CN117639969A - Automatic testing method for cellular network terminal - Google Patents

Abstract

The invention discloses an automatic testing method for a cellular network terminal, which comprises the following steps: receiving a frequency band combination of the tested equipment sent by a comprehensive tester, and generating a first test plan according to the frequency band combination; generating a plurality of first signal control instructions according to the first test plan; wherein each first signal control instruction includes a test plan for a set of signals; the signal comprises: a 5G low frequency signal, a 5G intermediate frequency signal, and a 5G high frequency signal; respectively sending first signal control instructions to the comprehensive testing instrument so that the comprehensive testing instrument outputs signals corresponding to the first signal control instructions; respectively receiving a plurality of registration information sent by tested equipment to generate a plurality of test results; wherein the tested equipment is arranged in the shielding box; the tested equipment carries out cellular network registration according to signals output by the comprehensive tester; and generating a first test report according to each test result so as to improve the test efficiency of the cellular network equipment.

Description

Automatic testing method for cellular network terminal

Technical Field

The invention relates to the field of automatic testing of cellular network equipment, in particular to an automatic testing method of a cellular network terminal.

Background

Advances in wireless communication technology have made the CA and ENDC bands critical resources. The frequency bands can improve the speed and quality of data transmission and meet the diversified demands of users. In order to ensure the optimal utilization of CA and ENDC frequency bands and the reliability of data transmission, accurate tests such as the correctness of frequency band registration information, the theoretical value matching of throughput and the like are required to be carried out. These tests can detect the performance and stability of the network and discover and solve potential problems.

Most of the existing testing methods are manually operated, have low efficiency and are easy to error. The manual operation requires a lot of time and labor, and may ignore some details or generate erroneous judgment. Therefore, it has important practical significance to develop a tool and a device capable of automatically completing CA and ENDC frequency band tests.

Disclosure of Invention

The embodiment of the invention provides an automatic testing method for a cellular network terminal, which is used for improving the testing efficiency of the cellular network equipment and comprises the following steps:

receiving a frequency band combination of the tested equipment sent by a comprehensive tester, and generating a first test plan according to the frequency band combination;

generating a plurality of first signal control instructions according to the first test plan; wherein each first signal control instruction includes a test plan for a set of signals; the signal comprises: a 5G low frequency signal, a 5G intermediate frequency signal, and a 5G high frequency signal; the frequency range of the low-frequency signal is between six hundred megahertz and nine hundred megahertz; the frequency range of the intermediate frequency signal is between one thousand eight hundred megahertz and two thousand six hundred megahertz; the frequency range of the high-frequency signal megahertz is between two thousand six hundred megahertz and six gigahertz;

respectively sending first signal control instructions to the comprehensive testing instrument so that the comprehensive testing instrument outputs signals corresponding to the first signal control instructions;

respectively receiving a plurality of registration information sent by tested equipment to generate a plurality of test results; wherein the tested equipment is arranged in the shielding box; the tested equipment carries out cellular network registration according to signals output by the comprehensive tester;

and generating a first test report according to each test result.

Compared with the prior art, the embodiment of the invention has the beneficial effects that:

the method covers low-frequency, medium-frequency and high-frequency signals of 5G, thereby comprehensively testing the performance of the tested equipment under different frequency bands; generating a test plan according to the received frequency band combination of the tested equipment, so that the test can be adaptively adjusted according to the actual working frequency band of the tested equipment, and the flexibility and applicability of the test are improved; the tested equipment is arranged in the shielding box, so that the interference of the external environment on the test can be reduced, and the test result is more accurate and reliable; by receiving the registration information sent by the tested device, the registration and connection process of the device in the network can be evaluated, so that the performance of the device in the real network environment can be comprehensively known.

Optionally, the receiving unit receives the plurality of registration information sent by the tested device, and generates a plurality of test results, specifically:

generating a plurality of preset signals according to the plurality of first signal control instructions;

and respectively receiving a plurality of pieces of registration information sent by the tested equipment, and generating a plurality of test results according to any preset signal and the registration information corresponding to the preset signal.

By implementing the selectable item, more comprehensive analysis and evaluation can be performed by receiving a plurality of registration information sent by the tested device, and different registration information reflects the registration behavior of the tested device under different conditions, so that more test data are provided, and the performance of the tested device under different network states can be more comprehensively known; by matching the plurality of registration information with the preset signals to generate a plurality of test results, more information about the performance of the tested device can be obtained, the performance difference of the device under different situations can be recognized, and more accurate performance evaluation can be provided.

