CN101207881A - Apparatus and method for testing mobile terminal near field radiation - Google Patents

Abstract

The invention relates to a test method of the mobile terminal near filed radiation and the device thereof; wherein, the device includes a spectroanalyzer (51), a RF cable (32) and an electromagnetic wave receiving detector (52). The method includes the steps of: connecting the spectroanalyzer and the detector (52) via RF cable (32); configuring the spectroanalyzer (51), collecting the near field radiation continuous interference high frequency energy received by the detector (52); 1.4) adhering to and scanning the surface of the mobile terminal (14) by the electromagnetic wave receiving detector (52) till all the region is scanned over. In the method and the system thereof, the screening chamber replaces the microwave non-reflection dark chamber, and the trial test is carried out for product before the formal radiation continuous interference test so as to provide a favorable condition according to the conversion relationship of the near/distant field of the radiation electromagnetic field. The cost is saved, and the development period is shortened.

Description

A kind of method for testing mobile terminal near field radiation and device thereof

Technical field

The present invention relates to the mobile terminal test technology, be specifically related to a kind of method for testing mobile terminal near field radiation and device thereof.

Background technology

At present, global digital mobile user has reached 1,300,000,000, and along with this numeral of granting of Chinese 3G license is expected to double in the coming years.It is predicted that global communications industry will present the great market up to 2,000,000,000 number of mobile users in 2008.

The mobile service in the whole world and application are just used these three main directions towards voice, multimedia and enterprise and are increased.Mobile data services will have increasing share in mobile market.By in September, 2003, global mobile data services user reaches 100,000,000 people, accounts for the whole world 12.9 hundred million mobile subscribers' 7.7%, compares with the statistics in June, 2003 to have increased by 14%.By 2007, the mobile data services proportion will from 2002 10% rise to 30%, itself will become 600,000,000,000 Euros market mobile service market.

Along with market is growing to the demand of terminal data business.The function of terminal is more and more, the EMC of itself, and the EMI problem also shows especially day by day.Now all portable terminals will pass through various authentication tests before coming into the market, wherein have one to be exactly that radiation continuous disturbance to product has clear and definite index to limit.And this index is very high to the requirement of test environment when doing radiation continuous disturbance test---must arrive through the microwave areflexia darkroom of authentication and do, as shown in Figure 1, microwave areflexia darkroom is made of shield 11 and absorbing material 12:

In microwave areflexia darkroom, after being put into tested mobile terminal 14 on the turntable 15, close the door in microwave areflexia darkroom, shield fully with the environment in the external world and to separate, anolog base station---comprehensive tester output port is connected to calls out antenna 131, make a call by calling out 131 pairs of measured pieces of antenna, behind the access success, the radiation continuous disturbance is accepted system and is connected to reception antenna 132, begin to accept the spurious signal that measured piece 14 sends by reception antenna 1321, reception antenna 132 can receive all electromagnetic signals of 30MHz-1000MHz, all signals that it will receive are passed to the radiation continuous disturbance and are accepted system's rearmost end---spectrum analyzer, can keep by peak value on the spectrum analyzer.After reception antenna 132 was started working, the turntable 15 at measured piece 14 places was just started working, and called out antenna 131 constantly with the Refresh Data that receives in turntable 15 rotating process, and kept peak value.After measured piece 14 rotates a circle, calling antenna 131 will raise 1 meter and test one time again, because the position when just beginning is the same high with measured piece 14 on the turntable, promptly 1 meter apart from ground, at last total the peak value after twice rotation is shown, be exactly the final radiation continuous disturbance test result of tested mobile terminal 14.

For most terminal equipment manufacturer, to build a microwave areflexia darkroom and add tester, its appropriate litigation fees is high, reaches ten million RMB, and is unrealistic.At present the method taked of producer is: 1. the darkroom and the instrument of leasing other party to unit with good conditionsi tested.2. arrive the mechanism for testing test of specialty.Run into the defective product (the most of products once probability by test are very little) that needs debugging of index test.The engineer of producer often will take the darkroom for a long time and test while debugging, and for its process of producer length consuming time, efficient is low, and is costly.

