CN114721494B - Power supply output electricity digital data processing method - Google Patents

Abstract

The invention discloses a power output electric digital data processing method, which comprises a power output electric digital data control system, wherein the power output electric digital data control system comprises a power module, a DSP module, a FLASH module, an external expansion memory module, an uninterrupted processing module and an external communication interface module, the power module comprises a DC converter for converting voltage and a UPS (uninterrupted power supply), the DSP module comprises an output part and an input part, the external expansion memory module comprises read information, an operation program and storage information, and the external communication interface module comprises information transmission control and communication interface control; compared with the traditional power supply output electric digital data processing method, the method realizes the function of more accurate and efficient program operation of the power supply output electric digital data processing method, achieves the effect of information uninterrupted, and improves the stability of the power supply output electric digital data information.

Description

Power supply output electricity digital data processing method

Technical Field

The invention relates to the technical field of software analysis, in particular to a power output electric digital data processing method.

Background

With the rapid development of scientific technology, the requirements on the reliability, the volume and the volume ratio of a power supply are higher and higher, the information network is developed deeply into a power supply module which can supply power for an Application Specific Integrated Circuit (ASIC), a Digital Signal Processor (DSP), a Microprocessor (MCU), a memory, a field programmable gate array and an analog load, the power supply outputs electric digital data, namely, electric energy to output digital signals, wherein the electric energy is converted into digital information, the traditional power supply outputs the electric digital data to control the digital signals depending on the MCU and the ASIC, but the problems of information omission, long signal acquisition speed, information interruption, information dispersion and the like exist in a conversion method of the analog signals for the digital signals.

Disclosure of Invention

In order to overcome the above defects in the prior art, embodiments of the present invention provide a power output electrical digital data processing method, which overcomes the problem of difficulty in extracting source codes based on a source code instrumentation manner, facilitates output of a subsequent function graph and a hybrid dynamic modeling method, and ensures accuracy of modeling analysis data in an analysis method process based on multi-node automatic modeling, so as to solve the problems in the background art.

In order to achieve the purpose, the invention provides the following technical scheme: a power output electric digital data processing method comprises a power output electric digital data control system, wherein the power output electric digital data control system comprises a power module, a DSP module, a FLASH module, an external expansion memory module, an uninterrupted processing module and an external communication interface module, the power module comprises a DC converter for converting voltage and a UPS (uninterrupted power supply), the DSP module comprises an output part and an input part, the external expansion memory module is used for reading information, operating programs and storing information, and the external communication interface module comprises information transmission control and communication interface control;

the method specifically comprises the following steps:

s1, firstly, the power module manages the voltage change through the uninterrupted power supply, and aims to regulate and convert the alternating current voltage by using the power management, so as to filter high-frequency/low-frequency information and extract information useful for a target function;

s2, converting the voltage signal into digital signal by computer, in order to use computer to process analogue signal operation and convert the analogue signal into digital signal;

s3, the computer converts the power supply information into digital information to be processed by a Digital Signal Processor (DSP), so that after the analog signal is converted into the digital information, the digital information is processed by the DSP, and the digital information is operated and analyzed;

s4, after DPS processing, the digital signal is converted again to make the FLASH module present, in order to convert the processed digital information into analog information again to present through the FLASH module, and the process is man-machine interactive to know the digital signal;

s5, the external memory module reads, analyzes, calculates and stores the digital signals for backup, so as to delete and read the digital signals, and then stores the digital signals in the memory module to be called as a target file;

and S6, finally, transmitting the digital information in a power supply connection mode, connecting the digital information with an external communication interface to exchange information, and aiming at carrying out control and exchange again at the communication interface after the digital signal is converted, thereby ensuring the rigor of the information and preventing the leakage of the information.

Furthermore, the power module is used for voltage conversion, converts alternating current into direct current, can convert high-voltage alternating current into low-voltage direct current, enables the power output electric digital data to normally operate, and cannot cause high voltage to burn out a circuit, the DC converter is used for converting voltage, the UPS is used for a communication system to provide a high-performance power supply to support the requirement of a computer, and the purpose is to improve the circuit performance by converting the circuit voltage.