Optionally, after receiving the plurality of registration information sent by the tested device, the method further includes:

if the registration signal in the registration information is the same as the preset signal corresponding to the registration information, the comprehensive tester is enabled to verify the throughput of the tested equipment, and a first test report is generated.

By implementing the selectable item, whether the device to be tested is carried out according to the preset signal in actual registration can be selectively verified by comparing the identity of the registration signal in the registration information with the preset signal, and if the registration signal is identical with the preset signal, throughput verification can be triggered, so that the performance of the device in the registration process can be evaluated, and the device to be tested can reach the expected throughput level in actual use.

Optionally, before the receiving the frequency band combination of the device under test sent by the comprehensive tester, the method further includes:

receiving a first list sent by the comprehensive tester; the first list is a signal list supported by the tested equipment;

enabling the comprehensive tester to output any signal in the first list;

receiving initial registration information sent by the tested equipment, and updating the comprehensive tester and the tested equipment according to the initial registration information and any signal until the registration signal in the initial registration information is the same as the any signal; the initial registration information is obtained by the tested equipment registering a cellular network according to any signal.

By implementing the selectable item, the initialization configuration of the equipment can be performed by receiving the initial registration information of the tested equipment, and the synchronous support of the integrated tester and the tested equipment can be ensured by updating the integrated tester and the tested equipment, so that consistent test conditions are provided for subsequent tests, and possible inconsistencies and interference in the test can be reduced.

Optionally, before the receiving the first list sent by the comprehensive tester, the method further includes:

accessing the comprehensive tester through a GPIB address of the comprehensive tester to generate a first evaluation score;

updating the comprehensive tester according to the first evaluation score and a preset first standard until the first evaluation score is greater than or equal to the first standard.

By implementing the selectable item, the test is started only when the first evaluation score is greater than or equal to the first standard, so that the comprehensive tester can execute the test under the condition that a certain performance level is met, and the accuracy and the reliability of the test are improved.

Correspondingly, the embodiment of the invention also provides an automatic test terminal of the cellular network terminal, which comprises the following steps: the system comprises a planning module, an instruction module, a testing module, a result module and a reporting module;

the planning module is used for receiving the frequency band combination of the tested equipment sent by the comprehensive tester and generating a first test plan according to the frequency band combination;

the instruction module is used for generating a plurality of first signal control instructions according to the first test plan; wherein each first signal control instruction includes a test plan for a set of signals; the signal comprises: a 5G low frequency signal, a 5G intermediate frequency signal, and a 5G high frequency signal; the frequency range of the low-frequency signal is between six hundred megahertz and nine hundred megahertz; the frequency range of the intermediate frequency signal is between one thousand eight hundred megahertz and two thousand six hundred megahertz; the frequency range of the high-frequency signal megahertz is between two thousand six hundred megahertz and six gigahertz;

the test module is used for respectively sending first signal control instructions to the comprehensive tester so that the comprehensive tester outputs signals corresponding to the first signal control instructions;

the result module is used for respectively receiving a plurality of registration information sent by the tested equipment and generating a plurality of test results; wherein the tested equipment is arranged in the shielding box; the tested equipment carries out cellular network registration according to signals output by the comprehensive tester;

the reporting module is used for a first test report.

Optionally, the result module further includes: an index unit and an integration unit;

the index unit is used for generating a plurality of preset signals according to the plurality of first signal control instructions;

the integration unit is used for respectively receiving a plurality of pieces of registration information sent by the tested equipment and generating a plurality of test results according to any preset signal and the registration information corresponding to the preset signal.

Optionally, after the result module receives the plurality of registration information sent by the tested device, the method further includes:

if the registration signal in the registration information is the same as the preset signal corresponding to the registration information, the comprehensive tester is enabled to verify the throughput of the tested equipment, and a first test report is generated.

Optionally, the planning module further includes: a pre-test unit and a calibration unit;

the pre-test unit is used for receiving a first list sent by the comprehensive tester and enabling the comprehensive tester to output any signal in the first list; the first list is a signal list supported by the tested equipment;

the calibration unit is used for receiving initial registration information sent by the tested equipment, and updating the comprehensive tester and the tested equipment according to the initial registration information and any signal until the registration signal in the initial registration information is the same as the any signal; the initial registration information is obtained by the tested equipment registering a cellular network according to any signal.

