CN101257143A - Back ring type coupled aerial - Google Patents

Abstract

The invention provides a loop type coupling antenna, which includes: a feed-in wire, a coupling conductor, a first coupling part, a second coupling part, a second conductor and a ground surface, one end of the coupling conductor belongs to the first coupling part, another end belongs to the second coupling part; the feed-in wire connects with the first coupling part for providing a feed-in signal to the first coupling part; the feed-in signal couples to the second coupling part through the coupling conductor; one end of the second conductor connects with the second coupling part, another end connects with the ground surface that conduct signal of the second coupling part to the ground surface by using the second conductor. Impedance match can be adjusted efficiently by using the first coupling part, and antenna operation frequency width can be increased. The second coupling part and the second conductor reduce resonant frequency, and shorten wavelength of resonant path center frequency.

Description

Back ring type coupled aerial

Technical field

The present invention is a kind of back ring type coupled aerial, especially means a kind of antenna with two inductive couplings unit.

Background technology

The wireless communication transmission development of technology, make the function of various relevant auxiliary products advanced further, particularly about the efficiency of transmission and the dimensional requirement of antenna, often influence the sales volume of manufacturer's product on market, how to effectively integrate antenna multiband transmission usefulness, dwindle antenna simultaneously in electronic installation internal configurations space, become the important topic of the positive seeking breakthrough of each relevant dealer.

For effectively reducing the antenna configurations size, improve the signal conduction efficiency simultaneously, see also Fig. 1, be the schematic perspective view of United States Patent (USP) bulletin case US6081242 " antenna-matching circuit ", comprise: a tellite 24, an antenna pad 40, one first inductance 34, one second inductance 38 and a ground plane 42; Its antenna pad 40 is positioned at tellite 24 surfaces, and is coupled in this first inductance 34, and its first inductance, 34 ends form an electric capacity 26, the second inductance 38 the other end with second inductance, 38 1 ends and then are connected in ground plane 42.Above-mentioned design increases electrical couplings efficient by sinuous inductance, and shorten antenna configurations length, though can reach the purpose of multi-band operation and size reduction, because its capacitive coupling area is narrow, and its antenna operation frequency range also has certain upper limit, can't be applied to really in the middle of the various electronic products.

Because the problem of known techniques, at dwindling antenna overall structure size, and improve antenna operation frequency range scope, antenna all can be applied in the middle of the various electronic products, become the target that industry is actively improved then.

Summary of the invention

Purpose of the present invention is that a kind of back ring type coupled aerial is provided, and produces the electrical couplings effect by first coupling part, effectively adjusts impedance matching, improves the antenna operation frequency range.

Another object of the present invention system provides a kind of back ring type coupled aerial, utilizes second coupling part and second conductor to reduce antenna resonance frequency, shortens the wavelength of resonance path centre frequency, significantly reduces the antenna module size.

Another purpose of the present invention is that a kind of back ring type coupled aerial is provided, and utilizes back ring type inductive coupling circuit, shortens the aerial signal transmission path, effectively reduces the antenna member configuration space.

For reaching above-mentioned purpose, the present invention is a kind of back ring type coupled aerial, comprises: a feed-in line, a substrate, a coupling conductors, one first coupling part, one second coupling part, one second conductor and a ground plane, and its substrate has a surface; These coupling conductors both ends can be distinguished into first coupled zone and second coupled zone; First coupling part comprises a feed-in conductor and first coupled zone, and forms a gap between the two; Second coupling part comprises this second coupled zone and one first conductor, and has a spacing between the two.Wherein this first coupling part and second coupling part are in substrate surface, this feed-in line is connected in the feed-in conductor of first coupling part, utilize the feed-in line that the FD feed source is transferred to the feed-in conductor, and couple a signal to first coupled zone of opposite side position with the capacitive sensing coupled modes, thereby signal is conducted to second coupled zone of the other end via coupling conductors, apart from producing the capacitive coupling inductive effect, couple a signal to first conductor of second coupling part between seeing through between second coupled zone and first conductor again; Second conductor, one end is connected in first conductor, and the other end then is connected in ground plane, utilizes second conductor that the signal of first conductor is conducted to ground plane.Therefore by the input of feed-in conductor, capacitive sensing coupled modes conduction to the second conductor via first coupling part and second coupling part is connected to ground plane again, forms a back ring type coupled aerial with FD feed in the present invention.

