CN105093035A - Antenna test device - Google Patents
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- CN105093035A CN105093035A CN201510560059.0A CN201510560059A CN105093035A CN 105093035 A CN105093035 A CN 105093035A CN 201510560059 A CN201510560059 A CN 201510560059A CN 105093035 A CN105093035 A CN 105093035A
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Abstract
The invention relates to the technical field of antenna testing technology and provides an antenna test device. The device comprises an upper pressing block and an antenna fixing block. The antenna fixing block is provided thereon with a first antenna placement groove and a second antenna placement groove. A first type antenna is provided with a plurality of first antenna positioning holes. A second type antenna is provided with a plurality of second antenna positioning holes. The first antenna placement groove is internally provided with a plurality of first fixing block positioning holes and a plurality of first fixing block probe through holes. The second antenna placement groove is internally provided with a plurality of second fixing block positioning holes and a plurality of second fixing block probe through holes. The upper pressing block is provided with a first pressing block bulge and a second pressing block bulge. The first pressing block bulge is provided with a plurality of first pressing block positioning holes. The second pressing block bulge is provided with a plurality of second pressing block positioning holes. In this way, the antenna detection can be realized. Meanwhile, the copper drain part of an antenna is in contact with the device, so that the detection efficiency is improved. The yield of antenna products is further improved.
Description
Technical field
The invention belongs to antenna measurement technical field, particularly relate to a kind of antenna measurement device.
Background technology
Soft board (FlexiblePrintedCircuit, FPC) detection technique of antenna, comparatively ripe, there is the mode that three kinds comparatively common at present, namely the pad that probe (pogopin pin) contacts FPC carries out the mode of feed, the mode of Ipex seat form feed and the mode of Ipex female engaged test, these detection modes all existing defects, are specially:
The pad of pogopin pin contact soft board carries out feed, and to detect consistance, its versatility detected is poor, and need frequently more substitution detector, realize the antenna detection work to different soft board, testing efficiency is lower;
The mode of Ipex female engaged test: with Ipex seat form feed, due to the size of Ipex seat less (being about 2.5*2.5mm), adopt traditional on press down the mode of punching, because frock trueness error easily causes weighing wounded of product, affect antenna yield;
Adopt Ipex female engaged test method, need each product to contact with Ipex female, testing efficiency is lower, and due to the access times of Ipex female limited, also need frequent replacing, reduce the efficiency of antenna measurement.
Summary of the invention
The object of the present invention is to provide a kind of antenna measurement device, there is the problem that testing efficiency is low, affect antenna yield in the antenna detection mode that being intended to solve prior art provides.
The present invention is achieved in that a kind of antenna measurement device, and described antenna measurement device comprises upper holder block and antenna fixed block, wherein:
Described antenna fixed block is fixedly mounted on testing circuit plate, described antenna fixed block is provided with the first antenna standing groove and the second antenna standing groove, first kind antenna to be measured is placed in described first antenna standing groove, Equations of The Second Kind antenna to be measured is placed in described second antenna standing groove, described first kind antenna is provided with several the first antenna pilot holes, and described Equations of The Second Kind antenna is provided with several the second antenna pilot holes;
Several the first fixed block pilot holes and several the first fixed block piercing probes are provided with in described first antenna standing groove, several the second fixed block pilot holes and several the second fixed block piercing probes are provided with in described second antenna standing groove, described first fixed block piercing probe and described second fixed block piercing probe are sleeved on the probe of correspondence position on described testing circuit plate, described probe contacts with the leakage copper part of described first kind antenna through after described first fixed block piercing probe, described probe contacts with the leakage copper part of described Equations of The Second Kind antenna through after described second fixed block piercing probe,
Described upper holder block is fixedly mounted on the lifter plate side corresponding with described antenna fixed block, described upper holder block is provided with the first briquetting projection and the second briquetting projection, described first briquetting is protruding to adapt with described first antenna standing groove, described second briquetting is protruding to adapt with described second antenna standing groove, described first briquetting projection is provided with several the first briquetting pilot holes, and described second briquetting projection is provided with several the second briquetting pilot holes;
Described first fixed block pilot hole, the first antenna pilot hole and the first briquetting pilot hole are corresponding, and described second fixed block pilot hole, the second antenna pilot hole and the second briquetting pilot hole are corresponding.
