JPH0646086Y2 - Antenna device - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION [Industrial application] The present invention relates to an antenna device including a planar antenna for receiving a signal in a microwave band and a converter for converting a frequency of a signal received by the planar antenna. It is about.

[Prior Art] As a conventional antenna device for receiving a microwave band signal of this type, there is one for receiving satellite broadcasting. In this device that receives satellite broadcasts, the
A plane antenna 1 for receiving radio waves in the GHz band and a BS converter 2 for frequency-converting a signal received by the plane antenna 1 into the 1 GHz band are provided. Incidentally, recently, an LNB (Low Noise Block down) converter is used as the BS converter 2. In the conventional antenna device, the semi-rigid cable 12 is often used as the input line of the BS converter 2, and the flat antenna 1 and the BS converter 2 are connected using the coaxial connector 11. However, in this case, since two coaxial connectors 11 are required, the cost becomes high, and the loss in the coaxial connector 11 and the semi-rigid cable 12 causes the noise figure of the LNB 2 to be substantially deteriorated. .

Furthermore, when connecting the planar antenna 1 and the BS converter 2 with the coaxial connector 11, be sure to set the characteristic impedance.
It was set to 50Ω (in the microwave band). However, when an LNB is used as the BS converter 2, an amplification element (usually gallium arsenide (Ga
As shown in Fig. 4, the input impedance that minimizes the noise figure of (FET) is usually not around 50Ω.
It was always necessary to provide an impedance matching circuit for the 50Ω system.

[Problems to be Solved by the Invention] The present invention has been made in view of the above points, and an object thereof is to connect a planar antenna and a BS converter without using a coaxial connector and a semi-rigid cable. An object of the present invention is to provide an antenna device that can be used.

[Means for Solving the Problems] In order to achieve the above object, the present invention comprises a planar antenna for receiving a signal in a microwave band, and a converter for performing frequency conversion of the signal received by the planar antenna. ,
On the back side of the feeding point of the feeding circuit board, the feeding pin, whose one end is connected to the input of the converter, is covered with a dielectric material and protrudes from the converter casing, and the feeding strip line is formed on the surface. The other end surface of the power supply pin is brought into contact, and the other end of the power supply pin is electromagnetically connected to the power supply point.

[Operation] In the present invention, the other end surface of the power supply pin is electromagnetically connected to the back surface of the power supply point of the power supply circuit board having the power supply stripline formed on the surface as described above, and the other end of the power supply pin is electromagnetically connected to the power supply point. By connecting, without using special parts such as coaxial connectors, semi-rigid cables, capacitors, etc.
Connect the planar antenna and the BS converter.

[Embodiment] FIGS. 1 and 2 show an embodiment of the present invention. The planar antenna 1 of this embodiment has a so-called suspended triplate structure in which a radiation circuit board 4, a feeding circuit board 5, and a ground board 6 are laminated with a dielectric layer (air layer in the case of this embodiment) 13 interposed therebetween. Is. The BS converter 2 mounts electronic components that form a converter circuit on a Teflon board 9,
The substrate 9 is housed in a housing 10. A power supply pin 3 projects from the BS converter 2 through the housing 10. The feeding pin 3 is formed of a coaxial line in which the center conductor 7 is covered with a dielectric 8 such as Teflon.
One end of the center conductor 7 is soldered and connected to the input of the BS converter 2. The other end of the feeding pin 3 is brought into contact with the back surface of the feeding point of the strip line formed on the feeding circuit board 5 through the insertion hole 16 of the grounding board 6, that is, the insulating material (dielectric ) Through a non-contact, and is connected to the feeding point by electromagnetic coupling. That is, when the strip line, which is a conductor, and the central conductor 7 of the feeding pin 3 are opposed to each other with a dielectric (an insulating material forming the feeding circuit board 5) in between, the microwave applied between the central conductor 7 and the strip line Due to the high frequency electromagnetic field (especially electric field) in the band, a capacitance is generated between the strip line and the center conductor 7 of the feeding pin 3, and the strip line and the feeding pin 3 are electromagnetically coupled via this capacitance. . A cylindrical sleeve 14 is fitted around the insertion portion of the grounding board 6 of the power feeding pin 3, and a screw 15 is screwed from the grounding board 6 to the power feeding circuit board 5.
The surface wave is suppressed by 14 and the screw 15. If the BS converter 2 is electromagnetically coupled to the feeding point of the planar antenna 1 with the feeding pin 3 as described above, the coaxial connector and the semi-rigid cable are not required as in the conventional case, and the coaxial connector and the semi-rigid cable are not required. Loss can be eliminated, and thus the loss can be reduced. In addition, the diameter of the central conductor 7 of the power supply pin 3 and the dielectric 8 attached around the central conductor 7
The characteristic impedance can be changed as appropriate by changing the diameter of the LNB.
Also when using, the impedance matching circuit becomes unnecessary. In this way, no impedance matching circuit is needed,
Also, the cost can be reduced by not using the coaxial connector. Moreover, since the feed pin 3 of the BS converter 2 is penetrated through the ground substrate 6 to connect the flat antenna 1 and the BS converter 2, the flat antenna 1 and the BS converter 2 can be easily connected.

[Advantages of the Invention] As described above, the present invention includes a plane antenna that receives a microwave band signal and a converter that converts the frequency of a signal received by the plane antenna, and one end of which is connected to the input of the converter. A power supply pin covered with a dielectric around the center conductor is projected from the converter housing, and the other end surface of the power supply pin is attached to the back surface of the power supply point of the power supply circuit board on which the power supply stripline is formed. Since the other end of the power feed pin is electromagnetically connected to the power feed point, it is possible to connect the planar antenna and BS converter without using special parts such as a coaxial connector, semi-rigid cable, and capacitor. It is possible to reduce the cost and the loss. Moreover, impedance matching can be achieved by changing the diameter of the center conductor or the dielectric of the power feeding pin, so that it is not necessary to provide an impedance matching circuit even in a converter that normally requires an impedance matching circuit. Further, since the feed pin is opposed to the feed point of the planar antenna in a non-contact manner to connect the planar antenna and the converter, there is an advantage that the planar antenna and the converter can be easily connected.

[Brief description of drawings]

FIG. 1 is a sectional view of an embodiment of the present invention, FIG. 2 is an explanatory view of the same as above, FIG. 3 is an explanatory view of a connection structure of a conventional example, and FIG. 9 is a Smith chart showing characteristics. 1 is a plane antenna, 2 is a BS converter, 3 is a feeding pin,
Reference numeral 5 is a feeding circuit board, 7 is a central conductor, and 8 is a dielectric.

 ─────────────────────────────────────────────────── ─── Continuation of the front page (72) Creator Toshio Yasuhiko 1048 Kadoma, Kadoma City, Osaka Prefecture Matsushita Electric Works, Ltd. (56) References JP-A-61-28229 (JP, A)

Claims (1)

[Scope of utility model registration request] 1. A flat antenna for receiving a signal in a microwave band, and a converter for frequency-converting a signal received by the flat antenna, wherein a dielectric is provided around a central conductor whose one end is connected to an input of the converter. The power supply pin covered by the body is projected from the housing of the converter, and the other end surface of the above power supply pin is brought into contact with the back surface of the power supply point of the power supply circuit board where the power supply stripline is formed on the front surface. An antenna device characterized by being electromagnetically connected to a feeding point.