CN213092188U - Automatic voltage regulation control circuit architecture - Google Patents

Abstract

The invention provides an automatic voltage regulation control circuit architecture, which comprises a CPU control unit, a voltage and current display unit, a data storage unit, an input interface unit, a data acquisition unit, an output interface unit, a servo control unit and a rotation unit, wherein the CPU control unit carries out comparison operation according to a data signal of the data acquisition unit and a set data signal, quickly generates an operation result, outputs a new instruction and stores the new instruction in the data storage unit, the process is repeatedly executed circularly, meanwhile, the CPU control unit actively analyzes and stores the stored data and learns to establish a database for subsequent debugging, the debugging data is continuously healthy and complete, the debugging speed is gradually accelerated, the reliability, the long service life and the environmental protection of a product are ensured, and the debugging manufacturing efficiency and the output precision accuracy are high.

Description

Automatic voltage regulation control circuit architecture

Technical Field

The invention relates to the technical field of electronics, in particular to an automatic voltage regulation control circuit architecture.

Background

At present, an adjustable resistor is installed at the power output end of a portable consumer electronic product under most conditions when the portable consumer electronic product leaves a factory due to product application requirements, so that manual debugging is needed during production debugging, and the actual requirements of design parameters are met. This brings about at least the following problems: 1. the proficiency and technical quality of debugging personnel influence the yield of products; 2. the efficiency of the production operation is uneven; 3. the consistency of the debugging result of the power output parameter is poor.

In order to solve the above problems, there is a need to develop an automatic voltage regulation control circuit architecture.

Disclosure of Invention

In order to solve the defects of the prior art, the invention discloses an automatic voltage regulation control circuit architecture, which comprises a CPU control unit, a voltage and current display unit, a data storage unit, an input interface unit, a data acquisition unit, an output interface unit, a servo control unit and a rotation unit, wherein the CPU control unit is respectively and electrically connected with the voltage and current display unit, the data storage unit, the input interface unit and the output interface unit;

the CPU control unit is used for adjusting input voltage and current, processing data, outputting instructions, detecting faults and upgrading learning;

the voltage and current display unit is used for displaying the control instruction of the CPU control unit;

the data storage unit is used for storing data of the CPU control unit and externally acquired data;

the input interface unit is used for converting the data acquisition signal into a signal which can be identified and processed by the CPU control unit in a bridging manner;

the data acquisition unit is responsible for acquiring voltage, current, test duration and other data of an external debugged circuit and transmitting the data to the input interface unit in time.

The output interface unit is used for bridging and converting the control instruction of the CPU control unit into a servo signal;

the servo control unit is used for outputting controllable rotation angular speed and torque;

and the rotating unit finishes debugging according to the debugging instruction sent by the CPU control unit and feeds data back to the CPU control unit.

Furthermore, the CPU control unit further includes an input voltage and current adjusting unit, a data processing unit, an instruction output unit, a fault detection unit, and a learning and upgrading processing unit, which are electrically connected in sequence.

By adopting the automatic voltage regulation control circuit framework, the CPU control unit actively analyzes and stores data and learns in the test process, a database is established for subsequent debugging, the debugging data is continuously healthy, the debugging speed is gradually accelerated, the reliability, the long service life and the environmental protection of a power supply product are ensured, the debugging and manufacturing efficiency is higher, and the output precision is better.

Drawings

FIG. 1: the invention relates to a functional block diagram of an automatic voltage regulation control circuit.

FIG. 2: the CPU control unit is constructed in a structure.

Detailed Description

The invention aims to provide an automatic voltage regulation control circuit architecture which can realize high efficiency, high reliability and consistent output parameter PPM, and comprises the following components:

the device comprises a CPU control unit 101, a voltage and current display unit 102, a data storage unit 103, an input interface unit 104, a data acquisition unit 105, an output interface unit 106, a servo control unit 107 and a rotation unit 108, wherein the CPU control unit 101 is respectively electrically connected with the voltage and current display unit 102, the data storage unit 103, the input interface unit 104 and the output interface unit 106, the data acquisition unit 105 is electrically connected with the input interface unit 104 and the rotation unit 108, the rotation unit 108 is further electrically connected with the data storage unit 103 and the servo control unit 107, and the output interface unit 106 is further electrically connected with the servo control unit 107.