As a kind of improved plan, the quantity of described first fixed block pilot hole is two, be designated as respectively: the first fixed block pilot hole A and the first fixed block pilot hole B, corresponding, the quantity of described first briquetting pilot hole also two, be designated as respectively: the first briquetting pilot hole A and the first briquetting pilot hole B, wherein:
Described first fixed block pilot hole B is positioned at the center of described antenna fixed block, and described first briquetting pilot hole B is positioned at the center of described upper holder block.
As a kind of improved plan, the quantity of described second fixed block pilot hole is three, be designated as respectively: the second fixed block pilot hole A, the second fixed block pilot hole B and the second fixed block pilot hole C, corresponding, the quantity of described second briquetting pilot hole is also three, be designated as respectively: the second briquetting pilot hole A, the second briquetting pilot hole B and the second briquetting pilot hole C, wherein:
Described second fixed block pilot hole A, the second fixed block pilot hole B and the second fixed block pilot hole C distribute from the center of described antenna fixed block to side, and the second briquetting pilot hole A, the second briquetting pilot hole B and the second briquetting pilot hole C distribute from the center of described upper holder block to side.
As a kind of improved plan, the quantity of described first fixed block piercing probe is two, is designated as respectively: the first fixed block piercing probe A and the first fixed block piercing probe B;
The quantity of described second fixed block piercing probe is two, is designated as respectively: the second fixed block piercing probe A and the second fixed block piercing probe B.
As a kind of improved plan, described first antenna pilot hole is set to two, be designated as respectively: the first antenna pilot hole A and the first antenna pilot hole B, described second antenna pilot hole is set to three, is designated as respectively: the second antenna pilot hole A, the second antenna pilot hole B and the second antenna pilot hole C.
As a kind of improved plan, described first fixed block pilot hole A, the first antenna pilot hole A and the first briquetting pilot hole A are corresponding;
Described first fixed block pilot hole B, the first antenna pilot hole B and the first briquetting pilot hole B are corresponding;
Described second fixed block pilot hole A, the second antenna pilot hole A and the second fixed block pilot hole A are corresponding;
Described second fixed block pilot hole B, the second antenna pilot hole B and the second fixed block pilot hole B are corresponding;
Described second fixed block pilot hole C, the second antenna pilot hole C and the second fixed block pilot hole C are corresponding.
As a kind of improved plan, described first kind antenna is diversity antenna, and described Equations of The Second Kind antenna is main antenna.
Because antenna measurement device comprises upper holder block and antenna fixed block, antenna fixed block is provided with the first antenna standing groove and the second antenna standing groove, first kind antenna to be measured is placed in first antenna standing groove, Equations of The Second Kind antenna to be measured is placed in second antenna standing groove, first kind antenna is provided with several the first antenna pilot holes, Equations of The Second Kind antenna is provided with several the second antenna pilot holes, several the first fixed block pilot holes and several the first fixed block piercing probes are provided with in first antenna standing groove, several the second fixed block pilot holes and several the second fixed block piercing probes are provided with in second antenna standing groove, upper holder block is provided with the first briquetting projection and the second briquetting projection, first briquetting projection is provided with several the first briquetting pilot holes, described second briquetting projection is provided with several the second briquetting pilot holes, first fixed block pilot hole, first antenna pilot hole and the first briquetting pilot hole corresponding, described second fixed block pilot hole, second antenna pilot hole and the second briquetting pilot hole corresponding, thus the detection realized antenna, and adopt antenna to leak the way of contact of copper part, improve detection efficiency, also further increasing antenna product yield.