Furthermore, the input part in the DSP module comprises input gain control, input equalization adjustment, input delay adjustment and phase conversion, the input gain control enables the gain of the amplifying circuit to be automatically adjusted along with the signal intensity, the automatic control utilizes the effective combination of linear amplification and compression amplification to adjust the output signal, when a weak signal is input, the linear amplification circuit works to ensure the intensity of the output signal, when the input signal reaches a certain intensity, the compression amplification circuit is started to reduce the output amplitude, and for the input gain control, the gain of the system is controlled by controlling the power supply current, so that the gain effect of signal information is expressed by adjusting the intensity of the signal to be different.

Furthermore, the analog signal of the power supply voltage is controlled by the digital signal in the input equalization adjusting system to adjust the digital information to ensure equalization information conversion, the input end delay adjustment is to input the signal to be adjusted through a network system and calculate the time of the operation process in the information conversion process, so that the input end of the input signal is delayed, the optimization calculation of the input digital-to-analog signal conversion is performed in the adjusting link, the running speed of a CPU is improved, the input end time is adjusted more quickly and accurately, the phase conversion is the phase generated by the running of the three-phase voltage in a common circuit on the power supply, and the operation efficiency is improved by utilizing the adjustment of the input power supply signal and the conversion of the voltage through optimization and simple and convenient operation algorithm calculation.

Furthermore, the output part is used for adjusting some parameters of the input signal, performing signal distribution selection on the converted information, performing signal conversion in the power circuit, the high-low pass filter is a filter which can allow frequencies higher than or lower than a cut-off frequency to pass through, and attenuating lower frequencies, and can remove unnecessary low frequency/high frequency information in the signal, so as to reduce the conversion of interference information signals brought by high frequency/low frequency information.

Further, the information reading is to send a request instruction for obtaining information first by the computer running, then select the source of the information reading, obtain the information by the program for obtaining the information code, and finally obtain the information, wherein the code for obtaining the information is usually as follows

The information acquisition source code:

reconstruction file// reflection acquisition object

#include "stdafx.h"

#include "ButtonTest.h"

#include "ButtonTestDlg.h"

#ifdef _DEBUG

The # define NEW DEBUG _ NEW aims to achieve the purpose that means adopted for obtaining information are already used for entering and obtaining by computer codes, the method is fast and efficient, and the obtained information amount is more comprehensive.

Further, the operation program is to operate the complex mathematical model through machine learning in the computer, so as to improve the operation efficiency and accuracy, the common operation program generally refers to mathematical arithmetic operations such as addition, subtraction, multiplication and division, and the operation code of the addition is as follows

#include int main() { int op1, op2, sum; // variable declaration op1 = 5;

// variable definition op2 = 3; sum = op1 + op2; // addition operation printf("sum of %d and %d is %d", op1, op2, sum); }

(executing the above example code, the following results are obtained)

sum of 5 and 3 is 8 is to use the basic operation program to represent the most basic binary code used by general power supply voltage, so it is not necessary to complicate the operation process unless encryption is used to protect the converted information.

Further, the specific detection steps are as follows:

a1, firstly, converting the voltage in the power management circuit system into a signal capable of simulating the signal, and firstly converting the voltage to control the power;

a2, then, the digital power management main control is to utilize the systematic control power management of the network system, and the conversion, storage and transmission process of the analog signal and the digital signal is the core method for outputting the electric digital data to the power;

a3, through power control of the system and the integrated circuit, further regulating and controlling at the communication interface of the digital signal conversion, which is convenient for the power supply to output stable and smooth electric digital data, and aims to make the processing method of the electric digital data output by the power supply simple, efficient, accurate and precise.

