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> Contact us:
ORBIT/FR’s Corporate Headquarters
506 Prudential Road
Horsham (Philadelphia), PA 19044, USA
Tel: +1 215 674 5100
Fax: +1 215 674 5108
SATIMO USA
2105 Barrett Park Dr., Suite 104
Kennesaw (Atlanta), GA 30144, USA
Tel: +1 678 797 9172
Fax: +1 678 797 9173
AEMI
9311 Stevens Rd
Santee (San Diego),
CA 92071-2809, USA
Tel: +1 619 449 9492
Fax: +1 619 449 1553
SATIMO’s Corporate Headquarters
17, avenue de Norvège
91140 Villebon-sur-Yvette (Paris), FRANCE
Tel: +33 (0)1 69 29 02 47
Fax : +33 (0)1 69 29 02 27
SATIMO Bretagne
Technopole Brest Iroise
Z.I. du Vernis
225 rue Pierre Rivoalon
29200 Brest, FRANCE
Tel: +33 (0)2 98 05 13 34
Fax: +33 (0)2 98 05 53 87
SATIMO Italy
Via dei Castelli Romani, 59
00040 Pomezia (Rome), ITALY
Tel: +39 06 89 99 53 11
Fax: +39 06 89 99 53 24
ORBIT/FR Germany
Johann-Sebastian-Bach-Str. 11
Vaterstetten 85591 (Munich), GERMANY
Tel: +49 (0)8106 99606 0
Fax: +49 (0)8106 99606 77
Microwave Vision Sweden
P.O. Box 35
44121 Alingsas (Gothenburg), SWEDEN
Tel: + 46 31 402430
Fax: + 46 31 402430
ORBIT/FR Israel
1 Gesher Ha’Ets Street
Emek Hefer Industrial Park
P.O.Box 12096
Emek Hefer (Tel-Aviv) 38777, ISRAEL
Tel: +972 74 7130130
Fax: +972 4 6247375
SATIMO Hong-Kong
Suite 702, 7th fl oor Cyberport 1
100 Cyberport Road
Pok Fu Lam, HONG KONG
Tel: +852 2989 6128
Fax: +852 2989 6108
Microwave Vision Japan
6-20-11 Shinbashi-IK Bldg. 1F
Shinbashi, Minato-ku
Tokyo 105-0004, JAPAN
Tel: +81 3 6426 0432
Fax: +81 3 3435 3233
www.microwavevision.com / [email protected]
About SATIMO and ORBIT/FR
SATIMO and ORBIT/FR specialize in the design and manufacture of antenna measu-
rement systems.
The Antenna Design and Test Center (ADTC) is an integrated unit within SATIMO and
ORBIT/FR that designs, measures and produces high performance antennas.
The combination of both approaches: antenna measurement and antenna design in
one center of expertise, guarantees the effi ciency and quality of the antenna develop-
ment process. The ADTC also offers antenna measurement services.
SATIMO and ORBIT/FR are part of Microwave Vision SA, which also includes AEMI.
Our customer satisfaction program
Antennas are designed, measured and manufactured in three dedicated centers
based in Germany, France and Italy. The local teams are supported by a network of
regional offi ces in North America, the Middle East and Asia. A presence close to our
customers is essential to ensure the best customer satisfaction.
SATIMO and ORBIT/FR are ISO 9001:2008 certifi ed.
2011 Edition
Antenna Catalog
An
ten
na
Cat
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20
11
Ed
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© SATIMO - ORBIT/FR Dec 2011Product specifi cations and descriptions in this document are subject to change without notice.
Actual products may differ in appearance from images shown.
Active Dipole Antennas>
> Main use: • EMC and EMI testing
> Delivered documents: • Calibration certifi cate
• Antenna manual
> Related services: • Customization
EMC & EMI APPLICATIONS
Electrical characteristics
Part number AD-0020-A
Frequency range 20 – 500 MHz
Electronic gain -11 to +8 dBi
Pratical gain -9 to +10 dBi
VSWR 2.0:1
CW power 100 W
Type Active Dipole
Impedance 50 Ohms
Polarization Linear
Directivity 2 dB average
Antenna factor -5 to 20 dB
Noise fi gure 9 dB
Field sensitivity 20 MHz -15dBµV/m 500 MHz -6dBµV/m (Δf=1KHz)
Intercept point 2nd order >60 dBm 3rd order >30 dBm
Power supply From 15 up to 30 V DC (170 mA)(via RF cable)
Mechanical characteristics
Part number AD-0020-A
Dimensions Length A 1000 mmWidth B 140 mm
Weight 2.5 Kg
Connector N Female
Operating temperature -40°C +70°C
Mechanical drawing
B A
Antenna factor
➊ TECHNICAL PERFORMANCE• High power up to 100 W
• Large bandwidth
➋ DESIGN• Resists harsh environmental conditions
• Easy to mount on a vehicle
113
> E
MC
EMC
1
The Antenna Design and Test Center (ADTC) is a dedicated, integrated team within SATIMO and ORBIT/FR that focuses on the design, measurement and production of antennas. It has developed a wide range of high performance antennas based on its expertise in antenna design and measurement. This expertise is consolidated by years of experience developing very different kinds of antennas for a broad variety of applications.
Combining measurement, design and simulation
The technical expertise within the ADTC is reinforced by the continuous integration of the antenna measure-ments into the antenna design and simulation process. The ADTC team is composed of RF & antenna engineers, production and measurement techni-cians.
SATIMO’s antenna measurement systems are by far the fastest in the industry: they integrate a probe array that speeds up the measurement time. Faster measurement enables more frequent testing of the antenna under development, thus allowing more interactions between simulation and prototyping.
This methodology ensures very fast design and development loops due to:• fast measurement of prototypes at early stages in the design process• rapid comparison of measurement data with the results of simulation• final tuning of the antenna, based on exact measurement results
Improving antenna design through technological challenges
SATIMO and ORBIT/FR have participated in numerous European and National research programs with key players in research and innovation. A few examples are the GARDA or SWIRLS projects made in coope-ration with the French Center National des Etudes Spatiales (CNES) and the European Space Agency (ESA).
