CN209233821U - A kind of output device of the complicated wave form signal suitable for R46 instruction - Google Patents

Abstract

The utility model discloses a kind of output devices of complicated wave form signal suitable for R46 instruction, device includes FPGA module, low frequency signal output module, intermediate-freuqncy signal output module and addition of waveforms module, FPGA module respectively with low frequency signal output module, the connection of intermediate-freuqncy signal output module, low frequency signal output module, intermediate-freuqncy signal output module is connect with addition of waveforms module, the utility model uses the system structure of intermediate-frequency transformer and silicon steel core transformer dual transformer, intermediate-freuqncy signal and low frequency signal are exported into amplification respectively, the distortion of output waveform can be effectively suppressed, promote output waveform quality, and effectively take into account the problem that the distortion of output waveform intermediate-freuqncy signal is limited with output power.

Description

A kind of output device of the complicated wave form signal suitable for R46 instruction

Technical field

The utility model relates to Electric Energy Metering Technology field more particularly to a kind of complicated wave form letters suitable for R46 instruction Number output device.

Background technique

When carrying out electric energy meter calibration using OIML R46 specification, it is desirable that carry out 15 times ~ 40 times fundamental waves to AC energy meter Higher hamonic wave frequency sweep test and square wave, the complicated wave forms such as peaked wave influence test, that is, need the exportable high bandwidth of calibrating installation, The complicated wave form power signal of low distortion, current calibrating installation generally use mode as shown in Figure 1 and generate complicated wave form, Required waveform is decomposed into the basic digital quantities such as each secondary waveforms amplitude, phase by FPGA, and is converted to analog quantity through DAC module, warp Power amplifier and transformer carry out power amplification, that is, export required complicated wave form signal, but the transformer that such mode uses is logical It often be silicon steel is material production iron core, bandwidth is generally less than 1 kHz, but works as that working frequency is higher, and transformer loss is bigger, defeated Waveform distortion is higher out, because OIML R46 standard defines the high frequencies wave-form tests such as the frequency sweep of 40 fundamental waves of highest, using silicon Steel is that material is larger as the scheme output distortion factor of iron core, it is difficult to meet practical high-precision requirement.

In addition, there are also use intermediate-frequency transformer to solve the problems, such as that silicon steel working loss under intermediate frequency working condition is higher Mode carry out power amplification, bandwidth reaches 50kHz, and under intermediate frequency working condition, the output distortion factor is lower, but intermediate-frequency transformer Usual small volume, magnetic induction is lower, and output power is limited.

Utility model content

The technical issues of the utility model solves: a kind of output dress of complicated wave form signal suitable for R46 instruction is proposed It sets, can not only reduce transformer efficiency loss, reduce intermediate-freuqncy signal output distortion, but also can effectively take into account output waveform intermediate frequency letter Number distortion and output power be limited problem.

The technical solution of the utility model includes:

A kind of output device of the complicated wave form signal suitable for R46 instruction, including FPGA module, low frequency signal export mould Block, intermediate-freuqncy signal output module and addition of waveforms module, the FPGA module are believed with low frequency signal output module, intermediate frequency respectively The connection of number output module, the low frequency signal output module, intermediate-freuqncy signal output module are connect with addition of waveforms module.

The low frequency signal output module includes digital analog converter DAC, osc light module, the first power amplifier, silicon steel Appendiron core transformer, feedback sample module, the second power amplifier, analog-digital converter ADC, the digital analog converter DAC's is defeated Outlet is connect with osc light module input, and the osc light module output end is connected in the first power amplifier input, the One power amplifier output, power end and silicon steel core transformer primary side connect, the power end and ground of the first power amplifier Current potential connection, the input terminal of the feedback sample module are connect with silicon steel core transformer primary side, the feedback sample mould The output end of block is connect with the input terminal of the second power amplifier, the output end of the second power amplifier respectively with osc light module Input terminal and the connection of analog-digital converter ADC input terminal.

The intermediate-freuqncy signal output module also include digital analog converter DAC, osc light module, the first power amplifier, in Frequency power transformer, feedback sample module, the second power amplifier, analog-digital converter ADC, the output of the digital analog converter DAC End is connect with osc light module input, and the osc light module output end is connected in the first power amplifier input, and first Power amplifier output, power end and intermediate-frequency transformer primary side connect, and the power end and ground potential of the first power amplifier connect It connects, the input terminal of the feedback sample module is connect with intermediate-frequency transformer primary side, the output end of the feedback sample module Connect with the input terminal of the second power amplifier, the output end of the second power amplifier respectively with osc light module input and The connection of analog-digital converter ADC input terminal.

