some shortcomings, as: testing process easily causes standard source output overloading owing to controlling improper, have influence on the serviceable life, measure of precision etc. of standard source on the one hand, test process also can be caused to stop on the one hand, need to restart test; Traditional detection process is based on manually, need to operate to input testing conditions in a large number at standard source control panel, when especially carrying out this kind of test item of harmonic wave/m-Acetyl chlorophosphonazo, completing one-time detection will thousands of times of panel operation button, and detection efficiency is extremely low and easily cause panel button to damage; Also need to need manual selection to each detection signal in testing process.So, service efficiency is low, is unfavorable for some carrying out detected.

Visible, when use Fluke6100A electric energy power standard source is detected, how to improve detection efficiency, be those skilled in the art's problem demanding prompt solutions.

Summary of the invention

The object of this invention is to provide a kind of Fluke electric energy power standard source control system and using method thereof, in detecting in use Fluke electric energy power standard source, improve detection efficiency.

In order to solve the problems of the technologies described above, the invention provides following technical scheme:

A kind of Fluke electric energy power standard source control system provided by the invention, comprises Fluke electric energy power standard source, GPIB communication card, Test Host and test signal line;

Described Test Host communicates to connect described Fluke electric energy power standard source by described GPIB communication card, and described Fluke electric energy power standard source is subject to inspection equipment by described test signal line connecting test;

Described Test Host is the operating system of windowsNT kernel, described Test Host comprises control module and interactive module, Fluke electric energy power standard source described in described control module control linkage, described interactive module is used for described Test Host and controls described control module.

Preferably, in above-mentioned Fluke electric energy power standard source control system, described Fluke electric energy power standard source is electric energy power standard source Fluke6100A, electric energy power standard source Fluke6100B or electric energy power standard source Fluke6105A.

Preferably, in above-mentioned Fluke electric energy power standard source control system, described electric energy power standard source Fluke6100A comprises a set of Fluke6100A electric energy power standard source, and described a set of Fluke6100A electric energy power standard source comprises a Fluke6100A electric energy power standard source host.

Preferably, in above-mentioned Fluke electric energy power standard source control system, described electric energy power standard source Fluke6100A also comprises two or three Fluke6100A electric energy power standard source subsidiary engines, and described Fluke6100A electric energy power standard source host and described Fluke6100A electric energy power standard source subsidiary engine form Three-phase Power Systems loop.

Preferably, in above-mentioned Fluke electric energy power standard source control system, described control module comprises exporting and controls the detection signal in described Fluke electric energy power standard source, flickering when described detection signal comprises frequency, electric current and voltage amplitude/phase angle, fundamental voltage current amplitude/phase angle, active power/reactive power/applied power/harmonic power, 2-100 voltage/current harmonic amplitude/phase angle, 16Hz-9kHz electric current and voltage m-Acetyl chlorophosphonazo amplitude/phase angle, short time voltage/long, voltage/current negative phase-sequence degree of unbalancedness or voltage swell/fall/short interruptions temporarily.

Fluke electric energy power standard source control system provided by the invention, mainly comprise Fluke electric energy power standard source, GPIB communication card, Test Host and test signal line, Test Host is by GPIB communication card communication connection Fluke electric energy power standard source, and Fluke electric energy power standard source is subject to inspection equipment by test signal line connecting test.When in use; operating personnel are by operating interactive module; control module control Fluke electric energy power standard source is utilized to test; repeatable operation Fluke electric energy power standard source is avoided in the process of test; improve experiment and detection efficiency, protect Fluke electric energy power standard source simultaneously.

The present invention is simple and easy to use, workable Fluke electric energy power standard source control system by a set of, appointment detection signal can be exported in automatic control electric energy power standard source, a large amount of minimizing manually participates in link, reduce the possibility of making a fault in detecting, promote and detect automaticity, improve testing efficiency and work quality.