The ADTC has been participating in numerous European and National research projects to deve-lop reference, custom and high performance anten-nas. Our antenna engineers are working daily to find innovative solutions to technological challenges and adapt their expertise to professional applications. This background gives SATIMO and ORBIT/FR a unique capacity to develop and produce antennas for highly demanding applications while minimizing prototype cost.
Measurement and development: SATIMO and ORBIT/FR’s excellence in antenna design
>
2
Antenna Solutions>Antennas for measurement systems
Jamming & telecommunication antennas
FUNCTION - Calibrate measurement systems - Measurement system verification
FEATURES - Gain performance - Pattern symmetry
ANTENNAS Wideband horns Page 10 Electric sleeve dipoles Page 15 Magnetic dipoles Page 18 Monopoles Page 21 Monocones Page 23 Biconic antennas Page 26 Standard gain horns Page 28 Linear array reference antennas Page 31 Open boundary wideband quad ridge horn Page 33 Closed wideband quad ridge horn Page 37
FUNCTION High precision antenna measurements - Planar and spherical near-field measurements - Far-field measurements - Compact range feeds - RCS measurements
FEATURES - Excellent polarization purity - Wide bandwidth - Excellent isolation
ANTENNAS Open-ended waveguides Page 40 Dual polarized open-ended waveguides Page 43 Dual polarized probes Page 47 Compact range feed horns Page 50 Diagonal horns Page 56 Dual polarization feed antennas Page 60
ADDITIONAL SATIMO - ORBIT/FR (SOI) INTERFACE Page 62
FUNCTION - Jamming - Telecommunication
FEATURES - High and low power - High and low frequencies - Wide bandwidth
ANTENNAS Omni-directional high power antennas Page 66 Omni-directional embedded high power antennas Page 68 Omni-directional low power antennas Page 70 Planar antenna for integrated applications Page 72 Planar antenna for WLAN applications Page 74 Planar antenna for wireless communication applications Page 76 UWB antennas Page 78 UWB discone antennas Page 80
Ref
eren
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nten
nas
Mea
sure
men
t pro
bes
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Positioning antennas
Localization and safety antennas
EMC antennas
FUNCTION High performance positioning antennas - GNSS applications (Galileo, GPS, GLONASS) - Professional antennas - Base station antennas
FEATURES - Radiation pattern stability - Phase center stability - Group delay stability - Multi-path immunity
ANTENNAS Professional GPS terminal antennas Page 84 Professional GALILEO/GPS terminal antennas Page 86 GALILEO/GPS/GLONASS base station reference antennas Page 90 GALILEO/GPS base station reference antennas Page 94
FUNCTION Beacons and user terminal antennas - Localization applications (ARGOS) - Safety applications (COSPAS-SARSAT)
FEATURES - Radiation pattern symmetry - Gain at low elevations - Compact design at low frequencies
ANTENNAS ARGOS Tx/Rx ultra compact terminal antennas Page 98 COSPAS-SARSAT ultra compact terminal antennas Page 100
FUNCTION EMC, EMI testing
FEATURES - Robust design - Easy handling
ANTENNAS Conical spiral antennas Page 104 Log periodic antennas Page 105 Discone antennas Page 107 Biconical antennas Page 109 EMC Tx and Rx antenna set Page 112 Active dipole antennas Page 113
4
Part Number Page
Reference antennas
Wideband horns
SH 68 10SH 200 10SH 400 10SH 800 10SH 2000 10SH 4000 10
Parabolic reflector
SR-40-A 14
Electric sleeve dipoles
SD 390 16SD 433 16SD 450 16SD 473 16SD 530 16SD 590 16SD 665 16SD 740 16SD 836 16SD 850 16SD 880 16SD 900 16SD 945 16SD 1230 17SD 1450 17SD 1575 17SD 1730 17SD 1800 17SD 1900 17SD 2050 17SD 2140 17SD 2450 17SD 2600 17SD 3150-A 17SD 3600-A 17SD 4000-A 17SD 5150-A 17SD 5650-A 17
Part Number Page
Reference antennas
Magnetic dipoles
MD 665 19
MD 720 19
MD 836 19
MD 880 19
MD 900 19
MD 945 19
MD 1230 19
MD 1575 19
MD 1730 19
MD 1800 19
MD 1840 19
MD 1880 19
MD 1960 19
MD 2050 19
MD 2140 19
MD 2350 19
MD 2450 19
MD 2600 19
MD 2800 19
MD 3600 19
MD 5500 19
Monopoles
SM 80 22
SM 85 22
SM 90 22
SM 100 22
SM 180 22
SM 210 22
SM 315 22
SM 433 22
SM 470 22
SM 540 22
SM 630 22
SM 740 22
SM 850 22
SM 920 22
SM 1220 22
SM 1500 22
SM 1800 22
SM 2000 22
SM 2300 22
SM 3000 22
SM 5800 22
SM 6000 22
Part Number Page
Reference antennas
Monocones
SMC 70 23
SMC 220 23
SMC 700 23
SMC 2200 23
Ground planes
GP 40 25
GP 60 25
GP 100 25
GP 400 25
Biconic
SB 75 26
SB 130-A 26
Standard gain horns
SGH 049 28
SGH 075 28
SGH 096 28
SGH 112 28
SGH 170 28
SGH 260 28
SGH 395 28
SGH 585 28
SGH 705 28
SGH 820 28
SGH 1000 28
SGH 1240 28
SGH 1800 28
SGH 2650 28
Linear array reference antennas
BTS 892 31
BTS 1940 31
Open boundary wideband quad ridge horns
QH 400 33
QH 800 33
QH 2000-A 33
QH 2000 33
Part Number Page
Measurement probes
Closed wideband quad ridge horns
QR 2000 37
QR 18000 37
Open-ended waveguides
OEW 049 40
OEW 075 40
OEW 096 40
OEW 112 40
OEW 145 40
OEW 170 40
OEW 220 40
OEW 260 40
OEW 330 40
OEW 395 40
