DE102017100970A1 - Circular polarized antenna with layered structure - Google Patents

Abstract

The invention relates to a circularly polarized antenna with layered structure (10). The circularly polarized layered structure antenna (10) comprises a first antenna (1), a second antenna (2) and an adhesive member (3). The adhesive member (3) is bonded between the first antenna (1) and the second antenna (2) to form a stacked array and a circularly polarized layered structure antenna (10) in which the first antenna (1) and the second antenna (1) Antenna (2) are formed of a ceramic material having the same dielectric constant, wherein two feeding elements are provided to achieve the circular polarization and to improve the bandwidth of the antenna, and the two antennas (1, 2) are stacked together Arrangement arranged to form two resonance frequencies.

Description

BACKGROUND OF THE INVENTION

Field of the invention

The invention relates to an antenna, in particular a circularly polarized antenna with layered structure, which can be used in a Global Positioning System (GPS) or a layered structure antenna for circularly polarized GPS signals.

Description of the Prior Art

In recent years, GPS has been widely used in many electronic communication devices, ranging from automobile driving applications to outdoor activities or movements, and GPS navigation systems are used in all of these fields. Currently, devices in automobiles or for electronic data transmission are equipped with GPS navigation systems as standard equipment or are available for download to make the devices attractive to the consumer. When using a GPS navigation system, a positioning radio signal is radiated synchronously from a satellite, and after the positioning radio signal is received by a user's GPS navigation system, the distance between the GPS navigation system and the satellite can be calculated based on a time difference and motion data from these satellites, which are present in the GPS navigation system itself, are sufficient to set the location of the user.

GPS navigation systems currently have two transmission frequencies. The currently used GPS navigation systems can send a 1023-bit C / A code and a 50-bit per second navigation information message, and from this, the time can be determined in a 1575.42-MHz L1 channel signal. The L1 channel may also contain a military P / Y signal. The currently used GPS satellites can also transmit the military P / Y signal in a 1227.6 MHz L2 channel signal.

Therefore, conventional navigation systems use two base bodies of different materials, for example of different dielectric constants, to provide a stacked circularly polarized antenna structure which can receive both frequencies. The circularly polarized layered-structure antenna can receive a frequency of 1575.42 MHz and a frequency of 1227.6 MHz, which is supplied as a single signal. Because two materials having different dielectric constants are used, the dielectric constant can not be easily tuned, and therefore, it is difficult to manufacture a circularly polarized antenna having a desired dielectric constant.

SUMMARY OF THE INVENTION

It is an object of the present invention to provide an improved circularly polarized layered structure antenna which can overcome the aforesaid drawbacks and, in particular, enables easy adjustment of the dielectric constant.

This object is achieved by a circularly polarized antenna with layered structure having the features of claim 1. Further advantageous embodiments are the subject of the dependent claims.

According to the present invention, there is provided a circularly polarized layered structure antenna having two antennas of a ceramic material of the same dielectric constant and two feeding elements to achieve circular polarization and antenna bandwidth, with the two antennas stacked together are arranged to achieve two resonance frequencies.

According to the present invention, there is provided a circularly polarized layered structure antenna having a first antenna, a second antenna and an adhesive member. The first antenna has a first base body, a first electrode layer, a first grounding layer and at least one first feed element, the first base body having a first front side, a first rear side and at least two through holes, which are guided through the first base body; wherein the first electrode layer is provided on the first front side and the first ground layer is provided on the first back side; and wherein the first feed element extends through one of the through holes and is electrically connected to the first electrode layer, and wherein the first feed element extends with its end to the outside of the first back and does not electrically connect to the first ground layer. The second antenna has a second base body, a second electrode layer and at least one second feed element, wherein the second base body has a second front side, a second rear side and at least one opening, which passed through the second base body; wherein the second electrode layer is provided on the second front side; wherein the second feed element extends through the aperture and another through hole such that the second feed element is electrically connected to the second electrode layer, and wherein the second feed element extends outwardly of the first rear end and does not electrically connect the first ground layer. The adhesive member is provided between the first antenna and the second antenna, the adhesive member preventing the first feed member from contacting the second back of the second body, the adhesive member having an opening thereon, and the second feed member extending through the aperture and the other through hole extends.

According to a further embodiment, the first base body and the second base body are formed as square base bodies, each consisting of a ceramic material and have the same dielectric constant and the same thickness, wherein the area of the second back of the second body is smaller than the area of the first electrode layer.