Summary of the invention

The technical issues that need to address of the present invention provide a kind of method for testing mobile terminal near field radiation and system thereof, in conjunction with radiation field near-field transformational relation, microwave areflexia darkroom that need not be traditional and measuring equipment just can accomplish that index knows the real situation to the radiation continuous disturbance frequency of portable terminal and level value, thus avoid before formal radiation continuous disturbance authentication test producer frequent lease microwave areflexia darkroom and meter specially goes test, debugging mobile terminal radiating continuous disturbance index.

Above-mentioned first technical problem of the present invention solves like this, and a kind of method for testing mobile terminal near field radiation is provided, and uses high accuracy spectrum analyzer and electromagnetic wave to receive little probe, may further comprise the steps:

1.1) receive little probe by radio frequency cable connection high accuracy spectrum analyzer and electromagnetic wave;

1.2) the high accuracy spectrum analyzer is set gathers the high-frequency energy that electromagnetic wave receives the near-field thermal radiation continuous disturbance that little probe receives;

1.3) use electromagnetic wave to receive little probe to be close to the tested mobile terminal surface scan, all to sweep until All Ranges and go over.

According to method of testing provided by the invention, described connection is with radio frequency cable high accuracy spectrum analyzer and electromagnetic wave to be received little probe to couple together on the output/inbound port of high accuracy spectrum analyzer.

According to method of testing provided by the invention, described setting comprises being provided with measures bandwidth to begin frequency is 30MHz, is 1000MHz by frequency.

According to method of testing provided by the invention, described setting comprises that it is automatically that RBW, VBW, decay and reference level are set.

According to method of testing provided by the invention, described setting comprises that peak value is set to be kept.

According to method of testing provided by the invention, described little probe reception is the high-frequency energy by the mode receiver radiation continuous disturbance of coupling/conduction.

Above-mentioned another technical problem of the present invention solves like this, and a kind of testing mobile terminal near field radiation device is provided, and comprises measuring the high accuracy spectrum analyzer of gathering radiation continuous disturbance energy level value, also comprises:

The near field electromagnetic ripple receives little probe: be connected with described high accuracy spectrum analyzer by radio frequency cable, be used to receive tested mobile terminal radiation continuous disturbance energy.

According to testing apparatus provided by the invention, it is magnetic flux loop or electric current loop that described near field electromagnetic ripple receives little probe.

According to testing apparatus provided by the invention, the front end that described near field electromagnetic ripple receives little probe also is welded with partiting dc capacitor.

According to testing apparatus provided by the invention, also comprise the shielded enclosure of placing described tested mobile terminal and high accuracy spectrum analyzer, be used to provide the test environment of extraneous all the interference frequencies of shielding.

Method for testing mobile terminal near field radiation provided by the invention and system thereof, the shielded enclosure that utilizes producer to be equipped with usually, set up the near field electromagnetic ripple and receive little probe, in conjunction with tested mobile terminal radiation field near-field transformational relation, measure the radiation continuous disturbance index of tested mobile terminal, can save up to ten million this part fund of building microwave areflexia darkroom of cost for enterprise, improve the research and development debugging efficiency, before formal radiation continuous disturbance test, carry out assessment test for product a practical advantages of simplicity and high efficiency test and debugging enironment are provided, cost saving, provide convenience to the engineer simultaneously, shorten product development cycle.

Description of drawings

Further the present invention is described in detail below in conjunction with the drawings and specific embodiments.

Fig. 1 is the test system structure schematic diagram in traditional microwave areflexia darkroom.

Fig. 2 is a test system structure schematic diagram of the present invention.

Fig. 3 is that comprehensive tester connects the helical antenna schematic diagram in the system shown in Figure 2.

Fig. 4 is that comprehensive tester links schematic diagram with portable terminal foundation calling in the system shown in Figure 2.

Fig. 5 is that the near field electromagnetic ripple receives little probe connection high accuracy spectrum analyzer schematic diagram in the system shown in Figure 2.

Fig. 6 is that the near field electromagnetic ripple receives little scanning probe portable terminal schematic diagram in the system shown in Figure 2.

Fig. 7 is to use the schematic flow sheet of the inventive method of system shown in Figure 2.

