CN107391329B - Method, system and storage device for testing repeated use of mobile terminal - Google Patents

Abstract

The invention discloses a method, a system and a storage device for testing repeated use of a mobile terminal, wherein the method comprises the following steps: setting the voltage of the programmable power supply as the voltage of a normal starting power supply or the voltage of full electric quantity, and sending a control instruction through a computer to control the second port of the relay to be closed so as to start the mobile terminal; after the mobile terminal is started, controlling the second port to be disconnected and closing the first port of the relay, and sending a test instruction to the mobile terminal through a computer; when the mobile terminal executes the test instruction, the first port is disconnected, and the computer controls the voltage of the programmable power supply to gradually decrease until the mobile terminal is shut down; and after the mobile terminal is powered off, repeatedly executing the process from the power-on to the power-off of the mobile terminal for a preset number of times, and storing the test information of the mobile terminal. The invention can effectively detect whether hardware damage and software defect easily occur after the mobile terminal is repeatedly used by repeatedly simulating and testing the process from the start-up to the shutdown of the user using the mobile terminal.

Description

Method, system and storage device for testing repeated use of mobile terminal

Technical Field

The invention relates to the technical field of mobile terminals, in particular to a method, a system and a storage device for testing repeated use of a mobile terminal.

Background

With the rapid popularization of mobile terminals, mobile terminals (smart phones, tablet computers, and the like) have become essential entertainment tools in people's daily life.

For example, when people use smart phones at present, most of the usage scenarios are as follows: in the using process, the electric quantity of a battery is gradually reduced or even shut down, then the battery is charged and then continues to be used in the repeated process, hardware loss and some uncertainty of software (for example, the software cannot be started or the process is automatically ended) are easily generated in the repeated charging and using process of the smart phone, and some testing methods in the prior art are difficult to ensure that the habit of repeatedly using the smart phone by a user can be simulated, namely the prior art cannot effectively detect whether the hardware is easily damaged or not and the software is easily damaged after the mobile phone is repeatedly used, so that the stability of the mobile phone cannot be tested.

Accordingly, the prior art is yet to be improved and developed.

Disclosure of Invention

The technical problem to be solved by the present invention is to provide a method, a system and a storage device for testing the repeated use of a mobile terminal, aiming at effectively detecting whether the mobile terminal is easy to have hardware damage and software defect after repeated use by repeatedly simulating the process from power-on to power-off of the mobile terminal used by a test user, and simultaneously saving the test cost.

The technical scheme adopted by the invention for solving the technical problem is as follows:

a method of testing repeated use of a mobile terminal, wherein the method comprises the steps of:

step A: setting the voltage of the programmable power supply as the voltage of a normal starting power supply or the voltage of full electric quantity, and sending a control instruction through a computer to control the second port of the relay to be closed so as to start the mobile terminal;

and B: after the mobile terminal is started, controlling the second port to be disconnected and closing the first port of the relay, and sending a test instruction to the mobile terminal through the computer;

and C: when the mobile terminal executes the test instruction, the first port is disconnected, and the computer controls the voltage of the programmable power supply to gradually decrease until the mobile terminal is shut down;

step D: and after the mobile terminal is powered off, repeatedly executing the process from the power-on to the power-off of the mobile terminal for a preset number of times, and storing the test information of the mobile terminal.

The method for testing the repeated use of the mobile terminal, wherein the step a is preceded by:

connecting a test battery in the mobile terminal to the programmable power supply through a connecting wire in advance;

connecting the program-controlled power supply with the computer through a COM (component object model) line;

connecting the computer to the relay through a connecting wire;

connecting the USB port of the mobile terminal to a first port in the relay through a power line in a USB line;

connecting a power key of the mobile terminal to a second port in the relay through a connection line;

and connecting the USB port of the mobile terminal to the computer through a USB cable.

The method for testing the repeated use of the mobile terminal is characterized in that the voltage of the normal starting power supply or the full-electricity electric quantity is 4V.

The method for testing the repeated use of the mobile terminal, wherein the step A specifically comprises the following steps:

step A1: replacing a battery in the mobile terminal with a test battery for testing and using a battery core in advance;

step A2: setting the voltage of the program-controlled power supply as the voltage of a normal starting power supply or the voltage of full electric quantity;

step A3: and sending a control instruction through the computer to control the second port of the relay to be closed so as to start the mobile terminal.

The method for testing the repeated use of the mobile terminal comprises the steps that a USB debugging driver corresponding to the mobile terminal is installed on the computer in advance, and the computer and the mobile terminal carry out information interaction by using an ADB command.

