CN202486204U - Converter detector - Google Patents
Converter detector Download PDFInfo
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- CN202486204U CN202486204U CN2012200411202U CN201220041120U CN202486204U CN 202486204 U CN202486204 U CN 202486204U CN 2012200411202 U CN2012200411202 U CN 2012200411202U CN 201220041120 U CN201220041120 U CN 201220041120U CN 202486204 U CN202486204 U CN 202486204U
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Abstract
The utility model relates to a converter detector and belongs to the field of fault detection. The converter detector comprises a display module, a programmable power supply module, a load module, a signal conditioning module, a passive detection module, a test module, a signal generator module, a calibration module and a singlechip. The programmable power supply module is connected with the singlechip, the load module is directly connected with the converter. The signal conditioning module is connected with the test module in series and connected with the passive detection module, a signal control switching module and the calibration module are connected in parallel, and then connected with the singlechip. The singlechip is connected with the display module. The modules are all integrated inside a case to form a portable case type structure. The converter detector is capable of automatically achieving the passive testing to the impedance of an input/output interface of the converter and the electrical property testing to the converter, and the testing comprises the functions of normal load testing, power supply bias testing and the like. Meanwhile, when the converter failure occurs, the converter detector is capable of cutting off the power supply in time and showing failure indication. Due to the fact that the detector has the calibration function, equipment can be calibrated regularly and the accuracy of testing equipment is guaranteed.
Description
Technical field
The utility model relates to a kind of convertor detector, belongs to the fault detect field.
Background technology
Explosion thing as introducing projects flies in the journey at extension; Need 3 phase 1000Hz 36V AC power supplies to start inertia device in the explosion thing; China's aircraft can only provide 3 phase 400Hz 115V AC and 27V DC power supply; In order to realize the coupling of aircraft and explosion thing, in the production domesticization process, researched and developed convertor, be used for a 27V DC power source conversion and become 3 phase 1000Hz 36V AC power supplies.In order to guarantee inertia device operate as normal in this explosion thing, phase sequence, frequency and the voltage range that converts AC power supplies to all there is strict restriction.Therefore, all to carry out strictness to above-mentioned three indexs mentioning in the process and test producing and debug.
Convertor producing and debuging in the process, will carry out passive detection to convertor input and output resistance as vitals on this type weapon of production domesticization; The convertor input and output voltage is detected; Convertor output frequency, phase sequence are detected; Also to carry out the power supply bias test, observe convertor under the condition of carrying the quality decline of dynamo-electric source, can normally export convertor.In test process, be convertor loading circuit, the band of simulating its real work carries situation, by means of testing apparatuss such as multimeter and oscillographs, comes analog power to draw partially through the manual adjustments power supply.
In prior art, whole test process complicated operation, inefficiency, workload are big, and be very high to tester's competency profiling.
The utility model content
The purpose of the utility model is in order to change complicated operation in the prior art, inefficiency, problem that workload is big, thereby has proposed a kind of convertor detector.
The purpose of the utility model realizes through following technical proposals.
A kind of convertor detector of the utility model mainly comprises: display module, programmable power supply module, load blocks, signal condition module, passive detection module, detection module, signal generator module, demarcating module and single-chip microcomputer; The all hardware functional module all is integrated in the cabinet, constitutes a portable detection case.
Its annexation is: the programmable power supply module is connected with single-chip microcomputer; Load blocks directly is connected with convertor; The signal condition module back of connecting with detection module is parallelly connected with passive detection module, signal controlling handover module, demarcating module, is connected with single-chip microcomputer again; Single-chip microcomputer is connected with display module; Above-mentioned module all is integrated in formation portable box-type structure in the cabinet.
The detection module of telling is made up of frequency detection module, phase sequence detection module, voltage detection module parallel connection.
A kind of convertor detector of the utility model also can external oscillograph, is about to demarcating module and is connected with oscillograph.
Selftest module
Selftest module principle of work block diagram such as Fig. 2 show; Single-chip microcomputer sends the I/O instruction for the programmable power supply module, and the programmable power supply module is exported 24.3VDC, 27.0VDC, 29.7VDC DC voltage respectively according to instruction, and these three magnitudes of voltage of single-chip microcomputer retaking of a year or grade also judge whether in the error allowed band; If voltage is normal; The pumping signal of Single-chip Controlling signal generator module outputting standard, this signal returns single-chip microcomputer through passive detection module, voltage measurement module, frequency measurement module, phase sequence measurement module after the conditioning of signal condition unit; Single-chip microcomputer judges that numerical value is whether in the scope of regulation; If numerical value is in specialized range, self check is normal, otherwise the self check fault.