Fig. 8 is an electromagnetic field current element coordinate system schematic diagram.

Fig. 9 is radiation continuous disturbance figure in microwave areflexia darkroom.

Figure 10 adopts the inventive method to use spectrum analyzer testing radiation continuous disturbance figure in shielded enclosure.

Embodiment

At first, theoretical foundation of the present invention is described, provides the electromagnetic field equation of current element earlier and do aid illustration:

Current element is that one of basic radiating element (also claims electric Hertz antenna or electric dipole, it is the short lead that one section two ends that are loaded with high-frequency current has equivalent heterocharge, diameter of wire d＜＜l (l is a conductor length), l＜＜λ, electric current flows along axis on the line, constant amplitude homophase along the line, the relation of electric charge and electric current satisfies continuity equation).The coordinate system of current element is as shown in Figure 8:

The magnetic field and the electric field equation of current element are as follows:

$\left\{\begin{array}{c}{H}_r=0\\ H_{\mathrm{\θ}}=0\\ H_{\mathrm{\φ}}=j\frac{\mathrm{Il}}{2\mathrm{\λr}}\sin \mathrm{\θ}(1+\frac{1}{\mathrm{jkr}})e^{-\mathrm{jkr}}\end{array}\right.$ (formula 1)

$\left\{\begin{array}{c}{E}_r=\frac{\mathrm{<figure-callout\; id="2"\; label="WIl"\; filenames="A20061016228100153.png"\; state="\{\{state\}\}">WIl</figure-callout>}}{{2\mathrm{\&pi;<figure-callout\; id="2"\; label="r"\; filenames="A20061016228100153.png"\; state="\{\{state\}\}">r</figure-callout>}}^2}\cos \mathrm{\&theta;}(1+\frac{1}{\mathrm{jkr}})e^{-\mathrm{jkr}}\\ E_{\mathrm{\&theta;}}=\mathrm{<figure-callout\; id="2"\; label="j\; WIl"\; filenames="A20061016228100153.png"\; state="\{\{state\}\}">j</figure-callout>}\frac{\mathrm{WIl}}{}\frac{}{{2\mathrm{\&pi;<figure-callout\; id="2"\; label="r"\; filenames="A20061016228100153.png"\; state="\{\{state\}\}">r</figure-callout>}}^2}\sin \mathrm{\&theta;}[1+\frac{1}{\mathrm{jkr}}+\frac{1}{{\left(\mathrm{jkr}\right)}^2}]e^{-\mathrm{jkr}}\\ E_{\mathrm{\&phi;}}=0\end{array}\right.$ (formula 2)

In the formula $W=\sqrt{\mathrm{\&mu;}/\underset{\&OverBar;}{\mathrm{\&epsiv;}}}$ ---the wave impedance of medium.The magnetic permeability of μ---medium, the dielectric constant of ε---medium; $k=2\frac{\mathrm{\&pi;}}{\mathrm{\&lambda;}}$ K---electromagnetic phase constant; I---current strength; λ---electromagnetic wavelength;

Each component of electromagnetic field all reduces with the increase of r, and the every speed that reduces with the increase of r in each component is inequality, if carry out subregion by the size of r, then the electromagnetic field in each district can have different approximate expressions.

(1) near field (induction field) district

When kr＜＜1, electromagnetic field is mainly by r ^-2Or r ^-3Higher order term decision, again because e ^-jkr≈ 1, and formula (1) and formula (2) become:

$\left\{\begin{array}{c}{E}_r\&ap;-j\frac{\mathrm{Il}}{{4\mathrm{\&pi;<figure-callout\; id="3"\; label="r"\; filenames="A20061016228100161.png"\; state="\{\{state\}\}">r</figure-callout>}}^3}\frac{2}{\mathrm{\&omega;\&epsiv;}}\cos \mathrm{\&theta;}\\ E_{\mathrm{\&theta;}}\&ap;-j\frac{\mathrm{Il}}{4\mathrm{\&pi;}{\mathrm{<figure-callout\; id="3"\; label="r"\; filenames="A20061016228100161.png"\; state="\{\{state\}\}">r</figure-callout>}}^3}\frac{1}{\mathrm{\&omega;\&epsiv;}}\sin \mathrm{\&theta;}\\ H_{\mathrm{\&phi;}}\&ap;\frac{\mathrm{Il}}{4\mathrm{\&pi;}{\mathrm{<figure-callout\; id="2"\; label="r"\; filenames="A20061016228100153.png"\; state="\{\{state\}\}">r</figure-callout>}}^2}\sin \mathrm{\&theta;}\end{array}\right.$ (formula 3)

