CN204479739U - A kind of high-precision high voltage DC mutual inductor verification instrument - Google Patents

Abstract

A kind of high-precision high voltage DC mutual inductor verification instrument, it is characterized in that: comprise the clock synchronization module, AD conversion module, protocol library module and the human-machine interface module that are connected with main control module respectively, described AD conversion module is circumscribed with voltage transformation module, protocol library module is circumscribed with network communication module, described AD conversion module is the high-precision A/D modular converter of two AD framework, and described voltage transformation module is divided into voltage (V/V) modular converter and current/voltage (I/V) modular converter.Utility model device possesses the ability of some AC signal verification in direct current signal high precision test and direct current signal, the mode of its height frequency double A/D sampling both can carry out high-precision sampling to the signal of direct current and low-frequency range part accurately, can not ignore again some useful signals in intermediate frequency range.

Description

A kind of high-precision high voltage DC mutual inductor verification instrument

Technical field

Utility model relates to a kind of high-precision high voltage DC mutual inductor verification instrument.

Background technology

Domestic calibration equipment direct current instrument transformer also being lacked to integration at present, common laboratory or scene all adopt existing capture card or digital multimeter to add virtual instrument technique to have come, digital multimeter and high-precision capture card can be generally laboratory equipment, easily be disturbed at the scene, and frequently should not move transport, particularly easily cause the accident in many, the wiring complex environment of calibration equipment at the scene.Therefore, integrated design should be adopted to the equipment that direct current instrument transformer verifies, split design can bring extra error, and other are as uncertain factors such as signal overlap joint, ground connection, it also may cause common impedance error or other extra errors because of wiring etc. except adding broad theory uncertainty of measurement; In addition; a DC voltage of high-voltage transmission or DC current are in fact all with abundant AC signal; these signals may comprise protection act information, need direct current instrument transformer accurately can reappear a signal, so need research and develop the DC mutual inductor verification instrument possessing and verify this AC signal.At present, abroad Japan, the U.S. etc. are only based on the DC mutual inductor verification instrument that secondary singal is modulating output, there are no the DC mutual inductor verification instrument exported based on digital signal.

Utility model content

Utility model technical matters to be solved, just be to provide a kind of high-precision high voltage DC mutual inductor verification instrument, it adopts portable integrated design, measure accurately and reliably, can verify the high voltage direct current mutual inductor of numeral output or modulating output, it also possesses the ability verified some AC signal in direct current signal simultaneously.

Solve the problems of the technologies described above, the technical scheme that utility model adopts is as follows:

A kind of high-precision high voltage DC mutual inductor verification instrument, it is characterized in that: comprise the clock synchronization module, AD conversion module, protocol library module and the human-machine interface module that are connected with main control module respectively, described AD conversion module is circumscribed with voltage transformation module, protocol library module is circumscribed with network communication module, described AD conversion module is the high-precision A/D modular converter of two AD framework, and described voltage transformation module is divided into voltage (V/V) modular converter and current/voltage (I/V) modular converter.

Described current/voltage (I/V) modular converter contains the platinum resistance that current signal can be converted to voltage signal high precision high stability degree.

Described double A/D modular converter is made up of the ADS1278 analog to digital converter of low frequency part and the AD7608 analog to digital converter of intermediate-frequency section, a kind of modulus conversion chip is used for the sampling with high precision of direct current and low frequency signal, another modulus conversion chip is used for the sampling with high precision of intermediate-freuqncy signal, and high precision double A/D modular converter coordinates the sampling functions of clock synchronization module implement device low frequency high precision and intermediate frequency wide region.

Be provided with high stable power module to power to voltage (V/V) modular converter, current/voltage (I/V) modular converter and high precision double A/D modular converter respectively.

Described main control module is ADSP609 double-nuclear DSP core.

Described clock synchronization module, network communication interface module, power module, voltage (V/V) modular converter and current/voltage (I/V) modular converter are connected with the external world with analog input interface respectively by the synchronous clock interface of device interface, network communication interface, power interface, main control module passes through user's input interface and inputs instruction.

The composition of described current/voltage (I/V) modular converter and close in succession and be:

Current source output is connected to sampling with high precision resistance R, current source output current I obtains voltage U 1 by sampling with high precision resistance R, voltage U 1 is connected to the negative receiving end of the first operational amplifier, the other end ground connection of the positive receiving end of the first operational amplifier, current source current input end and sampling with high precision resistance R, the negative receiving end of the first op-amp output voltage U2 to the second operational amplifier A D8220, the positive receiving end ground connection of the second operational amplifier, the second op-amp output voltage U3.

The first described operational amplifier is high precision, the instrument amplifier AD8220 of high impedance, the second operational amplifier are OPA2277 high precision operating amplifier.

This tester does not comprise the improvement to computer program, built-in computer program is all existing technology, one of improvements of this device are that the sampling with high precision module of device uses two AD framework, by using two AD converter to reach the sample requirement of compatible low frequency high precision and intermediate frequency wide region, reach the ability possessing and some AC signal in direct current signal is verified.

