CN204391270U - Impedance matching structure, antenna module and aircraft - Google Patents

Abstract

The utility model discloses a kind of impedance matching structure, antenna module and aircraft.Described impedance matching structure comprises printed circuit board (PCB) body, and the radio frequency microstrip line be arranged on printed circuit board (PCB) body, printed circuit board (PCB) body is also provided with the impedance matching line be connected with described radio frequency microstrip line, the impedance of this impedance matching line is higher than radio frequency microstrip line.Described impedance matching line for making the impedance matching at the interface circuit place of described radio frequency microstrip line and radio frequency connector, and then realizes the impedance matching of radio frequency microstrip line and antenna.

Description

Impedance matching structure, antenna module and aircraft

Technical field

The utility model relates to antenna technical field, especially relates to a kind of impedance matching structure and applies this impedance matching structure antenna module and aircraft.

Background technology

The communication technology (comprising mobile communication, satellite communication and optical communication) and computer technology fast development in recent years, the operating frequency of communication system also improves day by day.Usually, analog circuit for radio communication is at GHz (GHz) wave band, global positioning system carrier frequency is in 1227.6MHz ~ 1575.42MHz wavelength band, the industrial science that whole world various countries are common and medical frequency bands (ISM, Industrial Scientific Medical) be 2.4GHz, forth generation (4G, 4 Generation) operating frequency of communication network of mobile communication technology is 2.3GHz wavelength band, and comprise the up and 6GHz downlink system of 4GHz in the satellite broadcasting of C-band.Under day by day nervous frequency spectrum resource background, the modulating frequency of signal of communication is more and more higher.

High-frequency signal needs unique carrier to transmit, and coaxial line is the most general one of transmitting high-frequency signal.When frequency height is to 10GHz, the external connection of nearly all radio system or testing equipment is all coaxial line.Most electronic installation radio frequency (RF, Radio Frequency) communications component of system is all adopt planar printed circuit board (PCB usually, Printed Circuit Board) as basic media implementation, meanwhile, the conductor belt be etched on PCB must meet the requirement of high frequency characteristics.The conductor strip structure that propagation and employment meets high frequency characteristics is the most widely microstrip line construction.

In the interface circuit design of common coaxial transmission system, coaxial line is as the external connection of electronic installation radio system, and this external connection is as the bridge connecting antenna and PCB.Microstrip line is the radio-frequency transmission line on PCB, uses RF connector as the bridge connecting coaxial line and microstrip line.RF connector one end connects coaxial line, and the other end (lower margin and RF pin) is then welded on PCB.Wherein, the microstrip line in the RF pin connection PCB of connector, the lower margin of connector is connected with ground (GND) plane on PCB.RF connector realizes the switching of coaxial line and microstrip line.Described interface circuit then optimizes the coupling of switching, reduces the loss of through-put power to greatest extent.

The encapsulation of RF connector is generally for the solderability of device, and the technological requirements such as assembling capacity design, and do not relate to electric property.Microstrip line is generally designed to 50 ohm according to sheet material.Traditional interface circuit design, encapsulates (RF pin) by the microstrip line being designed to 50 ohm with RF connector exactly and is directly connected, achieve a butt joint.Under technology today, the return loss of typical RF connector is not more than-20dB, and the return loss of microstrip line is below-26dB, and both are connected, and in theory, the return loss of interface circuit can not be greater than-19dB.At below 1GHz, the return loss of interface circuit is less, but when operating frequency rises to 2GHz even more than 3GHz, the drawback of conventional interface circuit design will show nothing left, and return loss can reach more than-10dB.

In order to the input impedance conversion of the interface circuit at coaxial line and microstrip line by coaxial transmission system is to equaling the characteristic impedance of coaxial line (feeder line) to ensure coaxial line only has the incident wave of signal voltage electric current, and there is no reflected wave, namely make coaxial transmission system works at traveling-wave mode, signal power is all absorbed by the antenna load of coaxial transmission system, this situation is ideal state, be called impedance matching, now voltage standing wave ratio is 1.Traditional impedance matching methods places electric capacity, inductance at interface, carries out impedance optimization.But because electric capacity, inductance itself inevitably exist parasitic parameter characteristic, bring extra insertion loss by circuit.And due to the existence of parasitic parameter, this kind of impedance matching methods consistency is not high.On the other hand, the cost of high frequency capacitance, inductance is high, and meanwhile, extra impedance matching circuit is also made troubles to day by day compact PCB layout.