(2) far field (radiation field) district

When kr＞＞1, the electromagnetic field of current element is mainly by r ^-1The item decision, so:

$\left\{\begin{array}{c}{E}_{\mathrm{\&theta;}}\&ap;j\frac{\mathrm{WIl}}{2\mathrm{\&lambda;r}}\sin \left(\mathrm{\&theta;}\right)e^{-\mathrm{jkr}}\\ H_{\mathrm{\&phi;}}\&ap;j\frac{\mathrm{Il}}{2\mathrm{\&lambda;r}}\sin \left(\mathrm{\&theta;}\right)e^{-\mathrm{jkr}}\end{array}\right.$ (formula 4)

From top formula (1), (2), (3), (4) as can be seen,

1. whole electromagnetic field near/the far field transfer process in the middle of, what change is electromagnetic amplitude and phase place, and the electromagnetic frequency of being propagated is constant, according to this principle, if on the reception antenna plane in far field frequency f is arranged, then at radiation source point place frequency must be arranged is the oscillating electromagnetic wave of f.

2. regular at all, in the microwave areflexia darkroom of testing radiation continuous disturbance through authentication, test macro is through close adjustment, and the objective circumstances that the frequency that records and level value thereof can reflect the measured piece near field are really located in the far field in this darkroom that calibration makes.So the relative value that each frequency level is located in the far field in this darkroom is the relative value at this place, measured piece near field just, each frequency closely/place, far field level value changes is absolute value, and constant be relative value.All frequencies that the far field receives, relative difference between their level value, be that power by each frequency field at emission source place decides, after we measure the relative level of each frequency of near field, get relative difference, it is suitable for frequency (do zero point with its level value, other each frequency level values ask poor with it) to select, add certain correction value, can judge each radiation continuous disturbance frequency level and whether meet the demands.Here additional a bit our the most original reference frequency point level is the far field test value from microwave areflexia darkroom certainly, and common reference frequency point of getting is the emission frequency of our tested mobile terminal.

1. and 2. according to, far field, the antenna surface place induction frequency and the level thereof that receive tested mobile terminal radiation continuous disturbance value in the microwave areflexia darkroom are changed mutually according to top near-field, equivalent relation, receive little probe with the near field electromagnetic ripple, the high-frequency current component that it is sensed is transferred on the high accuracy spectrum analyzer, determine radiation continuous disturbance frequency and level from spectrum analyzer, through simply asking difference analysis to calculate, whether the radiation continuous disturbance frequency distribution situation of tested mobile terminal and level exceed standard and can reach fully.Thereby platform is provided for the debugging of portable terminal, has supplied believable assessment test in formal authentication test prerequisite for product.

Adopt the method for the invention, compare with existing result in the test of microwave areflexia darkroom, the result who records under two kinds of environment is very identical, what record is spuious consistent, very favourable to the defective situation of debugging that needs of the radiation continuous disturbance index of portable terminal, the engineer can (most portable terminal manufacturing firm all be furnished with the shielded enclosure of oneself at the shielded enclosure of own enterprise, the expense of generally building shielded enclosure is about 200,000 RMB, be significantly less than the cost of building microwave areflexia darkroom 10,000,000 RMB) in the radiation continuous disturbance index of portable terminal carried out index know the real situation, debugging, and need not do debugging to the microwave areflexia darkroom or the testing agency of specialty to product again.Improved operating efficiency, for enterprise has saved debugging cost.