Optionally, before the receiving the first list sent by the comprehensive tester, the method further includes: an evaluation unit and a calibration unit;

the evaluation unit is used for accessing the comprehensive tester through a GPIB address of the comprehensive tester to generate a first evaluation score;

the adjusting unit is used for updating the comprehensive tester according to the first evaluation score and a preset first standard until the first evaluation score is greater than or equal to the first standard.

Correspondingly, the embodiment of the invention also provides an automatic testing system for the cellular network terminal, which comprises the following steps: the system comprises a terminal, a comprehensive tester, a shielding box and tested equipment;

wherein the terminal is connected with the comprehensive tester through a GPIB (general purpose interface bus) line; the comprehensive tester is connected with the tested equipment through a radio frequency line; the tested equipment is connected with the terminal through a network cable or a USB (universal serial bus) line; the tested equipment is arranged in the shielding box;

the terminal is used for executing the automatic testing method of the cellular network terminal.

Drawings

In order to more clearly illustrate the technical solutions of the present invention, the drawings that are needed in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and that other drawings can be obtained according to these drawings without inventive effort for a person skilled in the art.

Fig. 1 is a flowchart of a method for automatically testing a cellular network terminal according to an embodiment of the present invention;

fig. 2 is a flowchart of a specific implementation step of a method for automatically testing a cellular network terminal according to an embodiment of the present invention;

fig. 3 is a block diagram of an automatic test system for cellular network terminals according to an embodiment of the present invention;

fig. 4 is a block diagram of an automatic test terminal for a cellular network terminal according to an embodiment of the present invention.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

It should be understood that the step numbers used herein are for convenience of description only and are not limiting as to the order in which the steps are performed.

It is to be understood that the terminology used in the description of the invention is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. As used in this specification and the appended claims, the singular forms "a," "an," and "the" are intended to include the plural forms as well, unless the context clearly indicates otherwise.

The terms "comprises" and "comprising" indicate the presence of stated features, integers, steps, operations, elements, and/or components, but do not preclude the presence or addition of one or more other features, integers, steps, operations, elements, components, and/or groups thereof.

The term "and/or" refers to any and all possible combinations of one or more of the associated listed items, and includes such combinations.

Embodiment one:

referring to fig. 1, an embodiment of the present invention provides an automatic testing method for a cellular network terminal, including:

s10, receiving a frequency band combination of the tested device sent by the comprehensive tester, and generating a first test plan according to the frequency band combination.

In a specific implementation, before the receiving the frequency band combination of the tested device sent by the comprehensive tester, the method further includes: receiving a first list sent by the comprehensive tester; the first list is a signal list supported by the tested equipment; enabling the comprehensive tester to output any signal in the first list; receiving initial registration information sent by the tested equipment, and updating the comprehensive tester and the tested equipment according to the initial registration information and any signal until the registration signal in the initial registration information is the same as the any signal; the initial registration information is obtained by the tested equipment registering a cellular network according to any signal. By receiving the initial registration information of the tested equipment, the equipment can be initialized and configured, and by updating the comprehensive tester and the tested equipment, the comprehensive tester and the tested equipment can be ensured to synchronously support the same signals, so that consistent test conditions are provided for subsequent tests, and possible inconsistencies and interference in the test can be reduced.

In a specific implementation, before the receiving the first list sent by the comprehensive tester, the method further includes:

accessing the comprehensive tester through a GPIB address of the comprehensive tester to generate a first evaluation score;

updating the comprehensive tester according to the first evaluation score and a preset first standard until the first evaluation score is greater than or equal to the first standard. By enabling the first evaluation score to be greater than or equal to the first standard, the comprehensive tester can be ensured to execute the test under the condition that a certain performance level is met, and the accuracy and the reliability of the test can be improved.

S20, generating a plurality of first signal control instructions according to the first test plan; wherein each first signal control instruction includes a test plan for a set of signals; the signal comprises: a 5G low frequency signal, a 5G intermediate frequency signal, and a 5G high frequency signal; the frequency range of the low-frequency signal is between six hundred megahertz and nine hundred megahertz; the frequency range of the intermediate frequency signal is between one thousand eight hundred megahertz and two thousand six hundred megahertz; the frequency range of the high-frequency signal megahertz is between two thousand and six hundred megahertz and six gigahertz.