A kind of output device of the complicated wave form signal suitable for R46 instruction, the output method are as follows: FPGA module is logical It crosses Fast Fourier Transform (FFT) and complicated wave form is decomposed into digital intermediate frequency signal and low-frequency digital signal, and be respectively outputted to low frequency letter Number output module, intermediate-freuqncy signal output module；

Low-frequency digital signal is converted to low-frequency analog signal through the digital analog converter DAC in low frequency signal output module, low Frequency analog signal through osc light module, then by the first power amplifier amplify after be separately input to silicon steel core transformer with And feedback sample module, silicon steel core transformer export low-frequency analog signal to addition of waveforms module, feedback sample module will Low-frequency analog signal is input to the second power amplifier, and low-frequency analog signal is separately input to osc light by the second power amplifier Low-frequency analog signal is converted to low-frequency digital signal back to FPGA by module and analog-digital converter ADC, analog-digital converter ADC Module；

Digital intermediate frequency signal is converted to analog intermediate frequency signal through the digital analog converter DAC in intermediate-freuqncy signal output module, in Frequency analog signal is then amplified by the first power amplifier through osc light module, is separately input to intermediate-frequency transformer and feedback Sampling module, intermediate-frequency transformer export analog intermediate frequency signal to addition of waveforms module, and feedback sample module, which simulates intermediate frequency, to be believed Number it is input to the second power amplifier, analog intermediate frequency signal is separately input to osc light module and mould by the second power amplifier Analog intermediate frequency signal is converted into digital intermediate frequency signal back to FPGA module by number converter ADC, analog-digital converter ADC；

Low-frequency analog signal and analog intermediate frequency signal are superimposed by addition of waveforms module, export complicated wave form signal.

The utility model has the beneficial effects that propose it is a kind of suitable for R46 instruction complicated wave form signal output device and Output method is believed intermediate-freuqncy signal and low frequency using the system structure of intermediate-frequency transformer and silicon steel core transformer dual transformer The distortion of output waveform can be effectively suppressed in number respectively output amplification, promotes output waveform quality, and effectively take into account in output waveform The problem that frequency distorted signals and output power are limited.

Detailed description of the invention

Fig. 1 is the complicated wave form producing method schematic diagram that current calibrating installation generallys use；

Fig. 2 is the complicated wave form producing method schematic diagram that the utility model uses；

It is identified in figure: 1, FPGA module, 2, low frequency signal output module, 3, intermediate-freuqncy signal output module, 4, addition of waveforms Module, 5, digital analog converter DAC, 6, osc light module, the 7, first power amplifier, 8, silicon steel core transformer, 9, feedback sample Module, the 10, second power amplifier, 11, analog-digital converter ADC, 12, intermediate-frequency transformer.

Specific embodiment

A kind of output device of the complicated wave form signal suitable for R46 instruction, including the output of FPGA module 1, low frequency signal Module 2, intermediate-freuqncy signal output module 3 and addition of waveforms module 4, the FPGA module 1 respectively with low frequency signal output module 2, intermediate-freuqncy signal output module 3 connects, and the low frequency signal output module 2, intermediate-freuqncy signal output module 3 are and addition of waveforms Module 4 connects.

The low frequency signal output module 2 include digital analog converter DAC5, osc light module 6, the first power amplifier 7, Silicon steel core transformer 8, feedback sample module 9, the second power amplifier 10, analog-digital converter ADC11, the digital-to-analogue conversion The output end of device DAC5 is connect with 6 input terminal of osc light module, 6 output end of osc light module and the first power amplifier 7 Input terminal connection, 7 output end of the first power amplifier, power end and 8 primary side of silicon steel core transformer connect, the first power amplification The power end of device 7 is connect with ground potential, and the input terminal of the feedback sample module 9 is connect with 8 primary side of silicon steel core transformer, The output end of the feedback sample module 9 is connect with the input terminal of the second power amplifier 10, the second power amplifier 10 Output end is connect with 6 input terminal of osc light module and analog-digital converter ADC11 input terminal respectively.

The intermediate-freuqncy signal output module 3 also includes digital analog converter DAC5, osc light module 6, the first power amplifier 7, intermediate-frequency transformer 12, feedback sample module 9, the second power amplifier 10, analog-digital converter ADC11, the digital-to-analogue conversion The output end of device DAC5 is connect with 6 input terminal of osc light module, and 6 output end of osc light module is in the first power amplifier 7 Input terminal connection, 7 output end of the first power amplifier, power end and 12 primary side of intermediate-frequency transformer connect, the first power amplifier 7 Power end connect with ground potential, the input terminal of the feedback sample module 9 is connect with 12 primary side of intermediate-frequency transformer, described The output end of feedback sample module 9 is connect with the input terminal of the second power amplifier 10, the output end of the second power amplifier 10 It is connect respectively with 6 input terminal of osc light module and analog-digital converter ADC11 input terminal.