Along with the demand for development that operating frequency in Nowadays communication system increases day by day, the requirement improving conventional interface circuit design also seems important day by day.

Utility model content

In view of this, the utility model provides a kind of impedance matching structure and applies this impedance matching structure antenna module and aircraft.

A kind of impedance matching structure of printed circuit board (PCB), comprise printed circuit board (PCB) body, and the radio frequency operation network be arranged on printed circuit board (PCB) body and ground level network, described radio frequency operation networking comprises radio frequency microstrip line, printed circuit board (PCB) body is also provided with the impedance matching line be connected with described radio frequency microstrip line; The impedance of this impedance matching line higher than radio frequency microstrip line, for making the impedance matching of described radio frequency microstrip line and antenna.

Further, described impedance matching line is connected between the radio frequency pin of radio frequency microstrip line and a radio frequency connector, and described impedance matching line is for making the impedance matching at the interface circuit place of described radio frequency microstrip line and radio frequency connector.

Further, described radio frequency microstrip line and radio frequency connector are arranged at two opposing sides of printed circuit board (PCB) body respectively.

Further, described printed circuit board (PCB) body is perfecting brush board, and this printed circuit board (PCB) body comprises the first layer printed circuit board and second layer printed circuit board of opposing setting; Described impedance matching line and radio frequency microstrip line are arranged at the first layer printed circuit board.

Further, described radio frequency connector is provided with lower margin and described radio frequency pin;

Described printed circuit board (PCB) body is provided with the radio frequency pin hole corresponding with described radio frequency pin, and the lower margin hole corresponding with described lower margin; The surrounding of described radio frequency pin hole is also provided with the pad around described radio frequency pin hole, and the surrounding in described lower margin hole is provided with the pad around described lower margin hole;

Described foot plug to be connected in described lower margin hole and to be electrically connected with the ground level of described printed circuit board (PCB) body at the pad place of correspondence;

Described radio frequency pin is plugged in described radio frequency pin hole and at the pad place of correspondence and is electrically connected with impedance matching line, to make the impedance matching at the interface circuit place of described radio frequency microstrip line and radio frequency connector.

Further, described impedance matching line is that a width is less than radio frequency microstrip line, and impedance is higher than the narrow band microstrip line of radio frequency microstrip line.

Further, described impedance matching line and radio frequency microstrip line are integrally formed on printed circuit board (PCB) body by etching.

A kind of antenna module, comprise printed circuit board (PCB) body, be arranged at the radio frequency operation network on printed circuit board (PCB) body and ground level network, described radio frequency operation networking comprises radio frequency microstrip line, radio frequency connector and an external connection be connected with this radio frequency connector, described radio frequency connector also comprises a radio frequency pin, is connected and is electrically connected by an impedance matching line between described radio frequency microstrip line and the radio frequency pin of radio frequency connector; The impedance of described impedance matching line higher than radio frequency microstrip line, to make the impedance matching at the interface circuit place of described radio frequency microstrip line and radio frequency connector.

Further, described impedance matching line is that a width is less than radio frequency microstrip line, and impedance is higher than the narrow band microstrip line of radio frequency microstrip line.

Further, described impedance matching line and radio frequency microstrip line are integrally formed on printed circuit board (PCB) body by etching.

Further, described radio frequency microstrip line and radio frequency connector are arranged at two opposing sides of printed circuit board (PCB) body respectively.

Further, described printed circuit board (PCB) body is perfecting brush board, and this printed circuit board (PCB) body comprises the first layer printed circuit board and second layer printed circuit board of opposing setting; Described impedance matching line and radio frequency microstrip line are arranged at the first layer printed circuit board.

Further, be close between described impedance matching line and the radio frequency pin of radio frequency connector and be electrically connected to each other.

