CN105717374B - The exceeded problem source localization method of radiation dispersion - Google Patents

Abstract

The invention discloses a kind of problem source localization methods that radiation dispersion is exceeded.It the described method comprises the following steps: A, disconnecting the connection of the first main body device of the first user equipment and the first antenna of first user equipment；B, the connection of the second antenna of the first main body device and second user equipment is established；C, radiation dispersion test is carried out to the combination being made of the first main body device and second antenna, and generates test result；D, the source of radiation dispersion is positioned according to the test result.The present invention can determine that the exceeded problem source of the radiation dispersion of the user equipment.

Description

The exceeded problem source localization method of radiation dispersion

Technical field

The invention belongs to radiation dispersion the field of test technology more particularly to a kind of problem source that radiation dispersion is exceeded to position Method.

Background technique

Traditional user equipment (for example, mobile phone), which is typically necessary, carries out radiation dispersion test.It is carried out to user equipment During radiation dispersion is tested, the exceeded situation of radiation dispersion can be potentially encountered.

Currently, existing technical solution all be radiation dispersion testing scheme, these schemes can only to radiation dispersion into Row test, but can not determine the exceeded problem source of radiation dispersion.

Therefore, it is necessary to propose a kind of technical solution, to solve the above technical problems.

Summary of the invention

The purpose of the present invention is to provide a kind of problem source localization methods that radiation dispersion is exceeded, can determine that the use The exceeded problem source of the radiation dispersion of family equipment.

In order to solve the above technical problems, technical scheme is as follows:

A kind of problem source localization method that radiation dispersion is exceeded, the described method comprises the following steps: A, disconnecting first and uses The connection of the first antenna of the first main body device and first user equipment of family equipment；B, the first main body device is established With the connection of the second antenna of second user equipment；C, the combination to being made of the first main body device and second antenna Radiation dispersion test is carried out, and generates test result；D, the source of radiation dispersion is positioned according to the test result.

In the exceeded problem source localization method of above-mentioned radiation dispersion, the ginseng of the first antenna and second antenna Number is identical.

In the exceeded problem source localization method of above-mentioned radiation dispersion, first user equipment and the second user Equipment is the identical user equipment of parameter.

In the exceeded problem source localization method of above-mentioned radiation dispersion, before the step B, the method also includes Following steps: the second main body device of second user equipment and the connection of second antenna E, are disconnected.

In the exceeded problem source localization method of above-mentioned radiation dispersion, the first main body device includes first use The first power supply and the first mainboard of family equipment, first power supply are connect with first mainboard；The second main body device packet The second source and the second mainboard of the second user equipment are included, the second source is connect with second mainboard.

In the exceeded problem source localization method of above-mentioned radiation dispersion, the step A are as follows: disconnect first mainboard with The connection of the first antenna.

In the exceeded problem source localization method of above-mentioned radiation dispersion, the step E are as follows: disconnect second mainboard with The connection of second antenna.

In the exceeded problem source localization method of above-mentioned radiation dispersion, the step B are as follows: establish first mainboard with The connection of second antenna.

In the exceeded problem source localization method of above-mentioned radiation dispersion, the step C are as follows: utilize radiation dispersion tester Device carries out radiation dispersion test to the combination being made of the first main body device and second antenna, and generates the test As a result.

In the exceeded problem source localization method of above-mentioned radiation dispersion, before the step C, the method also includes Following steps: F, the radiation dispersion test equipment is connect with the first main body device.

Compared with the existing technology, the present invention can determine that the exceeded problem source of the radiation dispersion of the user equipment.

Detailed description of the invention

Fig. 1 is the first main body device of the first user equipment in the exceeded problem source localization method of radiation dispersion of the invention The schematic diagram that part is connect with the second antenna of second user equipment；

Fig. 2 is the flow chart of the exceeded problem source localization method of radiation dispersion of the invention.

Specific embodiment

Schema is please referred to, wherein identical component symbol represents identical component.The following description be based on illustrated by The specific embodiment of the invention is not construed as the limitation present invention other specific embodiments not detailed herein.

