CN204389554U - A kind of standard meter protection system avoiding dangerous currents signal to damage - Google Patents
A kind of standard meter protection system avoiding dangerous currents signal to damage Download PDFInfo
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- CN204389554U CN204389554U CN201420829748.8U CN201420829748U CN204389554U CN 204389554 U CN204389554 U CN 204389554U CN 201420829748 U CN201420829748 U CN 201420829748U CN 204389554 U CN204389554 U CN 204389554U
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Abstract
Avoid the standard meter protection system that dangerous currents signal damages, comprising: current sample module, for by current signal digitizing accurately; Main processing block, for the parameter such as amplitude, cycle, phase place of accurate calculated current signal, upgrades the running parameter of wave filter to carry out effective filtering in conjunction with result of calculation; Current signal recovers module, for digitized current signal is converted to simulating signal, and precisely compensates the distorted signals caused by AD/DA conversion, circuitry consumes and filtering process, with basic restoring current signal; Two place's on-off control circuits, for stoping the stochastic larger electric current occurred in tested equipment transient state, waiting for that filter parameter upgrades and avoiding open circuit simultaneously; The utility model can prevent dangerous currents signal from damaging standard meter, and does not affect the verification result of standard meter to tested equipment, and the utility model and Expanding design thereof can be widely used in protecting standard instrument to be impacted from dangerous electric signal.
Description
Technical field
The utility model relates to a kind of dangerous currents signal of avoiding and damages the standard meter protection system of standard meter, can in the verification process of power equipment, and the dangerous currents signal avoiding tested equipment to export impacts even failure criteria instrument.
Background technology
Any power equipment all will be sent to equipment Inspection department and is checked or calibrates in official hour, only has the power equipment of assay approval could normally use before the deadline.Due to the energising characteristic (as open/power-off occur spike) of electronic component, device aging or device damage, in device detection procedure, tested equipment probably exports dangerous its measuring accuracy of electric signal normal of impact instrumental effects, even failure criteria instrument.
In daily power equipment calibration operation, utility model people encounters the impaired phenomenon of electric current port of standard meter, test finds the electric current port leakproof of checked object, but be mingled with stochastic larger signal (much larger than normal amplitude), through repeatedly proving this abnormal current signal impact failure repeatedly standard meter in its current signal exported.
The current research about equipment calibrating field mainly concentrates on and improves calibration method, improve measuring accuracy, and the aspect such as the precision of raising apparatus output signal and degree of stability, there is not yet the Research Literature about avoiding tested equipment to export dangerous electric signal injury criteria instrument.Current signal through exporting plurality of devices catches, repeatedly find to be mingled with hazard component in normal current signal, and for electronic equipment, transient state (as open/shutdown transient, and perform switching range, start outputs, zero etc. operate after moment) in occur spike, device aging even device damage be all common phenomenon, if but allow the dangerous electric signal caused by these reasons flow into standard meter, very likely irreversible injury is brought to standard meter.Therefore in the urgent need to studying a kind of standard meter protection system avoiding dangerous currents signal to damage.
Utility model content
Technical problem to be solved in the utility model, be just to provide a kind of structure simple, can the dangerous currents signal infringement that exports from tested equipment of protecting standard instrument and do not affect the standard meter protection system of verification result.