S30, respectively sending first signal control instructions to the comprehensive testing instrument so that the comprehensive testing instrument outputs signals corresponding to the first signal control instructions.

S40, respectively receiving a plurality of registration information sent by the tested equipment to generate a plurality of test results; wherein the tested equipment is arranged in the shielding box; the registration information is obtained by registering a cellular network by the tested equipment according to the signal output by the comprehensive tester.

In a specific implementation, the method includes the steps of respectively receiving a plurality of registration information sent by the tested device, and generating a plurality of test results, specifically: generating a plurality of preset signals according to the plurality of first signal control instructions; and respectively receiving a plurality of pieces of registration information sent by the tested equipment, and generating a plurality of test results according to any preset signal and the registration information corresponding to the preset signal. By receiving a plurality of registration information sent by the tested device, more comprehensive analysis and evaluation can be performed, different registration information reflects the registration behavior of the tested device under different conditions, so that more test data are provided, and the performance of the tested device under different network states can be more comprehensively known; by matching the plurality of registration information with the preset signals to generate a plurality of test results, more information about the performance of the tested device can be obtained, the performance difference of the device under different situations can be recognized, and more accurate performance evaluation can be provided.

In a specific implementation, after receiving the plurality of registration information sent by the tested device, the method further includes: if the registration signal in the registration information is the same as the preset signal corresponding to the registration information, the comprehensive tester is enabled to verify the throughput of the tested equipment, and a first test report is generated. By comparing the identity of the registration signal in the registration information with the preset signal, it can be selectively verified whether the device under test is in accordance with the preset signal during actual registration, and if the registration signal is the same as the preset signal, throughput verification can be triggered, which is helpful for evaluating the performance of the device during registration and ensuring that the device under test can reach the expected throughput level during actual use.

S50, generating a first test report according to each test result.

Referring to fig. 2, an embodiment of the present invention provides a specific implementation step flow of a method for automatically testing a cellular network terminal, including:

and receiving the CA and ENDC frequency band combination of the tested equipment sent by the 5G comprehensive tester, and generating a first test plan according to the frequency band combination.

In a specific implementation, accessing a 5G comprehensive tester through a GPIB address of the 5G comprehensive tester to generate a first evaluation score; and updating the 5G comprehensive tester according to the first evaluation score and a preset first standard until the first evaluation score is greater than or equal to the first standard.

In a specific implementation, receiving a first list sent by the 5G comprehensive tester; the first list is a signal list supported by the tested equipment; the first list is generated according to the product specification of the tested equipment; enabling the 5G comprehensive tester to output any one signal in the first list; receiving initial registration information sent by the tested equipment, and updating the 5G comprehensive tester and the tested equipment according to the initial registration information and any signal until the registration signal in the initial registration information is the same as the any signal; the initial registration information is obtained by the tested equipment registering a cellular network according to any signal.

Generating a plurality of first signal control instructions according to the first test plan; wherein each first signal control instruction includes a test plan for a set of signals; the signal comprises: a 5G low frequency signal, a 5G intermediate frequency signal, and a 5G high frequency signal; the frequency range of the low-frequency signal is between six hundred megahertz and nine hundred megahertz; the frequency range of the intermediate frequency signal is between one thousand eight hundred megahertz and two thousand six hundred megahertz; the frequency range of the high-frequency signal megahertz is between two thousand and six hundred megahertz and six gigahertz.

And respectively sending first signal control instructions to the 5G comprehensive tester so that the 5G comprehensive tester outputs signals corresponding to the first signal control instructions.

Respectively receiving a plurality of registration information sent by tested equipment to generate a plurality of test results; wherein the tested equipment is arranged in the shielding box; the registration information is obtained by registering the tested equipment in the cellular network according to the signals output by the 5G comprehensive tester.

In a specific implementation, the method includes the steps of respectively receiving a plurality of registration information sent by the tested device, and generating a plurality of test results, specifically: generating a plurality of preset signals according to the plurality of first signal control instructions; and respectively receiving a plurality of pieces of registration information sent by the tested equipment, and generating a plurality of test results according to any preset signal and the registration information corresponding to the preset signal.

In a specific implementation, after receiving the plurality of registration information sent by the tested device, the method further includes:

if the registration signal in the registration information is the same as the preset signal corresponding to the registration information, the 5G comprehensive tester is enabled to verify the throughput of the tested equipment, and a first test report is generated.