The method for testing the repeated use of the mobile terminal, wherein the step B specifically comprises the following steps:

step B1: when the mobile terminal is detected to be started, the computer controls the second port of the relay to be disconnected and the first port of the relay to be closed, so that the mobile terminal is in communication connection with the computer;

step B2: and the computer sends a test instruction to the mobile terminal through the ADB, and the mobile terminal executes a corresponding instruction after receiving the test instruction.

The method for testing the repeated use of the mobile terminal, wherein the step C specifically comprises the following steps:

step C1: when the mobile terminal is detected to execute the test instruction, the computer controls to disconnect the first port of the relay;

step C2: the computer calls a shell script inside the mobile terminal or sends a monkey command to the program-controlled power supply;

step C3: and after the program-controlled power supply receives the relevant information, gradually reducing the control voltage until the mobile terminal is shut down.

The method for testing the repeated use of the mobile terminal, wherein the step D specifically comprises the following steps:

step D1: after the mobile terminal is powered off, continuing to execute the processes from the step A to the step C of the preset times from the power on to the power off of the mobile terminal;

step D2: and when the test times reach the preset times, storing the test information of the mobile terminal and storing the test information into a memory of the mobile terminal.

A system for testing repeated use of a mobile terminal, wherein the system comprises: the system comprises a mobile terminal, a programmable power supply, a computer and a relay;

the relay comprises a first port and a second port which are connected in parallel;

a test battery in the mobile terminal is connected to the programmable power supply through a connecting wire;

the programmable power supply is connected with the computer through a COM (component object model) line;

the computer is connected to the relay through a connecting wire;

the USB port of the mobile terminal is connected to the first port in the relay through a power line in a USB line;

the power key of the mobile terminal is connected to a second port in the relay through a connecting wire;

the USB port of the mobile terminal is connected to the computer through a USB cable;

setting the voltage of the program-controlled power supply as the voltage of a normal starting power supply or the voltage of full electric quantity, and sending a control instruction through the computer to control the second port of the relay to be closed so as to open the mobile terminal;

after the mobile terminal is started, controlling the second port of the relay to be disconnected and closing the first port of the relay, and sending a test instruction to the mobile terminal through the computer;

when the mobile terminal executes the test instruction, the first port is disconnected, and the computer controls the voltage of the programmable power supply to gradually decrease until the mobile terminal is shut down;

and after the mobile terminal is powered off, repeatedly executing the process from the power-on to the power-off of the mobile terminal for a preset number of times, and storing the test information of the mobile terminal.

A storage device, wherein the storage device stores a computer program executable for implementing the method for testing repeated use of a mobile terminal.

The invention discloses a method, a system and a storage device for testing repeated use of a mobile terminal, wherein the method comprises the following steps: setting the voltage of the programmable power supply as the voltage of a normal starting power supply or the voltage of full electric quantity, and sending a control instruction through a computer to control the second port of the relay to be closed so as to start the mobile terminal; after the mobile terminal is started, controlling the second port to be disconnected and closing the first port of the relay, and sending a test instruction to the mobile terminal through the computer; when the mobile terminal executes the test instruction, the first port is disconnected, and the computer controls the voltage of the programmable power supply to gradually decrease until the mobile terminal is shut down; and after the mobile terminal is powered off, repeatedly executing the process from the power-on to the power-off of the mobile terminal for a preset number of times, and storing the test information of the mobile terminal. The invention effectively detects whether hardware damage and software defects easily occur after the mobile terminal is repeatedly used by repeatedly simulating and testing the process from the start-up to the shutdown of the user using the mobile terminal.

Drawings

Fig. 1 is a flowchart of a method for testing the repeated use of a mobile terminal according to a preferred embodiment of the present invention.

Fig. 2 is a functional block diagram of a system for reusing a mobile terminal according to the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention clearer and clearer, the present invention is further described in detail below with reference to the accompanying drawings and examples. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

As shown in fig. 1, a method for testing repeated use of a mobile terminal according to a preferred embodiment of the present invention includes the following steps:

and S100, setting the voltage of the programmable power supply to be the voltage of a normal starting power supply or the voltage of full electric quantity, and sending a control instruction through a computer to control the second port of the relay to be closed so as to start the mobile terminal.

