CN107632219B - Automatic startup and shutdown test system and test method thereof - Google Patents

Abstract

The invention discloses an automatic startup and shutdown testing system which mainly comprises an automatic startup and shutdown testing device, networking equipment and tested equipment, wherein the automatic startup and shutdown testing device comprises a data storage module, a control signal input module, a working state output and test result analysis module, a processing module and a variable voltage output module; the networking equipment is composed of a switch or a serial server and a power strip. The invention also discloses an automatic startup and shutdown testing method. The testing method is simple, the automatic testing popularization difficulty is low, the practical application environment of a user can be simulated, the automatic on-off testing requirements of electronic products are met in a low-cost mode, and the aims of reducing labor cost, improving testing efficiency and enhancing product quality are fulfilled.

Description

Automatic startup and shutdown test system and test method thereof

Technical Field

The invention relates to an electronic test system, in particular to an automatic startup and shutdown test system and a test method thereof, and belongs to the technical field of product test.

Background

With the rapid development of computer technology, communication technology, network technology, control technology and information technology, the national economic level is continuously improved, the types of electronic products owned in work and life are gradually increased, meanwhile, consumers put forward higher requirements on the performance and service life of the electronic products, and manufacturers are forced to perform thousands of times or hundreds of times of startup and shutdown tests on the products in the research and development and production stages so as to ensure the reliability and the service life of the electronic products under the continuous startup and shutdown state conversion.

Manual operation is tedious in startup and shutdown tests, and the startup and shutdown tests are limited in times, so that the expected error correction effect is difficult to achieve; in addition, the efficiency of manual on/off test is low, time and labor cost are wasted, and the test cannot be continuously performed in a high-temperature or low-temperature environment.

The Chinese invention patent (application number: CN201410822568.1) discloses an automatic on-off test system and a test method thereof, the system comprises a computer, an on-off test fixture, a power supply wiring board and a tested device, wherein the computer is connected with the on-off test fixture through an interface bus; the startup and shutdown test jig is connected with a power supply wiring board so as to control the power supply wiring board to be switched on and off; the power supply wiring board provides electric energy for the tested device; the tested equipment is connected with a computer to realize the statistics of the computer on the switch test data; the startup and shutdown test fixture is provided with a serial port connected with the computer in series and a relay for controlling the power supply wiring board to be switched on and off.

The chinese invention patent (application number: CN201310229397.7) discloses an automatic switching device, which is applied to the on-off test of an electronic product with power equipment, and the automatic switching device is connected with a product to be tested, wherein the automatic switching device further comprises: a power supply module; a serial port module; a single chip module; and a display module. The power-on and power-off state is completed by controlling the on and off of the power supply, so that the automatic power-on and power-off test for a plurality of times for a long time can be completed, the two hands of a tester can be liberated, and the performance of a product can be verified efficiently; whether the startup is finished or not is determined by collecting the serial port characters, and the correct startup and shutdown times and the wrong startup and shutdown times are recorded, so that the performance of the product can be more accurately found, and the startup and shutdown times and the service life of the electronic product can be simply and quickly tested.

The prior art drawbacks can be seen from the 2 patents mentioned above:

1. in the prior art, a test device does not perform circuit conversion on input voltage, a relay in the test device only performs simple on-off control on an input power supply to realize on-off test on tested equipment, and the voltage value of the power supply output by the test device is single (the standard alternating voltage with the effective value of 220V).

2. The power supply voltage output by the testing device in the prior art is fixed, and the use scenes of users, such as undervoltage, overvoltage and the like, cannot be artificially simulated.

3. The testing device in the prior art cannot directly provide direct current, alternating current, low voltage and high voltage power signals for the tested equipment at the same time, and is only used for testing a single type of tested product.

4. The test device in the prior art cannot simultaneously execute a plurality of different test cases and cannot simultaneously test products with different keywords of boot-up time and boot-up success logs.