Compared with prior art, the utility model has following significant effect:

Possesses the ability of some AC signal verification in direct current signal high precision test and direct current signal, the mode of its height frequency double A/D sampling both can carry out high-precision sampling to the signal of direct current and low-frequency range part accurately, can not ignore again some useful signals in intermediate frequency range.

The method adopting high-accuracy resistance versus current to carry out sampling compares the advantage adopting Zero flux sensor other technical method existing to there is low cost, high precision, high stable.

Possess analog interface and the communication interface based on IEC61850, laboratory or field-checking can be carried out to the high-voltage dc voltage of analog output and digital output, current transformer.

In practice, the utility model has high accuracy of measurement, wherein, direct current measurement accuracy: DC analogue quantity verifying function is better than 0.05 grade, the accuracy of DC digital amount verifying function is better than 0.05 grade; Frequency response measurement accuracy: amplitude is better than 0.2% (50Hz-1200Hz).

Accompanying drawing explanation

Below in conjunction with the drawings and specific embodiments, utility model is described in further detail.

Fig. 1 is the general frame of utility model;

Fig. 2 is the interface framework of tester;

Fig. 3 is current/voltage (I/V) modular converter schematic diagram.

Embodiment

Be illustrated in figure 1 the utility model high-precision high voltage DC mutual inductor verification instrument embodiment, comprise the clock synchronization module, AD conversion module, protocol library module and the human-machine interface module that are connected with main control module respectively, AD conversion module is circumscribed with voltage transformation module, protocol library module is circumscribed with network communication module.

Wherein, AD conversion module is the high-precision A/D modular converter of two AD framework, double A/D modular converter is made up of the ADS1278 analog to digital converter of low frequency part and the AD7608 analog to digital converter of intermediate-frequency section, a kind of modulus conversion chip is used for the sampling with high precision of direct current and low frequency signal, another modulus conversion chip is used for the sampling with high precision of intermediate-freuqncy signal, and high precision double A/D modular converter coordinates the sampling functions of clock synchronization module implement device low frequency high precision and intermediate frequency wide region; Voltage transformation module is divided into voltage (V/V) modular converter and current/voltage (I/V) modular converter, and current/voltage (I/V) modular converter contains the platinum resistance that current signal can be converted to voltage signal high precision high stability degree.

In addition, be also provided with high stable power module to power to voltage (V/V) modular converter, current/voltage (I/V) modular converter and high precision double A/D modular converter respectively.

Described main control module is ADSP609 double-nuclear DSP core; Described clock synchronization module, network communication interface module, power module, voltage (V/V) modular converter and current/voltage (I/V) modular converter are connected with the external world with analog input interface respectively by the synchronous clock interface of device interface, network communication interface, power interface, main control module passes through user's input interface and inputs instruction.

The composition of current/voltage (I/V) modular converter and close in succession and be: current source output is connected to sampling with high precision resistance R, current source output current I obtains voltage U 1 by sampling with high precision resistance R, voltage U 1 is connected to the negative receiving end of the first operational amplifier, the other end ground connection of the positive receiving end of the first operational amplifier, current source current input end and sampling with high precision resistance R, the negative receiving end of the first op-amp output voltage U2 to the second operational amplifier A D8220, the positive receiving end ground connection of the second operational amplifier, the second op-amp output voltage U3.

First operational amplifier is high precision, the instrument amplifier AD8220 of high impedance, the second operational amplifier are OPA2277 high precision operating amplifier; High stable power module powers to separately voltage (V/V) modular converter, current/voltage (I/V) modular converter, high precision double A/D modular converter, provides the power environment of its high-precision requirement; Voltage (V/V) modular converter and current/voltage (I/V) modular converter convert suitable signal to by the signal exported by front end mutual inductor, analog to digital conversion is carried out by high precision double A/D, current/voltage (I/V) modular converter adopts the platinum resistance of high stability in addition, and its degree of stability reaches 0.1ppm; Clock synchronization module provides synchronizing signal for tested with standard mutual inductor; The input of the proprietary protocol of network communication interface and protocol library compatible to IEC 61850 agreement and each producer, conveniently expands, upgrades and calls; Human-machine interface module provides configuration parameters, checks check results, tester is carried out to the functions such as program control operation.

As shown in Figure 2, it is the interface framework of utility model based on the high voltage direct current mutual-inductor tester of the two AD sampling of high precision, wherein analog input interface provides the tested of modulating output and standard high-voltage direct current instrument transformer interface, wherein network communication interface provides the tested of digital output and standard high-voltage direct current instrument transformer interface, wherein synchronous clock interface provides tested and standard high-voltage direct current instrument transformer synchronizing signal, and wherein power interface is the general supply entrance of device.

In the implementation case, voltage (V/V) modular converter and current/voltage (I/V) modular converter are important component part, current/voltage (I/V) modular converter schematic diagram is as Fig. 3, and wherein I is electric current input, and R is sampling with high precision resistance.Current/voltage (I/V) modular converter its adopt the instrument amplifier AD8220 of high precision, high impedance to amplify as front end, OPA2277 high precision operating amplifier is followed as rear end.