Second step illustrated test macro of the present invention, general structure specifically as shown in Figure 2, in shielded enclosure 21, comprehensive tester 31 connects the helical antenna 33 of making wireless signal transmitting-receiving usefulness by radio frequency cable 32, sets up communication with tested mobile terminal 14; Receive little probe 52 connects high accuracy spectrum analyzer 51 test tested mobile terminal 14 by radio frequency cable 32 radiation continuous disturbance frequency with the near field electromagnetic ripple.In whole system, the effect of shielded enclosure 21 is quite important, and it can all mask the interference frequency in the external world, guarantees the correctness of test data.

Wherein, anolog base station--comprehensive tester 31 by radio frequency cable 32 connect make wireless signal transmitting-receiving usefulness helical antenna 33 as shown in Figure 3, output/inbound port 311 usefulness radio frequency cables 32 at comprehensive tester 31 will couple together with the corresponding to helical antenna 33 of tested mobile terminal 14 working frequency range, constitute a virtual base station.

Wherein, anolog base station one comprehensive tester 31 is set up communication link as shown in Figure 4 with tested mobile terminal 14, with comprehensive tester 31, tested mobile terminal 14 is placed in certain position and fixed-site is well no longer moved later, to avoid having influence on the setting of comprehensive tester 31 space Insertion Loss, rational space Insertion Loss value is set on comprehensive tester 31, allow the program running of tested mobile terminal 14 then, tested mobile terminal 14 is set up communication link with comprehensive tester 31, and comprehensive tester 31 instruction tested mobile terminal 14 are with maximum transmission power work.

Wherein, near field electromagnetic ripple among the present invention receives little probe 52 and connects high accuracy spectrum analyzer 51 as shown in Figure 5; high accuracy spectrum analyzer 51 is used for processing signals and uses; the near field electromagnetic ripple receives little probe 52 and is used for image data and uses. and the kind that the near field electromagnetic ripple receives little probe 52 can be little magnetic flux loop; also can be to do coupling to receive the little electric current loop that data are used; if the method with conduction receives data; the front end of then little probe also will weld a partiting dc capacitor, with the protection spectrum analyzer.Don't work and the sort ofly can not have influence on final testing result, be connected by radio frequency cable 32 between spectrum analyzer 51 and the little probe 52. open the FSQ of high accuracy spectrum analyzer 51, be provided with and measure bandwidth for beginning frequency 30MHz, by frequency 1000MHz, the RBW of spectrum analyzer 51, VBW, decay, reference level is set to automatically.Spectrum analyzer 51 is set to peak value and keeps preparation for acquiring, deal with data.

Wherein, near field electromagnetic ripple among the present invention receives little probe 52 scanning tested mobile terminal 14 as shown in Figure 6. and receive obverse and reverse that little probe 52 is close to tested mobile terminal 14 with the near field electromagnetic ripple and line by line scan respectively according to the direction that the minor face of tested mobile terminal 14 external form geometric surfaces parallels, the near field electromagnetic ripple receives the high-frequency energy of little probe 52 by the mode receiver radiation continuous disturbance of coupling/conduction, until affirmation the All Ranges of positive and negative is all swept and is gone over.Test result is shown on the spectrum analyzer 51 the most at last.So just the radiation continuous disturbance frequency of this tested mobile terminal 14 on the 30-1000MHz frequency range all tested and finished.

Further, method of testing of the present invention is described, is used to finish the collection of tested mobile terminal radiation continuous disturbance frequency and the measurement of level value, specifically as shown in Figure 7, may further comprise the steps:

710) in the shielded enclosure 21, tested mobile terminal 14 start working procedures are started working;

720) comprehensive tester 31 is set up with tested mobile terminal 14 and is communicated by letter;

730) open high accuracy spectrum analyzer 51, make relative set before the test, nearly the magnetic field electric wave receives little probe 52 and is connected on the frequency spectrograph 51;

740) receive little probe 52 with nearly magnetic field electric wave and receive tested mobile terminal 14 radiation continuous disturbance energy, final result is shown on the frequency spectrograph 51 analyzes in order to the engineer;

750) frequency that frequency spectrograph 51 is collected is a benchmark with the main tranmitting frequency level value of portable terminal 14, deduct other radiation continuous disturbance frequency level with it, obtain a series of difference, according to certain decision threshold, add certain tolerance, judge finally whether this frequency radiation continuous disturbance index meets the demands;

760) finish.