The exceeded problem source localization method of radiation dispersion of the invention has been based on user equipment (the first user equipment 101) Through there are radiation dispersion it is exceeded the fact that on the basis of.In order to position the exceeded problem source of (determination) radiation dispersion, this The exceeded problem source localization method of the radiation dispersion of invention is by the main body device (of user equipment (the first user equipment 101) One main body device) antenna (the second antenna 1023) of identical with other parameters user equipment (second user equipment 102) connect And tested, with the exceeded problem source of the radiation dispersion of the determination user equipment, (radiation dispersion excessive problem occurs Reason).

It is that first user sets in the exceeded problem source localization method of radiation dispersion of the invention with reference to Fig. 1 and Fig. 2, Fig. 1 The schematic diagram that standby 101 the first main body device is connect with the second antenna 1023 of second user equipment 102, Fig. 2 is of the invention The flow chart of the exceeded problem source localization method of radiation dispersion.

The exceeded problem source localization method of radiation dispersion of the invention the following steps are included:

A, the first main body device of the first user equipment 101 and the first antenna of first user equipment 101 are disconnected 1013 connection.

B, the connection of the second antenna 1023 of the first main body device and second user equipment 102 is established.Specifically, lead to Cross the first connecting line 1014 of first user equipment 101 and/or the second connecting line 1024 of the second user equipment 102 Establish the connection of the first main body device Yu second antenna 1023.

C, radiation dispersion test is carried out to the combination being made of the first main body device and second antenna 1023, and Generate test result.

D, the exceeded problem source of radiation dispersion is positioned according to the test result.

In the exceeded problem source localization method of radiation dispersion of the invention, the first antenna 1013 and described second The parameter of antenna 1023 is identical.Specifically, the first antenna 1013 is identical as the parameter of second antenna 1023 refers to institute It is identical as the material of second antenna 1023, structure, shape, function, power etc. to state first antenna 1013.Preferably, The antenna of the first antenna 1013 and same a batch of same specification that second antenna 1023 is the production of same manufacturer.

In the exceeded problem source localization method of radiation dispersion of the invention, first user equipment 101 with it is described Second user equipment 102 is the identical user equipment of parameter.Specifically, first user equipment 101 and the second user The identical material for referring to first user equipment 101 with the second user equipment 102 of the parameter of equipment 102, structure, shape Shape, function, power etc. are identical.Preferably, first user equipment 101 is same with the second user equipment 102 The user equipment of same a batch of same specification of manufacturer's production.

In the exceeded problem source localization method of radiation dispersion of the invention, before the step B, the method is also The following steps are included:

E, the connection of the second main body device and second antenna 1023 of second user equipment 102 is disconnected.

In the exceeded problem source localization method of radiation dispersion of the invention, the first main body device includes described The first power supply 1012 and the first mainboard 1011 of one user equipment 101, first power supply 1012 and first mainboard 1011 Connection.

The second main body device includes the second source 1022 and the second mainboard 1021 of the second user equipment 102, The second source 1022 is connect with second mainboard 1021.

In the exceeded problem source localization method of radiation dispersion of the invention, the step A are as follows:

Disconnect the connection of first mainboard 1011 and the first antenna 1013.

In the exceeded problem source localization method of radiation dispersion of the invention, the step E are as follows:

Disconnect the connection of second mainboard 1021 and second antenna 1023.

In the exceeded problem source localization method of radiation dispersion of the invention, the step B are as follows:

Establish the connection of first mainboard 1011 and second antenna 1023.

In the exceeded problem source localization method of radiation dispersion of the invention, the step C are as follows:

Combination using radiation dispersion test equipment to being made of the first main body device and second antenna 1023 Radiation dispersion test is carried out, and generates the test result.

In the exceeded problem source localization method of radiation dispersion of the invention, before the step C, the method is also The following steps are included:

F, the radiation dispersion test equipment is connect with the first main body device.

Embodiment

The spuious reason for Exceeding of mobile phone radiation (problem source) generally comprises following three points:

First point, antenna for mobile phone do not debug, seriously introduce spuious problem with mainboard mismatch.

Second point, mobile phone itself conduction stray are with regard to poor.