5. When the tested device fails to start up, the testing device in the prior art can continue to execute the startup and shutdown actions according to the testing times preset by the testing personnel, the fault site cannot be protected immediately, the fault phenomenon of the failed startup can not be visually displayed in front of research and development personnel, and the research and development personnel are inconvenient to analyze the problem.

6. The testing device in the prior art counts the total times of successful or failed starting-up of the tested equipment after long-time startup and shutdown testing in a counting mode, and saves the working log of the whole process of the tested equipment in the testing process. When the tested equipment fails to start and research and develop positioning analysis problems, a working log of the failed start needs to be screened from a huge log file, and the time for researching and developing the troubleshooting problems is wasted.

7. The testing device in the prior art has no good human-computer interaction interface, the patent CN201410822568.1 needs to be externally connected with a computer to operate the testing device and monitor the working state of the tested equipment, the testing system has many members, the system is complex to build, the system is inconvenient to carry, and the automation testing popularization difficulty is high; the parameter input of patent CN201310229397.7 needs to carry out programming operation to the singlechip, and the test is complicated, and the automatic test popularization degree of difficulty is big.

Disclosure of Invention

The invention aims to overcome the defects of the prior art and provide an automatic startup and shutdown testing system with better effect and a testing method thereof.

An automatic on-off test system mainly comprises an automatic on-off test device, networking equipment and tested equipment, wherein the automatic on-off test device comprises a data storage module, a control signal input module, a working state output and test result analysis module, a processing module and a variable voltage output module; the networking equipment consists of a switch or a serial server and a socket;

the data storage module, the control signal input module, the working state output and test result analysis module and the variable voltage output module in the automatic on-off test device are respectively connected with the processing module, wherein the data storage module is used for importing a 'test config file' in an external memory and storing the file, storing a working log of a tested device and exporting the log to the external memory and storing working data of the automatic on-off test device; the working state output and test result analysis module in the automatic startup and shutdown test device is connected with the working log output module in the tested equipment through a network cable or a serial port cable; a variable voltage output module in the automatic startup and shutdown testing device provides electric energy for a power input module in the tested device;

the tested equipment comprises a power input module, a message scheduling module and a working log output module, wherein the power input module is connected with a variable voltage output module of the automatic on-off testing device through an insert row of networking equipment, the working log output module is connected with a working state output and testing result analysis module through a switch or a serial server, and the power input module is connected with the working log output module through the message scheduling module.

The further scheme is as follows:

the data import and export mode of the automatic startup and shutdown test device is composed of one or two combinations of import and export of a mobile memory and online import and export of a computer, wherein the mobile memory comprises one or more combinations of a U disk, a mobile hard disk, a TF card, an SD card and a mobile phone.

The further scheme is as follows:

the control signal input mode of the automatic startup and shutdown testing device is composed of one or two of the input mode of the testing device and the external input mode of the testing device; the working state output mode of the automatic startup and shutdown testing device is composed of one or two combinations of an output module of the testing device and an external monitor of the testing device; the voltage output of the automatic on-off test device is composed of one or more of adjustable DC voltage, 220V AC voltage and adjustable AC voltage.

The further scheme is as follows:

the automatic startup and shutdown testing device performs AC/DC module conversion on 220V AC voltage and outputs adjustable DC voltage of 0-60V to the multi-path relay; the voltage regulating and transforming conversion is carried out on 220V AC voltage, and 0-400V adjustable AC voltage is output to the multi-path relay.

The further scheme is as follows:

the processing module of the automatic on-off test device executes the test case and controls the multi-path relay to work so as to realize on-off control of each output socket power supply.