The programmable power supply module
Form by power module, power switch control module, voltage amplitude control module three parts, as shown in Figure 4.This module is that convertor and testing circuit thereof provide direct supply, can program controlly be switched on or switched off through the power switch control module.Because convertor need do the power supply bias test, so that power module is selected for use is program-controlled.Between two adjustable terminals of programmable power supply, insert the resistance of different resistances, the electric power output voltage value is just different.
The signal condition module
Its function be convert the convertor input/output signal to the next stage functional module can identified signal.
The passive detection module
With corresponding software, under the situation of disconnecting the convertor power supply, realize the resistance detection between the different contact elements of convertor electric connector.In difference constantly, the path between two different contact elements of program control connection and the passive detection module, single-chip microcomputer retaking of a year or grade data judge that resistance is whether in the scope of stipulating.If detect normally, then carry out next step detection, otherwise stop automatically detecting, avoid under the out of order situation of convertor, detecting to its energising, cause that electronic devices and components burn in the convertor.Passive detection module principle block diagram shows like Fig. 3.
Load blocks
For convertor provides star-like resistive load, the load when being used to simulate convertor and on explosive, working, program-controlled being switched on or switched off.Resistance is selected high-power metallic shell resistive arrangement for use.
The frequency measurement module
Mainly form by shaping circuit and filtering circuit.Shaping circuit becomes the square-wave signal of standard with the waveform transformation of convertor and signal generator module output, behind filtering circuit, is uploaded to single-chip microcomputer again, and software is accomplished standard signal source and convertor output signal frequency are measured in the single-chip microcomputer, shows like Fig. 5.
The phase sequence measurement module
Mainly form by shaping circuit and circuit of testing the phase sequence.Shaping circuit becomes the square-wave signal of standard with the waveform transformation of convertor and signal generator module output, and through behind the circuit of testing the phase sequence, the output signal supplies single-chip microcomputer to judge, shows like Fig. 6.
Voltage measurement module
The function of voltage measurement module mainly realizes by voltage conversion circuit.Voltage conversion circuit becomes square-wave signal with the voltage transitions of convertor and signal generator module output, and single-chip microcomputer is handled this signals collecting in internal memory, calculate voltage effective value, and judges that this effective value whether in acceptability limit, shows like Fig. 7.
The signal generator module
The three-phase alternating current square-wave signal of generation standard is used to simulate the convertor output waveform, is uploaded to single-chip microcomputer through signal condition module, frequency measurement module, phase sequence measurement module, voltage measurement module, cooperates corresponding software to accomplish the detector self check.
Demarcating module
Single-chip Controlling signal generator module is sent pumping signal; Input to selftest module, passive detection module, voltage measurement module, frequency measurement module, phase sequence measurement module respectively; Single-chip microcomputer at first carries out the demarcation of passive detection module; Pumping signal by single-chip microcomputer retaking of a year or grade data, judges that resistance is whether in the scope of regulation through the passive detection module.Whether normal through oscillograph simultaneously at passive terminal monitoring output voltage, if detect normally, then carry out next step voltage measurement module and detect, otherwise stop automatically detecting.After getting into the voltage measurement module calibrating procedure, single-chip microcomputer collects pumping signal in the internal memory and handles, and calculates voltage effective value, with normal voltage relatively, judge that this effective value is whether in acceptability limit.Detect the demarcation that normal back gets into frequency measurement module, phase sequence measurement module, after circuit receives square-wave signal, be uploaded to single-chip microcomputer through filtering circuit, software is accomplished the frequency and the phase sequence of standard signal source and square-wave signal is measured in the single-chip microcomputer.Whether normal through oscillograph simultaneously in A, B, C three-phase terminal monitoring output voltage frequency, phase sequence.Each module detects single-chip microcomputer output of all normal back and demarcates normal signal, and the self check green light, to detect green light all bright, otherwise two red lights are bright, as shown in Figure 8.
Beneficial effect
1, the convertor detector can be realized convertor output voltage, frequency and phase sequence test, and analog power bias test function can be used for convertor production and debugs, and also can satisfy the user and keep in repair needs.