The feed-in conductor and the first coupled zone coupled electric signal that the present invention utilizes first coupling part to be comprised, by the area that increases the gap contact, adjust the capacitive sensing coupling effect, can change the input impedance of antenna, make it have milder impedance variation, promote the operation frequency range of impedance matching and system, this gap also can adopt welding one chip capacity assembly to change its capacitance simultaneously; Between then utilizing between second coupled zone of second coupling part and first conductor apart from configuration, make this second coupled zone and the first conductor side relative spacing length longer, also can produce bigger capacitive coupling induction amount, reach the purpose that significantly reduces antenna resonance frequency, make the resonance path contraction in length be centre frequency wavelength 1/2nd, significantly shorten antenna size through this mode, reduce the configuration space of antenna in electronic installation inside; In addition, this first conductor has rivulose structure in the end near this second coupled zone, also can increase current path, reaches the purpose of size downsizing; In addition, it is the less and comparatively intensive serpentine path of spacing that second conductor is compared first conductor, can form an inductive component, by adjusting this path clearance, width and total length, can change its inductance value, also can reach the purpose of adjusting Antenna Impedance Matching, the condensive reactance that aforesaid first coupling part of arranging in pairs or groups produces can make antenna reach good impedance matching.First conductor, second conductor and ground plane system are positioned at the opposite side position of feed-in conductor and coupling conductors simultaneously, can shorten the antenna substrate configured length, increase the arrangement of components convenience, make its structure can be widely used in the electronic installation inside of various different sizes.

For making audit crew further understand the present invention's detailed content, enumerate now following preferred embodiment explanation as after.

Description of drawings

Fig. 1 is the schematic perspective view of United States Patent (USP) bulletin case US6081242 " antenna-matching circuit ".

Fig. 2 is the schematic perspective view of first embodiment of the invention

Fig. 3 is the circuit diagram of first embodiment of the invention.

Fig. 4 returns loss (Return loss) metric data schematic diagram for first embodiment of the invention.

Fig. 5 is the schematic perspective view of second embodiment of the invention.

Fig. 6 is the schematic perspective view of third embodiment of the invention.

Embodiment

See also Fig. 2, the schematic perspective view for first embodiment of the invention comprises: a feed-in line 21, a substrate 22, a coupling conductors 232, one first coupling part 23, one second coupling part 24, one second conductor 25 and a ground plane 26.This substrate 22 has a surface 221; This coupling conductors 232 is distinguished into one first coupled zone 232a and one second coupled zone 232b; First coupling part 23 comprises: a feed-in conductor 231 and the first coupled zone 232a, and the first coupled zone 232a and 231 formation of feed-in conductor, one gap; Second coupling part 24 is that this second coupled zone 232b and one first conductor 241 are formed, and has a spacing between first conductor 241 and the second coupled zone 232b.

Wherein this first coupling part 23 and second coupling part 24 are positioned at substrate 22 surfaces 221, substrate 22 length are about 76mm, width is about 9mm, thickness is about 0.2mm, feed-in line 21 is connected in the feed-in conductor 231 of first coupling part 23, via feed-in line 21 the FD feed source is transferred to feed-in conductor 231, feed-in conductor 231 length are about 15mm, width is about 1mm, and form the gap with the first coupled zone 232a, gap width is less than 1mm, utilize the electrical couplings mode to couple a signal to the first coupled zone 232a of opposite side position, the first coupled zone 232a length is about 15mm, and width is about 1mm, signal is conducted to the second coupled zone 232b of the other end via coupling conductors 232, the second coupled zone 232b length is about 55mm, and width is about 2mm, sees through between 241 of the second coupled zone 232b and first conductors apart from generation electrical couplings effect, couple a signal to first conductor 241 of second coupling part 24, and distance is about 0.5mm between this second coupled zone 232b and this first conductor 241; This first conductor 241 is to be serpentine shape and total path length is about 21mm, its end is tabular, about 44mm of the elongation that renews and width are about 7mm and have an end 243 and be connected in second conductor 25, its second conductor, 25 the other end then are connected in ground plane 26, second conductor, 25 total path length are about 63mm, this second conductor 25 utilize the inductance conduction pattern with the signal guidance of first conductor 241 to ground plane 26, ground plane 26 length are about 10mm.

The feed-in conductor 231 and the first coupled zone 232a coupled electric signal that present embodiment utilizes first coupling part 23 to form, using increases the gap contact area, improve capacitive sensing coupling amount, make antenna have milder impedance variation, promote the operation frequency range of impedance matching and system, and utilize between 241 of the second coupled zone 232b of second coupling part 24 and first conductors apart from configuration, reach the purpose that reduces antenna resonance frequency by increasing capacitive coupling induction amount, make the resonance path contraction in length be centre frequency wavelength two/, significantly shorten antenna size through this mode, reduce the configuration space of antenna in electronic installation inside, while first conductor 241, second conductor 25 and ground plane 26 are to be positioned at feed-in conductor 231 and coupling conductors 232 opposite side positions, shorten the antenna substrate configured length, increase the arrangement of components convenience, make its structure can be widely used in the electronic installation inside of various different sizes.