Further, described radio frequency connector comprises the first end and the second end that are oppositely arranged, the first end of radio frequency connector and external connection electrical connection, and the second end of radio frequency connector is provided with lower margin and described radio frequency pin;

Described printed circuit board (PCB) body is provided with the radio frequency pin hole corresponding with described radio frequency pin, and the lower margin hole corresponding with described lower margin; The surrounding of described radio frequency pin hole is also provided with the pad around described radio frequency pin hole, and the surrounding in described lower margin hole is provided with the pad around described lower margin hole;

Described lower margin to insert in described lower margin hole and is electrically connected with the ground level of described printed circuit board (PCB) body at the pad place of correspondence;

Described radio frequency pin inserts being electrically connected to each other, to make the impedance matching at the interface circuit place of described radio frequency microstrip line and radio frequency connector of being close in described radio frequency pin hole and at the pad place of correspondence and impedance matching line.

Further, the first end of described radio frequency connector is provided with external screw thread, and the mode by threaded engagement between the first end of described radio frequency connector and external connection connects.

Further, described printed circuit board (PCB) body is provided with multiple pad, and described radio frequency connector is welded with printed circuit board (PCB) body by the mode of downhand welding, and described radio frequency pin is electrically connected with impedance matching line at the pad place of correspondence.

A kind of aircraft, comprises fuselage and above-mentioned antenna module.

Have employed impedance matching structure of the present utility model and antenna module, only need to use a bit of with by the identical narrow band microstrip line of the structure of radio frequency microstrip line as impedance matching line, cost can not be brought to system, and do not need the debug circuit outside occupying volume yet, eliminate the use of high-frequency inductor, electric capacity, cost-saving, and decrease layout area, be adapted to the demand of miniaturization.

Accompanying drawing explanation

Fig. 1 is the structural representation of the antenna module of an embodiment of the present invention.

Fig. 2 is the RF connector of antenna module in Fig. 1 and the structural representation of an external connection.

Fig. 3 is the decomposition texture schematic diagram of the antenna module in Fig. 1.

Fig. 4 is the cross-sectional structure schematic diagram along II-II of the antenna module in Fig. 1.

Main element symbol description

Antenna module	100
		PCB body	10
First side	11
		Second side	12
RF microstrip line	20
		RF connector	30
First end	31
		Second end	32
Pin	33
		RF pin	331
Lower margin	332
		Borehole	34
RF pin hole	341
		Lower margin hole	342
Pad	35
		External connection	40
Impedance matching line	50
		First layer printed circuit board	61
Second layer printed circuit board	62

Following embodiment will further illustrate the utility model in conjunction with above-mentioned accompanying drawing.

Embodiment

Please refer to Fig. 1, the structural representation of the antenna module 100 in the utility model one execution mode.Described antenna module 100 comprises printed circuit board (PCB) (PCB, Printed Circuit Board) body 10, is arranged at radio frequency (RF, the Radio Frequency) microstrip line 20 on PCB body 10 and RF connector 30.PCB body 10 comprises the first side 11 and the second side 12 of relative setting.The first side 11, RF connector 30 that RF microstrip line 20 is arranged at described PCB body 10 is arranged at described second side 12.

Described RF connector 30 comprises a RF pin 331.Be electrically connected by an impedance matching line 50 between this RF pin 331 with RF microstrip line 20.In the present embodiment, be being electrically connected to each other of being close between this RF pin 331 and impedance matching line 50, RF connector 30 is as the connection bridge between RF microstrip line 20 and external connection 40.Wherein, described impedance matching line 50 and RF microstrip line 20 are the transmission line of same structure.

Please composition graphs 1 ~ 3 in the lump, this RF connector 30 comprises the first end 31 and the second end 32 that are oppositely arranged.The first end 31 of described RF connector 30 is electrically connected with external connection 40.In the present embodiment, the first end 31 of described RF connector 30 is provided with external screw thread 311, and described external connection 40 is connected by the mode of screw thread with the first end 31 of RF connector 30.

Described RF connector 30 also comprises the multiple pins 33 be arranged on the second end 32, and pin 33 comprises described RF pin 331 and at least one lower margin 332.In the present embodiment.The number of described lower margin 332 is 4.

Described PCB body 10 is provided with the borehole 34 corresponding with described multiple pin 33, and the surrounding of each described borehole 34 is also provided with the pad 35 around described borehole 34.This borehole 34 comprises RF pin hole 341 and lower margin hole 342.