OEW 490 40
OEW 585 40
OEW 705 40
OEW 820 40
OEW 1000 40
OEW 1240 40
OEW 1800 40
OEW 2650 40
Dual polarized open-ended waveguides
DOEW 6000 43
DOEW 18000 43
Dual polarized probes
SP 800 47
SP 2600 47
SP 6000 47
SP 18000 47
Single linear full octave feed horns
Medium gain
AL 2309-0.75 SL 50
AL 2309-1.12 SL 50
AL 2309-1.70 SL 50
AL 2309-2.00 SL 50
AL 2309-2.60 SL 50
AL 2309-3.00 SL 50
AL 2309-3.95 SL 50
AL 2309-4.50 SL 50
AL 2309-5.85 SL 50
product index
5
Part Number Page
Measurement probes
Medium gain
AL 2309-6.70 SL 50
AL 2309-8.20 SL 50
AL 2309-10.0 SL 50
AL 2309-12.4 SL 50
AL 2309-15.0 SL 50
AL 2309-18.0 SL 50
AL 2309-22.0 SL 50
AL 2309-26.5 SL 50
AL 2309-33.0 SL 50
AL 2309-40.0 SL 50
AL 2309-50.0 SL 50
AL 2309-60.0 SL 50
AL 2309-75.0 SL 50
Low gain
AL 2310-0.75 SL 52AL 2310-1.12 SL 52AL 2310-1.70 SL 52AL 2310-2.00 SL 52AL 2310-2.60 SL 52AL 2310-3.00 SL 52AL 2310-3.95 SL 52AL 2310-4.50 SL 52AL 2310-5.85 SL 52AL 2310-6.70 SL 52AL 2310-8.20 SL 52AL 2310-10.0 SL 52AL 2310-12.4 SL 52AL 2310-15.0 SL 52
Single linear full octave feed horns
Low gain
AL 2310-18.0 SL 52AL 2310-22.0 SL 52AL 2310-26.5 SL 52AL 2310-33.0 SL 52AL 2310-40.0 SL 52AL 2310-50.0 SL 52AL 2310-60.0 SL 52AL 2310-75.0 SL 52
Full octave single linear feed horns
Low gain
AL-2310-1 SL WB 54AL-2310-2 SL WB 54AL-2310-4 SL WB 54
Part Number Page
Measurement probes
Half octave dual linear feed horns
AL 2309-0.75 DL 55
AL 2309-1.12 DL 55
AL 2309-1.70 DL 55
AL 2309-2.60 DL 55
AL 2309-3.95 DL 55
AL 2309-5.85 DL 55
AL 2309-8.20 DL 55
AL 2309-12.4 DL 55
AL 2309-18.0 DL 55
AL 2309-26.5 DL 55
AL 2309-40.0 DL 55
Diagonal horns
OFR 6417 A 56
OFR 6415 56
OFR 6414 56
OFR 6413 56
Dual polarized feed
AL-2309-LF 60
SATIMO ORBIT interface
SOI 200 62
Jamming and Telecommunication
Omni-directional high power
CD 180-B 66
CD 180-A 66
CD 200-A 66
CD 230-A 66
Omni-directional high power (embedded)
CD 040-A 68
Omni-directional low power
CD 210-B 70
CD 210-A 70
CD 220-B 70
CD 220-A 70
CD 580-A 70
Part Number Page
Jamming and Telecommunication
Planar antennas (integrated)
PA 2400-A 72
PA 2400-B 72
PA 2400-C 72
PA 2400CP-A 72
Planar antennas (WLAN)
PA 210-A 74
PA 220-A 74
PA 580-A 74
Planar antennas (wireless)
PA 088-A 76
PA 180-A 76
PA 192-A 76
PA 240-A 76
PA 250-A 76
PA 330-A 76
PA 515-A 76
UWB antennas
UWB 050-A 78
UWB 200-A 78
UWB 300-A 78
UWB discone antennas
UWB 010-A 80
Positioning antennas
Professional GPS
PO 156-A 84
Professional GALILEO/GPS terminal
ANTE 005-A 86
GALILEO/GPS/GLONASS base station reference
ANTE 011-A 90
GALILEO/GPS base station reference
ANTE 010-A 94
ARGOS Tx/Rx terminal
SA-A 98
COSPAS/SARSAT user
SC-B 100
Part Number Page
EMC antennas
CONICAL spiral
CSA 010 104
LOG periodic
LP 030 105
LP 031 105
LP 060 105
LP 065 105
LP 075 105
LP 200 105
LP 450 105
LP 850 105
LP 1000 105
Discone
DIS 108 107
Biconical
SBW 20 109
SBW 30 109
SBW 100 109
EMC Tx/Rx set
Tx antenna AR 150 112
Active dipole
AD 0020-A 113
> SATIMO and ORBIT/FR customer satisfaction program
Offering reliable products and services to its customers.
➊QualityManagementSystem SATIMO and ORBIT/FR
are ISO 9001: 2008 certified. This certifi-cate ensures that:
• Our products meet customer and applicable regu-
latory requirements.• Our processes aim at continuous improvement
of customer satisfaction and conformity of our products to requirements.
➋ ControllingthechainofsuppliersThroughout its experience in antenna design, SATIMO and ORBIT/FR have developed a network of component suppliers that answers demanding quality requirements. The use of quality raw materials and precision machining leads to superior quality and optimized price of the final product.
➌RegularlycalibratingourmeasurementfacilitiesOur measurement facilities in Kennesaw, GA (USA); Paris and Brest (France) and Rome (Italy) are regularly calibrated. The facility in Kennesaw is a CTIA Authori-zed Test Lab and a2La accredited. This guarantees our customers high reliability and measurement quality during the antenna design, optimization and acceptance process.
The scope of accreditation is location dependent and does not include the entire scope of SATIMO activities. The actual scope of accreditation is available on SATIMO’s website in the credentials section.
➍AntennafinalacceptancetestEach antenna is meticulously controlled prior to shipment. SATIMO and ORBIT/FR automatically archive all technical information for an antenna, including measurement data, which is sent to the customer.
➎AntennaphasecentercalibrationIn the case of high performance positioning antennas used as base stations or for military or professional applications, the phase center location has to be known with accuracy. The in-house measu-rement systems present at SATIMO (SG family) permits fast and organic determination of the pha-se center of a measured antenna in 3 dimensions as well as its spatial variations over frequency. Therefore a calibration of each individual antenna becomes possible at design level and during the final acceptance test.