See also Fig. 3, circuit diagram for first embodiment of the invention, its back ring type coupled aerial circuit has a signal source 31, see through signal source 31 conductive antennas high-frequency signals, couple a signal to the first coupled zone 232a of coupling conductors 232 in the electrical couplings mode via one first capacitor cell C1, the second coupled zone 232b that sees through coupling conductors 232 again couples a signal to first conductor 241 via one second capacitor cell C2, the second last conductor 25 utilizes an inductance unit L1 to conduct to ground plane 26 with electric induction mode signal, wherein this first capacitor cell C1 and inductance unit L1 make antenna obtain the operation of wideband in order to adjust the impedance matching of this antenna; Increase by the second capacitor cell C2 in addition, can significantly reduce by 1/2nd wavelength of the resonance path of antenna to centre frequency.

See also Fig. 4, return loss (Return loss) metric data schematic diagram for first embodiment of the invention, S1 is under 2: 1 definition of VSWR for its antenna operation frequency range scope, can reach 430MHz (445～875MHz), its frequency range can be contained Digital Television UHF band system band (470～870MHz) easily, data show that the present invention has possessed low reflection loss and transmission frequency characteristic widely, has had preferable impedance matching and operation frequency range in fact thus.

See also Fig. 5, schematic perspective view for second embodiment of the invention, present embodiment and above-mentioned first embodiment are roughly the same, its difference is in gap configuration one capacitance component 234 between the feed-in conductor 231 and the first coupled zone 232a, utilize welding manner that capacitance component 234 is welded between the feed-in conductor 231 and the first coupled zone 232a, make the signal source of feed-in line 21 transmission transfer to the first coupled zone 232a through capacitance component 234, see through the program that capacitance component 234 is directly welded in first coupling part, 23 gaps, the Adjustment System capacitance increases impedance matching and operation frequency range.

See also Fig. 6, schematic perspective view for third embodiment of the invention, present embodiment and above-mentioned first embodiment are roughly the same, its difference is in the first coupled zone 232a of coupling conductors 232 and is positioned at substrate 22 bottom surfaces 222, see through a junction 235 and connect the first coupled zone 232a and coupling conductors 232, make feed-in conductor 231 be coupled to the signal of the first coupled zone 232a via the coupling conductors 232 of connecting portion 235 conductings to substrate 22 surfaces 221, effectively increase capacitive coupling inductive effect contact area through this configuration, and then improve capacitive coupling induction amount, and promote antenna module configuration elasticity.

The present invention has met patent requirement, actual characteristics with novelty, progressive and industry using value, right embodiment is not the scope in order to limitation the present invention, various changes and retouching that any those who are familiar with this art did, under spirit that does not break away from the present invention and definition, all in interest field of the present invention.

Claims (8)

1. back ring type coupled aerial comprises:

One feed-in line;

One first coupling part, described feed-in linear system is connected in first coupling part;

One second coupling part, described second coupling part one end system is connected in first coupling part;

One second conductor, one end are connected in described second coupling part; And

One ground plane is connected in described second conductor the other end.

2. back ring type coupled aerial as claimed in claim 1 is characterized in that, described first coupling part and second coupling part are capacitive component.

3. back ring type coupled aerial as claimed in claim 1 is characterized in that, described second conductor is an inductive component.

4. back ring type coupled aerial comprises:

One feed-in line;

One substrate has a surface;

One coupling conductors has one first coupled zone and one second coupled zone;

One first coupling part is positioned at described substrate surface, comprises:

One feed-in conductor is connected with described feed-in line;

Described first coupled zone is positioned at the direction of described feed-in conductor opposite side, between the two distance one gap;

One second coupling part is positioned at described substrate surface, comprises;

Described second coupled zone;

One first conductor is positioned at the direction of the described second coupled zone opposite side, between the two distance one spacing;

One second conductor is connected in described first conductor one end; And

One ground plane is connected in described second conductor the other end.

5. back ring type coupled aerial as claimed in claim 4 is characterized in that, described first coupling part and second coupling part are capacitive component.

6. back ring type coupled aerial as claimed in claim 4 is characterized in that, described second conductor is an inductive component.

7. back ring type coupled aerial as claimed in claim 4 is characterized in that, configuration one capacitance component between described first coupled zone and feed-in conductor.

8. back ring type coupled aerial as claimed in claim 4 is characterized in that, described first coupled zone can be positioned at substrate bottom surface, and is connected with second coupled zone by a junction.

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