2, the convertor detector replaces the manual adjustments power supply with programmable power supply; Frequency detection module, phase sequence detection module, the voltage detection module inner with detector have realized multimeter and oscillographic function; Replace high power load resistance with load blocks, the measuring ability miniaturization of convertor the most at last, be integrated in the portable detection case.
3, the convertor detector possess easy and simple to handle, safe and reliable, be easy to carry, characteristics such as convenient demarcation.
Description of drawings
Fig. 1 is a convertor detector principle of work block diagram;
Fig. 2 is the selftest module theory diagram;
Fig. 3 is a passive detection module principle block diagram;
Fig. 4 is a programmable power supply module principle block diagram;
Fig. 5 is a frequency measurement module composition frame chart;
Fig. 6 is a phase sequence measurement module composition frame chart;
Fig. 7 is the voltage measurement module composition frame chart;
Fig. 8 is the demarcating module theory diagram;
Fig. 9 is the convertor output waveform figure;
Figure 10 is each program module interface relationship figure;
Figure 11 is the self check subroutine flow chart;
Figure 12 is for detecting subroutine flow chart;
Figure 13 is frequency, phase sequence, voltage detecting subroutine software flow pattern;
Figure 14 is for demarcating subroutine flow chart.
Embodiment
Below in conjunction with accompanying drawing and embodiment the utility model is further specified.
Embodiment 1
The convertor detector adopts two CPU controls, through being solidificated in the orderly work of the special software realization hardware module in the single-chip microcomputer, constitutes an organic whole, the common automatic detection of accomplishing convertor.
A kind of convertor detector of the utility model; Be made up of hardware and software two parts, hardware mainly comprises: display module, programmable power supply module, load blocks, signal condition module, passive detection module, detection module, signal generator module, demarcating module and single-chip microcomputer; The all hardware functional module all is integrated in the cabinet, constitutes a portable detection case, and is as shown in Figure 1.
Its annexation is: the programmable power supply module is connected with single-chip microcomputer; Load blocks directly is connected with convertor; The signal condition module back of connecting with detection module is parallelly connected with passive detection module, signal controlling handover module, demarcating module, is connected with single-chip microcomputer again; Single-chip microcomputer is connected with display module; Above-mentioned module all is integrated in formation portable box-type structure in the cabinet.
Wherein the detection module of telling is made up of frequency detection module, phase sequence detection module, voltage detection module parallel connection.
The convertor detector has self check, measuring ability, and regularly accomplishes calibrating function.
Self-checking function
After detector powers on, self-test switch is pulled " ON " state, rest switch is at " OFF " state; Detector carries out self check, and single-chip microcomputer sends the I/O instruction for the programmable power supply module, and the programmable power supply module is exported 24.3VDC, 27.0VDC, 29.7VDC DC voltage respectively according to instruction; These three magnitudes of voltage of single-chip microcomputer retaking of a year or grade judge whether in the error allowed band that also if voltage is normal, single-chip microcomputer sends instruction for the signal generator module; The signal generator module produces the 1000Hz three-phase ac signal of standard, and this signal is delivered to frequency detection module, phase sequence detection module, voltage detection module detection after the conditioning of signal condition unit; And testing result is uploaded to single-chip microcomputer; Single-chip microcomputer judges that whether testing result is consistent with the standard signal of signal generator module generation, if consistent, explains that detection path is normal; Single-chip microcomputer provides self check and normally indicates, and the permission program continues operation; Otherwise provide the self check indicating fault, the terminator operation.
Measuring ability
After detector powers on, detector switch is pulled " ON " state, rest switch is at " OFF " state; Single-chip Controlling programmable power supply module is exported 24.3VDC, 27.0VDC, 29.7VDC DC voltage respectively and is supplied power to convertor, convertor output 1000Hz three-phase alternating-current supply, and this power supply is divided into two-way; One the tunnel is connected on the load unit; Power rating when being used to simulate convertor and on bullet, working, another road are delivered to frequency detection module, phase sequence detection module, voltage detection module and are detected after the conditioning of signal condition unit; And testing result is uploaded to single-chip microcomputer; Single-chip microcomputer judges that testing result whether in normal range, detects normal indication if in normal range, provide, otherwise provides indicating fault.
