JP2008014883A - Radar antenna with filtering function - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To insert a spurious wave inhibiting filter into the removable antenna section for possible replacement to a built-in spurious waves, inhibiting the filter from an existing ship radar device, without having to undertake significant engineering works. <P>SOLUTION: By inserting of a spurious wave inhibiting filter into the pedestal bond part in an antenna section, a power supply waveguide to the antenna end, a corner waveguide, and the circumference of a slot antenna high-frequency electric-wave input port replacement of a ship radar device, with the operation becoming inexpensive and less eliminated and, where a space being prepared in the pedestal section of inserting the spurious wave inhibiting filter is realized. <P>COPYRIGHT: (C)2008,JPO&INPIT

Description

The present invention relates to a radar antenna used in, for example, a marine radar apparatus, and more particularly to a radar antenna that includes an unnecessary wave filter that removes unnecessary waves generated from a magnetron.

  In general, ship radar antennas include radome type, open array type, parabolic cylinder type, and planar antenna type. Most of those used for consumer use are radome type and open array type. In the open array type, the pedestal part and the antenna part can be physically separated, and only the antenna part can be exchanged.

  At present, a magnetron, which is cheaper than other high-power high-frequency radio wave transmission sources, is used as the high-power high-frequency radio wave transmission source of the ship radar device used for consumer use. In addition to the necessary frequency f0, the magnetron generates spurious waves such as parasitic oscillation called π-1 and harmonics generated by integer multiples of f0, in addition to the necessary frequency f0.

  In recent years, ship radar equipment for consumer use worldwide has been required to suppress the high-power spurious waves, and it is necessary to respond to new products by adding a filter to suppress spurious waves. There is. The purpose of spurious wave suppression is to use the band in which the spurious wave is suppressed and assign the frequency to another purpose.

  Non-Patent Document 1 described below describes a technique for reducing the size by inserting a filter at the joint between the pedestal portion and the antenna portion as a measure for meeting the demand for spurious wave suppression as described above.

JP 2001-308632 A

The magnetron currently used as a transmission element for marine radar is a device that generates large spurious due to its structure and operating principle. That is, unnecessary harmonics caused by the structure using the cavity resonator, and large spurious generated at the rising / falling edge of the pulse due to repeated generation / stop of each radar pulse. . In recent years, there has been a strong demand for suppression of spurious waves in consumer ship radar devices worldwide.

In order to remove such spurious waves, marine radar receivers equipped with spurious wave suppression filters have been developed. To replace all existing devices not equipped with filters with those equipped with filters, a maximum of 20 It is expected to take years. Therefore, it is very useful if the marine radar apparatus can be modified to a complete one with a spurious wave suppression filter with a simple operation and at a low cost, and the present invention relates to this modification means.

In the ship radar antenna device consisting of an antenna part and a pedestal part,
The ship radar antenna apparatus is characterized in that an unnecessary wave suppression filter is provided in a feed waveguide to an antenna end in the antenna section.

In the ship radar antenna device consisting of an antenna part and a pedestal part,
The marine radar antenna apparatus is characterized in that an unnecessary wave suppression filter is provided at a position in contact with the slot antenna high frequency radio wave input end in the antenna section.

In the ship radar antenna device consisting of an antenna part and a pedestal part,
A marine radar antenna device is characterized in that an unnecessary wave suppression filter is provided in a corner waveguide in an antenna section.

According to the present invention, it is possible to replace an existing radar device with a spurious wave suppression filter equipped type without requiring extensive remodeling or dangerous construction work. Further, it is not necessary to provide a dedicated space for the spurious wave suppression filter in the antenna, and it is not necessary to create a new space.

The present invention will be described below with reference to the drawings.
The antenna unit in the marine radar apparatus is called an antenna apparatus, and the antenna apparatus is composed of three parts of a 101 transmission / reception control box including a 105 antenna, a 103 pedestal, and a transmission / reception apparatus as shown in FIG. As another configuration, there is a configuration in which two parts including a transmitting / receiving device are included in the 103 pedestal. In an antenna system, the pedestal unit directs the antenna's azimuth and elevation in any direction, radiates the RF pulse energy sent from the transmitter / receiver to the space via the antenna, and reflects it at the direction and distance you want to measure. Then, a weak radiation wave that returns and returns to the transmission / reception device allows a radar image to be obtained.

  In many cases, a magnetron is used as the RF pulse energy. Due to the mechanism of oscillation, the magnetron is an unnecessary wave generated by a parasitic oscillation called π-1 or an integer multiple of f0 in addition to a necessary frequency f0. (Spurious wave) is generated. The appearance of spurious waves is shown in FIG. Therefore, a spurious suppression filter is generally used in the pedestal section. Usually, the radar device is installed at a high place as shown in FIG. 3, and it is difficult to make a large-scale remodeling, and the space for installing the filter is scarce. For this reason, the spurious wave suppression function is not substantially added by remodeling.

  According to the present invention, by inserting a spurious wave suppression filter into an antenna unit, a technique that can replace an existing radar device with a spurious wave suppression function by simply replacing the antenna unit is realized. Reduction and improvement of development efficiency.

  First, a general structure of the antenna portion is shown in FIG. The inside of the ship radar antenna 405 includes a coupling portion 409 with a pedestal portion, a feeding waveguide 407 to the antenna end, a corner waveguide 401 that forms a corner, a slot antenna high frequency radio wave input end 413, and a slot antenna 403. The radome 411 is enclosed.

  As shown in FIG. 5, the ship radar antenna 405 can be separated from the pedestal part via 409, and the present invention provides a spurious wave suppression filter in the detachable antenna part. It is intended to facilitate replacement of a ship equipped with an existing radar device with a radar device equipped with a spurious wave suppression filter.

Examples of filter insertion positions are shown in FIGS. It is possible to insert a 415 spurious suppression filter in any part other than in the middle of the slot antenna unit that actually emits radio waves into the space. By inserting a spurious suppression filter in the antenna unit in this way, the pedestal A marine radar device having spurious suppression capability is realized without modifying the section.

Ship radar equipment Various unwanted waves Radar location on the ship Structure inside the antenna Antenna and pedestal Spurious suppression filter insertion position Spurious suppression filter insertion position Spurious suppression filter insertion position Spurious suppression filter insertion position Spurious suppression filter insertion position

Explanation of symbols

101 ... Transmission / reception control box, 103 ... Pedestal section,
105 ... antenna part,
401 ... corner waveguide, 403 ... slot antenna,
405: Marine radar antenna, 407: Feeding waveguide to antenna end,
409 ... pedestal joint, 411 ... radome,
413 ... slot antenna high frequency radio wave input end,
415: Spurious suppression filter

Claims (3)

In the ship radar antenna device consisting of an antenna part and a pedestal part,
A marine radar antenna device, wherein an unnecessary wave suppression filter is provided in a feed waveguide to an antenna end in an antenna unit. In the ship radar antenna device consisting of an antenna part and a pedestal part,
A marine radar antenna apparatus comprising an unnecessary wave suppression filter at a position in contact with a slot antenna high frequency radio wave input end in an antenna unit. In the ship radar antenna device consisting of an antenna part and a pedestal part,
A marine radar antenna apparatus, wherein an unnecessary wave suppression filter is provided in a corner waveguide in an antenna section.