And receiving a plurality of registration information sent by the tested equipment through a USB (universal serial bus) line or a network line respectively, and generating a plurality of test results according to any preset signal and the registration information corresponding to the preset signal.

And generating a first test report according to each test result.

According to the automatic testing method for the cellular network terminal, provided by the embodiment of the invention, the test plan comprises tests covering 5G low-frequency signals, 5G medium-frequency signals and 5G high-frequency signals, so that the comprehensive test of each frequency band of the cellular network terminal can be ensured; the tested equipment is arranged in the shielding box, so that external interference can be reduced, and the accuracy of a test result is ensured; if the registration signal in the registration information is the same as the preset signal, verifying the throughput of the tested equipment, generating a first test report, and realizing additional verification of the performance of the equipment; the comprehensive tester is accessed by using the GPIB address to generate a first evaluation score, and the comprehensive tester is dynamically updated according to the evaluation score and a preset standard, so that the performance of the comprehensive tester is ensured to always meet the test requirement; before the test starts, the tested equipment and the comprehensive tester are updated by receiving the first list sent by the comprehensive tester, so that the test is ensured to be carried out on a signal list supported by the tested equipment, and the practicability and the accuracy of the test are improved.

Embodiment two:

referring to fig. 4, an embodiment of the present invention provides an automatic test terminal for a cellular network terminal, including: a planning module 1, an instruction module 2, a testing module 3, a result module 4 and a reporting module 5;

the planning module 1 is configured to receive a frequency band combination of the device under test sent by the comprehensive tester, and generate a first test plan according to the frequency band combination.

In a specific implementation, the planning module further includes: a pre-test unit 6 and a calibration unit 7; the pre-test unit 6 is configured to receive a first list sent by the comprehensive tester, and make the comprehensive tester output any signal in the first list; the first list is a signal list supported by the tested equipment; the calibration unit 7 is configured to receive initial registration information sent by the device under test, and update the comprehensive tester and the device under test according to the initial registration information and the arbitrary signal until the registration signal in the initial registration information is the same as the arbitrary signal; the initial registration information is obtained by the tested equipment registering a cellular network according to any signal.

In a specific implementation, before the receiving the first list sent by the comprehensive tester, the method further includes: an evaluation unit 8 and a calibration unit 9; the evaluation unit 8 is configured to access the comprehensive tester through a GPIB address of the comprehensive tester to generate a first evaluation score; the adjusting unit 9 is configured to update the comprehensive tester according to the first evaluation score and a preset first standard until the first evaluation score is greater than or equal to the first standard.

The instruction module 2 is used for generating a plurality of first signal control instructions according to the first test plan; wherein each first signal control instruction includes a test plan for a set of signals; the signal comprises: a 5G low frequency signal, a 5G intermediate frequency signal, and a 5G high frequency signal; the frequency range of the low-frequency signal is between six hundred megahertz and nine hundred megahertz; the frequency range of the intermediate frequency signal is between one thousand eight hundred megahertz and two thousand six hundred megahertz; the frequency range of the high-frequency signal megahertz is between two thousand and six hundred megahertz and six gigahertz.

The test module 3 is configured to send first signal control instructions to the comprehensive tester respectively, so that the comprehensive tester outputs signals corresponding to the first signal control instructions.

The result module 4 is used for respectively receiving a plurality of registration information sent by the tested equipment and generating a plurality of test results; wherein the tested equipment is arranged in the shielding box; the registration information is obtained by registering a cellular network by the tested equipment according to the signal output by the comprehensive tester.

In a specific implementation, the result module further includes: an index unit 10 and an integration unit 11; the index unit 10 is configured to generate a plurality of preset signals according to the plurality of first signal control instructions; the integrating unit 11 is configured to receive a plurality of registration information sent by the tested device, and generate a plurality of test results according to any preset signal and the registration information corresponding to the preset signal.

In a specific implementation, after the result module receives the plurality of registration information sent by the tested device, the result module further includes enabling the comprehensive tester to verify throughput of the tested device and generate a first test report if a registration signal in the registration information is the same as a preset signal corresponding to the registration information.

The reporting module 5 is used for a first test report.

The more detailed step flow and working principle of this embodiment can be, but not limited to, those described in relation to embodiment one.

