challenges of developing a comint df & monitoring …signalspaning.se/saab_uwa/saab_uwa.pdfelint...
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Saab AvitronicsTHE CHALLENGES OF DEVELOPING A COMINT DF AND MONITORING ANTENNA FOR THE HIGH PRESSURE ENVIRONMENT OF SUBMARINE OPERATIONS
Dr Dirk Baker Saab AvitronicsP O Box [email protected]
Presented at the AOC Conference, 12 and 13 November 2008, CSIR, Pretoria
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SUMMARY• This paper presents some of the key design challenges in the development
and production of a compact signal intelligence (SIGINT) antenna system for submarine applications. The SIGINT system consists of a communications intelligence (COMINT) antenna with an electronic intelligence (ELINT) antenna mounted on top.
• The presentation covers:
a. The electrical requirements.
b. The environmental requirements.
c. The electrical design of the radome.
d. The structural analysis and design of the radome.
e. Pressure testing of the radome and qualification.
f. The impact of the radome on the ELINT system.
g. Evaluation and electrical testing of the COMINT antenna system.
h. Conclusion.
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THE ELECTRICAL REQUIREMENTS
Presentation will concentrate on the high pressure radome which protects the COMINT antenna arrays.
Entire system must meet performance specifications in submarine applications.
•
SIGINT subsystem covers 2 to 18 GHz with monitoring and DF capabilities.
•
COMINT subsystem covers 300 kHz to 3 000 MHz with a monitoring and direction finding (DF) capability.
•
SIGINT system comprises two separate parts:
the communications intelligence (COMINT) subsystem
the electronic intelligence (ELINT) subsystem.
•
Compact signal intelligence (SIGINT) system covering the extremely wide frequency range from 300 kHz to 18 GHz.
•
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SO WHAT WILL WE BE TALKING ABOUT?
A FULLY OPERATIONAL
SUBMARINE SIGINT ANTENNA
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MASS AND OUTLINE OF SIGINT ANTENNA
Radome encloses 0.3 m3 of air (300 kg of lift)•
221 kg:TOTAL
55 kg:* Mast interface carries diploops
11 kg:• Bottom clamp to mast
155 kg:Subtotal52 kg:* Antenna cage + RF + RF base63 kg:* Radome2 kg:* ELINT Clamp to top
38 kg:* ELINT assemblyMasses of major components shown below•SIGINT Antenna uses qualified ELINT system.•
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DETAIL OF SIGINT SYSTEM
ELINT
Radome
VHF arrays
UHF array
HF arrayRF assembly
SIGINT antenna comprises ELINT and COMINT antennas.ELINT antenna is an existing qualified assembly.
COMINT antenna has several key assemblies:* Radome* UHF array* VHF arrays* HF array* RF assembly* Mast interface and clamp* Wet diploops
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ABRIDGED ELECTRICAL SPECIFICATION FOR COMINT
:::::
Note: For both monitoring and DF there is extended elevation coverage to + 70º
This sets stringent demands on the antenna arrays and the radome performance.
5º rms
3º rms
2º rms
2º rms
3º rms
Band A (HF low)
Band A (HF high)
Band B (VHF)
Band C (UHF low)
Band C (UHF high)
:DF accuracy
Customer Confidential (dBµV/m):SensitivityVertical:Polarization-5º to 30º with gradual degradation to + 70º:Elevation coverage360º:Azimuth coverage0.3 to 3 000 MHz:Frequency coverage
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THE ENVIRONMENTAL REQUIREMENTSThe following environmental requirements (amongst others) were prescribed
by the submarine main contractor:
where pa = Pascal = N/m2.
75 bar (7.5 Mpa):Maximum test pressure
68 bar (6.8 Mpa):No leakage pressure
50 bar (5.0 Mpa):Nominal operating pressure
:• Water pressure
MIL-STD-810F, Method 515.5, Proc 1
:• Vibration5 metric tons / m2 (49 kpa):• Wave slap90g, half sine, 2 ms each axis:• Operational shock0 to 100%:• Humidity- 25º C to + 60º C:• Operating temperature
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Water pressure exerts large forces on the radome
Structural analysis and design of the radome are clearly critical as are the selection of materials and the manufacturing processes.
•
The projected area of the radome in the vertical plane is about 0.5m2. Thus the side force on the vertical side of the radome is about 3.75 MN or 383 000 kg or 383 metric tons.
•
Thus at 75 bar (7.5 Mpa) each square centimetre of the above surface carries a load of about 76.5 kg.
•
To put these numbers in context, recall that 1 bar is the pressure exerted by water at a depth of about 10.3 m (75 bar is about 770m deep).
1 bar = 1.02 kg / cm2 = 100 kpa = 0.1 Mpa
•
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MAJOR RISK FACTORS
• High pressure radome for COMINT
• UHF array inside radome (DF and monitoring)
• Integration of HF array
• Combination of monitoring channels
• Compact RF chain inside radome base
• Mass and restricted outline dimensions
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THE ELECTRICAL DESIGN OF THE RADOME
Initial design studies looked at:
Cylindrical radome
Tapered radome
Major risk areas:
Structural integrity
Water tightness
HIGH PRESSURE RADOME
All externally exposed metallic parts are made of stainless steel 316. This contributes significantly to the total mass budget.
•
Such a radome will be very heavy and will certainly impact the performance at the top end of the UHF band, particularly the high elevation angle coverage.
•
It is relatively easy to enclose the system in a very thick radome which meets the pressure requirement.
•
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RADOME SHAPE AND WALL CONFIGURATION
• There are major structural and UHF RF problems with a cylindrical radome.