Solve the problems of the technologies described above, the utility model adopts following technical scheme:
Avoid the standard meter protection system that dangerous currents signal damages, comprise a standard meter, characterized by further comprising:
Current sample module, carries out high-precision digital for the current signal exported tested equipment, and it comprises the high-precision current mutual inductance unit for sensor current signal and the AD sampling unit for signal digital that are connected successively;
Main processing block, for the parameter of the current signal that accurate calculating current sampling module exports, comprise amplitude, cycle and phase place, it comprise connect successively for calculating current amplitude, cycle and the current parameters computing unit of phase information and the filter unit for signal filtering;
Current signal recovers module, and the digitizing current signal for exporting main processing block carries out simulated and precisely compensates comprising the current signal distortion that AD/DA converts, circuitry consumes and filtering process reason cause from current amplitude and phase place; It comprises for the DA converting unit of signal imitation, for the current signal amplifying unit of simulating signal amplification, current signal amplitude compensation unit, the current signal phase compensation unit for phase compensation and the current signal conditioning unit for signal integration for amplitude compensation; Wherein, the signal input part of DA converting unit is connected with the filter unit signal output part of main processing block, signal output part is connected with the signal input part of current signal amplifying unit, and the signal output part of current signal amplifying unit is connected with the signal input part of current signal conditioning unit; The signal input part of current signal amplitude compensation unit is connected with the current parameters computing unit signal output part of main processing block, signal output part is connected with the signal input part of current signal conditioning unit; The signal input part of current signal phase compensation unit is connected with the current parameters computing unit signal output part of main processing block, signal output part is connected with the signal input part of current signal conditioning unit; The signal output part of current signal conditioning unit connects the current signal input end of described standard meter;
Second on-off control circuit 2, for being in off-state in wait main processing block filter unit parameter renewal process, guarantees that wave filter just has current signal inflow standard meter after can normally working;
First on-off control circuit 1, for being in closure state when the second on-off control circuit 2 disconnects, guaranteeing to there will not be open circuit, and avoiding the current direction standard meter in tested equipment transient state;
Signal input part and the signal input part of the first on-off control circuit 1 of described current sample module are connected the current output terminal mouth of tested equipment respectively, the described signal output part of the first on-off control circuit 1 is connected with the high-precision current mutual inductance unit of the current input terminal mouth of tested equipment and current sample module, and the signal output part (being also the output of AD sampling unit) of described current sample module is connected with the signal input part of described second on-off control circuit 2 and the current parameters computing unit signal input part of main processing block; The signal output part of described second on-off control circuit 2 is connected with the signal input part of described main processing block, and the signal output part of described main processing block is connected with the signal input part of the second on-off control circuit 2 with the signal input part of described signal recover module, the signal input part of the first on-off control circuit 1 respectively; The signal output part of described signal recover module is connected with the current input terminal mouth of described standard meter; The current output terminal mouth of described standard meter is connected with the current input terminal mouth of described tested equipment.
Described main processing block configures realization on the FPGA processor being integrated with DSP function, and DSP is the english abbreviation of digital signal processing, and FPGA is the english abbreviation of field programmable gate array.
Described filter cell selects digital band-pass filter.
The course of work:
When tested equipment is in transient state, the first on-off control circuit 1 closes, and the second on-off control circuit 2 disconnects, and can guarantee that the electric current in transient state can not flow into standard meter like this; When filter unit is in filter parameter renewal process, the first on-off control circuit 1 closes, and the second on-off control circuit 2 disconnects, and can guarantee like this to there will not be current interruption when wave filter is in labile state, does not also have electric current and flows into standard meter.
Compared with prior art, the utility model has following significant technique effect:
Due to the on/off electrical characteristics of electronic component, the transient current signal of tested equipment is probably containing stochastic larger signal, and transient signal can be removed and can not cause current interruption by the utility model automatically; Due to the reason such as device aging, device damage, the steady state current signals of tested equipment is very easily mingled with hazard component, and the utility model can carry out filtering to the stochastic larger current signal composition likely occurred in steady state current signals; The utility model precisely can compensate the current signal distortion caused by reasons such as AD/DA conversion, circuitry consumes, filtering process from current amplitude and phase place; Based on above-mentioned three technique effects, the utility model can realize the verification result do not affected protecting standard instrument while tested equipment.
Accompanying drawing explanation
Below in conjunction with the drawings and specific embodiments, the utility model is described in further detail.
Fig. 1 is composition frame chart of the present utility model;
Fig. 2 is the workflow of the utility model embodiment.
Embodiment
In the present embodiment, tested equipment is a Multifunctional electric measurement product calibrating installation, and its current output signal is undertaken observing and catching by Fluke MSO5104 oscillograph after being changed by Fluke A40B-50A voltage divider.If allow its B phase export the AC signal of 20A/50Hz, in the waveform that moment after performing startup output captures, can see and occur stochastic larger current signal along with normal sinusoidal current signal, from the waveform tested equipment being performed to switching range operation rear moment captured, the peak current pulse having occurred that amplitude is very large also can be seen.
As shown in Figure 1, be a kind of standard meter protection system avoiding dangerous currents signal to damage of the utility model, comprise:
Current sample module, carries out high-precision digital for the current signal exported tested equipment;
Main processing block, for the parameter such as amplitude, cycle, phase place of accurate calculated current signal;
Current signal recovers module, for carrying out simulated to digitized current signal, and from current amplitude and phase place, the current signal distortion caused by reasons such as AD/DA conversion, circuitry consumes, filtering process is precisely compensated, final integration conditioning makes the parameter of new current signal and original current signal almost consistent, and its consistent degree can be guaranteed not affect the verification result of standard meter to tested equipment;
First on-off control circuit 1, for when the second on-off control circuit 2 disconnects, it is in closure state and guarantees to there will not be open circuit, and avoids the current direction standard meter in tested equipment transient state;
Second on-off control circuit 2, for waiting in the process that filter parameter upgrades, it is being in off-state and is guaranteeing that wave filter just has current signal inflow standard meter after can normally working;
In the present embodiment, the current output terminal mouth of tested equipment is connected with the signal input part of the signal input part of current sample module with the first on-off control circuit 1, the signal output part of the first on-off control circuit 1 is connected with the current input terminal mouth of tested equipment, and the signal output part of current sample module is connected with the signal input part of the second on-off control circuit 2, the signal input part of main processing block; The signal output part of the second on-off control circuit 2 is connected with the filter unit of main processing block, and the signal output part of main processing block is connected with the signal input part of the signal input part of signal recover module, the first on-off control circuit 1, the signal input part of the second on-off control circuit 2; The signal output part of signal recover module is connected with the current input terminal mouth of standard meter; The current output terminal mouth of standard meter is connected with the current input terminal mouth of tested equipment.
