EP1505688A1 - Integrated antenna-mast-system on board of a war ship. - Google Patents

Abstract

An integrated warship antenna mast system fits on the mast house (MH) supporting the navigation radar and comprises several stacked dome shaped radomes (R1-3) containing communication, radar and electronic warfare antennas.

Description

The invention relates to an integrated antenna mast system on board a warship, e.g. a frigate.

Modern warships comprise a large number of antennas, in particular for Communication, electronic warfare and for various radar systems.

From this variety of antennas, technical problems such as e.g. mutual shadowing, mutual electromagnetic interference and a large radar and IR signature. These technical problems in turn lead to operational disadvantages such as reduced field of view, limitations in the Simultaneous performance of monitoring and communication functions and thus ultimately to a reduced combat effectiveness and survivability of the Ship.

From US 4,329,690 an antenna unit is known in which three antennas to integrated a structural unit and arranged under a common radome are. The entire antenna unit is placed on top of an antenna mast.

It is an object of the invention, an antenna mast system on board a modern Warship, on the one hand due to the high number of integrating antennas to avoid expected operational disadvantages, and on the other hand, the integration effort in the construction of the ship kept very low can be.

This object is achieved with the subject of claim 1. advantageous Designs are the subject of further claims.

According to the subject invention, all or as many as possible of the antennas for radar, communication, navigation and electronic warfare and, if necessary, Identification (IFF: Identification of Friend or Foe) integrated into a mast. To be on the mast house of the ship, in which is the navigation radar of the ship There are several radomes for covering the individual antennas one above the other Installed. In each case, the underlying Radom forms the mechanical basis for the Radom arranged on it.

This results in a mast system that not only integrates multiple antennas, but with the addition of the structural separation mast antennas lifted is, i. the radomes assigned to the antennas themselves form the mechanical ones Basis for the arrangement of the antennas. Separate masts are no longer needed.

The result is a highly integrated mast system that is completely separate from the ship can be manufactured and put into operation. Thus, effort and costs be significantly reduced in ship integration.

• Es wird eine uneingeschränkte Sicht (Field of view FOV) in Azimuth und Elevation für jede Antenne/Funktion erreicht.
• Die Installation der einzelnen Antennen derart, dass elektromagnetische Störungen weitestgehend vermieden werden, ist möglich.
• Die Höhe jeder Antenne kann entsprechend der geforderten Reichweite der zugehörigen Funktion gewählt werden.
• Mittels frequenzselektiver Materialien für die verwendeten Radome können Radar- und IR-Signatur minimiert werden. Darüber hinaus können radarabsorbierende Materialien eingesetzt werden.

The invention also has the following advantages:

• An unrestricted view (field of view FOV) in azimuth and elevation is achieved for each antenna / function.
• The installation of the individual antennas in such a way that electromagnetic interference is largely avoided is possible.
• The height of each antenna can be selected according to the required range of the associated function.
• Radar and IR signature can be minimized by means of frequency-selective materials for the radomes used. In addition, radar absorbing materials can be used.

The invention will be described with reference to a concrete embodiment with reference to FIG explained. It shows a mast system according to the invention. On the side are exemplary Height measurements above deck indicated.

One recognizes the individual components of the antenna mast system according to the invention, which are arranged one above the other and each on top of each other. The lowest Component is formed by the so-called mast house MH, which typically is present on every major ship. It has e.g. a (horizontal) cross-section in the manner of a diamond, with the longitudinal axis in the direction of the ship's bow is aligned. The usually several floors having mast house with multiple rooms ("electronic rooms") contains the navigation radar of the ship including the associated - typically rotating - antenna and the electronic components of systems integrated on the mast system. The Mast house is manufactured and has the usual shipbuilding conditions preferably a metallic outer skin. The rotating antenna of the navigation radar is behind a window F of frequency-selective material (in the X-band) arranged to reduce the radar signature.

On two opposite sides of the mast house are two so-called RECM antennas RECMA (preferably designed as Hornstrahlergruppenantennen) for electronic warfare (= Eloka: detection, identification and disturbance electromagnetic emissions) integrated. They allow a 360 ° all-round view and are integrated behind frequency-selective windows. RECM stands for Radar Electronic Counter Measures and thus relates to systems for disturbing or deceiving Radar devices, especially for deception of radar seekers of attacking missiles.

Two IFF transponder antennas can also be found on two opposite sides of the mast house IFF_T (e.g., designed as dipole antennas), which allow a 360 ° all-round view.

On the mast house a dome-shaped first radome R1 is arranged under the a surveillance radar PR for the air and sea surveillance to find and pursuit of air and sea targets. It is as a 3D radar trained, with a determination of the distance and the azimuth and Elevation angle is possible. It works e.g. in the C band, ie in the frequency domain from 4-6GHz. The antenna consists in this embodiment of two antenna surfaces, arranged in Janus configuration, i. Back to back. The antenna surfaces are rotatably disposed about a vertical axis on an antenna base P, with the a mechanical beam swing of the antenna is realized in azimuth. The Beam tilting in elevation is done electronically by phase control of the Antenna elements. Of course, embodiments are possible in which the Beam sweep both in azimuth and elevation on purely electronic Paths done. On one of the two antenna surfaces is additionally an IFF interrogator antenna IFF_I arranged. An IFF interrogator is a device for interrogation discovered targets for a friend / foe ID. An IFF transponder is used for automatic answer to these queries. As mentioned above, the associated one IFF transponder antenna IFF_T arranged on the sides of the mast house. The IFF unit operates in L-band, i. at about 1GHz. The first radome R1 consists of a frequency-selective material (L and C band).