According to the automatic test terminal for the cellular network terminal, provided by the embodiment of the invention, the test plan comprises tests covering 5G low-frequency signals, 5G medium-frequency signals and 5G high-frequency signals, so that the comprehensive test of each frequency band of the cellular network terminal can be ensured; the tested equipment is arranged in the shielding box, so that external interference can be reduced, and the accuracy of a test result is ensured; if the registration signal in the registration information is the same as the preset signal, verifying the throughput of the tested equipment, generating a first test report, and realizing additional verification of the performance of the equipment; the comprehensive tester is accessed by using the GPIB address to generate a first evaluation score, and the comprehensive tester is dynamically updated according to the evaluation score and a preset standard, so that the performance of the comprehensive tester is ensured to always meet the test requirement; before the test starts, the tested equipment and the comprehensive tester are updated by receiving the first list sent by the comprehensive tester, so that the test is ensured to be carried out on a signal list supported by the tested equipment, and the practicability and the accuracy of the test are improved.

Embodiment III:

the embodiment of the invention provides an automatic testing system for a cellular network terminal, which comprises the following steps: the system comprises a terminal, a comprehensive tester, a shielding box and tested equipment; wherein the terminal is connected with the comprehensive tester through a GPIB (general purpose interface bus) line; the comprehensive tester is connected with the tested equipment through a radio frequency line; the tested equipment is connected with the terminal through a network cable or a USB (universal serial bus) line; the tested equipment is arranged in the shielding box; the terminal is used for executing the automatic testing method of the cellular network terminal.

According to the automatic test system for the cellular network terminal, provided by the embodiment of the invention, the test plan comprises tests covering 5G low-frequency signals, 5G medium-frequency signals and 5G high-frequency signals, so that the comprehensive test of each frequency band of the cellular network terminal can be ensured; the tested equipment is arranged in the shielding box, so that external interference can be reduced, and the accuracy of a test result is ensured; if the registration signal in the registration information is the same as the preset signal, verifying the throughput of the tested equipment, generating a first test report, and realizing additional verification of the performance of the equipment; the comprehensive tester is accessed by using the GPIB address to generate a first evaluation score, and the comprehensive tester is dynamically updated according to the evaluation score and a preset standard, so that the performance of the comprehensive tester is ensured to always meet the test requirement; before the test starts, the tested equipment and the comprehensive tester are updated by receiving the first list sent by the comprehensive tester, so that the test is ensured to be carried out on a signal list supported by the tested equipment, and the practicability and the accuracy of the test are improved.

The foregoing embodiments have been provided for the purpose of illustrating the general principles of the present invention, and are not to be construed as limiting the scope of the invention. It should be noted that any modifications, equivalent substitutions, improvements, etc. made by those skilled in the art without departing from the spirit and principles of the present invention are intended to be included in the scope of the present invention.

Claims (11)

1. An automatic testing method for a cellular network terminal, comprising:

receiving a frequency band combination of the tested equipment sent by a comprehensive tester, and generating a first test plan according to the frequency band combination;

generating a plurality of first signal control instructions according to the first test plan; wherein each first signal control instruction includes a test plan for a set of signals; the signal comprises: a 5G low frequency signal, a 5G intermediate frequency signal, and a 5G high frequency signal; the frequency range of the low-frequency signal is between six hundred megahertz and nine hundred megahertz; the frequency range of the intermediate frequency signal is between one thousand eight hundred megahertz and two thousand six hundred megahertz; the frequency range of the high-frequency signal megahertz is between two thousand six hundred megahertz and six gigahertz;

respectively sending first signal control instructions to the comprehensive testing instrument so that the comprehensive testing instrument outputs signals corresponding to the first signal control instructions;

respectively receiving a plurality of registration information sent by tested equipment to generate a plurality of test results; wherein the tested equipment is arranged in the shielding box; the tested equipment carries out cellular network registration according to signals output by the comprehensive tester;

and generating a first test report according to each test result.

2. The automatic testing method of cellular network terminal according to claim 1, wherein the steps of receiving a plurality of registration information sent by the tested device respectively and generating a plurality of test results are as follows:

generating a plurality of preset signals according to the plurality of first signal control instructions;

and respectively receiving a plurality of pieces of registration information sent by the tested equipment, and generating a plurality of test results according to any preset signal and the registration information corresponding to the preset signal.

3. The automatic test method of a cellular network terminal according to claim 1 or 2, further comprising, after receiving the plurality of registration information transmitted by the device under test, respectively:

if the registration signal in the registration information is the same as the preset signal corresponding to the registration information, the comprehensive tester is enabled to verify the throughput of the tested equipment, and a first test report is generated.