Current sample module comprises for the high-precision current mutual inductance unit of sensor current signal, the AD sampling unit for signal digital; Wherein, the signal input part of high-precision current mutual inductance unit is connected with the current output terminal mouth of tested equipment; The signal output part of high-precision current mutual inductance unit is connected with the signal input part of AD sampling unit; The signal output part of AD sampling unit is the signal output part of described current sample module.
Main processing block comprises for the filter unit of signal filtering and the current parameters computing unit for information such as calculating current amplitude, cycle and phase places; Wherein, the signal input part of current parameters computing unit is connected with the signal output port of AD sampling unit, and the signal output part of current parameters computing unit is connected with the signal input part of filter unit; The signal input part of filter unit is connected with the signal output port of the second on-off control circuit 2; The signal output part of filter unit, the signal output part of current parameters computing unit are the signal output part of described main processing block; Main processing block configures realization on the FPGA processor being integrated with DSP function.
The signal input part of the first on-off control circuit 1 is connected with the signal output part of the current output terminal mouth of tested equipment, filter unit, and the signal output part of the first on-off control circuit 1 is connected with the current input terminal mouth of tested equipment.
The signal input part of the second on-off control circuit 2 is connected with the signal output part of AD sampling unit, the signal output part of filter unit, and the signal output part of the second on-off control circuit 2 is connected with the signal input part of filter unit.
Current signal recovers module and comprises for the DA converting unit of signal imitation, current signal amplifying unit, the current signal amplitude compensation unit for amplitude compensation, the current signal phase compensation unit for phase compensation, the current signal conditioning unit for signal integration for simulating signal amplification; Wherein, the signal input part of DA converting unit is connected with the signal output part of filter unit, and the signal output part of DA converting unit is connected with the signal input part of current signal amplifying unit; The signal output part of current signal amplifying unit is connected with the signal input part of current signal conditioning unit; The signal input part of current signal amplitude compensation unit is connected with the signal output part of current parameters computing unit, and the signal output part of current signal amplitude compensation unit is connected with the signal input part of current signal conditioning unit; The signal input part of current signal phase compensation unit is connected with the signal output part of current parameters computing unit, and the signal output part of current signal phase compensation unit is connected with the signal input part of current signal conditioning unit; The signal output part of current signal conditioning unit is used for the current signal input end of connection standard instrument, and the signal output part of current signal conditioning unit is the signal output part that current signal recovers module.
As shown in Figure 2, be the workflow of the utility model embodiment:
According to tested equipment calibrating rule, during output current, circuit can not open circuit; When changing range, must first by output zero; After setting the current parameters of needs, export just exportable current signal by starting; Just can power-off after exporting zero.A kind of standard meter protection system avoiding dangerous currents signal to damage described in the utility model; its course of work can be expressed as follows: before (1) this system electrification; first on-off control circuit 1 closes; second on-off control circuit 2 disconnects; even if there is stochastic larger current signal owing to powering on like this, also can not normal of impact instrument.(2) after this system electrification initialization or electric current export zero, now tested equipment can not output current, first on-off control circuit 1 closes, second on-off control circuit 2 disconnects, the benefit done like this is: perform the moment after the operations such as switching range, zero or power-off, tested equipment is in transient state, and the stochastic larger current signal of output can not flow into standard meter; Arrange current parameters to tested equipment, start output current signal, there will not be open circuit, and perform the moment after starting output, tested equipment is in transient state, and the current signal being mingled with hazard component can not flow into standard meter.(3) after the current signal stable in circuit, current parameters computing unit calculates the information such as amplitude, cycle, phase place of current signal; Then upgrade the filter parameter in filter unit, open filtering operation; Calculate current compensation parameter, starting current signal compensation works; First closed second on-off control circuit 2, disconnect the first on-off control circuit 1 again, the current signal that tested like this equipment exports can Engage of standard instrument, and hazard component is wherein by filtering, and the current signal that current signal recovery module can ensure finally to flow into standard meter does not affect calibration operation; Standard meter starts calibration operation.(4) once detect that current signal changes, close the first on-off control circuit 1 immediately, disconnect the second on-off control circuit 2, then go to perform (3) process.(5) if current signal is made zero, then go to perform (2) process.A kind of standard meter protection system avoiding dangerous currents signal to damage is run according to above-mentioned flow process, until complete calibration operation.