Accompanying drawing explanation
Fig. 1 is the structural representation of antenna fixed block provided by the invention;
Fig. 2 is the structural representation of upper holder block provided by the invention;
Fig. 3 and Fig. 4 is the structural representation of classification antenna provided by the invention respectively;
Fig. 5 and Fig. 6 is the structural representation of main antenna provided by the invention respectively;
Wherein, 1-upper holder block, 2-antenna fixed block, 3-first antenna standing groove, 4-second antenna standing groove, 5-first briquetting is protruding, 6-second briquetting is protruding, 7-first fixed block pilot hole A, 8-first fixed block pilot hole B, 9-first briquetting pilot hole A, 10-first briquetting pilot hole B, 11-second fixed block pilot hole A, 12-second fixed block pilot hole B, 13-second fixed block pilot hole C, 14-second briquetting pilot hole A, 15-second briquetting pilot hole B, 16-second briquetting pilot hole C, 17-first fixed block piercing probe A, 18-first fixed block piercing probe B, 19-second fixed block piercing probe A, 20-second fixed block piercing probe B, 21-first antenna pilot hole A, 22-first antenna pilot hole B, 23-second antenna pilot hole A, 24-second antenna pilot hole B, 25-second antenna pilot hole C, 26-first leaks copper region, 27-second leaks copper region, 28-the 3rd leaks copper region, 29-the 4th leaks copper region, 30-the 5th leaks copper region, 31-the 6th leaks copper region.
Embodiment
In order to make object of the present invention, technical scheme and advantage clearly understand, below in conjunction with drawings and Examples, the present invention is further elaborated.Should be appreciated that specific embodiment described herein only in order to explain the present invention, be not intended to limit the present invention.
Fig. 1 shows the structural representation of antenna fixed block provided by the invention, and Fig. 2 shows the structural representation of upper holder block provided by the invention, for convenience of explanation, only gives part related to the present invention in figure.
Antenna measurement device comprises upper holder block 1 and antenna fixed block 2, wherein:
As shown in Figure 1, antenna fixed block 2 is fixedly mounted in testing circuit plate (not shown), antenna fixed block 2 is provided with the first antenna standing groove 3 and the second antenna standing groove 4, place first kind antenna to be measured in first antenna standing groove 3, in the second antenna standing groove 4, place Equations of The Second Kind antenna to be measured;
As shown in Figures 3 to 6, first kind antenna is provided with several the first antenna pilot holes, and Equations of The Second Kind antenna is provided with several the second antenna pilot holes, and following have detailed description, do not repeat them here;
Wherein, several the first fixed block pilot holes and several the first fixed block piercing probes are provided with in first antenna standing groove 3, several the second fixed block pilot holes and several the second fixed block piercing probes are provided with in second antenna standing groove 4, first fixed block piercing probe and the second fixed block piercing probe are sleeved on the probe of correspondence position on testing circuit plate, probe contacts with the leakage copper part of first kind antenna through after the first fixed block piercing probe, probe contacts with the leakage copper part of Equations of The Second Kind antenna through after the second fixed block piercing probe, as shown in Figures 3 to 6,
As shown in Figure 2, upper holder block 1 is fixedly mounted on the lifter plate (not shown) side corresponding with antenna fixed block 2, upper holder block 1 is provided with the first briquetting protruding 5 and the second briquetting projection 6, first briquetting protruding 5 and the first antenna standing groove 3 adapt, second briquetting protruding 6 and the second antenna standing groove 4 adapt, first briquetting projection 5 is provided with several the first briquetting pilot holes, and the second briquetting projection 6 is provided with several the second briquetting pilot holes;
Wherein, the first fixed block pilot hole, the first antenna pilot hole and the first briquetting pilot hole are corresponding, and the second fixed block pilot hole, the second antenna pilot hole and the second briquetting pilot hole are corresponding.
Wherein, as depicted in figs. 1 and 2, the quantity of the first fixed block pilot hole is two, is designated as respectively: the first fixed block pilot hole A7 and the first fixed block pilot hole B8, corresponding;
The quantity of the first briquetting pilot hole also two, is designated as respectively: the first briquetting pilot hole A9 and the first briquetting pilot hole B10, wherein:
First fixed block pilot hole B8 is positioned at the center of antenna fixed block 2, and the first briquetting pilot hole B10 is positioned at the center of upper holder block 1.