The invention has the technical effects and advantages that:

compared with the traditional power supply output electric digital data processing method, the method realizes the function of more accurate and efficient program operation of the power supply output electric digital data processing method, achieves the effect of information uninterrupted, and improves the stability of the power supply output electric digital data information.

Compared with the traditional power supply for outputting the electric digital data, the invention adopts the DPS processing technology, and improves the efficiency of the power supply for outputting the electric digital data through the functions of the control system and the power supply management.

Drawings

FIG. 1 is a block diagram of a power output electrical digital data processing method of the present invention;

FIG. 2 is a diagram of a power output electrical digital data control system of the present invention;

FIG. 3 is a power supply block diagram of the present invention;

FIG. 4 is a block diagram of the DSP of the present invention;

FIG. 5 is a block diagram of the externally extended memory of the present invention;

fig. 6 is a block diagram of an external communication interface according to the present invention.

Detailed Description

Exemplary embodiments of the present disclosure will be described in greater detail below with reference to the accompanying drawings, which show exemplary embodiments of the disclosure, however, it should be understood that the present disclosure may be embodied in various forms and should not be limited by the embodiments set forth herein, but rather these embodiments are provided for the purpose of providing a more thorough understanding of the present disclosure and to fully convey the scope of the present disclosure to those skilled in the art.

Meanwhile, it should be understood that the sizes of the respective portions shown in the drawings are not drawn in an actual proportional relationship for the convenience of description.

The following description of at least one exemplary embodiment is merely illustrative in nature and is in no way intended to limit the application, its application, or uses.

Techniques, methods, and apparatus known to those of ordinary skill in the relevant art may not be discussed in detail but are intended to be part of the specification where appropriate.

It should be noted that like reference numerals and letters refer to like items in the following figures, and thus once an item is defined in one figure, it need not be discussed further in subsequent figures,

embodiments of the present application apply to computer systems/servers that may operate with numerous other general purpose or special purpose computing system environments or configurations, and examples of well known computing systems, environments, and/or configurations that may be suitable for use with computer systems/servers include, but are not limited to, personal computer systems, server computer systems, thin clients, thick clients, hand-held or laptop devices, microprocessor-based systems, set top boxes, programmable consumer electronics, networked personal computers, small computer systems, mainframe computer systems, and distributed cloud computing environments that include any of the above, and the like.

The computer system/server is described in the general context of computer system-executable instructions, such as program modules, being executed by a computer system, generally including routines, programs, objects, components, logic, data structures, etc., that perform particular tasks or implement particular abstract data types, and is implemented in a distributed cloud computing environment in which tasks are performed by remote processing devices that are linked through a communications network and in which program modules are located in local or remote computing system storage media including storage devices.

Example 1

The invention provides a power output electric digital data processing method, which comprises a power output electric digital data processing method and is characterized in that: the power output electric digital data control system comprises a power module, a DSP module, a FLASH module, an external expansion memory module, an uninterrupted processing module and an external communication interface module, wherein the power module comprises a DC converter for converting voltage and a UPS (uninterrupted power supply), the DSP module comprises an output part and an input part, the external expansion memory module is used for reading information, operating programs and storing information, and the external communication interface module comprises information transmission control and communication interface control;

the method specifically comprises the following steps:

101. firstly, the management process of voltage change is carried out in the power module through an uninterruptible power supply;

in this embodiment, it is specifically described that the power module performs conversion control on the voltage by using an analog signal control, the analog signal uses a continuously changing physical quantity to express information, which is also called a continuous signal, and has infinite different values within a certain time range, and the digital signal is a discrete and discontinuous signal in value, the digital signal is formed by sampling, quantizing, and encoding on the basis of the analog signal, the sampling is to obtain sample values at each time according to an appropriate time interval from the input analog signal, the quantizing is to express the value at each time measured by sampling by using a binary code system, and the encoding is to arrange binary numbers generated by the quantizing together to form a sequential pulse sequence.