Calibrating function
When detector needs it is demarcated to demarcating after date; Timing signal is pulled calibration switch " ON " state, and rest switch is at " OFF " state, and detector is carried out calibrating procedure; Send pumping signal for respectively passive detection module, three-phase voltage detection module, frequency detection module, phase sequence detection module; These modules are detected, if all operation is normal for these modules, then the normal pilot lamp of self check, the normal pilot lamp of detection (green light) are all lighted on the panel; If there is one or more undesired, then self check malfunction indicator lamp, detection failure pilot lamp (red light) are lighted.When detector is carried out calibrating procedure; Through the output of the demarcation socket on the detector panel with oscillograph monitoring pumping signal; If the pumping signal that oscillograph monitors is consistent with the signal of design; And the normal pilot lamp of self check is all lighted with the normal pilot lamp of detection, explains that detector is in proper working order, can continue on for convertor and detect.Otherwise, the detector fault is described, can not be used to detect convertor, need detector is keeped in repair.
The software design explanation
The selection of Software Development Platform
Detector The software adopted AVR assembly language is write, exploitation under AVR Studio 3.56 applied software development environment, debugging.Adopt AVR JTAG ICE in-circuit emulation programmable device will debug on the good ATmega16L single-chip microcomputer of program burn writing in detector, cooperate operation with its hardware.AVR Studio 3.56 moves under software environments such as Windows2000, WindowsXP.
Software design
Functional requirement according to software; Single-chip microcomputer is embedded in master routine, self check subroutine, detection subroutine, demarcates subroutine supervisor module, and self check subroutine, detection subroutine, demarcation subroutine comprise power supply again respectively and detect subroutine, pumping signal subroutine, frequency detecting subroutine, phase sequence detection subroutine, voltage detecting subroutine.Each program module interface relationship figure such as Figure 10 show.
The self check subroutine is shown in figure 11, and single-chip microcomputer outputting standard square-wave signal carried out self check to each detection module after detector powered on, and after self check was normal, the self check pilot lamp was bright, can detect convertor.
The detection subroutine is shown in figure 12, and detector at first carries out passive detection, after detection is normal; Program continue to be carried out, and respectively to convertor input 24.3VDC, 27.0VDC, three kinds of voltages of 29.7VDC, and calls that frequency detecting subroutine, phase sequence detect subroutine, the voltage detecting subroutine detects the convertor output waveform; If all detect normally, then provide convertor and normally indicate, there is a detection undesired; Automatic Program stops operation, and provides the convertor indicating fault.Frequency, phase sequence, voltage detecting subroutine are shown in figure 13.
A kind of convertor detector of the utility model; Can accomplish passive detection automatically, accomplish electric performance test convertor to the impedance of convertor IO interface; Comprise functions such as normal load detection, power supply bias test, when convertor breaks down, can in time cut off power supply and provide indicating fault.Detector has calibrating function, regularly equipment is demarcated, and has guaranteed the precision of inspection machine.
Claims (3)
1. a convertor detector is characterized in that: comprise display module, programmable power supply module, load blocks, signal condition module, passive detection module, detection module, signal generator module, demarcating module and single-chip microcomputer; Its annexation is: the programmable power supply module is connected with single-chip microcomputer; Load blocks directly is connected with convertor; The signal condition module back of connecting with detection module is parallelly connected with passive detection module, signal controlling handover module, demarcating module, is connected with single-chip microcomputer again; Single-chip microcomputer is connected with display module; Above-mentioned module all is integrated in formation portable box-type structure in the cabinet.
2. a kind of convertor detector as claimed in claim 1 is characterized in that: said detection module is made up of frequency detection module, phase sequence detection module, voltage detection module parallel connection.
3. a kind of convertor detector as claimed in claim 1 is characterized in that: also comprise oscillograph, said demarcating module is connected with oscillograph.
Priority Applications (1)
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CN2012200411202U CN202486204U (en) | 2012-02-09 | 2012-02-09 | Converter detector |
Applications Claiming Priority (1)
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CN2012200411202U CN202486204U (en) | 2012-02-09 | 2012-02-09 | Converter detector |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN102565517A (en) * | 2012-02-09 | 2012-07-11 | 哈尔滨建成集团有限公司 | Converter detector |
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2012
- 2012-02-09 CN CN2012200411202U patent/CN202486204U/en not_active Expired - Fee Related
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN102565517A (en) * | 2012-02-09 | 2012-07-11 | 哈尔滨建成集团有限公司 | Converter detector |
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Legal Events
Date | Code | Title | Description |
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C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20121010 Termination date: 20150209 |
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EXPY | Termination of patent right or utility model |