The invention also discloses an automatic startup and shutdown testing method, which comprises the following steps:

s001: designing a 'test config file' according to the type of the tested device;

the automatic power on/off test device provides standard test cases of each voltage output socket for users, and testers can directly call the test cases in a test config file, wherein the test config file comprises keywords of logs of successful startup and startup of tested equipment corresponding to serial numbers of each voltage output socket and a monitoring mechanism of the working state of the tested equipment besides package interface parameters;

s002: storing the 'test config file' in the S001 into an external memory, wherein the external memory is accessed to a data storage module of the automatic startup and shutdown test device;

s003: the tester operates the control signal input module of the automatic on-off testing device, directly calls the 'test config file' in S001, or independently selects the voltage output sockets to be used through a human-computer interface, the output power supply opening-closing time T1, the output power supply closing-opening time T2, the total test total TOTALTEST of the output power supply closing-opening of each voltage output socket, the keywords of the successful startup log of the tested equipment and the monitoring mechanism of the working state of the tested equipment;

s004: the processing module of the automatic startup and shutdown testing device executes corresponding tests according to the setting conditions of the step S003, and the working state output and test result analysis module displays information such as test case execution states, case execution progress and the like corresponding to the serial numbers of the output sockets;

s005: monitoring the working state of the tested equipment according to the monitoring mechanism in the step S003;

s006: the automatic startup and shutdown testing device judges whether a fault site is protected or not, and identification ID numbers corresponding to whether the fault site is protected or not are 001 and 002 respectively;

s007-1: if the identification ID in the S006 is 001, the automatic startup and shutdown testing device monitors whether the test case is executed completely or whether the tested equipment fails to start within a specified time;

s007-2: if the ID in the S006 is 002, the automatic startup and shutdown testing device monitors whether the test case is executed;

s008-1, if the judgment of S007-1 is successful, stopping executing the test case by the automatic startup and shutdown test device, displaying the working state of the tested equipment in the working state output module, giving an alarm, recording the working log of the tested equipment and automatically storing the working log in the data storage module;

s008-2: if the judgment of S007-2 is successful, the automatic power-on and power-off test device stops executing the test case, displays the total times of success and failure of the power-on and power-off test of the tested equipment in the working state output module, records the working log of the tested equipment and automatically stores the working log into the data storage module; if the startup of the tested equipment fails, the log of the startup failure can be independently stored;

s008-3: if the judgment of S007-1 or S007-2 fails, the automatic startup and shutdown test device returns to the step of S004 to continue executing the test case until the judgment of S007-1 or S007-2 is successful;

s009: and finishing the automatic test of the startup and shutdown.

The invention has the following characteristics:

the invention solves the problem of single value of the power supply voltage, the output voltage of the testing device comprises low direct current voltage, standard alternating current voltage 220V and adjustable voltage 0-400V, and various products with different working voltages can be tested simultaneously.

2. The invention solves the problem of single control of the output power supply, can simultaneously control and output a plurality of power supplies, can simultaneously execute different test cases by each power supply, and can simultaneously test and monitor the starting time and various products with different starting working logs.

3. The invention solves the problem that the testing device in the prior art can not completely simulate the use scene of a user, has adjustable output voltage range, can simulate the working scene of undervoltage lower than the rated voltage of tested equipment by-15 percent or overvoltage higher than the rated voltage of the tested equipment by +15 percent, and can achieve the purpose of startup and shutdown testing.

4. The invention solves the problem that the test device in the prior art can not protect the fault site of the failed start-up of the tested equipment, and the fault phenomenon of the failed start-up can be visually displayed in front of research and development personnel, thereby facilitating the positioning and analysis of the research and development personnel.

5. The method solves the problem that the working logs of the startup failure need to be screened from huge log files of the tested equipment when the research and development positioning analysis is carried out, and when the startup failure of the tested equipment occurs, the latest working logs of the tested equipment are the logs of the startup failure of the tested equipment or the logs of the startup failure of the tested equipment which are stored separately, so that the research and development personnel are prevented from manually screening the fault logs from the huge working logs, and the time for researching and developing the troubleshooting problem is saved.

6. The testing device provided by the invention is provided with a key and a screen (an LED nixie tube or an LCD display screen or a touch screen), a tester can perform testing operation and display the current working state of the tested equipment through the man-machine interface of the testing device, the testing method is simple, and the difficulty in automatic testing and popularization is small.