102. Then, converting the voltage signal by using a computer to convert a digital signal;

in this embodiment, it is specifically described that frequent conversion between the digital signal and the analog signal is used to complete information transmission, and the two conversion processes are performed through three procedures of signal sampling, signal quantization, and signal encoding, which is a simple matter of converting an input binary number into a corresponding analog quantity according to an actual weight, and then adding the analog quantities obtained by corresponding each bit number, so that a total analog quantity obtained is in direct proportion to the input digital quantity, thereby implementing conversion from the digital signal to the analog signal, wherein the digital signal is generally converted into the analog signal by a method of shifting a phase of a carrier, and the analog signal is generally quantized into the digital signal by a PCM pulse code modulation method.

103. The computer converts the power supply information into digital information to perform Digital Signal Processing (DSP);

in this embodiment, it is specifically described that the DSP converts the transmission motion change of the power voltage into a series of numbers, and extracts useful information from the numbers by using a calculation method, generally, the flow of the DSP is that an initial power voltage signal is converted into a signal, the signal is converted into a digital signal and an analog signal by a low pass filter unit, the digital signal and the analog signal are converted into the DSP, and then the signal is converted into a digital-to-analog conversion signal by the low pass filter unit, so as to obtain the useful information, the low pass filter unit is used for filtering part of high frequency information of the signal and prevent the digital-to-analog conversion from losing the characteristics of the original signal, and the algorithm used by the DSP by using the calculation generally uses the following algorithm

Rectangular sequence (discrete sequence): rn (N) = {1, 0. ltoreq. n.ltoreq.N-1, 0}

Energy signal: e = ∑/x (n)/> ² And so on.

104. After the DPS processing, the digital signal is converted again to make the FLASH module present.

In this embodiment, it is specifically noted that the FLASH module is for enabling the power supply to automatically run, first, an initial function of the FLASH control register must be stored in a running address from the FLASH during running, the initial function is used to send a digital signal to the FLASH module, use predefined commands and parameters, then execute receiving information, process a digital information symbol using a programming language, and add a function to calculate and run.

105. The external expansion memory module reads, analyzes, calculates and stores the digital signals for backup;

in this embodiment, it is specifically noted that the external memory module is a module that uses a processor to externally adopt data control processing, and the external memory has fluidity, and the memory has functions of reading, analyzing, encrypting, converting and storing analog information and digital information as the name implies, and the storage information sets binary codes of each unit as address codes and registers the address codes in the storage unit.

106. Finally, the digital information is transmitted in a power supply connection mode and is connected with an external communication interface to exchange information;

in this embodiment, it is specifically stated that the external communication interface module performs information control through a signal control system, the information transmission control utilizes a high-speed data channel technology to transmit big data from a front end to a back end, the throughput of a general interface service is maximum, the interface automatically completes dynamic load balancing scheduling under system control, and the communication interface control realizes smooth interface connection for switching of network channels.

In this embodiment, it is specifically described that the power module is used for voltage conversion, converts ac power into DC power, and can convert high-voltage ac power into low-voltage DC power, so that the power output digital data can operate normally without causing high-voltage line burnout, the DC converter converts voltage by using a high-frequency technique, and the UPS uninterruptible power supply is used for a communication system to provide a high-performance power supply to support a computer; the induced current high-frequency heating technology for the high-frequency technology is that a power supply acts to output alternating current with proper frequency, and the high-frequency induction control board outputs pulses to adjust voltage.

In this embodiment, it is specifically noted that the input portion in the DSP module includes an input gain control, an input equalization adjustment, an input delay adjustment, and a phase conversion, the input gain control enables an automatic control in which a gain of the amplification circuit is automatically adjusted according to a signal intensity, the output signal is adjusted by an effective combination of a linear amplification and a compression amplification, when a weak signal is input, the linear amplification circuit operates to ensure an intensity of the output signal, when the input signal reaches a certain intensity, the compression amplification circuit is started to reduce an output amplitude, the input gain control controls a gain of the system by controlling a power supply current, the gain control controls reflected waves that reach a bottom surface successively from different underground deep layers, and the automatic gain control enables a negative feedback function of the amplification circuit.