As depicted in figs. 1 and 2, the quantity of the second fixed block pilot hole is three, be designated as respectively: the second fixed block pilot hole A11, the second fixed block pilot hole B12 and the second fixed block pilot hole C13, corresponding, the quantity of the second briquetting pilot hole is also three, be designated as respectively: the second briquetting pilot hole A14, the second briquetting pilot hole B15 and the second briquetting pilot hole C16, wherein:
Second fixed block pilot hole A11, the second fixed block pilot hole B12 and the second fixed block pilot hole C13 distribute from the center of antenna fixed block 2 to side, and the second briquetting pilot hole A14, the second briquetting pilot hole B15 and the second briquetting pilot hole C16 distribute from the center of upper holder block 1 to side.
As shown in Figure 1, the quantity of the first fixed block piercing probe is two, is designated as respectively: the first fixed block piercing probe A17 and the first fixed block piercing probe B18;
The quantity of the second fixed block piercing probe is two, is designated as respectively: the second fixed block piercing probe A19 and the second fixed block piercing probe B20.
In embodiments of the present invention, first antenna pilot hole is set to two, be designated as respectively: the first antenna pilot hole A21 and the first antenna pilot hole B22, second antenna pilot hole is set to three, be designated as respectively: the second antenna pilot hole A23, the second antenna pilot hole B24 and the second antenna pilot hole C25, wherein:
The form of above-mentioned first kind antenna and Equations of The Second Kind antenna can have multiple, two profiles No. such as 801 and 802, as shown in Figures 3 to 6, wherein, the structural drawing of what Fig. 3 provided is 801 diversity antennas, the structural drawing of what Fig. 4 provided is 802 classification antennas, the structural drawing of 801 main antennas that Fig. 5 provides, the structural drawing of what Fig. 6 provided is 802 main antennas, is specially:
As shown in Figure 3, the structural representation of 801 diversity antennas shown in this figure, in figure, first antenna pilot hole A21 is corresponding with above-mentioned first fixed block pilot hole A7, the first briquetting pilot hole A9, that is: reference column is through after the first fixed block pilot hole A7 of this antenna fixed block 2 shown in Fig. 1 and the first antenna pilot hole A21 shown in this Fig. 3, extends in the first briquetting pilot hole A9 of the upper holder block 1 shown in Fig. 2;
First antenna pilot hole B22 is corresponding with above-mentioned first fixed block pilot hole B8, the first briquetting pilot hole B10, that is: reference column is through after the first fixed block pilot hole B8 of this antenna fixed block 2 shown in Fig. 1 and the first antenna pilot hole B22 shown in this Fig. 3, extends in the first briquetting pilot hole B10 of the upper holder block 1 shown in Fig. 2;
Wherein, this 801 diversity antenna is provided with Lou copper part, be designated as the first leakage copper region 26, this the first leakage copper region 26 is corresponding with the first fixed block piercing probe A17 on above-mentioned antenna fixed block 2, namely probe is through after this first fixed block piercing probe A17, first leak copper region 26 with this and contact, realize the detection to antenna;
As shown in Figure 4, the structural representation of 802 diversity antennas shown in this figure, in figure, 802 diversity antennas are substantially identical with the structure of 801 diversity antennas, namely this first antenna pilot hole A21 is corresponding with above-mentioned first fixed block pilot hole A7, the first briquetting pilot hole A9, that is: reference column is through after the first fixed block pilot hole A7 of this antenna fixed block 2 shown in Fig. 1 and the first antenna pilot hole A21 shown in this Fig. 3, extends in the first briquetting pilot hole A9 of the upper holder block 1 shown in Fig. 2;
First antenna pilot hole B22 is corresponding with above-mentioned first fixed block pilot hole B8, the first briquetting pilot hole B10, that is: reference column is through after the first fixed block pilot hole B8 of this antenna fixed block 2 shown in Fig. 1 and the first antenna pilot hole B22 shown in this Fig. 3, extends in the first briquetting pilot hole B10 of the upper holder block 1 shown in Fig. 2;