➏TYMEDATMacomprehensivedatabaseofantennaperformancedataAll our reference antennas are delivered with typi-cal performance data (radiation pattern, gain and efficiency). Over the years, SATIMO has gathered a comprehensive database of measurement data for each of its reference antennas. This database has been built thanks to a very large number of measure-ments, made using different measurement methods. The data reliability has been reinforced by international facility comparisons using different methods and diffe-rent measurement system configurations.This database is used to determine “typical perfor-mance data”. The reliability of the TYMEDATM data has been confirmed by comparisons to data collected in accredited calibration labs.
TYMEDATM enables our customers to benefit from highly reliable performance data without having to bear the costs of a laboratory calibration.
6
Measurement antennas>
8
Wideband horn SH 400 used in a SG 64 measurement system
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Reference antennas>
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Wideband Horns >
> Main use: • Gain reference • Wideband probes for far-field test ranges• Reflector feeds for high gain applications
> Delivered documents: • Typical performance data (TYMEDATM) • Measured return loss data
> Surface treatment: • Alodine 1200 according to MIL-C 5541E class 3 • Blue paint
> Related services: • Calibration and maintenance • Customization
➊TECHNICALPERFORMANCE• Stable gain with frequency• Linear polarized with high polarization purity• Low return loss / VSWR• Wide bandwidth
➋DESIGN• The horn maintains a well defined smooth radiation pattern in the direction of the boresight axis throughout the operational bandwidth• The unique design prevents excitation of unwanted higher order modes in the aperture• Lightweight for easy handling
➌REPEATABILITY• Stiff and robust mechanical design• Standard SATIMO circular interface for precision centering• Precision pin for accurate polarization alignment• Precision machined• High reliability connector
REFERENCE ANTENNAS
Typical 3D radiation pattern
TheSATIMOwidebandhornshavebeenselectedashighreliabilityreferenceantennasininternationalmeasurementfacilitycomparisoncampaigns.
REFERENCE ANTENNAS
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Measured performance of 4 SH 400 horns: the excellent performance repeatability is proven by the agreeing plots.
Electricalcharacteristics
Part number SH 68 SH 200 SH 400 SH 600 SH 800 SH 2000 SH 4000
Type of antenna Dual ridge Dual ridge Dual ridge Dual Ridge Dual ridge Dual ridge Dual ridge
Frequency range 68 – 1020 MHz 0.2 – 3 GHz 0.4 – 6.0 GHz 0.6 – 9 GHz 0.8 – 12 GHz 2.0 – 32 GHz 4.0 – 40 GHz
Average gain 5 – 15 dBi 7 – 15 dBi 7 – 15 dBi 7 – 15 dBi 7 – 15 dBi 4 – 15 dBi 4 – 15 dBi
VSWR < 1.9 < 1.9 < 1.9 < 1.9 < 1.9 < 1.9 < 1.9
Return loss < -10 dB < -10 dB < -10 dB < -10 dB < -10 dB < -10 dB < -10 dB
Polarization Single linear Single linear Single linear Single linear Single linear Single linear Single linear
Cross-polar discrimination > 45 dB > 45 dB > 45 dB > 45 dB > 45 dB > 45 dB > 45 dB
Impedance 50 Ohms 50 Ohms 50 Ohms 50 Ohms 50 Ohms 50 Ohms 50 Ohms
Boresight gain vs frequency
Return loss vs frequency
12
“W”
“L”
“H”
Wideband horn
SH 68 interface
16 holes ø670
ø40±
0.01
5
ø700
30
337
ø12.2
SH 200 interface
ø8.2
ø222.0 -0.050
ø6 H7ø197
24°
80
10
Mechanicalcharacteristics
Part number SH 68 SH 200 SH 400 SH 600 SH 800 SH 2000 SH 4000
Dimensions 2982.8 1068 540 355.9 270 105 51.6(H x W X L) x 1615.6 x 585 x 292.3 x 198.7 x 146.2 x 61 x 34 x 2505 mm x 870 mm x 435 mm x 294.6 mm x 225 mm x 104.3 mm x 104.3 mm
Weight (approx) 180 kg 25 kg 4.1 kg 1.8 Kg 1.2 kg 0.5 kg 0.2 kg
Connector N Female(1) N Female(1) N Female(1) H+S PC H+S PC H+S PC K Female 3.5 mm Female(2) 3.5 mm 3.5 mm (N(4) type Female(2) Female(2)
optional)
Material Aluminum Aluminum Aluminum Aluminum Aluminum Aluminum Aluminum
Treatment Alodine 1200(3) Alodine 1200(3) Alodine 1200(3) Alodine 1200(3) Alodine 1200(3) Alodine 1200(3) Alodine 1200(3)
Color Blue Blue Blue Blue Blue Blue Blue
(1)SPINNERref.#BN058739andBN133670(2)Type23PC35-50-0-51/199UE(3)EquivalenttoMIL-C5541Eclass3(4)SWMItype312-14SF
SMARTPOSITIONING
Thecircularinterfaceallowstheusertopositionandcentertheantennawithveryhighaccuracy.Thehornisfastenedtothecustomer’smountingsupportbyfourscrewsandthealignmentisdeterminedbyaprecisionpininthemechanicalinterfaceplate.