Drawings

FIG. 1 is a block diagram of an implementation of an automatic power on/off test system

FIG. 2 is a block diagram of the I/O device connection of the automatic on/off test apparatus

FIG. 3 is a block diagram of a variable voltage output module implementation

FIG. 4 is a flow chart of the testing process of the automatic power on/off testing system

FIG. 5 is a test parameter input diagram of voltage output socket number DCOUT11

FIG. 6 is a diagram showing the operation status of the voltage output socket number DCOUT11

Detailed Description

The invention is further described with reference to the following figures and specific embodiments.

As shown in fig. 1, the automatic on/off test system of the present invention is composed of an automatic on/off test apparatus 1, networking equipment 3, and a device under test 2. The automatic startup and shutdown testing device 1 comprises a data storage module 11, a control signal input module 12, a working state output and test result analysis module 13, a processing module 14 and a variable voltage output module 15; the networking device 3 consists of a switch or a serial server 31 and a power strip 32; the tested device 2 is composed of a work log output module 21, a power input module 22 and a message scheduling module 23.

As shown in fig. 2, the data storage module 11 of the automatic on/off test apparatus of the present invention is composed of one or two combinations of a mobile storage device interface 111 and a computer communication interface 112; the control signal input module 12 is composed of one or two of an input module 121 of the testing device and an external input interface 122 of the testing device; the working state output and test result analysis module 13 is composed of a working state output module 131 and an input/output interface 132 connected to the device under test, wherein the working state output module 131 is composed of one or a combination of an output module 1311 of the test apparatus and an external monitor interface 1312 of the test apparatus.

As described in fig. 3, the variable voltage output module 15 of the automatic on/off test apparatus of the present invention is composed of an output socket 151, a multi-way relay 152, an AC/DC conversion module 153, and a voltage regulator module 154. The output socket 151 is composed of one or more of a voltage-adjustable DC output socket 1511, a 220V AC output socket 1512 and a voltage-adjustable AC output socket 1513.

The data import export mode of the automatic startup and shutdown test device is composed of one or two combinations of import and export of a mobile memory and online import and export of a computer, wherein the mobile memory comprises one or more combinations of a U disk, a mobile hard disk, a TF card, an SD card and a mobile phone; the control signal input mode of the automatic startup and shutdown test device is composed of one or two of the input modes (such as keys and a touch screen) of the test device and the external input mode (a keyboard, a mouse or a single PC) of the test device; the working state output mode of the automatic startup and shutdown testing device is formed by one or two combinations of an output module (such as an LED nixie tube, an LCD display screen and a touch screen) of the testing device and an external monitor of the testing device; the voltage output of the automatic on-off test device is composed of one or more of adjustable DC voltage, 220V AC voltage and adjustable AC voltage.

The automatic startup and shutdown testing device carries out AC/DC module conversion (voltage transformation- > rectification- > voltage stabilizing circuit) on 220V AC voltage, and outputs adjustable DC voltage of 0-60V to a multi-path relay; the voltage regulating and transforming conversion is carried out on 220V AC voltage, and 0-400V adjustable AC voltage is output to the multi-path relay. The processing module of the automatic on-off test device executes the test case and controls the multi-path relay to work so as to realize on-off control of each output socket power supply. Each output socket voltage has a unique socket number, such as n-way variable direct current voltage output socket numbers DCOUT11, DCOUT12, … …, DCOUT2 n; the serial numbers ACOUT21, ACOUT22, … … and ACOUT2n of the n-channel 220V alternating voltage output socket; the n-way variable ac voltage output sockets are numbered ACOUT31, ACOUT32, … …, ACOUT3 n. The automatic on-off test system can realize the function of simultaneously testing different types of products.

The screen in the input module 121 and the output module 1311 of the test device can be shared; the USB interface, the network interface and the serial port in the mobile storage equipment interface 111, the computer communication interface 112, the test device external input interface 122, the test device external monitor interface 1312 and the input/output interface 132 connected with the tested equipment can be shared; the control signal input module 12 in the automatic on-off test device 1 and the switch or serial server 31 and the power strip 32 in the networking device 3 are optional modules, and the configuration of the automatic on-off test system can be reasonably selected according to the system cost and the use convenience.