Wherein, this 802 diversity antenna is provided with Lou copper part, be designated as the second leakage copper region 27, this the second leakage copper region 27 is corresponding with the first fixed block piercing probe B18 on above-mentioned antenna fixed block 2, namely probe is through after this first fixed block piercing probe B18, second leak copper region 27 with this and contact, realize the detection to antenna;
As shown in Figure 5, the structural representation of 801 main antennas shown in this figure, this the second antenna pilot hole A23 is corresponding with above-mentioned second fixed block pilot hole A11, the second briquetting pilot hole A14, that is: reference column is through after the second fixed block pilot hole A11 of this antenna fixed block 2 shown in Fig. 1 and the second antenna pilot hole A23 shown in this Fig. 3, extends in the second briquetting pilot hole A14 of the upper holder block 1 shown in Fig. 2;
Second antenna pilot hole B24 is corresponding with above-mentioned second fixed block pilot hole B12, the second briquetting pilot hole B15, that is: reference column is through after the second fixed block pilot hole B12 of this antenna fixed block 2 shown in Fig. 1 and the second antenna pilot hole B24 shown in this Fig. 3, extends in the second briquetting pilot hole B15 of the upper holder block 1 shown in Fig. 2;
Second antenna pilot hole C25 is corresponding with above-mentioned second fixed block pilot hole C13, the second briquetting pilot hole C16, that is: reference column is through after the second fixed block pilot hole C13 of this antenna fixed block 2 shown in Fig. 1 and the second antenna pilot hole C25 shown in this Fig. 3, extends in the second briquetting pilot hole C16 of the upper holder block 1 shown in Fig. 2;
Wherein, this 801 main antenna is provided with Lou copper part, be designated as the 3rd respectively and leak copper region 28 and the 4th leakage copper region 29, 3rd leakage copper region 28 is corresponding with the second fixed block piercing probe A19 on above-mentioned antenna fixed block 2, 4th leakage copper region 29 is corresponding with the second fixed block piercing probe B20 on above-mentioned antenna fixed block 2, namely probe is through after this second fixed block piercing probe A19, leak copper region 28 contact with the 3rd, after this second fixed block piercing probe B20, leak copper region 29 contact with the 4th, the mode of alternative can be adopted, realize the detection to antenna,
As shown in Figure 6, the structural representation of 802 main antennas shown in this figure, wherein, this 802 main antenna is substantially identical with the structure of 801 main antennas, this the second antenna pilot hole A23 is corresponding with above-mentioned second fixed block pilot hole A11, the second briquetting pilot hole A14, that is: reference column is through after the second fixed block pilot hole A11 of this antenna fixed block 2 shown in Fig. 1 and the second antenna pilot hole A23 shown in this Fig. 3, extends in the second briquetting pilot hole A14 of the upper holder block 1 shown in Fig. 2;
Second antenna pilot hole B24 is corresponding with above-mentioned second fixed block pilot hole B12, the second briquetting pilot hole B15, that is: reference column is through after the second fixed block pilot hole B12 of this antenna fixed block 2 shown in Fig. 1 and the second antenna pilot hole B24 shown in this Fig. 3, extends in the second briquetting pilot hole B15 of the upper holder block 1 shown in Fig. 2;
Second antenna pilot hole C25 is corresponding with above-mentioned second fixed block pilot hole C13, the second briquetting pilot hole C16, that is: reference column is through after the second fixed block pilot hole C13 of this antenna fixed block 2 shown in Fig. 1 and the second antenna pilot hole C25 shown in this Fig. 3, extends in the second briquetting pilot hole C16 of the upper holder block 1 shown in Fig. 2;
Wherein, this 802 main antenna is provided with Lou copper part, be designated as the 5th respectively and leak copper region 30 and the 6th leakage copper region 31, 5th leakage copper region 30 is corresponding with the second fixed block piercing probe A19 on above-mentioned antenna fixed block 2, 6th leakage copper region 31 is corresponding with the second fixed block piercing probe B20 on above-mentioned antenna fixed block 2, namely probe is through after this second fixed block piercing probe A19, leak copper region 30 contact with the 5th, after this second fixed block piercing probe B20, leak copper region 31 contact with the 6th, the mode of alternative can be adopted, realize the detection to antenna.
Above-mentioned antenna fixed block 2 and upper holder block 1 are also provided with other structures, do not repeat them here, but not in order to limit the present invention.