Further referring to fig. 2 is a structural diagram of the CPU control unit 101 according to the present invention, and the CPU control unit 101 further includes an input voltage and current adjusting unit 1011, a data processing unit 1012, an instruction output unit 1013, a failure detection unit 1014, and a learning upgrade processing unit 1015.

And the voltage and current display unit 102 is used for converting and displaying the control instruction of the CPU control unit 101 to an operator, displaying the test quantity and the test duration of the product, and detecting whether the parameters of the product meet the design requirements and whether the parameters of the equipment meet the application requirements.

The data storage unit 103 is used for storing the data of the CPU control unit 101 and externally acquired data, and timely and accurately providing the data to the CPU control unit 101 to meet the control data requirement of the CPU control unit 101.

And the input interface unit 104 is used for converting the data acquisition signal into a signal which can be identified and processed by the CPU control unit 101 in a bridging manner.

And the data acquisition unit 105 is responsible for acquiring data such as voltage, current and test duration of an external debugged circuit and transmitting the data to the input interface unit 104 in time.

And the output interface unit 106 is configured to bridge and convert the control instruction of the CPU control unit 101 into a servo signal, and timely, accurately and stably output a servo circuit data communication service to the CPU control unit 101.

The servo control unit 107 is mainly composed of a single chip microcomputer or a chip, and is used for outputting controllable rotation angular speed and torque and quickly and accurately completing the actions required to be completed by the motor.

The rotation unit 108, which includes a rotation speed circuit and a motor, completes debugging work according to the debugging instruction sent by the CPU control unit 101, and completes debugging by cooperating with the data acquisition unit 105, and feeds back data to the CPU control unit 101.

The working principle of the automatic voltage regulation control circuit architecture of the invention is as follows: the CPU control unit 101 performs comparison operation according to the data signal of the data acquisition unit 105 and the set data signal, quickly generates an operation result, outputs a new instruction and stores the new instruction in the data storage unit 103, the process is executed repeatedly in a circulating mode, meanwhile, the CPU control unit 101 actively analyzes and stores data and learns the data, a database is established for subsequent debugging, the debugging data is continuously healthy, and the debugging speed is gradually increased.

By adopting the automatic voltage regulation control circuit framework, the CPU control unit actively analyzes and stores data and learns in the test process, a database is established for subsequent debugging, the debugging data is continuously healthy, the debugging speed is gradually accelerated, the reliability, the long service life and the environmental protection of a power supply product are ensured, the debugging and manufacturing efficiency is higher, and the output precision is better.

The automatic voltage regulation control circuit framework has better application effect in a non-isolated switch power supply.

Claims (2)

1. An automatic voltage regulation control circuit architecture is characterized by comprising a CPU control unit, a voltage and current display unit, a data storage unit, an input interface unit, a data acquisition unit, an output interface unit, a servo control unit and a rotation unit, wherein the CPU control unit is respectively and electrically connected with the voltage and current display unit, the data storage unit, the input interface unit and the output interface unit;

the CPU control unit is used for adjusting input voltage and current, processing data, outputting instructions, detecting faults and upgrading learning;

the voltage and current display unit is used for displaying the control instruction of the CPU control unit;

the data storage unit is used for storing data of the CPU control unit and externally acquired data;

the input interface unit is used for converting the data acquisition signal into a signal which can be identified and processed by the CPU control unit in a bridging manner;

the data acquisition unit is responsible for acquiring voltage, current, test duration and other data of an external debugged circuit and transmitting the data to the input interface unit in time;

the output interface unit is used for bridging and converting the control instruction of the CPU control unit into a servo signal;

the servo control unit is used for outputting controllable rotation angular speed and torque;

and the rotating unit finishes debugging according to the debugging instruction sent by the CPU control unit and feeds data back to the CPU control unit.

2. The automatic voltage regulation control circuit architecture of claim 1, wherein the CPU control unit further comprises an input voltage and current adjustment unit, a data processing unit, an instruction output unit, a fault detection unit, and a learning upgrade processing unit, which are electrically connected in sequence.

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