Thirdly, there are nonlinear devices for cell phone mainboard or antenna area, cause radiation dispersion to be asked to interfere with antenna Topic.

Technical solution of the present invention:

For the mobile phone A (the first user equipment 101) of the exceeded test of pending radiation dispersion, the identical mobile phone B of parameter (is taken Two user equipmenies 102), it is therefore an objective to guarantee the consistency of antenna, because antenna parameter is not identical to will affect test result, disconnects hand The power supply power supply of machine B, mobile phone B is used as just antenna at this time, and the antenna of mobile phone B is identical as the antenna of mobile phone A, and is disconnected The mainboard or platelet for the mobile phone B that the power supply power supply of mobile phone B can be only are used as a structural member to exist, and do not work together, because It is to influence on test result due to electrification that this, which can exclude device on the mainboard or platelet of mobile phone B,.Not destroying, mobile phone A complete machine is complete On the basis of whole property, the antenna of mobile phone B is connected in mobile phone A (as shown in Figure 1), i.e., at this time mobile phone A used the antenna of mobile phone B with Test instrumentation is communicated.

The radiation dispersion of testing mobile phone A at this time:

In the case where test result is that radiation dispersion is still exceeded, the exceeded possible cause of mobile phone A radiation dispersion is above-mentioned First point or above-mentioned second point are further carried out the spuious test of conventional conductive at this time, if conduction stray meets preassigned, The exceeded reason of radiation dispersion can be positioned as at above-mentioned first point, if conduction did not met preassigned originally, radiation dispersion is exceeded The reason of can be positioned as above-mentioned second point.

In the case where test result is that radiation dispersion is not exceeded, then the exceeded reason of radiation dispersion can be positioned as above-mentioned the 3 points.

Through the above technical solutions, the present invention can determine that the exceeded problem source of the radiation dispersion of the user equipment.

Although in conclusion the embodiment of the present invention is disclosed above, above-described embodiment is not intended to limit the invention, ability The those of ordinary skill in domain, without departing from the spirit and scope of the present invention, can make it is various change and retouch, therefore the present invention Protection scope subject to the scope of the claims.

Claims (9)

1. a kind of problem source localization method that radiation dispersion is exceeded, which is characterized in that the described method comprises the following steps:

A, the connection of the first main body device of the first user equipment and the first antenna of first user equipment is disconnected；

E, the connection of the second main body device and the second antenna of second user equipment is disconnected；

B, the connection of the second antenna of the first main body device and second user equipment is established；

C, radiation dispersion test is carried out to the combination being made of the first main body device and second antenna, and generates test As a result；

D, the source of radiation dispersion is positioned according to the test result.

2. the exceeded problem source localization method of radiation dispersion according to claim 1, which is characterized in that described first day Line is identical as the parameter of second antenna.

3. the exceeded problem source localization method of radiation dispersion according to claim 2, which is characterized in that described first uses Family equipment and the second user equipment are the identical user equipment of parameter.

4. the exceeded problem source localization method of radiation dispersion according to claim 1, which is characterized in that described first is main Body device includes the first power supply and the first mainboard of first user equipment, and first power supply and first mainboard connect It connects；

The second main body device includes the second source and the second mainboard of the second user equipment, the second source and institute State the connection of the second mainboard.

5. the exceeded problem source localization method of radiation dispersion according to claim 4, which is characterized in that the step A Are as follows:

Disconnect the connection of first mainboard and the first antenna.

6. the exceeded problem source localization method of radiation dispersion according to claim 4, which is characterized in that the step E Are as follows:

Disconnect the connection of second mainboard Yu second antenna.

7. the exceeded problem source localization method of radiation dispersion according to claim 4, which is characterized in that the step B Are as follows:

Establish the connection of first mainboard Yu second antenna.

8. the exceeded problem source localization method of radiation dispersion according to claim 1, which is characterized in that the step C Are as follows:

The combination being made of the first main body device and second antenna is radiated using radiation dispersion test equipment Spuious test, and generate the test result.

9. the exceeded problem source localization method of radiation dispersion according to claim 8, which is characterized in that in the step Before C, the method also includes following steps:

F, the radiation dispersion test equipment is connect with the first main body device.