In this embodiment, it is specifically described that the analog signal of the power supply voltage is controlled by the digital signal in the input equalization adjustment system to adjust the digital information to ensure equalization information conversion, the input end delay adjustment is to input the signal through the regulation and control of the network system and calculate the time of the operation process in the process of converting the information, so that the input end of the input signal is delayed, the adjustment link is to optimize the conversion of the input digital-to-analog signal, the operation rate of the CPU is increased, the time for adjusting the input end is faster and more accurate, and the phase conversion is a phase generated by the operation of the three-phase voltage in the common circuit on the power supply;

the phase is the position in its cycle for a wave at a particular time, a scale of whether it is at a peak, trough or some point in between, the phase describes a measure of the change in the waveform of the signal, the phase difference between the ac voltage on a particular circuit and the ac current through that circuit, and if the circuit is purely resistive, the phase difference between the ac voltage and the ac current is equal to zero. I.e. the alternating current is equal to zero when the alternating voltage is equal to zero.

In this embodiment, it should be specifically noted that the output portion performs signal distribution selection on information obtained by adjusting and converting some parameters of an input signal, and is signal conversion in a power circuit, the high-low pass filter is a filter that can allow frequencies higher/lower than a cutoff frequency to pass through, and attenuate lower frequencies, and it can remove unnecessary low/high frequency information in the signal, thereby reducing the conversion of the interference information signal caused by the high/low frequency information, and generally, fourier transform, calculus equation expression calculation, etc. are adopted in the system;

the Fourier transform is a method for analyzing signals, can analyze the components of the signals and can also be used for synthesizing the signals, a plurality of waveforms can be used as the components of the signals, such as sine waves, square waves and sawtooth waves, the sine waves are used as the components of the signals for the Fourier transform, the complex convolution operation of the Fourier transform is simple product operation, a simple means for calculating the convolution is provided, the discrete Fourier transform is quickly calculated by a digital computer, the operation efficiency is improved, so the Fourier transform is adopted in the input conversion process of the power supply voltage signals, and the computer operation can be used for effectively extracting the target information.

In this embodiment, it is specifically noted that the reading of the information is performed by first sending a request instruction for obtaining the information through the computer operation, then selecting a source of the reading of the information, obtaining the information through a program for obtaining an information code, and finally obtaining the information, where the code for obtaining the information is usually as follows, and there are many codes for specifically reading the information, and the computer code is used for an object to be read according to a requirement,

the information acquisition source code:

reconstruction file// reflection acquisition object

#include "stdafx.h"

#include "ButtonTest.h"

#include "ButtonTestDlg.h"

#ifdef _DEBUG

#define new DEBUG_NEW。

In this embodiment, it should be specifically noted that the operation program is to perform operations on complex mathematical models through machine learning in a computer, so as to improve the operation efficiency and accuracy, the common operation program generally refers to mathematical arithmetic operations such as addition, subtraction, multiplication, and division, and the operation code of the addition is the most basic binary code used in the general power supply voltage, so that the operation process does not need to be complicated unless encryption means is used for protecting the converted information

#include int main() { int op1, op2, sum; // variable declaration op1 = 5;

// variable definition op2 = 3; sum = op1 + op2; // addition operation printf("sum of %d and %d is %d", op1, op2, sum); }

(executing the above example code, the following results are obtained)

sum of 5 and 3 is 8。

In this embodiment, what needs to be specifically described is the power output digital data processing method, and the specific detection steps are as follows:

step 1: firstly, converting a voltage in a power management circuit system into a signal capable of converting electric energy, and firstly converting the voltage to control and process a power supply into information capable of simulating the signal;

step 2: then the digital power management main control is to utilize the systematic control power management of a network system, and the process of converting, storing and transmitting analog signals and digital signals is a core method for outputting electric digital data to a power supply;

and 3, step 3: through the power control of the system and the integrated circuit, the communication interface for converting the digital signals is further regulated and controlled, so that the power supply can output stable and smooth electric digital data.