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SH 400 interface
SH 600 and 800 interface
M5
M5
ø4 H7
ø4 H7
82 RIF
87 R
IF
ø65
ø110
ø110
71
SH 2000 interface
SH 4000 interface
M4
M4
ø3 H7
ø3 H7
10
10
ø35.4
ø35.4
ø60±
0.02
ø60±
0.02
ø50
ø50
14
High precision offset parabolic reflector for wideband high gain antenna measurements
Mechanical drawing
“W”
“D”
“B”
“L”
“L1”
“A”
Electricalcharacteristics
Part number SR 40-A (SH 2000 feeder) SR 40-A (SH 4000 feeder)
Polarization Dual Linear Dual Linear
Frequency band [GHz] 2-32 4-40
Return Loss < -7.5 dB, VSWR < 2.5 < -7.5 dB, VSWR < 2.5
XPD on axis > 35 dB > 35 dB
Polarization orientation < 1° on entire frequency band < 1° on entire frequency band
Gain performance > 14 dBi at 2 GHz >17 dBi at 4 GHz > 28 dBi at 8 GHz >27 dBi at 9 GHz > 32 dBi at 17 GHz >35 dBi at 20 GHz > 35 dBi at 26 GHz >37 dBi at 30 GHz > 34 dBi at 32 GHz >38 dBi at 40 GHz
Mechanicalcharacteristics
Part number SR 40-A (SH 2000 feeder) SR 40-A (SH 4000 feeder)
Reflector shape Super elliptical rim Super elliptical rim
Reflector dimensions D = 400 mm, F/D = 0.5, D = 400 mm, F/D = 0.5, clearance = 50 mm clearance = 50 mm
Horn antenna 2-32 GHz dual ridge horn 4-40 GHz dual ridge horn
Dimensions (W x A x L) 400 x 315 x 561 mm 400 x 315 x 561 mm
Weight 3.9 kg 3.6 kg
Connectors PC 3.5 Female(1) K Female
Material Aluminum Aluminum
Treatment Alodine 1200(2) Alodine 1200(2)
Color Blue Blue
(1)Huber+Suhnertype23PC35-50-0-51/199UE(2)EquivalenttoMIC-C5541Eclass3
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Electric Sleeve Dipoles >
> Main use: • Gain reference• Efficiency reference• Chamber reflectivity evaluation: directivity,
cross polarization and radiation pattern
> Delivered documents: • Typical performance data (TYMEDATM)• Measured return loss data
> Surface treatment: • Blue paint
> Related certification: • CTIA low gain antenna measurement
> Related services: • Calibration and maintenance• Customization
➊TECHNICALPERFORMANCE• Low loss and high efficiency• Azimuth pattern symmetry is within ± 0.1 dB variation as specified by the CTIA for ripple testing according to the OTA Test Plan
➋DESIGN• End-fed sleeve dipole technology, minimizing cable and feed point interaction• Innovative choke design further reduces cable interaction by attenuating the natural return currents from the dipole• Azimuth pattern symmetry thanks to entirely symmetrical design
➌REPEATABILITY• Stiff and robust mechanical design• Minimum use of dielectric material• Precision machined• High reliability connector
REFERENCE ANTENNAS
Typical 3D radiation pattern
REFERENCE ANTENNAS
SD 5650-A
16
Electricalcharacteristics
Part number SD
Type of antenna Sleeve dipole
Available frequencies 0.4 - 9 GHz
Gain variation over azimuth <± 0.1 dB
Peak directivity 2.1 dBi (Typ)
Peak gain 1.8 dBi (Typ)
Efficiency(1) 90% (Typ)
VSWR(1) 1.2:1
Return loss(1) < -20 dB
Cross polar level < 30 dB
Impedance 50 Ohms
Frequency BW (Ret. Loss < -15 dB) 10% (Typ)
(1)atthelabeledcenterfrequency
SD Typical elevation and azimuth radiation pattern
Mechanicalcharacteristics
Part number Frequency range [MHz] A mm B mm C mm D mm Connector Type Weight
SD 390 380-410 546.8 378.8 8.2 33 PC 3.5 Female1 700 g (approx)
SD 433 410-450 503.7 344.3 8.2 33 PC 3.5 Female1 600 g (approx)
SD 450 435-470 472.1 326.3 8.2 33 PC 3.5 Female1 600 g (approx)
SD 473 450-500 459.8 321.3 8.2 33 PC 3.5 Female1 600 g (approx)
SD 530 500-560 383.8 260.7 8.2 33 PC 3.5 Female1 500 g (approx)
SD 590 560-625 343.2 232.6 8.2 33 PC 3.5 Female1 450 g (approx)
SD 665 625-700 306.6 207.8 8.2 33 PC 3.5 Female1 400 g (approx)
SD 740 690-800 272.2 185.1 8.2 33 PC 3.5 Female1 400 g (approx)
SD 836 810-875 266.7 186.2 8.2 19 PC 3.5 Female1 150 g (approx)
SD 850 820-890 265.8 185.9 8.2 19 PC 3.5 Female1 150 g (approx)
SD 880 850-920 249.8 172.9 8.2 19 PC 3.5 Female1 150 g (approx)
SD 900 865-930 245.2 170.2 8.2 19 PC 3.5 Female1 150 g (approx)
SD 945 910-980 233.5 161.5 8.2 19 PC 3.5 Female1 150 g (approx)
(1)Huber+Suhnertype23PC35-50-0-51/199UE
1/Low frequency dipole family
“A” = Total length “C” = Connector length“B” = Phase center position “D” = Diameter
Connector type & interface
Type 23 PC35-50-0-51/199 UE13.3
(.524)
16.8(.661)
1.6(.063)
ø9(.3
54 D
IA)
SW 8(.315 AF.)