4. The automatic test method of a cellular network terminal according to claim 1, further comprising, before the receiving comprehensive tester sends the frequency band combination of the device under test:

receiving a first list sent by the comprehensive tester; the first list is a signal list supported by the tested equipment;

enabling the comprehensive tester to output any signal in the first list;

receiving initial registration information sent by the tested equipment, and updating the comprehensive tester and the tested equipment according to the initial registration information and any signal until the registration signal in the initial registration information is the same as the any signal; the initial registration information is obtained by the tested equipment registering a cellular network according to any signal.

5. The method for automatically testing a cellular network terminal according to claim 4, further comprising, prior to said receiving the first list sent by the comprehensive tester:

accessing the comprehensive tester through a GPIB address of the comprehensive tester to generate a first evaluation score;

updating the comprehensive tester according to the first evaluation score and a preset first standard until the first evaluation score is greater than or equal to the first standard.

6. A cellular network terminal automatic test terminal, comprising: the system comprises a planning module, an instruction module, a testing module, a result module and a reporting module;

the planning module is used for receiving the frequency band combination of the tested equipment sent by the comprehensive tester and generating a first test plan according to the frequency band combination;

the instruction module is used for generating a plurality of first signal control instructions according to the first test plan; wherein each first signal control instruction includes a test plan for a set of signals; the signal comprises: a 5G low frequency signal, a 5G intermediate frequency signal, and a 5G high frequency signal; the frequency range of the low-frequency signal is between six hundred megahertz and nine hundred megahertz; the frequency range of the intermediate frequency signal is between one thousand eight hundred megahertz and two thousand six hundred megahertz; the frequency range of the high-frequency signal megahertz is between two thousand six hundred megahertz and six gigahertz;

the test module is used for respectively sending first signal control instructions to the comprehensive tester so that the comprehensive tester outputs signals corresponding to the first signal control instructions;

the result module is used for respectively receiving a plurality of registration information sent by the tested equipment and generating a plurality of test results; wherein the tested equipment is arranged in the shielding box; the tested equipment carries out cellular network registration according to signals output by the comprehensive tester;

the reporting module is used for a first test report.

7. The automatic test terminal for a cellular network terminal according to claim 6, wherein said result module further comprises: an index unit and an integration unit;

the index unit is used for generating a plurality of preset signals according to the plurality of first signal control instructions;

the integration unit is used for respectively receiving a plurality of pieces of registration information sent by the tested equipment and generating a plurality of test results according to any preset signal and the registration information corresponding to the preset signal.

8. An automatic test terminal for a cellular network terminal according to any one of claims 6 or 7, wherein after said result module receives a plurality of registration information sent by the device under test, respectively, the automatic test terminal further comprises:

if the registration signal in the registration information is the same as the preset signal corresponding to the registration information, the comprehensive tester is enabled to verify the throughput of the tested equipment, and a first test report is generated.

9. The automatic test terminal for a cellular network terminal according to claim 6, wherein said planning module further comprises: a pre-test unit and a calibration unit;

the pre-test unit is used for receiving a first list sent by the comprehensive tester and enabling the comprehensive tester to output any signal in the first list; the first list is a signal list supported by the tested equipment;

the calibration unit is used for receiving initial registration information sent by the tested equipment, and updating the comprehensive tester and the tested equipment according to the initial registration information and any signal until the registration signal in the initial registration information is the same as the any signal; the initial registration information is obtained by the tested equipment registering a cellular network according to any signal.

10. The automatic test terminal for a cellular network terminal of claim 9, further comprising, prior to said receiving said first list sent by said meter: an evaluation unit and a calibration unit;

the evaluation unit is used for accessing the comprehensive tester through a GPIB address of the comprehensive tester to generate a first evaluation score;

the adjusting unit is used for updating the comprehensive tester according to the first evaluation score and a preset first standard until the first evaluation score is greater than or equal to the first standard.

11. An automatic test system for a cellular network terminal, comprising: the system comprises a terminal, a comprehensive tester, a shielding box and tested equipment;

wherein the terminal is connected with the comprehensive tester through a GPIB (general purpose interface bus) line; the comprehensive tester is connected with the tested equipment through a radio frequency line; the tested equipment is connected with the terminal through a network cable or a USB (universal serial bus) line; the tested equipment is arranged in the shielding box;

the terminal is configured to perform a cellular network terminal automatic test method according to any one of claims 1 to 5.