A kind of output device of the complicated wave form signal suitable for R46 instruction, the output method are as follows: FPGA module 1 Complicated wave form is decomposed into digital intermediate frequency signal and low-frequency digital signal by Fast Fourier Transform (FFT), and is respectively outputted to low frequency Signal output module 2, intermediate-freuqncy signal output module 3；

Low-frequency digital signal is converted to low-frequency analog signal through the digital analog converter DAC5 in low frequency signal output module 2, Low-frequency analog signal is separately input to silicon steel core transformation after then amplifying by the first power amplifier 7 through osc light module 6 Device 8 and feedback sample module 9, silicon steel core transformer 8 export low-frequency analog signal to addition of waveforms module 4, and feedback takes Low-frequency analog signal is input to the second power amplifier 10 by egf block 9, and the second power amplifier 10 divides low-frequency analog signal It is not input to osc light module 6 and analog-digital converter ADC11, low-frequency analog signal is converted into low frequency by analog-digital converter ADC11 Digital signal returns to FPGA module 1；

Digital intermediate frequency signal is converted to analog intermediate frequency signal through the digital analog converter DAC5 in intermediate-freuqncy signal output module 3, Analog intermediate frequency signal through osc light module 6, then by the first power amplifier 7 amplify, be separately input to intermediate-frequency transformer 12 with And feedback sample module 9, intermediate-frequency transformer 12 export analog intermediate frequency signal to addition of waveforms module 4, feedback sample module is by 9 Analog intermediate frequency signal is input to the second power amplifier 10, and analog intermediate frequency signal is separately input to by the second power amplifier 10 Analog intermediate frequency signal is converted into digital intermediate frequency signal by osc light module 6 and analog-digital converter ADC11, analog-digital converter ADC11 Back to FPGA module 1；

Low-frequency analog signal and analog intermediate frequency signal are superimposed by addition of waveforms module 4, export complicated wave form signal.

The utility model uses the system structure of 8 dual transformer of intermediate-frequency transformer 12 and silicon steel core transformer, by intermediate frequency Signal and low frequency signal export amplification respectively, and the distortion of output waveform can be effectively suppressed, and promote output waveform quality, and effectively simultaneous Care for the problem that the distortion of output waveform intermediate-freuqncy signal is limited with output power.

Claims (3)

1. a kind of output device of the complicated wave form signal suitable for R46 instruction, it is characterised in that: including FPGA module (1), low Frequency signal output module (2), intermediate-freuqncy signal output module (3) and addition of waveforms module (4), the FPGA module (1) is respectively It is connect with low frequency signal output module (2), intermediate-freuqncy signal output module (3), the low frequency signal output module (2), intermediate frequency Signal output module (3) is connect with addition of waveforms module (4).

2. a kind of output device of complicated wave form signal suitable for R46 instruction according to claim 1, feature exist In: the low frequency signal output module (2) includes digital analog converter DAC(5), osc light module (6), the first power amplifier (7), silicon steel core transformer (8), feedback sample module (9), the second power amplifier (10), analog-digital converter ADC(11), institute The digital analog converter DAC(5 stated) output end connect with osc light module (6) input terminal, described osc light module (6) output end It is connect with the first power amplifier (7) input terminal, the first power amplifier (7) output end, power end and silicon steel core transformer (8) primary side connects, and the power end of the first power amplifier (7) is connect with ground potential, the input of the feedback sample module (9) End is connect with silicon steel core transformer (8) primary side, the output end and the second power amplifier of the feedback sample module (9) (10) input terminal connection, the output end of the second power amplifier (10) turn with osc light module (6) input terminal and modulus respectively Parallel operation ADC(11) input terminal connection.

3. a kind of output device of complicated wave form signal suitable for R46 instruction according to claim 1, feature exist In: the intermediate-freuqncy signal output module (3) is also including digital analog converter DAC(5), osc light module (6), the first power amplification Device (7), intermediate-frequency transformer (12), feedback sample module (9), the second power amplifier (10), analog-digital converter ADC(11), institute The digital analog converter DAC(5 stated) output end connect with osc light module (6) input terminal, described osc light module (6) output end It is connect with the first power amplifier (7) input terminal, the first power amplifier (7) output end, power end and intermediate-frequency transformer (12) Primary side connection, the power end of the first power amplifier (7) are connect with ground potential, the input terminal of the feedback sample module (9) It is connect with intermediate-frequency transformer (12) primary side, the output end of the feedback sample module (9) and the second power amplifier (10) Input terminal connection, the output end of the second power amplifier (10) respectively with osc light module (6) input terminal and analog-digital converter ADC(11) input terminal connects.