According to a further embodiment, the first feed element is nail-shaped and formed with a T-shaped cross section and has a head and a pin body extending from the underside of the head, wherein the pin body of the first feed element extends through the through hole, so that the head electrically connects to the first electrode layer; and wherein the second feed element is nail-shaped and T-shaped in cross-section and has a head and a pin body extending from the bottom of the head, the pin body of the second feed element extending through the aperture and the through-hole so that the head electrically connects to the second electrode layer

According to a further embodiment, the adhesive element is a double-sided adhesive tape.

According to another embodiment, the through-hole is formed as a first through-hole, as a second through-hole, as a third through-hole and as a fourth through-hole.

According to a further embodiment, the second rear side of the second base body is provided with a second grounding layer, wherein the second grounding layer does not electrically connect to the second feeder element and does not contact the first feeder element.

According to a further embodiment, the first antenna has two first feed elements, of which the one first feed element is passed through the first through hole and the other first feed element is passed through the second through hole to electrically connect to the first electrode layer, the first two Feeders extend with their ends to the outside of the first back of the first body and not electrically connect to the first ground layer.

According to a further embodiment, the second base body openings, which are formed as a first opening and as a second opening.

According to a further embodiment, the second antenna has two second feed elements, of which one second feed element is passed through the first opening and the other second feed element is passed through the second opening to electrically connect to the second electrode layer, the second feed element extending through the third through hole of the first base body and the second feed element extends through the fourth through hole of the first base body, wherein the two second feed elements extend with their ends to the outside of the first back of the first body and not electrically connect to the first ground layer.

According to a further embodiment, the two first feed elements are nail-shaped and formed with a T-shaped cross-section and each have a head and a pin body which extends from the bottom of the head, wherein the pin body of the first feed element through the first Through hole and the second through hole extends so that the heads of the two first feed elements electrically connect to the first electrode layer; and wherein the second feed elements are nail-shaped and T-shaped in cross-section, each having a head and a pin body extending from the bottom of the head, the pin bodies of the second feed elements extending through the first aperture and the second aperture in that the heads of the two second feed elements electrically connect to the second electrode layer.

According to a further embodiment, the second rear side of the second base body is provided with a second grounding layer, wherein the second grounding layer does not electrically connect to the two second feeder elements and does not electrically contact the two first feeder elements.

list of figures

• 1 shows a top perspective view of a circularly polarized antenna with layered structure according to a first embodiment of the invention.
• 2 shows an exploded view of a circularly polarized antenna with layered structure according to a first embodiment of the invention.
• 3 FIG. 10 is a sectional view of a circularly polarized layered structure antenna according to a first embodiment of the invention electrically connecting with a circuit board. FIG.
• 4 shows an exploded view of a circularly polarized antenna with layered structure according to a second embodiment of the invention.
• 5 shows an exploded view of a circularly polarized antenna with layered structure according to a third embodiment of the invention.
• 6 shows an exploded view of a circularly polarized antenna with layered structure according to a fourth embodiment of the invention.
• 7 FIG. 12 shows an operational state of a circularly polarized layered structure antenna according to a fourth embodiment of the invention. FIG.
• 8th Fig. 12 is a circuit diagram of an integrated circuit of a circularly polarized layered structure antenna according to a fourth embodiment of the present invention.
• 9 shows a schematic block diagram of a circularly polarized antenna with layered structure according to a fourth embodiment of the invention.
• 10 FIG. 12 shows another operational state of a circularly polarized layered structure antenna according to a fourth embodiment of the invention. FIG.

DESCRIPTION OF THE EMBODIMENTS

The features of the invention which are believed to be novel are set forth with particularity in the appended claims. However, the invention itself may best be understood by reference to the following detailed description of the invention, which describes exemplary embodiments according to the invention with reference to the accompanying drawings.

1 shows a top perspective view of a circularly polarized antenna with layered structure according to a first embodiment of the invention. 2 shows an exploded view of a circularly polarized antenna with layered structure according to a first embodiment of the invention. As in the 1 and 2 shows the circularly polarized antenna with layered structure 10 according to the invention, a first antenna 1 , a second antenna 2 and two adhesive elements 3 . 4 on, with the second antenna 2 through the adhesive element 3 at the first antenna 1 is adhered to form a stacked structure, and thus a circularly polarized antenna with a layered structure 10 train.

The first antenna 1 includes a first body 11 , a first electrode layer 12 , a first grounding layer 13 and a first feed element 14 , The first base body 11 is a square base made of a ceramic material and has a first front side 111 , a first back 112 and at least two through holes through the first body 11 passed through. Here, the two through holes are as a first through hole 113 and a third through hole 114 educated. The first electrode layer 12 is on the first front 111 provided and the first ground layer 13 is on the first back 112 intended. The first feed element 14 is nail-shaped and formed with a T-shaped cross section and has a head 141 and a pen body 142 on, starting from the bottom of the head 141 extends. The pen body 142 extends through the first through hole 113 so the head 141 electrically with the first electrode layer 12 can connect, and the pen body 142 whose end extends through the first through hole 113 around the first ground layer 13 instead of electrically connecting, instead connects electrically to an external circuit board (not shown in the figure). The first antenna 1 can over the first electrode layer 12 with the first ground layer 13 coupled to provide resonance in a first band.