The tester directly calls a 'test config file' or independently selects a voltage output socket to be used through a good human-computer interface and sets test parameters related to the socket number, and the processing module of the automatic on-off test device executes a corresponding test case so as to realize the on-off automatic test and monitoring work of the tested equipment.

As shown in fig. 4, the present invention further provides an automatic power on/off test method, which comprises the following steps:

s001: the "test config file" is designed according to the kind of the device under test.

The automatic on/off test apparatus 1 provides the user with the standard test cases of each voltage output socket, and the tester can directly call such test cases in the "test config file", as shown in example 1 below.

Example 1:

"total test", "T1", and "T2" in example 1 are test case package interfaces of the voltage output socket DCOUT11, and a tester only needs to know the title number "DC-OUT-11" of the voltage output socket number DCOUT11, the total test.

The content in the "test config file" includes, in addition to the package interface parameters in example 1, keywords of logs of successful boot-up start of the device under test corresponding to the numbers of the voltage output sockets, and a mechanism for monitoring the operating state of the device under test.

S002: the "test config file" in S001 is stored in the external memory, and the external memory is accessed to the data storage module 11 of the automatic startup and shutdown test apparatus 1.

S003: the tester operates the control signal input module 12 of the automatic on/off test device 1 to directly call the "test config file" in S001 or individually select the voltage output sockets to be used through a good human-computer interface, the output power supply on-off time T1, the output power supply off-on time T2, the total test total number TOTALTEST of the output power supplies on-off of each voltage output socket, the key word of the successful start log of the tested device, and the start-up monitoring mechanism for the working state of the tested device.

The software control interface of the control signal input module 12 of the automatic startup and shutdown testing device 1 has 2 modes of display, one mode is directly displayed on the input module 121 of the testing device, and the other mode can access the menu WEB page display of the control input module 12 through an external input device mode.

All the contents in the "test config file" in step S001 can be manually set in the relevant interface of the signal input module 12 of the automatic on/off test apparatus 1 in step S003, and the "DC-OUT-11" is shown in fig. 5 as a man-machine interface for controlling operation and display on the input module 121 of the test apparatus itself.

S004: the processing module 14 of the automatic on/off test apparatus 1 executes the corresponding test according to the setting condition of step S003, and the operating state output and test result analysis module 13 displays information such as the execution state of the test case corresponding to each output socket number and the execution progress of each case.

S005: and monitoring the working state of the tested device according to the monitoring mechanism in the step S003.

The state of the working state output module 131 of the automatic on-off test device 1 has 2 display modes, one mode is directly displayed on the output module 1311 of the test device, and the other mode can be directly displayed or displayed by accessing a WEB page of the test device through an external monitoring equipment mode. Taking the voltage output socket number DCOUT11 as an example, the state screenshot of "DC-OUT-11" displayed on the output module 1311 of the test apparatus is shown in fig. 6.

S006: the automatic startup and shutdown testing device 1 determines whether or not to protect the fault site, and the identification ID numbers corresponding to whether or not to protect the fault site are 001 and 002, respectively.

S007-1: if the ID in S006 is 001, the automatic power on/off test apparatus 1 monitors whether the test case is executed completely or whether the device under test fails to start within a predetermined time.

S007-2: if the ID of the identifier in S006 is 002, the automatic startup/shutdown testing apparatus 1 monitors whether the test case is executed completely.

And S008-1, if the judgment of S007-1 is successful, the automatic startup and shutdown testing device 1 stops executing the test case, displays the working state of the tested equipment in the working state output module 131, gives an alarm, records the working log of the tested equipment and automatically stores the working log in the data storage module 11.