Described lower margin 332 inserts described lower margin hole 342, and is electrically connected with the ground level (scheming not shown) on PCB body 10 at pad 35 place of correspondence.In the present embodiment, described lower margin 332 is welded together at pad 35 place in lower margin hole 342 and PCB body 10 by the mode of scolding tin.The RF pin 331 of described RF connector 30 inserts in described RF pin hole 341, and is electrically connected closely with impedance matching line 50 at pad 35 place of correspondence.In the present embodiment, described RF pin 331 is welded together at pad 35 place of RF pin hole 341 and PCB body 10 by the mode of scolding tin.

In other embodiments, described PCB body 10 can not arrange borehole, only need to arrange the pad 35 corresponding with the RF pin 331 of described RF connector 30 and lower margin 332, RF connector 30 is connected on PCB body 10 by the mode of downhand welding, lower margin 332 is welded on corresponding pad 35 place by the mode of scolding tin and is electrically connected with corresponding ground level, and RF pin 331 is welded together by the mode of scolding tin at corresponding pad 35 place PCB body 10 and is electrically connected with described impedance matching line 50 equally.

In the present embodiment, described external connection 40 adopts coaxial line, and this coaxial line is as the bridge of connection PCB body 10 with antenna (scheming not shown).Described RF microstrip line 20 is the microstrip line be formed in by etching or other techniques on PCB body 10.Described impedance matching line 50 is the microstrip line of a high impedance.At an execution mode, described impedance matching line 50 is that a width is less than RF microstrip line 20, and impedance is higher than the microstrip line of this RF microstrip line 20, and this impedance matching line 50 and RF microstrip line 20 can be integrally formed on PCB body 10 by etching.

By regulating the width of impedance matching line 50, the parameter such as length or thickness, regulate the resistance value of impedance matching line 50, the characteristic impedance of external connection 40 is equaled in RF microstrip line 20 and the input impedance at the interface circuit place of RF connector 30 to make this antenna module 100, thus the interface circuit place impedance of RF microstrip line 20 and RF connector 30 is optimized, and then realize the impedance matching between the RF microstrip line 20 of antenna module 100 and antenna.

Concrete, coaxial cable by radius be cylindrical conductor in a, radius is that the outer conductor of b and the dielectric layer between them form.Then the impedance of coaxial line can approximate representation be:

Wherein, the interface circuit between RF microstrip line 20 and external connection 40 comprises interface circuit two place between the first end 31 of interface circuit between the RF pin 331 of RF microstrip line 20 and RF connector 30 and RF connector 30 and external connection 40.

When RF connector 30 is welded on PCB body 10, dielectric becomes the dielectric-slab of PCB body 10 by air chamber, DIELECTRIC CONSTANT ε _rwill become large; , conveniently plug, on PCB body 10, the RF pin hole 341 of RF pin 331 correspondence must be greater than the diameter of the RF pin 331 of RF connector 30 meanwhile, and namely a value becomes large; Therefore, the impedance Z of coaxial line ₀can diminish.Thus, produce capacitive step in RF pin 331 place (i.e. the interface circuit place of RF microstrip line 20 and the RF connector 30) impedance of RF connector 30, cause impedance mismatching.

Because impedance matching line 50 is the narrow band microstrip line that an impedance is greater than the high impedance of RF microstrip line 20, the RF pin 331 being close to RF connector 30 is arranged.Although produce capacitive mismatch at RF pin 331 place, form negative reflection, the impedance matching line 50 being close to RF pin 331 is greater than the impedance of RF microstrip line 20, will produce perceptual mismatch, and form normal reflection, described positive and negative reflection cancels each other.Further pass through simulation calculation, resistance value to the positive and negative reflection of corresponding adjustment impedance matching line 50 cancels each other, the interface circuit that can realize RF microstrip line 20 and RF connector 30 applying the matched well in frequency band, thus realizes the impedance matching between the RF microstrip line 20 of antenna module 100 and antenna.

In addition, in present embodiment, because impedance matching line 50 adopts the narrow band microstrip line identical with by the structure of RF microstrip line 20 to realize impedance matching, the ghost effect of narrow band microstrip line is far smaller than the lamped element such as inductance, electric capacity, therefore, the consistency of impedance matching line 50 is good, can not bring extra insertion loss to link simultaneously.

Please composition graphs 4 in the lump, the floor file safe spacing on described PCB body 10 between radio frequency operation network and ground (GND) network also exists the impedance at the interface circuit place of RF microstrip line 20 and RF connector 30 to a certain extent to be affected.