The digital power management main control method is characterized in that the digital management control of a system network is utilized to carry out analog signal establishment on digital data of a voltage generation point through a model, then digital information is utilized to filter information of interference signal frequency through a high-pass filter, so that analog signals are smoother and converted with digital information, then the converted digital data information is stored and controlled, uninterrupted power supply voltage is adopted for information transmission of an integrated circuit at a communication interface, the integrity of transmission information is ensured, and the digital data processing efficiency of a power output point is high.

And finally: the above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents, improvements and the like that are within the spirit and principle of the present invention are intended to be included in the scope of the present invention.

Claims (7)

1. A power output electric digital data processing method is characterized in that: the power output electric digital data control system comprises a power module, a DSP module, a FLASH module, an external expansion memory module, an uninterrupted processing module and an external communication interface module, wherein the power module comprises a DC converter for converting voltage and a UPS (uninterrupted power supply), the DSP module comprises an output part and an input part, the external expansion memory module is used for reading information, operating programs and storing information, and the external communication interface module comprises information transmission control and communication interface control;

the method specifically comprises the following steps:

s1, firstly, the management process of voltage change in the power module through an uninterrupted power supply is carried out;

s2, converting the digital signal by converting the voltage signal by using a computer;

s3, converting the power supply information into digital information by the computer to perform Digital Signal Processing (DSP);

s4, after the DPS processing, the digital signal is converted again to make the FLASH module present;

s5, the external memory module reads, analyzes, calculates and stores the digital signal for backup;

and S6, finally, transmitting the digital information in a power supply connection mode, and connecting an external communication interface to exchange information.

2. A power supply output electrical digital data processing method according to claim 1, characterized in that: the power supply module is used for voltage conversion, converts alternating current into direct current, can convert high-voltage alternating current into low-voltage direct current, enables the power supply to output electric digital data to normally operate, does not cause high voltage to burn out a circuit, and adopts a high-frequency technology for converting voltage by the DC converter.

3. A power supply output electrical digital data processing method according to claim 1, characterized in that: the input part in the DSP module comprises input gain control, input equalization adjustment, input end delay adjustment and phase conversion, the input gain control enables the gain of the amplifying circuit to be automatically controlled along with the signal intensity, the input gain control utilizes the effective combination of linear amplification and compression amplification to adjust the output signal, when a weak signal is input, the linear amplification circuit works to ensure the intensity of the output signal, when the input signal reaches a certain intensity, the compression amplification circuit is started to reduce the output amplitude, and the input gain control controls the gain of the system by controlling the power supply current.

4. A power output electrical digital data processing method according to claim 3, characterized in that: the input equalization adjustment system is characterized in that a digital signal in the input equalization adjustment system controls an analog signal of power supply voltage and is used for adjusting digital information to ensure equalization information conversion, the input end delay adjustment is to input a signal, adjust and control the signal through a network system and calculate the time of an operation process in the process of converting information so as to delay the input end of the input signal, the adjustment link is to optimally calculate the conversion of an input digital-analog signal, and the phase conversion is a phase generated by the operation of three-phase voltage in a common circuit on a power supply.

5. A power output electrical digital data processing method according to claim 3, characterized in that: the output part is used for adjusting parameters of an input signal, performing signal distribution selection on converted information, converting signals in a power circuit, and the high-low pass filter is a filter which can allow frequencies higher/lower than a cut-off frequency to pass and attenuate lower frequencies.

6. The power output electrical digital data processing method of claim 1, wherein: the information reading method comprises the steps of firstly sending a request instruction for obtaining information through the operation of a computer, then selecting a source of the information reading, obtaining the information through a program for obtaining an information code, and finally obtaining the information.

7. The power output electrical digital data processing method of claim 1, wherein: the operation program is used for operating a complex mathematical model through machine learning in a computer.

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