S008-2: if the judgment of S007-2 is successful, the automatic power on/off test apparatus 1 stops executing the test case, displays the total times of success and failure of the power on/off test of the device under test in the working state output module 131, records the working log of the device under test, and automatically stores the working log in the data storage module 11. If the startup of the tested device fails, the log of the startup failure can be stored separately.

S008-3: if the judgment of S007-1 or S007-2 fails, the automatic startup and shutdown test device 1 returns to the step of S004 to continue executing the test case until the judgment of S007-1 or S007-2 succeeds.

S009: and finishing the automatic test of the startup and shutdown.

The tested products of the invention have wide variety: the invention can be widely applied to other electronic products powered by a direct current power supply besides being applied to alternating current 220V universal household appliances.

The output socket is in large quantity: the invention can control the output of multiple power supplies at the same time, each power supply can execute different test cases at the same time, and the automatic power on/off test device can monitor the working state of the tested equipment corresponding to each power socket and store the working log of the corresponding tested equipment at the same time.

The purpose of startup and shutdown testing is better achieved: the invention can completely simulate the use scene of a user, can simulate the working scene of undervoltage lower than-15% of the rated voltage of the tested equipment or overvoltage higher than + 15% of the rated voltage of the tested equipment due to adjustable output voltage range, and can achieve the purpose of startup and shutdown test.

The fault site can be protected: the fault phenomenon of the startup failure can be visually displayed in front of research and development personnel, and the research and development personnel can conveniently position and analyze the problems.

The fault log can be saved separately: if the startup of the tested product fails, the invention can independently store the startup failure log of the tested device, thereby avoiding the research personnel from manually screening the fault log from the huge working log and saving the time for researching, developing and troubleshooting problems.

The difficulty of system construction is low: at present, most automatic startup and shutdown testing devices in the industry need to be externally connected with a computer to control the testing devices or monitor the work of tested equipment, and the testing systems are multiple in member composition and complex in system construction. The automatic startup and shutdown test system disclosed by the invention can only comprise the test device and the tested equipment, the single test device is convenient to carry, and the test system is simple to build.

Good human-computer interface: the testing device is provided with the keys and the screen, and a tester can perform testing operation and display the current working state of the testing device through the human-computer interface of the testing device;

in conclusion, the testing method is simple, the automatic testing popularization difficulty is low, the practical application environment of a user can be simulated, the automatic on-off testing requirements of electronic products are met in a low-cost mode, and the aims of reducing labor cost, improving testing efficiency and enhancing product quality are fulfilled.

Although the present invention has been described herein with reference to the illustrated embodiments thereof, which are intended to be preferred embodiments of the present invention, it is to be understood that the invention is not limited thereto, and that numerous other modifications and embodiments can be devised by those skilled in the art that will fall within the spirit and scope of the principles of this disclosure.

Claims (6)

1. An automatic startup and shutdown testing method is characterized by comprising the following steps:

s001: designing a 'test config file' according to the type of the tested device;

the automatic power on/off test device provides standard test cases of each voltage output socket for users, and testers can directly call the test cases in a test config file, wherein the test config file comprises keywords of logs of successful startup and startup of tested equipment corresponding to serial numbers of each voltage output socket and a monitoring mechanism of the working state of the tested equipment besides package interface parameters;

s002: storing the 'test config file' in the S001 into an external memory, wherein the external memory is accessed to a data storage module of the automatic startup and shutdown test device;

s003: the tester operates the control signal input module of the automatic on-off testing device, directly calls the 'test config file' in S001, or independently selects the voltage output sockets to be used through a human-computer interface, the output power supply opening-closing time T1, the output power supply closing-opening time T2, the total test total TOTALTEST of the output power supply closing-opening of each voltage output socket, the keywords of the successful startup log of the tested equipment and the monitoring mechanism of the working state of the tested equipment;

s004: the processing module of the automatic startup and shutdown testing device executes corresponding tests according to the setting condition of the step S003, and the working state output and test result analysis module displays the execution state of the test cases and the execution progress information of the cases corresponding to the serial numbers of the output sockets;