Specifically, the program-controlled test power supply is controlled by a microcomputer, is fully program-controlled and fully operated by a key, has small volume, light weight and convenient carrying, can be used for a power supply in a laboratory or on site, can provide a voltage-stabilized, constant-current, phase-shifted and variable-frequency high-power frequency sinusoidal signal, and can be used for testing and calibrating a voltage meter, a current meter, a phase meter, a frequency meter and a power meter. The test battery installed in the mobile terminal is therefore connected to a programmable power supply, which is used to supply power to the mobile terminal, the battery in the mobile terminal being replaced by a test battery (dummy battery, no cell) for test use.

The step S100 further includes: connecting a test battery in the mobile terminal to the programmable power supply through a connecting wire in advance; connecting the program-controlled power supply with the computer through a COM (component object model) line; connecting the computer to the relay through a connecting wire; connecting the USB port of the mobile terminal to a first port in the relay through a power line in a USB line; connecting a power key of the mobile terminal to a second port in the relay through a connection line; and connecting the USB port of the mobile terminal to the computer through a USB cable.

The programmable power supply is connected with the computer through a COM (serial port data line, a data line for debugging network equipment, industrial control equipment and the like, a COM (component object model) port is a serial communication port, a COM port on a microcomputer is usually a 9-pin interface and also a 25-pin interface, the maximum speed is 115200bps, and the programmable power supply is usually used for connecting a mouse (serial port) and communication equipment (such as an external MODEM for data communication or CNC (computer numerical control) machine interfaces of some factories) and the like).

The computer is connected with the relay in parallel and connected with the first port and the second port; a power key of the mobile terminal is connected to the second port through an external wire; a relay is an electric control device, and is an electric appliance that generates a predetermined step change in a controlled amount in an electric output circuit when a change in an input amount (excitation amount) meets a predetermined requirement; it has an interactive relationship between a control system (also called an input loop) and a controlled system (also called an output loop); it is usually applied to automatic control circuit, and it is an "automatic switch" which uses small current to control large current operation, so that it can play the role of automatic regulation, safety protection and switching circuit in the circuit.

Further, the step S100 specifically includes:

s101, replacing a battery in the mobile terminal with a test battery for testing the use of a battery core in advance;

s102, setting the voltage of the program-controlled power supply to be the voltage of a normal starting power supply or the voltage of full electric quantity;

and S103, sending a control instruction through the computer to control the second port of the relay to be closed so as to start the mobile terminal.

Wherein the voltage of the normal starting power supply or the full electric quantity is 4V (volt).

And S200, after the mobile terminal is started, controlling the second port to be disconnected and closing the first port of the relay, and sending a test instruction to the mobile terminal through the computer.

Specifically, the mobile terminal is connected to a computer through a USB cable, wherein a power line of the mobile terminal needs to be cut off and the cut power line needs to be connected to the first port, and other parts of the USB cable are connected to the computer. In addition, a USB debugging driver corresponding to the mobile terminal is pre-installed on the computer, and the computer and the mobile terminal perform information interaction by using an ADB command.

Further, the step S200 specifically includes:

s201, when the mobile terminal is detected to be started, the computer controls the second port of the relay to be disconnected and the first port of the relay to be closed, so that the mobile terminal is in communication connection with the computer;

s202, the computer sends a test instruction to the mobile terminal through the ADB, and the mobile terminal executes the corresponding instruction after receiving the test instruction.

Step S300, when the mobile terminal executes the test instruction, the first port is disconnected, and the computer controls the voltage of the programmable power supply to gradually decrease until the mobile terminal is shut down.

Further, the step S300 specifically includes:

s301, when the mobile terminal is detected to execute the test instruction, the computer controls to disconnect the first port of the relay;

s302, the computer calls a shell script inside the mobile terminal or sends a monkey command to the program-controlled power supply;

and S303, after the program-controlled power supply receives the relevant information, gradually reducing the control voltage until the mobile terminal is shut down.

Specifically, the program-controlled power supply voltage is set to be the voltage (4.0V) when the power supply is normally started or the power is full, the second port is closed, so that the closing of the second port of the relay is equivalent to pressing a power key, namely, the pressing of the power key is simulated, after the mobile terminal is started, the first port is closed, so that the USB wire of the mobile terminal is normally connected with the computer, the computer can well Debug a program through an ADB command (Android Debug Bridge is a universal debugging tool provided by Android, by means of the tool, ADB. exe is under the directory of the Android sdk development package platform-tools installed, ADB is a Bridge for connecting the mobile phone and the PC end, so that a user can comprehensively operate the mobile phone on the computer) calls a shell script inside the mobile phone (the shell script is a program file which is pre-placed into a file by various commands and is convenient to be executed at one time, the method is mainly convenient for an administrator to set or manage) or send a monkey command (monkey is a command line tool in Android and can realize the stress test of the application program under development; the monkey test is a quick and effective method for testing the stability of software, and sends a pseudorandom user event stream (such as key input, touch screen input, gesture input and the like) to a system to realize the pressure test of an application program under development, so that the voltage of a program control power supply is gradually reduced until a mobile terminal is automatically shut down.