Based on above-mentioned Fluke electric energy power standard source control system, present invention also offers a kind of Fluke electric energy power standard source control system using method, the use of above-mentioned Fluke electric energy power standard source control system, the method comprises:

Test Host is installed the supporting NI of GPIB communication card drive;

By the communication ID in interactive module input Fluke electric energy power standard source, test communications is tested;

Judge that whether communication test is successful, if communication test success, then carry out experimental test; Otherwise check that described GPIB communication card connects and communication parameter configuration;

At described interactive module input detection signal, call control module control Fluke electric energy power standard source to test by inspection testing equipment.

Fluke electric energy power standard source control system using method provided by the invention, for the use of Fluke electric energy power standard source control system provides guidance, improves experiment and detection efficiency, protects Fluke electric energy power standard source simultaneously.

Accompanying drawing explanation

In order to be illustrated more clearly in the technical scheme in the embodiment of the present invention, below the accompanying drawing used required in describing embodiment is briefly described, apparently, for those of ordinary skills, under the prerequisite not paying creative work, other accompanying drawing can also be obtained according to these accompanying drawings.

Fig. 1 is the structural drawing of the Fluke electric energy power standard source control system that the embodiment of the present invention provides;

Fig. 2 is the process flow diagram of the Fluke electric energy power standard source control system using method that the embodiment of the present invention provides.

Wherein:

1-Test Host, 101-control module, 102-interactive module, 2-GPIB communication card, 3-Fluke electric energy power standard source, 4-test signal line, 5-test is by inspection equipment.

Embodiment

The Fluke electric energy power standard source control system that the embodiment of the present invention provides, makes, when use Fluke electric energy power standard source is detected, to improve detection efficiency.Improve Fluke electric energy power standard source to carry out detecting the detection efficiency of waiting in use

Technical scheme in the embodiment of the present invention is understood better in order to make those skilled in the art person, and enable the above-mentioned purpose of the embodiment of the present invention, feature and advantage become apparent more, below in conjunction with accompanying drawing, the technical scheme in the embodiment of the present invention is described in further detail.

With reference to accompanying drawing 1, the figure shows the basic structure of the Fluke electric energy power standard source control system that the embodiment of the present invention provides.It mainly comprises Test Host 1, GPIB communication card 2, Fluke electric energy power standard source 3 and test signal line 4.Wherein, Test Host 1 communicates to connect Fluke electric energy power standard source 3 by GPIB communication card 2, Fluke electric energy power standard source 3 is by test signal line 4 connecting test by inspection equipment 5, and test is need arbitrarily to be undertaken in the device tested or equipment by Fluke electric energy power standard source 3 by inspection equipment 5.Test Host 1 comprises control module 101 and interactive module 102, and control module 101 control linkage Fluke electric energy power standard source 3, interactive module 102 controls control module 101 for Test Host 1.

Adopt the operating system of configuration windowsNT kernel at Test Host 1, internal memory is not less than 2G, and hard disk is not less than the computer in 500G, and common conventional brand can meet.

The interface in Fluke electric energy power standard source 3 is gpib interface, adopt GPIB communication card 2 connecting test main frame 1 and Fluke electric energy power standard source 3, GPIB communication card 2 is with USB adapter, the gpib interface of GPIB communication card 2 inserts in the back side, Fluke electric energy power standard source 3 special purpose interface, the USB adapter of other end can insert the USB interface of Test Host 1, so realizes the communication connection in Test Host 1 and Fluke electric energy power standard source 3.

GPIB communication card, namely GPIB-USB converter to have the instrument and equipment of gpib interface by being converted to USB interface, be connected to computing machine, the powerful function of computing machine so just can be utilized to control the instrument and equipment with gpib interface and data transmission, to realize and the listening of one or more instrument, to say, control function, and form instrument system, make our test and surveying work become quick, easy, accurately with efficient.