At last, verify the inventive method in conjunction with contrast test () and (two) of the UMTS850 mode mobile terminal of a reality, wherein:

(1) we start working at the tested mobile terminal that at first will be inserted with comprehensive tester special test USI M card, in microwave areflexia shown in Figure 1 darkroom, link with comprehensive tester and tested mobile terminal foundation under the radiation continuous disturbance test environment, radiation continuous disturbance on the 30-1000MHz frequency range of test tested mobile terminal, test result is illustrated in fig. 8 shown below.

(2) again tested mobile terminal is received radiation continuous disturbance that little probe connects high accuracy spectrum analyzer test tested mobile terminal as shown in Figure 9 with the near field electromagnetic ripple in shielded enclosure shown in Figure 6

Each frequency among Fig. 8 and Fig. 9 and its level value are tabulated as table one:

Wherein:

1, w is illustrated in microwave areflexia darkroom, and p is illustrated in shielded enclosure;

Tested mobile terminal is operated in 4180 (frequency 836Mhz is up) and 4405 (frequency 881Mhz is descending) channel of UMTS850 when 2, testing under two environment here;

Data in the his-and-hers watches one are with reference to zero level with the up frequency F5w (F5p) of tested mobile terminal, and the level of other frequencies and it ask poor, do following computing and see Table two

We can be clearly seen that several more representational spuious some 600MHz from table two, 750MHz, 902MHz, if add in our data after asking difference+/-correction value of 2.5dB, we just can carry out index assurance to the radiation continuous disturbance index of this tested mobile terminal completely with the data in the shielded enclosure so.

Than the result who obtains in two different test environments, also further proved the validity of method of testing of the present invention.

Claims (10)

1. a method for testing mobile terminal near field radiation is characterized in that, uses high accuracy spectrum analyzer and electromagnetic wave to receive little probe, may further comprise the steps:

1.1) receive little probe by radio frequency cable (32) connection high accuracy spectrum analyzer and electromagnetic wave;

1.2) high accuracy spectrum analyzer (51) measurement pattern and parameter be set;

1.3) tested mobile terminal (14) the outside emittance that transmits;

1.4) use electromagnetic wave to receive little probe to be close to tested mobile terminal (14) surface scan, all to sweep until All Ranges and go over.

2. according to the described method of testing of claim 1, it is characterized in that described connection is to go up at the output/inbound port of high accuracy spectrum analyzer (51) (511) with radio frequency cable (32) high accuracy spectrum analyzer and electromagnetic wave to be received little probe (52) and couple together.

3. according to the described method of testing of claim 1, it is characterized in that described setting comprises being provided with measures bandwidth to begin frequency be 30MHz, is 1000MHz by frequency.

4. according to the described method of testing of claim 1, it is characterized in that described setting comprises that it is automatically that RBW, VBW, decay and reference level are set.

5. according to the described method of testing of claim 1, it is characterized in that described setting comprises that peak value is set to be kept.

6. according to the described method of testing of claim 1, it is characterized in that described little probe (52) reception is the high-frequency energy by the mode receiver radiation continuous disturbance of coupling/conduction.

7. a testing mobile terminal near field radiation device comprises and measures the high accuracy spectrum analyzer (51) of gathering radiation continuous disturbance energy level value, it is characterized in that, also comprises:

The near field electromagnetic ripple receives little probe (52): be connected with described high accuracy spectrum analyzer by radio frequency cable (32), be used to receive tested mobile terminal radiation continuous disturbance energy.

8. according to the described testing apparatus of claim 7, it is characterized in that it is magnetic flux loop or electric current loop that described near field electromagnetic ripple receives little probe (52).

9. according to the described testing apparatus of claim 7, it is characterized in that the front end that described near field electromagnetic ripple receives little probe (52) also is welded with partiting dc capacitor.

10. according to the described testing apparatus of claim 7, it is characterized in that, also comprise the shielded enclosure (21) of placing described tested mobile terminal and high accuracy spectrum analyzer, be used to provide the test environment of extraneous all the interference frequencies of shielding.

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