For the ease of understanding, the following implementation procedure providing the antenna test method that the present invention is based on this antenna measurement device:
(1) antenna to be measured is placed in corresponding antenna standing groove, corresponding relation is set up in each hole between antenna and antenna fixed block 2;
Be placed in the first antenna standing groove 3 by the antenna shown in Fig. 3 and Fig. 4, the antenna shown in Fig. 5 and Fig. 6 be placed in the second antenna standing groove 4;
(2) control upper holder block 1 to move down, make first briquetting protruding 5 of upper holder block 1 and the second briquetting projection 6 rush at the first antenna standing groove and the second antenna standing groove respectively, make to compress between upper holder block 1 and antenna fixed block 2;
(3) when probe and corresponding leakage copper part contact, probe forms electric signal, and transmission feeds back to corresponding checkout equipment, completes the test of antenna.
Above-mentionedly only provide simple content measurement, do not repeat them here.
In embodiments of the present invention, antenna measurement device comprises upper holder block 1 and antenna fixed block 2, antenna fixed block 2 is provided with the first antenna standing groove 3 and the second antenna standing groove 4, first kind antenna to be measured is placed in first antenna standing groove 3, Equations of The Second Kind antenna to be measured is placed in second antenna standing groove 4, first kind antenna is provided with several the first antenna pilot holes, Equations of The Second Kind antenna is provided with several the second antenna pilot holes, several the first fixed block pilot holes and several the first fixed block piercing probes are provided with in first antenna standing groove 3, several the second fixed block pilot holes and several the second fixed block piercing probes are provided with in second antenna standing groove 4, upper holder block 1 is provided with the first briquetting protruding 5 and the second briquetting projection 6, first briquetting projection 5 is provided with several the first briquetting pilot holes, second briquetting projection 6 is provided with several the second briquetting pilot holes, first fixed block pilot hole, first antenna pilot hole and the first briquetting pilot hole corresponding, second fixed block pilot hole, second antenna pilot hole and the second briquetting pilot hole corresponding, thus the detection realized antenna, and adopt antenna to leak the way of contact of copper part, improve detection efficiency, also further increasing antenna product yield.
The foregoing is only preferred embodiment of the present invention, not in order to limit the present invention, all any amendments done within the spirit and principles in the present invention, equivalent replacement and improvement etc., all should be included within protection scope of the present invention.
Claims (7)
1. an antenna measurement device, is characterized in that, described antenna measurement device comprises upper holder block and antenna fixed block, wherein:
Described antenna fixed block is fixedly mounted on testing circuit plate, described antenna fixed block is provided with the first antenna standing groove and the second antenna standing groove, first kind antenna to be measured is placed in described first antenna standing groove, Equations of The Second Kind antenna to be measured is placed in described second antenna standing groove, described first kind antenna is provided with several the first antenna pilot holes, and described Equations of The Second Kind antenna is provided with several the second antenna pilot holes;
Several the first fixed block pilot holes and several the first fixed block piercing probes are provided with in described first antenna standing groove, several the second fixed block pilot holes and several the second fixed block piercing probes are provided with in described second antenna standing groove, described first fixed block piercing probe and described second fixed block piercing probe are sleeved on the probe of correspondence position on described testing circuit plate, described probe contacts with the leakage copper part of described first kind antenna through after described first fixed block piercing probe, described probe contacts with the leakage copper part of described Equations of The Second Kind antenna through after described second fixed block piercing probe,
Described upper holder block is fixedly mounted on the lifter plate side corresponding with described antenna fixed block, described upper holder block is provided with the first briquetting projection and the second briquetting projection, described first briquetting is protruding to adapt with described first antenna standing groove, described second briquetting is protruding to adapt with described second antenna standing groove, described first briquetting projection is provided with several the first briquetting pilot holes, and described second briquetting projection is provided with several the second briquetting pilot holes;
Described first fixed block pilot hole, the first antenna pilot hole and the first briquetting pilot hole are corresponding, and described second fixed block pilot hole, the second antenna pilot hole and the second briquetting pilot hole are corresponding.