The control module 101 control Fluke electric energy power standard source 3 of Test Host 1 is tested, can by dynamic link library file ControlF6.dll packaged in control module 101, ControlF6.dll drives Fluke electric energy power standard source 3, detection signal is specified for realizing exporting according to optimum configurations Fluke electric energy power standard source 3, midcorse control according to Fluke electric energy power standard source 3 operates, ControlF6.dll planted agent exports the control function that Fluke electric energy power standard source 3 identifies, include but not limited to: frequency, electric current and voltage amplitude/phase angle, fundamental voltage current amplitude/phase angle, active power/reactive power/applied power/harmonic power, 2-100 voltage/current harmonic amplitude/phase angle, 16Hz-9kHz electric current and voltage m-Acetyl chlorophosphonazo amplitude/phase angle, flickering during short time voltage/long, voltage/current negative phase-sequence degree of unbalancedness, voltage swell/fall temporarily/short interruptions.Interactive module 102 parameters arranges window, but when needing arrange or adjust parameter, is undertaken adjusting or arranging by the parameter setting window of interactive module 102.Interactive module 102 can call control module 101, it is developed based on C# language, adopt the design of flush system function structure, ensure good operability and interactive experience, the interactive functions such as detection scheme management, testing process control are provided for control module 101, by interactive module 102 can newly-built, delete, editor detection scheme, in testing process, can by software push buttons easily control criterion source stop export, continue export, change detection signal.

The Fluke electric energy power standard source control system that the embodiment of the present invention provides when in use; operating personnel control Test Host 1 by operating interactive module 102; then control module 101 control Fluke electric energy power standard source 3 is utilized to test; repeatable operation Fluke electric energy power standard source 3 is avoided in the process of test; improve experiment and detection efficiency, protect Fluke electric energy power standard source 3 simultaneously.The present invention is simple and easy to use, workable Fluke electric energy power standard source control system by a set of, appointment detection signal can be exported in automatic control electric energy power standard source, a large amount of minimizing manually participates in link, reduce the possibility of making a fault in detecting, promote and detect automaticity, improve testing efficiency and work quality.

In the Fluke electric energy power standard source control system that the embodiment of the present invention provides, Fluke electric energy power standard source 3 is electric energy power standard source Fluke6100A, electric energy power standard source Fluke6100B or electric energy power standard source Fluke6105A.The electric energy power standard source of Fluke has good test function, ensures the accurate of test result, can select arbitrarily in the embodiment of the present invention.Then to test according to the communication ID in selected electric energy power standard source when in use, avoid waiting in use obscuring.

When embodiment of the present invention use electric energy power standard source Fluke6100A, generally select a set of electric energy power standard source Fluke6100A, preferably, select a Fluke6100A electric energy power standard source, described Fluke6100A electric energy power standard source is main frame, select two or three Fluke6100A electric energy power standard sources, described two or three Fluke6100A electric energy power standard sources are subsidiary engine.Fluke6100A electric energy power standard source host and Fluke6100A electric energy power standard source subsidiary engine with the use of, main and auxiliaries difference is general main frame has been with function menu and LCD screen, and subsidiary engine is the both maintenances test mass do not had, save device resource again.System uses 1 Fluke6100A as main frame, and 2 or 3 Fluke6100A simulate Three-phase Power Systems loop as subsidiary engine.Equally, when selecting electric energy power standard source Fluke6100B or electric energy power standard source Fluke6105A, also can use Fluke6100A electric energy power standard source, not repeat them here.

Based on the Fluke electric energy power standard source control system that the embodiment of the present invention provides, the embodiment of the present invention additionally provides Fluke electric energy power standard source control system using method, for the use of the Fluke electric energy power standard source control system that the embodiment of the present invention provides.

The Fluke electric energy power standard source control system using method that the embodiment of the present invention provides, mainly comprises:

S201: install the supporting NI of GPIB communication card and drive on Test Host.

Fluke company is that GPIB communication card arranges supporting NI driving, and as ni4882281.exe, driver on Test Host, drives and connect GPIB communication card.

S202: the communication ID being inputted Fluke electric energy power standard source by interactive module 102, test communications is tested.

At the communication ID in input Fluke electric energy power standard source, interactive module 102 communication parameter configuration interface, the communication ID in Fluke electric energy power standard source 3 is the identity informations identifying Fluke electric energy power standard source 3, and carrying out communication test is determine that Fluke electric energy power standard source 3 and Test Host 1 communicate to connect successfully before use to ensure.