S400, after the mobile terminal is powered off, the process from the power-on to the power-off of the mobile terminal is repeatedly executed for a preset number of times, and the test information of the mobile terminal is stored.

The step S400 specifically includes:

s401, after the mobile terminal is powered off, continuing to execute the processes from the step S100 to the step S300 of the preset times from the power on to the power off of the mobile terminal;

s402, when the testing times reach the preset times, the testing information of the mobile terminal is saved and stored in a memory of the mobile terminal.

Repeating the steps S100 to S300 to perform a loop test, for example, the number of tests is 1-5, where 1 test is equivalent to simulating that a user uses a mobile terminal for one day, and how many times of loop operation is equivalent to how many days of test; and when the test is terminated, storing the test information into a memory of the mobile terminal for reference to judge whether the mobile terminal has hardware damage and software defects.

The present invention also provides a system for testing the stability of a mobile terminal battery, as shown in fig. 2, the system includes: the system comprises a mobile terminal 1, a programmable power supply 2, a computer 3 and a relay;

the relay comprises a first port 4 and a second port 5 which are connected in parallel;

the test battery in the mobile terminal 1 is connected to the programmable power supply 2 through a connecting wire;

the programmable power supply 2 is connected with the computer 3 through a COM (component object model) line;

the computer 3 is connected to the relay through a connecting wire;

the USB port of the mobile terminal 1 is connected to the first port 4 in the relay through a power line in a USB line;

the power key of the mobile terminal 1 is connected to the second port 5 in the relay through a connecting wire;

the USB port of the mobile terminal 1 is connected to the computer 3 through a USB cable;

setting the voltage of the programmable power supply 2 as the voltage of a normal starting power supply or the voltage of full electric quantity, and sending a control instruction through the computer 3 to control the second port 5 of the relay to be closed so as to open the mobile terminal 1;

after the mobile terminal 1 is started, controlling the second port 5 of the relay to be disconnected and closing the first port 4 of the relay, and sending a test instruction to the mobile terminal 1 through the computer 3;

when the mobile terminal 1 executes the test instruction, the first port 4 is disconnected, and the computer 3 controls the voltage of the programmable power supply 2 to gradually decrease until the mobile terminal 1 is shut down;

after the mobile terminal 1 is powered off, the process from the power-on to the power-off of the mobile terminal 1 is repeatedly executed for a preset number of times, and the test information of the mobile terminal 1 is stored.

The present invention also provides a storage device, wherein the storage device stores a computer program which can be executed to implement the method for testing the repeated use of the mobile terminal.

In summary, the present invention provides a method, a system and a storage device for testing repeated use of a mobile terminal, wherein the method comprises: setting the voltage of the programmable power supply as the voltage of a normal starting power supply or the voltage of full electric quantity, and sending a control instruction through a computer to control the second port of the relay to be closed so as to start the mobile terminal; after the mobile terminal is started, controlling the second port to be disconnected and closing the first port of the relay, and sending a test instruction to the mobile terminal through the computer; when the mobile terminal executes the test instruction, the first port is disconnected, and the computer controls the voltage of the programmable power supply to gradually decrease until the mobile terminal is shut down; and after the mobile terminal is powered off, repeatedly executing the process from the power-on to the power-off of the mobile terminal for a preset number of times, and storing the test information of the mobile terminal. The invention effectively detects whether hardware damage and software defects easily occur after the mobile terminal is repeatedly used by repeatedly simulating and testing the process from the start-up to the shutdown of the user using the mobile terminal.

Of course, it will be understood by those skilled in the art that all or part of the processes of the methods of the above embodiments may be implemented by a computer program instructing relevant hardware (such as a processor, a controller, etc.), and the program may be stored in a computer readable storage medium, and when executed, the program may include the processes of the above method embodiments. The storage medium may be a memory, a magnetic disk, an optical disk, etc.

It is to be understood that the invention is not limited to the examples described above, but that modifications and variations may be effected thereto by those of ordinary skill in the art in light of the foregoing description, and that all such modifications and variations are intended to be within the scope of the invention as defined by the appended claims.