1/4-
36 U
NS-2
A
1/4-
36 U
NS-2
A
1/4-
36 U
NS-2
A
Huber+Suhner 31 PC35-50-0-1/199UE
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Mechanicalcharacteristics
Part number Frequency range A mm B mm C mm D mm Connector Type Weight
SD 1230 1165 – 1295 MHz 178.7 123.2 9.8 15 PC 3.5 Female1 75 g (approx)
SD 1450 1390 – 1540 MHz 156.1 109.0 9.8 15 PC 3.5 Female1 75 g (approx)
SD 1575 1500 – 1630 MHz 148.6 105.2 9.8 15 PC 3.5 Female1 75 g (approx)
SD 1730 1640 – 1830 MHz 132.7 93.2 9.8 15 PC 3.5 Female1 75 g (approx)
SD 1800 1710 – 1930 MHz 131.4 93.2 9.8 15 PC 3.5 Female1 75 g (approx)
SD 1900 1810 – 2030 MHz 129.7 93.2 9.8 15 PC 3.5 Female1 75 g (approx)
SD 2050 1910 – 2170 MHz 127.9 93.2 9.8 15 PC 3.5 Female1 75 g (approx)
SD 2140 1990 – 2330 MHz 126.7 93.2 9.8 15 PC 3.5 Female1 75 g (approx)
SD 2450 2330 – 2650 MHz 122.3 93.2 9.8 15 PC 3.5 Female1 75 g (approx)
SD 2600 2380 – 2950 MHz 121.4 93.2 9.8 15 PC 3.5 Female1 60 g (approx)
(1)Huber+Suhnertype31PC35-50-0-1/199UE
Mechanicalcharacteristics
Part number Frequency range A mm B mm C mm D mm Connector Type Weight
SD 3150-A 3000 – 3300 MHz 175.8 156 8.2 14 PC 3.5 Female1 90 g (approx)
SD 3600-A 3450 – 3800 MHz 172.1 156 8.2 14 PC 3.5 Female1 90 g (approx)
SD 4000-A 3800 – 4200 MHz 171.6 156 8.2 14 PC 3.5 Female1 90 g (approx)
SD 5150-A 4900 – 5400 MHz 170.1 156 8.2 14 PC 3.5 Female1 90 g (approx)
SD 5650-A 5400 – 5900 MHz 168.2 156 8.2 14 PC 3.5 Female1 90 g (approx)
(1)Type23PC35-50-0-51/199UE
3/High frequency dipole family
Mechanical drawing
Mechanical drawing
Mechanical drawing
“A”“B” “C”
“D”
“A”“B” “C”
“D”
“A”
“B” “C”“D”
“A” = Total length “C” = Connector length“B” = Phase center position “D” = Diameter
“A” = Total length “C” = Connector length“B” = Phase center position “D” = Diameter
2/Medium frequency dipole family
18
Magnetic Dipoles >
➊TECHNICALPERFORMANCE• Low loss and high efficiency• Azimuth pattern symmetry is within ± 0.1 dB variation as specified by the CTIA for ripple testing according to the OTA Test Plan
➋DESIGN• Innovative low loss structure with a protective external radome • Excellent rotation symmetrical structure minimizing cross polarization level• The radiating structure is orthogonal to the feeding line, minimizing cable and feed point interaction • The radiating structure is entirely metallic without the use of external discrete components• Innovative choke design further reduces cable interaction by attenuating the natural return currents from the magnetic dipole
➌REPEATABILITY• Stiff and robust mechanical design • Precision machined• High reliability connector
REFERENCE ANTENNAS
Themagneticdipoleormagneticloopantennaiscomplementarytotheelectricaldipole,withasimilarradiationpatternbutinorthogonalpolarization.
Typical 3D radiation pattern
> Main use: • Gain reference • Efficiency reference• Chamber reflectivity evaluation: directivity,
cross polarization and radiation pattern
> Delivered documents: • Typical performance data (TYMEDATM) • Measured return loss data
> Surface treatment: • Alodine 1200 according to MIL-C 5541E class 3 • Blue paint
> Related certification: • CTIA low gain antenna measurement
> Related services: • Calibration and maintenance• Customization
REFERENCE ANTENNAS
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Electricalcharacteristics
Part number MD
Type of antenna Magnetic dipole
Available frequencies 0.65 – 5.5 GHz
Gain variation over azimuth <± 0.1 dB
Peak directivity 2.1 dBi (Typ)
Peak gain 1.6 dBi (Typ)
Efficiency(1) ~ 88 % (Typ)
VSWR(1) 1.9:1
Return loss(1) < -10 dB
Cross polar level < 20 dB
Impedance 50 Ohms
Frequency BW (Ret. Loss <-10 dB) 5 % (Typ)
(1)atthelabeledcenterfrequency
MD Typical elevation and azimuth radiation pattern
Mechanical drawing
“A”
“B” “C”
“D”
“d”
Connector type & interface
Type 23 PC35-50-0-51/199 UE13.3
(.524)1.6
(.063)
1/4-
36 U
NS-2
A
20
Mechanicalcharacteristics
Part number Frequency A mm B mm C mm D mm d mm Connector Weight range Type
MD 665 652 – 678 MHz 239.2 207.8 8.2 135 18 PC 3.5 Female1 400 g (approx)
MD 720 715 – 735 MHz 216.5 185.1 8.2 135 18 PC 3.5 Female1 400 g (approx)
MD 836 824 – 860 MHz 217.2 185.8 8.2 135 18 PC 3.5 Female1 400 g (approx)
MD 880 870 – 900 MHz 217.2 185.8 8.2 135 18 PC 3.5 Female1 400 g (approx)
MD 900 880 – 920 MHz 217.2 185.8 8.2 135 18 PC 3.5 Female1 400 g (approx)
MD 945 925 – 965 MHz 217.2 185.8 8.2 135 18 PC 3.5 Female1 400 g (approx)
MD 1230 1205 – 1255 MHz 155.9 124.5 8.2 135 18 PC 3.5 Female1 350 g (approx)
MD 1575 1545 – 1605 MHz 121.1 106.0 8.2 65 14 PC 3.5 Female1 200 g (approx)
MD 1730 1695 – 1755 MHz 109.7 94.6 8.2 65 14 PC 3.5 Female1 200 g (approx)
MD 1800 1765 – 1830 MHz 109.7 94.6 8.2 65 14 PC 3.5 Female1 200 g (approx)
MD 1840 1810 – 1875 MHz 109.7 94.6 8.2 65 14 PC 3.5 Female1 200 g (approx)
MD 1880 1850 – 1910 MHz 109.7 94.6 8.2 65 14 PC 3.5 Female1 200 g (approx)
MD 1960 1935 – 1995 MHz 109.7 94.6 8.2 65 14 PC 3.5 Female1 200 g (approx)
MD 2050 2010 – 2085 MHz 109.7 94.6 8.2 65 14 PC 3.5 Female1 200 g (approx)
MD 2140 2110 – 2170 MHz 109.7 94.6 8.2 65 14 PC 3.5 Female1 200 g (approx)
MD 2350 2300 – 2400 MHz 109.7 94.6 8.2 65 14 PC 3.5 Female1 200 g (approx)
MD 2450 2400 – 2483 MHz 109.7 94.6 8.2 65 14 PC 3.5 Female1 200 g (approx)
MD 2600 2565 – 2670 MHz 109.7 94.6 8.2 65 14 PC 3.5 Female1 200 g (approx)