Claims (3)
1. the standard meter protection system that dangerous currents signal can be avoided to damage, comprises a standard meter, characterized by further comprising:
Current sample module, carries out high-precision digital for the current signal exported tested equipment, and it comprises the high-precision current mutual inductance unit for sensor current signal and the AD sampling unit for signal digital that are connected successively;
Main processing block, for the parameter of the current signal that accurate calculating current sampling module exports, comprise amplitude, cycle and phase place, it comprise connect successively for calculating current amplitude, cycle and the current parameters computing unit of phase information and the filter unit for signal filtering;
Current signal recovers module, and the digitizing current signal for exporting main processing block carries out simulated and precisely compensates comprising the current signal distortion that AD/DA converts, circuitry consumes and filtering process reason cause from current amplitude and phase place; It comprises for the DA converting unit of signal imitation, for the current signal amplifying unit of simulating signal amplification, current signal amplitude compensation unit, the current signal phase compensation unit for phase compensation and the current signal conditioning unit for signal integration for amplitude compensation; Wherein, the signal input part of DA converting unit is connected with the filter unit signal output part of main processing block, signal output part is connected with the signal input part of current signal amplifying unit, and the signal output part of current signal amplifying unit is connected with the signal input part of current signal conditioning unit; The signal input part of current signal amplitude compensation unit is connected with the current parameters computing unit signal output part of main processing block, signal output part is connected with the signal input part of current signal conditioning unit; The signal input part of current signal phase compensation unit is connected with the current parameters computing unit signal output part of main processing block, signal output part is connected with the signal input part of current signal conditioning unit; The signal output part of current signal conditioning unit connects the current signal input end of described standard meter;
Second on-off control circuit (2), for being in off-state in wait main processing block filter unit parameter renewal process, guarantees that wave filter just has current signal inflow standard meter after can normally working;
First on-off control circuit (1), for being in closure state when the second on-off control circuit (2) disconnects, guarantees to there will not be open circuit, and avoids the current direction standard meter in tested equipment transient state;
Signal input part and the signal input part of the first on-off control circuit (1) of described current sample module are connected the current output terminal mouth of tested equipment respectively, the described signal output part of the first on-off control circuit (1) is connected with the high-precision current mutual inductance unit of the current input terminal mouth of tested equipment and current sample module, and the signal output part of described current sample module is connected with the signal input part of described second on-off control circuit (2) and the current parameters computing unit signal input part of main processing block; The signal output part of described second on-off control circuit (2) is connected with the signal input part of described main processing block, and the signal output part of described main processing block is connected with the signal input part of the second on-off control circuit (2) with the signal input part of described signal recover module, the signal input part of the first on-off control circuit (1) respectively; The signal output part of described signal recover module is connected with the current input terminal mouth of described standard meter; The current output terminal mouth of described standard meter is connected with the current input terminal mouth of described tested equipment.
2. the standard meter protection system avoiding dangerous currents signal to damage according to claim 1, is characterized in that: described main processing block configures realization on the FPGA processor being integrated with DSP function.
3. the standard meter protection system avoiding dangerous currents signal to damage according to claim 2, is characterized in that: described filter cell is digital band-pass filter.
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CN201420829748.8U CN204389554U (en) | 2014-12-24 | 2014-12-24 | A kind of standard meter protection system avoiding dangerous currents signal to damage |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN104535809A (en) * | 2014-12-24 | 2015-04-22 | 广东电网有限责任公司电力科学研究院 | Standard instrument protecting system capable of avoiding dangerous current signal damage |
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2014
- 2014-12-24 CN CN201420829748.8U patent/CN204389554U/en not_active Withdrawn - After Issue
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN104535809A (en) * | 2014-12-24 | 2015-04-22 | 广东电网有限责任公司电力科学研究院 | Standard instrument protecting system capable of avoiding dangerous current signal damage |
CN104535809B (en) * | 2014-12-24 | 2017-05-03 | 广东电网有限责任公司电力科学研究院 | Standard instrument protecting system capable of avoiding dangerous current signal damage |
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Granted publication date: 20150610 Effective date of abandoning: 20170503 |
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