In addition, the specification height of sample resistance R directly affect the precision of rear end herein, and employing degree of stability is the low and platinum resistance of the high precision high stability degree that thermonoise is little of 0.1ppm, temperature sensitivity herein, has installed heat radiator additional simultaneously, guarantee its stability during use to it.

In this example, high precision double A/D modular converter is by using two AD framework and by theoretical analysis and emulation, drawing its most suitable signal transacting model, thus reach the sample requirement of compatible low frequency high precision and intermediate frequency wide region.Its low frequency A/D modular converter uses ADS1278 analog to digital converter, and this analog to digital converter is the analog to digital conversion of 24 of delta-sigma (Δ ∑) type, meets the acquisition precision of low-frequency range completely.Meanwhile, in order to improve its sampling precision further, have employed the technology of A/D over-sampling herein.From nyquist sampling theorem:

Fs >=2fmax formula (1)

In formula (1), fs is sample frequency, fmax is by the highest frequency of the number of accepting and believing, as long as meet the information that above theorem can reappear signal, adopt A/D oversampling technique, choose than by the sample frequency of high several times of the number of accepting and believing highest frequency, effectively can reduce quantizing noise, improve signal to noise ratio (S/N ratio), thus improve its sampling precision further.

Intermediate-frequency section adopts AD7608 analog to digital converter, and this converter is 18 Charge scaling gradual approaching A/D converters (ADC), and the highest sample frequency reaches 200kHz, meets the acquisition bandwidth and precision of sampling to intermediate-freuqncy signal completely.Meanwhile, provide two kinds of A/D synchronizing signals by clock synchronization module, by the signal that collects by most suitable signal transacting, thus reach the sample requirement of compatible low frequency high precision and intermediate frequency wide region.

The built-in synchronous clock of clock synchronization module in this example, it uses the high capability flash type FPGA of ACTEL to provide accurate pulse to export, and can carry out PPS synchronously simultaneously, built-in high accuracy real-time clock also can be used to provide signal to export with GPS.It can greatly simplify field wiring process thus greatly improve testing efficiency, greatly improves the security of detection simultaneously.

Network communication interface module compatible RJ45, optical fiber input interface pattern in this example.Optic module uses the high-performance module of Agilent.In addition, the chip of its ethernet physical layer agreement adopts KS8721B chip, and most high energy realizes the transfer rate of 100Mbps.

In this example, main control module kernel uses the double-nuclear DSP processor of ADI company, and expands the DDR isochronous memory of 128M and the asynchronous access Flash of 32M, and its highest frequency can reach 500MHz, for device provides powerful signal handling capacity.

Claims (5)

1. a high-precision high voltage DC mutual inductor verification instrument, it is characterized in that: comprise the clock synchronization module, AD conversion module, protocol library module and the human-machine interface module that are connected with main control module respectively, described AD conversion module is circumscribed with voltage transformation module, protocol library module is circumscribed with network communication module, described AD conversion module is the high-precision A/D modular converter of two AD framework, and described voltage transformation module is divided into voltage (V/V) modular converter and current/voltage (I/V) modular converter; Described current/voltage (I/V) modular converter contains the platinum resistance that current signal can be converted to voltage signal high precision high stability degree; Described double A/D modular converter is made up of the ADS1278 analog to digital converter of low frequency part and the AD7608 analog to digital converter of intermediate-frequency section, a kind of modulus conversion chip is used for the sampling with high precision of direct current and low frequency signal, another modulus conversion chip is used for the sampling with high precision of intermediate-freuqncy signal, and high precision double A/D modular converter coordinates the sampling functions of clock synchronization module implement device low frequency high precision and intermediate frequency wide region.

2. high-precision high voltage DC mutual inductor verification instrument according to claim 1, it is characterized in that: the composition of described current/voltage (I/V) modular converter and close in succession and be: current source output is connected to sampling with high precision resistance (R), current source output current (I) obtains voltage (U1) by sampling with high precision resistance (R), voltage (U1) is connected to the negative receiving end of the first operational amplifier, the positive receiving end of the first operational amplifier, the other end ground connection of current source current input end and sampling with high precision resistance (R), first op-amp output voltage (U2) is to the negative receiving end of the second operational amplifier A D8220, the positive receiving end ground connection of the second operational amplifier, second op-amp output voltage (U3).

3. high-precision high voltage DC mutual inductor verification instrument according to claim 2, is characterized in that: described main control module is ADSP609 double-nuclear DSP core; The first described operational amplifier is high precision, the instrument amplifier AD8220 of high impedance, the second operational amplifier are OPA2277 high precision operating amplifier.

4. high-precision high voltage DC mutual inductor verification instrument according to claim 3, is characterized in that: described clock synchronization module, network communication interface module, power module, voltage (V/V) modular converter and current/voltage (I/V) modular converter are connected with the external world with analog input interface respectively by the synchronous clock interface of device interface, network communication interface, power interface, main control module passes through user's input interface and inputs instruction.

5. high-precision high voltage DC mutual inductor verification instrument according to claim 4, is characterized in that: be provided with high stable power module and power to voltage (V/V) modular converter, current/voltage (I/V) modular converter and high precision double A/D modular converter respectively.