MD 2800 2730 – 2870 MHz 109.7 94.6 8.2 65 14 PC 3.5 Female1 200 g (approx)
MD 3600 3530 – 3670 MHz 174.6 157.3 8.2 65 14 PC 3.5 Female1 250 g (approx)
MD 5500 5363 – 5637 MHz 171.6 156.5 8.2 65 14 PC 3.5 Female1 250 g (approx)
(1):Huber+Suhnertype23PC35-50-0-51/199UE
“A” = Total length“B” = Phase center position“C” = Connector length “D” = Maximum diameter“d” = Minimum diameter
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Monopoles >
> Main use: • Gain reference• Particularly suited for automotive test ranges
> Delivered documents: • Typical performance data (TYMEDATM)• Measured return loss data
> Surface treatment: • Alodine 1200 according to MIL-C 5541E class 3 • Blue paint
> Included equipment: • Ground plane GP 100 or GP 400
> Optional equipment: • Ground plane GP 40 or GP 60
> Related services: • Calibration and maintenance• Customization
➊TECHNICALPERFORMANCE• Low loss and high efficiency• Azimuth pattern symmetry
➋DESIGN• Antennas mounted on a circular ground plane, fitted with a standard SATIMO flange• The circular ground plane is made of a lightweight aluminum foam composite for high structural strength, low weight and easy handling
➌REPEATABILITY• Stiff and robust mechanical design • Precision machined• High reliability connectors
REFERENCE ANTENNAS
Typical 3D radiation pattern
REFERENCE ANTENNAS
22
Electricalcharacteristics
Part number SM
Type of antenna Monopole
Available frequencies 76 MHz – 18 GHz
Gain variation over azimuth <± 0.1 dB
VSWR(1) 1.92:1 (RL < -10dB)
Return loss(1) < -20 dB
Impedance 50 Ohms
Efficiency(1) 92 % (Typ)
Frequency BW (Ret. Loss <15 dB) 10 % (Typ)
(1)atthelabeledcenterfrequency
SM Typical elevation and azimuth radiation pattern
Mechanicalcharacteristics
Part number Frequency A B C D Connector Recommended range ± 0.05 mm ± 0.05 mm ± 0.1 mm ± 0.02 mm type ground plane
SM 80 76 – 83 MHz 50 855 40 100 N Female(1) GP 400(3)
SM 85 82 – 90 MHz 50 804 40 100 N Female(1) GP 400(3)
SM 90 87 – 98 MHz 50 760 40 100 N Female(1) GP 400(3)
SM 100 97 – 108 MHz 50 684 40 100 N Female(1) GP 400(3)
SM 180 170 – 198 MHz 30 380 40 100 N Female(1) GP 400(3)
SM 210 198 – 230 MHz 30 325 40 100 N Female(1) GP 400(3)
SM 315 295 – 340 MHz 30 217 40 100 N Female(1) GP 400(3)
SM 433 408 – 463 MHz 20 157 40 100 N Female(1) GP 100(4)
SM 470 440 – 500 MHz 20 145 40 100 N Female(1) GP 100(4)
SM 540 500 – 582 MHz 20 126 40 100 N Female(1) GP 100(4)
SM 630 582 – 680 MHz 20 108 40 100 N Female(1) GP 100(4)
SM 740 680 – 800 MHz 20 92 40 100 N Female(1) GP 100(4)
SM 850 800 – 900 MHz 20 80 40 100 N Female(1) GP 100(4)
SM 920 850 – 1000 MHz 20 74 40 100 N Female(1) GP 100(4)
SM 1220 1150 – 1300 MHz 20 56 40 100 N Female(1) GP 100(4)
SM 1500 1400 – 1600 MHz 8 45 40 100 N Female(1) GP 100(4)
SM 1800 1700 – 1900 MHz 8 38 40 100 N Female(1) GP 100(4)
SM 2000 1850 – 2150 MHz 8 34 40 100 N Female(1) GP 100(4)
SM 2300 2100 – 2500 MHz 8 29 40 100 N Female(1) GP 100(4)
SM 3000 3000 – 9000 MHz 12 20 30 100 PC 3.5 Female(2) GP 40(5)
SM 5800 5700 – 5900 MHz 6 10 40 100 N Female(1) GP 40(5)
SM 6000 6000 – 18000 MHz 6 10 30 100 PC 3.5 Female(2) GP 40(5)
(1)SPINNERref#BN058739andBN133670 (3)4mdiameter (5)0.4mdiameter(2)Huber+Suhnertype23PC35-50-0-51/199UE (4)1mdiameter
“A” = Antenna diameter “C” = Connector length “B” = Antenna height “D” = Interface diameter
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Monocones >
> Main use: • Wideband gain reference• Particularly suited for automotive test ranges
> Delivered documents: • Typical performance data (TYMEDATM)• Measured return loss data
> Surface treatment: • Alodine 1200 according to MIL-C 5541E class 3 • Blue paint
> Included equipment: • Ground plane GP 100 or GP 400
> Optional equipment: • Ground plane GP 40 or GP 60
> Related services: • Calibration and maintenance• Customization
➊TECHNICALPERFORMANCE• Low loss and high efficiency• Azimuth pattern symmetry • Wide bandwidth
➋DESIGN• Antennas mounted on a circular ground plane, fitted with a standard SATIMO flange• The circular ground plane is made of a lightweight aluminum foam composite for high structural strength, low weight and easy handling
➌REPEATABILITY• Stiff and robust mechanical design • Precision machined• High reliability connector
REFERENCE ANTENNAS
REFERENCE ANTENNAS
24
Electricalcharacteristics
Part number SMC 70 SMC 220 SMC 700 SMC 2200
Type of antenna Monocone Monocone Monocone Monocone
Frequency range 70 MHz – 220 MHz 220 – 700 MHz 700 – 2200 MHz 2200 – 6000 MHz
Gain variation over azimuth < ± 0.1 dB < ± 0.1 dB < ± 0.1 dB < ± 0.1 dB
VSWR <1.9 <1.9 <1.9 <1.9
Impedance 50 Ohms 50 Ohms 50 Ohms 50 Ohms
Efficiency > 80% > 80% > 80% > 80%
Frequency BW (Ret. loss < -10 dB) 1:3 app 1:3 app 1:3 app 1:3 app
Mechanicalcharacteristics
Monocone type Frequency range A mm B mm C mm D mm Connector Type Weight Recommended (approx) ground plane(4)
SMC 70 70 – 220 MHz 795.0 638.2 105.8 100 N Female(1) 9 Kg GP 400(2)
SMC 220 220 – 700 MHz 300.0 229.2 85.8 100 N Female(1) 2.5 Kg GP 400(2) from 220 to 400 MHz GP 100(3) from 400 to 700 MHz
SMC 700 700 – 2200 MHz 79.5 63.7 33.8 100 N Female(1) 0.3 Kg GP 100(3)
SMC 2200 2200 – 6000 MHz 30.0 22.9 33.8 100 N Female(1) 0.25 Kg GP 100(3)
(1)SPINNERref#BN058739andBN133670(2)1mdiameter(3)4mdiameter(4)TheMonoconeantennaswithgroundplanesareusedforcalibrationinthefrequencyrange70-6000MHz.