s005: monitoring the working state of the tested equipment according to the monitoring mechanism in the step S003;

s006: the automatic startup and shutdown testing device judges whether a fault site is protected or not, and identification ID numbers corresponding to whether the fault site is protected or not are 001 and 002 respectively;

s007-1: if the identification ID in the S006 is 001, the automatic startup and shutdown testing device monitors whether the test case is executed completely or whether the tested equipment fails to start within a specified time;

s007-2: if the ID in the S006 is 002, the automatic startup and shutdown testing device monitors whether the test case is executed;

s008-1, if the judgment of S007-1 is successful, stopping executing the test case by the automatic startup and shutdown test device, displaying the working state of the tested equipment in the working state output module, giving an alarm, recording the working log of the tested equipment and automatically storing the working log in the data storage module;

s008-2: if the judgment of S007-2 is successful, the automatic power-on and power-off test device stops executing the test case, displays the total times of success and failure of the power-on and power-off test of the tested equipment in the working state output module, records the working log of the tested equipment and automatically stores the working log into the data storage module; if the startup of the tested equipment fails, the log of the startup failure can be independently stored;

s008-3: if the judgment of S007-1 or S007-2 fails, the automatic startup and shutdown test device returns to the step of S004 to continue executing the test case until the judgment of S007-1 or S007-2 is successful;

s009: and finishing the automatic test of the startup and shutdown.

2. An automatic on/off test system for implementing the automatic on/off test method as claimed in claim 1, which mainly comprises an automatic on/off test device, networking equipment and a device under test, and is characterized in that: the automatic startup and shutdown testing device consists of a data storage module, a control signal input module, a working state output and test result analysis module, a processing module and a variable voltage output module; the networking equipment consists of a switch and a socket or a serial server and a socket;

the data storage module, the control signal input module, the working state output and test result analysis module and the variable voltage output module in the automatic on-off test device are respectively connected with the processing module, wherein the data storage module is used for importing a 'test config file' in an external memory and storing the file, storing a working log of a tested device and exporting the log to the external memory and storing working data of the automatic on-off test device; the working state output and test result analysis module in the automatic startup and shutdown test device is connected with the working log output module in the tested equipment through a network cable or a serial port cable; a variable voltage output module in the automatic startup and shutdown testing device provides electric energy for a power input module in the tested device;

the tested equipment comprises a power input module, a message scheduling module and a working log output module, wherein the power input module is connected with a variable voltage output module of the automatic on-off testing device through an insert row of networking equipment, the working log output module is connected with a working state output and testing result analysis module through a switch or a serial server, and the power input module is connected with the working log output module through the message scheduling module.

3. The automatic startup and shutdown test system of claim 2, wherein:

the data import and export mode of the automatic startup and shutdown test device is composed of one or two combinations of import and export of a mobile memory and online import and export of a computer, wherein the mobile memory comprises one or more combinations of a U disk, a mobile hard disk, a TF card, an SD card and a mobile phone.

4. The automatic startup and shutdown testing system of claim 3, wherein:

the control signal input mode of the automatic startup and shutdown testing device is composed of one or two of the input mode of the testing device and the external input mode of the testing device; the working state output mode of the automatic startup and shutdown testing device is composed of one or two combinations of an output module of the testing device and an external monitor of the testing device; the voltage output of the automatic on-off test device is composed of one or more of adjustable DC voltage, 220V AC voltage and adjustable AC voltage.

5. The automatic startup and shutdown testing system of claim 4, wherein:

the automatic startup and shutdown testing device performs AC/DC module conversion on 220V AC voltage and outputs adjustable DC voltage of 0-60V to the multi-path relay; the voltage regulating and transforming conversion is carried out on 220V AC voltage, and 0-400V adjustable AC voltage is output to the multi-path relay.

6. The automatic startup and shutdown test system of claim 2, wherein:

the processing module of the automatic on-off test device executes the test case and controls the multi-path relay to work so as to realize on-off control of each output socket power supply.