2. antenna measurement device according to claim 1, it is characterized in that, the quantity of described first fixed block pilot hole is two, be designated as respectively: the first fixed block pilot hole A and the first fixed block pilot hole B, corresponding, the quantity of described first briquetting pilot hole also two, is designated as respectively: the first briquetting pilot hole A and the first briquetting pilot hole B, wherein:
Described first fixed block pilot hole B is positioned at the center of described antenna fixed block, and described first briquetting pilot hole B is positioned at the center of described upper holder block.
3. antenna measurement device according to claim 2, it is characterized in that, the quantity of described second fixed block pilot hole is three, be designated as respectively: the second fixed block pilot hole A, the second fixed block pilot hole B and the second fixed block pilot hole C, corresponding, the quantity of described second briquetting pilot hole is also three, is designated as respectively: the second briquetting pilot hole A, the second briquetting pilot hole B and the second briquetting pilot hole C, wherein:
Described second fixed block pilot hole A, the second fixed block pilot hole B and the second fixed block pilot hole C distribute from the center of described antenna fixed block to side, and the second briquetting pilot hole A, the second briquetting pilot hole B and the second briquetting pilot hole C distribute from the center of described upper holder block to side.
4. antenna measurement device according to claim 3, is characterized in that, the quantity of described first fixed block piercing probe is two, is designated as respectively: the first fixed block piercing probe A and the first fixed block piercing probe B;
The quantity of described second fixed block piercing probe is two, is designated as respectively: the second fixed block piercing probe A and the second fixed block piercing probe B.
5. antenna measurement device according to claim 4, it is characterized in that, described first antenna pilot hole is set to two, be designated as respectively: the first antenna pilot hole A and the first antenna pilot hole B, described second antenna pilot hole is set to three, is designated as respectively: the second antenna pilot hole A, the second antenna pilot hole B and the second antenna pilot hole C.
6. antenna measurement device according to claim 5, is characterized in that, described first fixed block pilot hole A, the first antenna pilot hole A and the first briquetting pilot hole A are corresponding;
Described first fixed block pilot hole B, the first antenna pilot hole B and the first briquetting pilot hole B are corresponding;
Described second fixed block pilot hole A, the second antenna pilot hole A and the second fixed block pilot hole A are corresponding;
Described second fixed block pilot hole B, the second antenna pilot hole B and the second fixed block pilot hole B are corresponding;
Described second fixed block pilot hole C, the second antenna pilot hole C and the second fixed block pilot hole C are corresponding.
7. antenna measurement device according to claim 6, is characterized in that, described first kind antenna is diversity antenna, and described Equations of The Second Kind antenna is main antenna.
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| CN201510560059.0A CN105093035A (en) | 2015-09-06 | 2015-09-06 | Antenna test device |
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| CN201510560059.0A CN105093035A (en) | 2015-09-06 | 2015-09-06 | Antenna test device |
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Cited By (1)
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| CN107886819A (en) * | 2017-11-10 | 2018-04-06 | 中国电子科技集团公司第四十研究所 | Quick switching device is tested in a kind of teaching experiment antenna E H faces |
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| CN203414537U (en) * | 2013-07-15 | 2014-01-29 | 昆山福易雅自动化科技有限公司 | Linkage device for detecting mobile terminal antenna |
| CN203414531U (en) * | 2013-07-15 | 2014-01-29 | 昆山福易雅自动化科技有限公司 | Mobile terminal antenna detection jig |
| CN204462325U (en) * | 2015-03-20 | 2015-07-08 | 深圳市汇晨电子有限公司 | FPC lights measurement jig simultaneously |
| CN204925283U (en) * | 2015-09-06 | 2015-12-30 | 歌尔声学股份有限公司 | Antenna testing arrangement |
Cited By (1)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN107886819A (en) * | 2017-11-10 | 2018-04-06 | 中国电子科技集团公司第四十研究所 | Quick switching device is tested in a kind of teaching experiment antenna E H faces |
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Address after: 261031 Dongfang Road, Weifang high tech Industrial Development Zone, Shandong, China, No. 268 Applicant after: Goertek Inc. Address before: 261031 Dongfang Road, Weifang high tech Industrial Development Zone, Shandong, China, No. 268 Applicant before: Goertek Inc. |
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Application publication date: 20151125 |