In the present embodiment, described PCB body 10 is a two-sided printed panel, the floor file safe spacing of first layer printed circuit board 61 at the impedance matching line 50 on described PCB body 10 and RF microstrip line 20 place, and PCB body 10 also exists the impedance at the interface circuit place of RF microstrip line 20 and RF connector 30 to a certain extent with the floor file safe spacing of the second layer printed circuit board 62 of the opposing setting of described first layer printed circuit board 61 affect.

When PCB design, simulation calculation can be passed through, regulate the floor file safe spacing of described first layer printed circuit board 61 and the second layer printed circuit board 62, further the impedance of the interface circuit of RF microstrip line 20 and RF connector 30 is optimized, realizes impedance matching.

Adopt the antenna module 100 of the impedance matching structure in present embodiment, only need to use a bit of with by the identical narrow band microstrip line of the structure of RF microstrip line 20 to realize impedance matching, cost can not be brought to system, and do not need the debug circuit outside occupying volume yet, eliminate the use of high-frequency inductor, electric capacity, cost-saving, and decrease layout area, be adapted to the demand of miniaturization.This antenna module 100 can be used for aircraft, the wireless devices such as remote-control racing car.

With a specific embodiment, the impedance matching structure of the antenna module in the utility model be described below and apply the antenna module of above-mentioned impedance matching structure.

In the present embodiment, on PCB body 10, RF microstrip line 20 adopts 50 ohm microstrip.RF pin hole 341 diameter corresponding with the RF pin 331 of this RF connector 30 on PCB body 10 is 1.3mm, and lower margin hole 342 diameter corresponding with lower margin 332 is 1.5mm, and the pad diameter corresponding with described RF pin 331 is 2.5mm.The radius of RF pin hole 341 place pad 35 is 1.25mm, and impedance matching line 50 is set to length 1.75mm, and width is 0.78mm.

Further, in the present embodiment, described PCB body 10 is perfecting brush board, and the floor file safe spacing of first layer printed circuit board 61 at the impedance matching line 50 on PCB body 10 and RF microstrip line 20 place is designed to 1.5mm; Described PCB body 10 is designed to 1.1mm near the floor file safe spacing of the second layer printed circuit board 62 of the second side 12.

By simulation calculation and actual verification, be less than-25dB at the echo of the following antenna module 100 of operating frequency 3GHz, the following echo of operating frequency 6GHz is less than-15dB.

Those skilled in the art will be appreciated that; above execution mode is only used to the utility model is described; and be not used as restriction of the present utility model; as long as within spirit of the present utility model, the appropriate change do above embodiment and change all drop within the claimed scope of the utility model.

Claims (18)

1. the impedance matching structure of a printed circuit board (PCB), comprise printed circuit board (PCB) body, and the radio frequency operation network be arranged on printed circuit board (PCB) body and ground level network, described radio frequency operation networking comprises radio frequency microstrip line, it is characterized in that, printed circuit board (PCB) body is also provided with the impedance matching line be connected with described radio frequency microstrip line; The impedance of this impedance matching line higher than radio frequency microstrip line, for making the impedance matching of described radio frequency microstrip line and antenna.

2. impedance matching structure as claimed in claim 1, it is characterized in that, described impedance matching line is connected between the radio frequency pin of radio frequency microstrip line and a radio frequency connector, and described impedance matching line is for making the impedance matching at the interface circuit place of described radio frequency microstrip line and radio frequency connector.

3. impedance matching structure as claimed in claim 2, it is characterized in that, described radio frequency microstrip line and radio frequency connector are arranged at two opposing sides of printed circuit board (PCB) body respectively.

4. impedance matching structure as claimed in claim 3, it is characterized in that, described printed circuit board (PCB) body is perfecting brush board, and this printed circuit board (PCB) body comprises the first layer printed circuit board and second layer printed circuit board of opposing setting; Described impedance matching line and radio frequency microstrip line are arranged at the first layer printed circuit board.