The second antenna 2 has a second base body 21 , a second electrode layer 22 and a second feed element 24 on. The second base body 21 is also a square base of a ceramic material and has the same dielectric constant and thickness on like the first body. The second basic body 21 has a second front 211 , a second back 212 and at least one opening through the second body 21 passed through. Here, the opening is as a first opening 213 educated. The area of the second back 212 of the second basic body 21 is smaller than the area of the first electrode layer 12 , The second electrode layer 22 is on the second front 211 intended. In addition, the second feed element 24 nail-shaped and formed with a T-shaped cross-section, and this has a head 241 and a pen body 242 on, starting from the bottom of the head 241 extends. The pen body 242 of the second feed element 24 extends through the first opening 213 so the head 241 electrically with the second electrode layer 22 can connect. The pin body 242 of the second feed element 24 is longer than the pen body 142 of the first feed element 14 ; the pen body 242 extends through the first opening 213, while the pen body 242 through the third through hole 114 extends and extends to the outside of the first back 112 of the first basic body 11 extends. The pen body 242 connects the first grounding layer 13 not electrically, but electrically connects to an external circuit board (not shown in the figure). The second antenna 2 can with the first grounding layer 13 over the second electrode layer 22 be coupled to provide a resonance in a second band.

The adhesive element 3 is between the first antenna 1 and the second antenna 2 provided and the adhesive element 4 is on the bottom of the first grounding layer 13 the first antenna 1 intended. The second antenna 2 is over the adhesive element 3 to the top of the first antenna 1 glued so that a layered structure is formed to prevent the head 141 of the first feed element 14 with the second back 212 of the second antenna 2 got in contact. On the adhesive element 3 is also an opening 31 formed by the pen body 242 of the second feed element 24 also through the third through hole 114 extends and extends to the outside of the first back 112 of the first basic body 11 extends. In the 2 are the adhesive elements 3 . 4 Double-sided adhesive, in particular designed as a double-sided adhesive tape.

3 shows a circularly polarized antenna with layered structure according to a first embodiment of the invention, which connects electrically to a circuit board. As in 3 The circularly polarized antenna with layered structure according to the invention is shown by the adhesive element 3 designed for adhesive bonding of the first antenna 1 with the second antenna 2 , Another adhesive element 4 is on the first grounding layer 13 the first antenna 1 glued so that the circular polarized antenna with layered structure on the circuit board 5 can adhere or can be glued. Also the circuit board 5 connects electrically with two cable connectors 51 . 52 electrically connected to the first feed element 14 of the first antenna 1 and the second feed element 24 the second antenna 2 can connect.

4 shows an exploded view of a circularly polarized antenna with layered structure according to a second embodiment of the invention. As in 4 is the circularly polarized antenna with layered structure 10 according to the second embodiment, similar to the first embodiment. The difference is that a second grounding layer 23 on the second back 212 the second antenna 2 is provided. Because the pen body 242 of the second feed element 24 through the first opening 213 passed through, this does not electrically connect to the second ground layer 23 , The second electrode layer 22 can with the second grounding layer 23 connect to resonate in a second band.

5 shows an exploded view of a circularly polarized antenna with layered structure according to a third embodiment of the invention. As in 5 shown is the circularly polarized antenna with layered structure 10 according to the third embodiment, similar to the first embodiment. The difference is that the first antenna 1 two first feed elements 14 . 14 ' and the second antenna 2 two second feed elements 24 . 24 ' having. The first basic body 11 also has a second through hole 115 and a fourth through hole 116 on. The first feed element 14 is through the first through hole 113 passed through and the first feed element 14 ' is through the second through hole 115 passed. The second basic body 21 also has a second opening 214 on. The second feed element 24 is through the first opening 213 and the third through hole 114 and the second feed element 24 ' is through the second opening 214 and the fourth through hole 116 passed through, and the adhesive element 3 serves to get the first antenna 1 and the second antenna 2 by means of an adhesive bond to each other around a circularly polarized antenna with a layered structure 10 train. In the embodiment, the second antenna is 2 on or above the first antenna 1 arranged to a stacked arrangement and a circularly polarized antenna with layered structure 10 form, and the first antenna 1 and the second antenna 2 can the band or the reception behavior of the antennas through the two first feed elements 14 . 14 ' and by the two second feed elements 24 . 24 ' improve.