S203: judge that whether communication test is successful.

Communication test is judged, judges whether Fluke electric energy power standard source 3 and Test Host 1 communicate to connect successful.

S204: if communication test success, then carry out experimental test.

If Fluke electric energy power standard source 3 and Test Host 1 communicate to connect successfully, then follow-up test can be carried out.

S205: otherwise, check that described GPIB communication card 2 connects and communication parameter configuration.

If Fluke electric energy power standard source 3 and Test Host 1 communicate to connect unsuccessful, then carry out GPIB communication card 2 and connect and the inspection of communication parameter configuration etc.So, S203 is returned to.

S206: input detection signal in described interactive module 102, calls control module 101 control Fluke electric energy power standard source and tests by inspection equipment 5 test.

Complete Fluke electric energy power standard source 3 to communicate to connect successfully with Test Host 1, manipulation Test Host 1 carries out experimental test.

The Fluke electric energy power standard source control system using method that the embodiment of the present invention provides, for the use of Fluke electric energy power standard source control system provides guidance, improves experiment and detection efficiency, protects Fluke electric energy power standard source simultaneously.

Each embodiment in this instructions all adopts the mode of going forward one by one to describe, between each embodiment identical similar part mutually see, what each embodiment stressed is the difference with other embodiment.

Above-described embodiment of the present invention, does not form limiting the scope of the present invention.Any amendment done within the spirit and principles in the present invention, equivalent replacement and improvement etc., all should be included within protection scope of the present invention.

Claims (6)

1. a Fluke electric energy power standard source control system, is characterized in that, comprises Fluke electric energy power standard source, GPIB communication card, Test Host and test signal line;

Described Test Host communicates to connect described Fluke electric energy power standard source by described GPIB communication card, and described Fluke electric energy power standard source is subject to inspection equipment by described test signal line connecting test;

Described Test Host is the operating system of windowsNT kernel, described Test Host comprises control module and interactive module, Fluke electric energy power standard source described in described control module control linkage, described interactive module is used for described Test Host and controls described control module.

2. Fluke electric energy power standard source control system according to claim 1, it is characterized in that, described Fluke electric energy power standard source is electric energy power standard source Fluke6100A, electric energy power standard source Fluke6100B or electric energy power standard source Fluke6105A.

3. Fluke electric energy power standard source control system according to claim 2, it is characterized in that, described electric energy power standard source Fluke6100A comprises a set of Fluke6100A electric energy power standard source, and described a set of Fluke6100A electric energy power standard source comprises a Fluke6100A electric energy power standard source host.

4. Fluke electric energy power standard source control system according to claim 3, it is characterized in that, described electric energy power standard source Fluke6100A also comprises two or three Fluke6100A electric energy power standard source subsidiary engines, and described Fluke6100A electric energy power standard source host and described Fluke6100A electric energy power standard source subsidiary engine form Three-phase Power Systems loop.

5. Fluke electric energy power standard source control system according to claim 1, it is characterized in that, described control module comprises the detection signal exporting and control described Fluke electric energy power standard source, described detection signal comprises frequency, electric current and voltage amplitude/phase angle, fundamental voltage current amplitude/phase angle, active power/reactive power/applied power/harmonic power, 2-100 voltage/current harmonic amplitude/phase angle, 16Hz-9kHz electric current and voltage m-Acetyl chlorophosphonazo amplitude/phase angle, flickering during short time voltage/long, voltage/current negative phase-sequence degree of unbalancedness or voltage swell// short interruptions falls temporarily.

6.Fluke electric energy power standard source control system using method, for the use of the Fluke electric energy power standard source control system that the claims 1-5 any one provides, it is characterized in that, the method comprises:

Test Host is installed the supporting NI of GPIB communication card drive;

By the communication ID in interactive module input Fluke electric energy power standard source, test communications is tested;

Judge that whether communication test is successful, if communication test success, then carry out experimental test; Otherwise check that described GPIB communication card connects and communication parameter configuration;

At described interactive module input detection signal, call control module control Fluke electric energy power standard source to being subject to inspection testing equipment.