5. impedance matching structure as claimed in claim 2, it is characterized in that, described radio frequency connector is provided with lower margin and described radio frequency pin;

Described printed circuit board (PCB) body is provided with the radio frequency pin hole corresponding with described radio frequency pin, and the lower margin hole corresponding with described lower margin; The surrounding of described radio frequency pin hole is also provided with the pad around described radio frequency pin hole, and the surrounding in described lower margin hole is provided with the pad around described lower margin hole;

Described foot plug to be connected in described lower margin hole and to be electrically connected with the ground level of described printed circuit board (PCB) body at the pad place of correspondence;

Described radio frequency pin is plugged in described radio frequency pin hole and at the pad place of correspondence and is electrically connected with impedance matching line, to make the impedance matching at the interface circuit place of described radio frequency microstrip line and radio frequency connector.

6. impedance matching structure as claimed in claim 1, it is characterized in that, described impedance matching line is that a width is less than radio frequency microstrip line, and impedance is higher than the narrow band microstrip line of radio frequency microstrip line.

7. impedance matching structure as claimed in claim 6, it is characterized in that, described impedance matching line and radio frequency microstrip line are integrally formed on printed circuit board (PCB) body by etching.

8. an antenna module, comprise printed circuit board (PCB) body, be arranged at the radio frequency operation network on printed circuit board (PCB) body and ground level network, described radio frequency operation networking comprises radio frequency microstrip line, radio frequency connector and an external connection be connected with this radio frequency connector, described radio frequency connector also comprises a radio frequency pin, it is characterized in that, is connected and is electrically connected by an impedance matching line between described radio frequency microstrip line and the radio frequency pin of radio frequency connector; The impedance of described impedance matching line higher than radio frequency microstrip line, to make the impedance matching at the interface circuit place of described radio frequency microstrip line and radio frequency connector.

9. antenna module as claimed in claim 8, it is characterized in that, described impedance matching line is that a width is less than radio frequency microstrip line, and impedance is higher than the narrow band microstrip line of radio frequency microstrip line.

10. antenna module as claimed in claim 9, it is characterized in that, described impedance matching line and radio frequency microstrip line are integrally formed on printed circuit board (PCB) body by etching.

11. antenna modules as claimed in claim 8, is characterized in that, described radio frequency microstrip line and radio frequency connector are arranged at two opposing sides of printed circuit board (PCB) body respectively.

12. antenna modules as claimed in claim 11, it is characterized in that, described printed circuit board (PCB) body is perfecting brush board, and this printed circuit board (PCB) body comprises the first layer printed circuit board and second layer printed circuit board of opposing setting; Described impedance matching line and radio frequency microstrip line are arranged at the first layer printed circuit board.

13. antenna modules as claimed in claim 8, is characterized in that, be close to and be electrically connected to each other between described impedance matching line and the radio frequency pin of radio frequency connector.

14. antenna modules as claimed in claim 8, it is characterized in that, described radio frequency connector comprises the first end and the second end that are oppositely arranged, the first end of radio frequency connector and external connection electrical connection, and the second end of radio frequency connector is provided with lower margin and described radio frequency pin;

Described printed circuit board (PCB) body is provided with the radio frequency pin hole corresponding with described radio frequency pin, and the lower margin hole corresponding with described lower margin; The surrounding of described radio frequency pin hole is also provided with the pad around described radio frequency pin hole, and the surrounding in described lower margin hole is provided with the pad around described lower margin hole;

Described lower margin to insert in described lower margin hole and is electrically connected with the ground level of described printed circuit board (PCB) body at the pad place of correspondence;

Described radio frequency pin inserts in described radio frequency pin hole and at the pad place of correspondence and is electrically connected with impedance matching line, to make the impedance matching at the interface circuit place of described radio frequency microstrip line and radio frequency connector.

15. antenna modules as claimed in claim 14, it is characterized in that, described radio frequency pin is directly closely connected with impedance matching line at the pad place of correspondence.

16. antenna modules as claimed in claim 14, it is characterized in that, the first end of described radio frequency connector is provided with external screw thread, and the mode by threaded engagement between the first end of described radio frequency connector and external connection connects.

17. antenna modules as claimed in claim 14, it is characterized in that, described printed circuit board (PCB) body is provided with multiple pad, and described radio frequency connector is welded with printed circuit board (PCB) body by the mode of downhand welding, and described radio frequency pin is electrically connected with impedance matching line at the pad place of correspondence.

18. 1 kinds of aircraft, is characterized in that, comprising:

Fuselage; And

Antenna module described in any one of claim 8 ~ 17.