6 shows an exploded view of a circularly polarized antenna with a layered structure 10 according to a fourth embodiment of the invention. As in 6 shown is the circularly polarized antenna with layered structure 10 according to the fourth embodiment similar to the third embodiment. The difference is that a second grounding layer 23 on the second back 212 the second antenna 2 is provided. Because the pen body 242 of the second feed element 24 through the first opening 213 passed through, this does not electrically connect to the second ground layer 23 , The second electrode layer 22 can with the second grounding layer 23 be coupled to achieve a resonance of the second band.

7 FIG. 12 shows an operational state of a circularly polarized layered structure antenna according to a fourth embodiment of the invention. FIG. 8th FIG. 12 shows a circuit diagram of an integrated circuit of a circularly polarized layered structure antenna according to a fourth embodiment of the invention. FIG. 9 shows a schematic block diagram of a circularly polarized antenna with layered structure according to a fourth embodiment of the invention. The fourth embodiment according to the invention is intended to better illustrate the effect of the invention. In the circularly polarized antenna with layered structure 10 according to the invention of the first antenna 1 and the second antenna 2 is formed, is the adhesive element 4 on the first grounding layer 13 the first antenna 1 glued so that the circularly polarized antenna with layered structure 10 to the circuit board 5 can be glued. Also, the two first feed elements 14 . 14 ' electrically with a first contact pin 61 a hybrid circuit 6 on the circuit board 5 to form a first band (1575.42 MHz) for use in a GPS system, and the two second feed elements 24, 24 'may be electrically connected to a second pin 62 a hybrid circuit 6 on the circuit board 5 connect to form a second band (1227.6 MHz) for use in a GPS system. According to another requirement, the two signal sources (a first band and a second band) of a third contact pin 63 and a fourth contact pin 64 the hybrid circuit 6 be integrated into an output of a signal source and an output signal of the third contact pin 63 or the fourth contact pin 64 may be selected to control a left-going polarization state or a right-going polarization state of the circularly polarized layered-structure antenna 10, and the remainder of the pin must be connected to provide impedance matching below 50 ohms.

10 FIG. 12 shows another operational state of a circularly polarized layered structure antenna according to a fourth embodiment of the invention. FIG. As in 10 can be shown in a circularly polarized antenna with layered structure 10 that after the invention of the first antenna 1 and the second antenna 2 is formed, two first feed elements 14 . 14 ' each electrically with a first contact pin 61a and a second contact pin 62a a first hybrid circuit 6a to form a first band (1575.42 MHz) for use in a GPS system, and may include two second feed elements 24 . 24 ' each electrically with a first contact pin 61b and a second contact pin 62b a second hybrid circuit 6b connect to form a second band (1227.6 MHz) for use in a GPS system. The two signal sources of a third contact pin 63a (or a fourth contact pin 64a ) of the first hybrid circuit 6a and a third contact pin 63b (or a fourth contact pin 64b ) of the second hybrid circuit 6b Each of the input signals of a first contact pin 61c and a second contact pin 62c of the third hybrid circuit 6c and then two signal sources of a third contact pin 63c and a fourth contact pin 64c the third hybrid circuit 6c be integrated into an output of a signal source and an output signal of the third contact pin 63c or the fourth contact pin 64c can be selected.

As those skilled in the art will recognize, various changes and modifications may be made to the described embodiments. It is intended that the appended claims encompass all such alterations, modifications and equivalently engineered embodiments as fall within the scope of the invention as defined by the appended claims.

Claims (14)