• Shaped radome improves pressure handling and UHF RF performance.
• Transmission and reflection studies of the radome wall show that a solid radome wall will not give acceptable UHF performance.
• Therefore selected an A-sandwich wall configuration.
• This is much lighter than the solid wall and gives better reflection and transmission properties.
• The A-sandwich is shown in the next slide. For the high strength application cannot use normal thin wall design for outer skins.
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MULTILAYER OR SANDWICH PANEL
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SIMPLE ANALYSIS FOR RADOME WALL• Transmission and reflection at normal incidence vs frequency
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• Transmission and reflection vs angle of incidence at 3GHz
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RADOME DESIGN
To gain insight into the physical processes inside the radome used on old-fashioned technique called ray tracing where one looks at how the reflected rays inside the radome propagate and bounce around.
•
Problem was too complex and analysis was too time consuming to run many iterations to define radome shape. Project timescales started to slip.
•
Attempted to analyse the radome and its interaction with the UHF array using the most powerful finite element method (FEM) electromagnetic analysis software available in South Africa.
•
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EXAMPLE OF MULTIPLE REFLECTIONS INSIDE RADOME
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There are a myriad of reflected rays but the first and second internally reflected rays are the most important because at each reflection some of the incident energy leaks out of the radome.
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Ray tracing made easy … the wine glass design!(Laser beam shows critical internal and external reflections
leading to shaped radome design)
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ELEVATION SHAPING OF THE RADOMEUsed various wine glass profiles to see where rays went in elevation plane. This led to the selection of an elliptical shape defined by the diameters of the base of the radome and the base of the ELINT system.
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ACHIEVED SUPERB UHF BAND AZIMUTH AND ELEVATION PLANE PATTERNS FOR MONITORING
Elevation plane coverage, 650-3000 MHz10MHz steps, normalised.
Azimuth plane, 650-3000 MHz in10 MHz steps, normalised
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STRUCTURAL ANALYSIS AND DESIGN OF RADOME• Iterative electrical and mechanical designs.
• Extensive use of ANSYS FEM software for structural analysis.
• Prescribed structural loads for FEM:
Maximum test pressure 7.5 Mpa (75 bar)Tightness test pressure 6.8 Mpa (68 bar)Nominal pressure 5.0 Mpa (50 bar)
• Structural analysis – full 3D modeling:
Maximum load case 75 barLower clamp 90g transverse loadWave slap
• Used measured mechanical properties of test samples of radome wall in FEM analysis, not “typical parameters” from published literature.
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RADOME DEFLECTION UNDER FULL LOAD CONDITIONS
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RADOME MANUFACTURE
Radome manufacture required the development of several special processes:
• Vacuum assisted resin infusion
• High repeatability and no voids
• Matched male-female moulds
• No machining of radome skins
• Single resin transfer lay-up of entire structure
• Post curing at elevated temperature to achieve optimum strength
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PRESSURE TESTING OF RADOME AND QUALIFICATION
• Pressure tests were carried out at submarine centre of South African Navy.
• Tests witnessed by SA Navy and ARMSCOR personnel.
• Tests carried out in dome capable of 250 bar.
• Fully assembled radome with all O-ring seals tested.
• Pressure stepped in 5 bar steps up to 80 bar.
• Pressure monitored continuously on calibrated electronic pressure transducer coupled to laptop test computer.
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Radome being closed in the pressure vessel at the test facility in Simon’s Town.
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Applied pressure versus time
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SUCCESSFUL PRESSURE TEST WAS A MAJOR MILESTONE
• Radome manufactured in a controlled and repeatable process.
• Sufficiently high design safety margins.
• No pressure drop or leakage recorded.
• No mechanical damage.
• Radome passed pressure test for structure and leakage to 80 bar.
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SIGINT IN VIBRATION AND SHOCK JIG AT GEROTEK
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INTERACTIONS OF RADOME REFLECTIONS WITH ELINT ASSEMBLY
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PATTERN MEASUREMENTS IN LARGE ANECHOIC CHAMBER
ELINT WITHOUT RADOME ELINT WITH RADOME
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16 GHz PATTERNS FOR V-POL WITH (------) AND WITHOUT ( ) RADOME
AZIMUTH ELEVATION
BORESIGHT
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EVALUATION AND ELECTRICAL TESTING AT THE NATIONAL ANTENNA TEST RANGE AT PAARDEFONTEIN (Fully automated data gathering)
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ABSOLUTE GAIN ELEVATION PLANE PATTERNS FOR MONITORING INCLUDING RF PRE-AMPLIFIERS
650 TO 3 000 MHz in 10 MHz steps3-D monitoring patterns frequency vselevation vs amplitude (dB)
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3-D DF PATTERNS IN FREQUENCY VS AZIMUTH VS AMPLITUDE
DF 1 peak at 180 DF 2 peak at 108
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MONITORING SENSITIVITY IN SPECIFIED AND FULL ELEVATION
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CONCLUSION
• This presentation has shown that an ultra-compact SIGINT antenna was successfully developed, qualified and produced.
• The critical problem of the COMINT high pressure radome was solved as regards the pressure requirements of the submarine and the system meets all the electrical performance requirements.
• The COMINT radome does not degrade the performance of the ELINTantenna mounted on top.
• SIGINT systems have been delivered to the customer and harbour acceptance trials (HATS) are currently in process.
• This was achieved in less than 30 months from the award of the contract and was possible only because of a multidisciplinary approach involving many parties each playing to their strengths.
• A world-class product of which the South African industry can be proud was developed.