Also below said first radome is the transmitting antenna UHF_Tx for the UHF communication arranged.

• System zur Erfassung und Identifizierung elektromagnetischer Ausstrahlungen im Kommunikationsfrequenzbereich CESM = Communication Electronic Support Measures (typischerweise 1,5MHz - 3 GHz);
• System zur Erfassung und Identifizierung elektromagnetischer Ausstrahlungen im Radarfrequenzbereich RESM = Radar Electronic Support Measures (typischerweise 2GHz bis 18 oder 40 GHz).

On the first radome R1, a second radome R2 is arranged. Among them are antennas CESMA, RESMA for the following electronic warfare systems:

• System for detecting and identifying electromagnetic emissions in the communication frequency range CESM = Communication Electronic Support Measures (typically 1.5MHz - 3GHz);
• Radar frequency range detection and identification system RESM = Radar Electronic Support Measures (typically 2GHz to 18 or 40GHz).

CESM and RESM antenna CESMA, RESMA are at a small mast M below of the second radome R2 installed. This is to increase the rigidity at the Tip and attached to the bottom of the second radome R2.

On the second dome-shaped radome R2 another radome R3 is arranged. Among them is a system for the transmission of data for steering the ship's air defense missile (so-called uplink system). It is with the Missile fire control system connected The uplink system typically works in the X band, i. in the frequency range 8-12GHz. Under the third Radom R3 are in the embodiment shown next to the antenna and the other Components of the uplink system for transmission, reception, signal generation, Signal amplification, signal processing, etc. As the antenna, a volume array is preferred used, in which a plurality of individual radiators in a spherical volume are arranged. In a typical embodiment, the antenna comprises 2048 single emitters in a sphere volume. The single radiators may e.g. as magnetic Dipole be designed according to the principle of a microstrip antenna. The Beam turning can be done without mechanical movement in a purely electronic way with full hemispherical volume coverage (azimuth: 360 °, Elevation: 90 °) can be ensured.

On the third radome R3, the receiving antenna UHF_Rx (e.g., formed as Dipole antenna) for UHF communication. Furthermore, on the third radome another antenna L for transmitting tactical data (frequency range about 1.2 GHz).

All radomes R1, R2, R3 are made of frequency-selective materials manufactured to minimize radar and IR signature.

With the arrangement of the antennas shown is an optimal decoupling of individual frequencies, in particular RECM achieved over RESM and uplink.

All or at least most of the electronic components for those mentioned Antennas of the mast system according to the invention can in the two-story Masthouse be integrated, so that losses in the connecting lines low are.

Claims (9)

Integrated antenna mast system aboard a warship created by is formed on the mausoleum (MH) of the warship, in which the navigation radar of the ship, several dome-shaped radomes (R1, R2, R3) are arranged one above the other, so that the respective underlying Radom the forms a mechanical basis for the radome thereon, being below or on these radomes antennas (UHF_Rx, UHF_Tx, CESMA, RESMA, PR, IFF_T, IFF_I) for communication, radar and electronic warfare of the ship are arranged. Integrated antenna mast system according to claim 1, with the following components arranged one above the other: Masthouse (MH), which houses the navigation radar of the ship and the electronic components for communication, radar and electronic warfare; first dome-shaped radome (R1), below which the antenna (PR) for a surveillance radar for air and sea surveillance is located; second dome-shaped radome (R2), under which the antennas (CESMA, RESMA) for electronic warfare systems are located; third dome-shaped radome (R3), under which there is a system (UPL) for the transmission of data for the steering of the ship's air defense missiles. Integrated antenna mast system according to claim 1 or 2, characterized in that below the first dome-shaped radome (R1) is additionally the transmitting antenna (UHF_Tx) for the UHF communication of the ship. Integrated antenna mast system according to one of the preceding claims, characterized in that on the third dome-shaped radome (R3) the receiving antenna (UHF_Rx) is arranged for the UHF communication of the ship. Integrated antenna mast system according to one of the preceding claims, characterized in that the antennas (CESMA, RESMA) are located under the second dome-shaped radome (R2) for the following systems for electronic warfare: System for detecting and identifying electromagnetic emissions in the communication frequency range CESM; System for detecting and identifying electromagnetic emissions in the radar frequency range RESM. Integrated antenna mast system according to claim 5, characterized in that on two opposite sides of the mast house (MH) in each case an antenna (RECMA) for a system for disturbing or deception of radar devices RECM is located. Integrated antenna mast system according to one of the preceding claims, characterized in that there is additionally an IFF interrogator antenna (IFF_I) below the first radome (R1). Integrated antenna mast system according to claim 7, characterized in that the IFF interrogator antenna (IFF_I) and the antenna (PR) are structurally integrated for the monitoring radar. Integrated antenna mast system according to one of the preceding claims, characterized in that in each case an IFF transponder antenna (IFF_T) is located on two opposite sides of the mast house (MH).

Images