Claims (10)

1. A method for testing repeated use of a mobile terminal, the method comprising the steps of:

step A: setting the voltage of the program-controlled power supply as the voltage of a normal starting power supply or the voltage of full electric quantity, and sending a control instruction through a computer to control the second port of the relay to be closed so as to open the mobile terminal;

connecting a test battery in the mobile terminal to the programmable power supply through a connecting wire in advance;

replacing a battery in the mobile terminal with a test battery for testing and using a battery core in advance;

and B: after the mobile terminal is started, controlling the second port to be disconnected and closing the first port of the relay, and sending a test instruction to the mobile terminal through the computer;

and C: when the mobile terminal executes the test instruction, the first port is disconnected, and the computer controls the voltage of the programmable power supply to gradually decrease until the mobile terminal is shut down;

step D: and after the mobile terminal is powered off, repeatedly executing the process from the power-on to the power-off of the mobile terminal for a preset number of times, and storing the test information of the mobile terminal.

2. The method for testing repeated use of a mobile terminal according to claim 1, wherein the step a is preceded by the steps of:

connecting the program-controlled power supply with the computer through a COM (component object model) line;

connecting the computer to the relay through a connecting wire;

connecting the USB port of the mobile terminal to a first port in the relay through a power line in a USB line;

connecting a power key of the mobile terminal to a second port in the relay through a connection line;

and connecting the USB port of the mobile terminal to the computer through a USB cable.

3. The method of claim 1, wherein the normal power-on voltage or the voltage at full power is 4V.

4. The method for testing repeated use of a mobile terminal according to claim 1, wherein the step a specifically comprises:

step A2: setting the voltage of the program-controlled power supply as the voltage of a normal starting power supply or the voltage of full electric quantity;

step A3: and sending a control instruction through the computer to control the second port of the relay to be closed so as to start the mobile terminal.

5. The method for testing the repeated use of the mobile terminal according to claim 4, wherein a USB debug driver corresponding to the mobile terminal is pre-installed on the computer, and the computer and the mobile terminal perform information interaction by using an ADB command.

6. The method for testing repeated use of a mobile terminal according to claim 4, wherein the step B specifically comprises:

step B1: when the mobile terminal is detected to be started, the computer controls the second port of the relay to be disconnected and the first port of the relay to be closed, so that the mobile terminal is in communication connection with the computer;

step B2: and the computer sends a test instruction to the mobile terminal through the ADB, and the mobile terminal executes a corresponding instruction after receiving the test instruction.

7. The method for testing repeated use of a mobile terminal according to claim 6, wherein the step C specifically comprises:

step C1: when the mobile terminal is detected to execute the test instruction, the computer controls to disconnect the first port of the relay;

step C2: the computer sending a monkey command to the programmable power supply;

step C3: and after the program-controlled power supply receives the relevant information, gradually reducing the control voltage until the mobile terminal is shut down.

8. The method for testing repeated use of a mobile terminal according to claim 7, wherein the step D specifically comprises:

step D1: after the mobile terminal is powered off, continuing to execute the processes from the step A to the step C of the preset times from the power on to the power off of the mobile terminal;

step D2: and when the test times reach the preset times, storing the test information of the mobile terminal and storing the test information into a memory of the mobile terminal.

9. A system for testing repeated use of a mobile terminal, the system comprising: the system comprises a mobile terminal, a programmable power supply, a computer and a relay;

the relay comprises a first port and a second port which are connected in parallel;

a test battery in the mobile terminal is connected to the programmable power supply through a connecting wire;

the programmable power supply is connected with the computer through a COM (component object model) line;

the computer is connected to the relay through a connecting wire;

replacing a battery in the mobile terminal with a test battery for testing and using a battery core in advance;

the USB port of the mobile terminal is connected to the first port in the relay through a power line in a USB line;

the power key of the mobile terminal is connected to a second port in the relay through a connecting wire;

the USB port of the mobile terminal is connected to the computer through a USB cable;

setting the voltage of the program-controlled power supply as the voltage of a normal starting power supply or the voltage of full electric quantity, and sending a control instruction through the computer to control the second port of the relay to be closed so as to open the mobile terminal;

after the mobile terminal is started, controlling the second port of the relay to be disconnected and closing the first port of the relay, and sending a test instruction to the mobile terminal through the computer;

when the mobile terminal executes the test instruction, the first port is disconnected, and the computer controls the voltage of the programmable power supply to gradually decrease until the mobile terminal is shut down;

and after the mobile terminal is powered off, repeatedly executing the process from the power-on to the power-off of the mobile terminal for a preset number of times, and storing the test information of the mobile terminal.

10. A storage device, characterized in that the storage device stores a computer program executable for implementing the method according to any one of claims 1-8.

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