A circularly polarized layered structure antenna (10) comprising: a first antenna (1) having a first base body (11), a first electrode layer (12), a first ground layer (13), and at least a first feed element (14); first base body (11) having a first front side (111), a first rear side (112) and at least two through holes, which are passed through the first base body (11); wherein the first electrode layer (12) is provided on the first front side (111) and the first ground layer (13) is provided on the first back side (112); and where that the first feed element (14) extends through one of the through holes and is electrically connected to the first electrode layer (12), and wherein the first feed element (14) extends to the outside of the first back side (112) and not to the first ground layer (13) connects electrically; a second antenna (2) having a second base body (21), a second electrode layer (22) and at least one second feed element (24), the second base body (21) having a second front side (211), a second rear side (212) and has at least one opening, which is guided through the second base body (21); wherein the second electrode layer (22) is provided on the second front side (211); wherein the second feed element (24) extends through the aperture and another through hole such that the second feed element (24) is electrically connected to the second electrode layer (22), and wherein the second feed element (24) faces the outside of the first back side (112) extends with its end and does not electrically connect the first ground layer (13); an adhesive element (3) which is provided between the first antenna (1) and the second antenna (2), wherein the adhesive element (3) prevents the first feed element (14) from being connected to the second rear side (212) of the second main body (3). 21), and wherein the adhesive member (3) has an opening (31) thereon and wherein the second feed member (24) extends through the aperture and the other through hole. Circular polarized antenna with layered structure behind Claim 1 , wherein the first base body (11) and the second base body (21) are each formed as square base bodies, which consist of a ceramic material and have the same dielectric constant and the same thickness, and wherein the surface of the second back (212) of the second Base body (21) is smaller than the area of the first electrode layer (12). Circular polarized antenna with layered structure behind Claim 2 wherein the first feed element (14) is of a nail-shaped and T-shaped cross-section and has a head (141) and a pin body (142) extending from the bottom of the head (141), the pin body (16) 142) of the first feed element (14) extends through the through hole such that the head (141) electrically connects to the first electrode layer (12); and wherein the second feed element (24) is of a nail-shaped and T-shaped cross-section and has a head (241) and a pin body (242) extending from the underside of the head (241), the pin body (242 ) of the second feed element (24) extends through the aperture and the through hole such that the head (241) electrically connects to the second electrode layer (22). Circular polarized antenna with layered structure behind Claim 3 wherein the adhesive element (3) is a double-sided adhesive tape. Circular polarized antenna with layered structure behind Claim 4 wherein the through hole is formed as a first through hole (113) and a third through hole (114). Circular polarized antenna with layered structure behind Claim 3 wherein the second back (212) of the second body (21) is provided with a second ground layer (23) and the second ground layer (23) does not electrically connect to the second feed element (24) and does not contact the first feed element (14). Circular polarized antenna with layered structure behind Claim 1 polarized, wherein the through holes of the first base body (11) as a first through hole (113), as a second through hole (115), as a third through hole (114) and as a fourth through hole (116) are formed. Circular polarized antenna with layered structure behind Claim 7 wherein the first antenna (1) comprises two first feed elements (14, 14 '), of which the one first feed element (14) is passed through the first through hole (113) and the other first feed element (14') through the second through hole (115) is passed to electrically connect to the first electrode layer (12), wherein the two first feed elements (14, 14 ') extend with their ends to the outside of the first back (112) of the first base body (11) and not electrically connect to the first ground layer (13). Circular polarized antenna with layered structure behind Claim 8 wherein the second base body (21) has the apertures formed as a first aperture (213) and a second aperture (214). Circular polarized antenna with layered structure behind Claim 9 wherein the second antenna (2) has two second feed elements (24, 24 '), of which the one second feed element (24) is passed through the first opening (213) and the other second feed element (24') through the second opening (214) to electrically connect to the second electrode layer (22), the second feed element (24) extending through the third through hole (114) of the first body (11) and the second feed element (24 ') extends through the fourth through hole (116) of the first base body (11), wherein the two second feed elements (24, 24') extend with their ends to the outside of the first rear side (112 ) of the first base body (11) and not electrically connect to the first ground layer (13). Circular polarized antenna with layered structure behind Claim 10 wherein the first two feed members (14, 14 ') are nail-shaped and T-shaped in cross section and each have a head (141) and a pin body (142) extending from the bottom of the head (141), wherein the pin body (142, 142) of the first feed element (14, 14 ') extends through the first through hole (113) and the second through hole (115) so that the heads (141, 141) are electrically connected to the first electrode layer (12 ) connect; and wherein the second feed elements (24, 24 ') are nail-shaped and T-shaped in cross-section and each have a head (241) and a pin body (242) extending from the bottom of the head (241) the pin bodies (242, 242) of the second feed elements (24, 24 ') extend through the first opening (213) and the second opening (214) so that the heads (241, 241) are electrically connected to the second electrode layer (22). connect. Circular polarized antenna with layered structure behind Claim 11 , wherein the first base body (11) and the second base body (21) are each formed as square base bodies, which consist of a ceramic material and have the same dielectric constant and the same thickness, and wherein the surface of the second back (212) of the second Base body (21) is smaller than the area of the first electrode layer (12). Circular polarized antenna with layered structure behind Claim 12 wherein the adhesive element (3) is a double-sided adhesive tape. Circular polarized antenna with layered structure behind Claim 12 wherein the second back (212) of the second body (21) is provided with a second ground layer (23) and wherein the second earth layer (23) does not electrically connect to the two second power elements (24, 24 ') and not the first two Feeding elements (14, 14 ') electrically contacted.

Images