“A” = Total length “C” = Connector length“B” = Antenna height “D” = Interface diameter
Mechanical drawing
“A”
“D”
“B”
“C”
SMC 700 Typical elevation pattern at 700 MHz
SMC 700 Typical azimuth elevation pattern at 700 MHz
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Groundplanemecanicalcharacteristics
Part number GP 40 GP 60 GP 100 GP 400 Weight (approx) 100 g 200 g 2.5 Kg 150 KgDiameter 40 cm 60 cm 1 m 4 mMaterial Aluminum Aluminum Aluminum Aluminum
Treatment Alodine 1200(1) Alodine 1200(1) Alodine 1200(1) Alodine 1200(1)
(1)EquivalenttoMIL-C5541Eclass3
GP 100 GP 400
GP 400 mounting and storage positions
26
Biconic >
> Main use: • Wideband gain reference• Efficiency reference• Chamber reflectivity evaluation: directivity,
cross polarization and radiation pattern• Measurement accuracy evaluation
> Delivered documents: • Typical performance data (TYMEDATM)• Measured return loss data
> Surface treatment: • Alodine 1200 according to MIL-C 5541E class 3 • Blue paint
> Related services: • Calibration and maintenance• Customization
➊TECHNICALPERFORMANCE• Wideband• Low loss and high efficiency• Azimuth pattern symmetry due to entirely symmetrical design
➋DESIGN• Lightweight for easy handling ➌REPEATABILITY• Stiff and robust mechanical design • Precision machined• High reliability connector
REFERENCE ANTENNAS
Typical 3D radiation pattern
SB 130-A
REFERENCE ANTENNAS
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Electricalcharacteristics
Part number SB 75 SB 130-A
Type of antenna Biconic Biconic
Frequency range 75 – 230 MHz 130 – 400 MHz
Gain variation over azimuth ± 0.1 dB ± 0.1 dB
VSWR < 1.9 < 1.9:1 [130-350] MHz < 2.3:1 [350-400] MHz
Return loss < -10 dB < -10 dB [130-350] MHz < -8 dB [350-400] MHz
Impedance 50 Ohms 50 Ohms
Peak directivity 1.3 – 1.9 dBi 1.3 – 1.9 dBi
Efficiency > 92% > 92%
Mechanicalcharacteristics
Part number SB 75 SB 130-A
Dimensions L 1658 mm 829 mm W 984 mm 492 mm H 984 mm 492 mmD 1080 mm 540 mmE 166 mm 88 mm
Weight (approx) < 15 Kg 6.8 Kg
Connector N Female(1) N Female(1)
Treatment Alodine 1200(2) Alodine 1200(2)
Color Blue Blue
(1)SPINNERref#BN058739andBN133670(2)EquivalenttoMIL-C5541Eclass3
Typical elevation pattern at 140 MHz
Typical elevation pattern at 260 MHz
Typical elevation pattern at 400 MHz
Mechanical drawing
“L”
“E”
“w”=
“H”
“D”
28
Standard Gain Horns >
> Main use: • Gain calibration• Antenna measurements
> Delivered documents: • Theoretical gain versus frequency information data• Measured return loss
> Surface treatment: • Alodine 1200 according to MIL-C 5541E class 3 • Blue paint
> Related standard: • NRL report 4433
> Included equipment: • Mounting flange• Integral coaxial transition with high precision SMA
Female connector
> Related services: • Calibration and maintenance• Customization
➊TECHNICALPERFORMANCE• Stable gain with frequency• Linear polarization• Low return loss / VSWR
➋DESIGN• Lightweight for easy handling• Designed to meet NRL 4433
➌REPEATABILITY• Stiff and robust mechanical design• Standard SATIMO circular interface for precision centering• Precision pin for accurate polarization alignment• Precision machined• High reliability integral connector
REFERENCE ANTENNAS
Typical 3D radiation pattern
SMARTPOSITIONING
Thecircularinterfaceallowstheusertopositionandcentertheantennawithveryhighaccuracy.Thehornisfastenedtothecustomer’smountingsupportbyfourscrewsandthealignmentisdeterminedbyaprecisionpininthemechanicalinterfaceplate.
REFERENCE ANTENNAS
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Electricalcharacteristics*
Part number SGH SGH SGH SGH SGH SGH SGH SGH SGH SGH SGH SGH SGH SGH 049 075 096 112 170 260 395 585 705 820 1000 1240 1800 2650
Type of antenna Horn Horn Horn Horn Horn Horn Horn Horn Horn Horn Horn Horn Horn Horn
Frequency range 0.49 – 0.75 – 0.96 – 1.12 – 1.70 – 2.60 – 3.95 – 5.85 – 7.05 – 8.20 – 10.00 – 12.40 – 18.00 – 26.50 –in GHz 0.75 1.12 1.45 1.70 2.60 3.95 5.85 8.20 10.00 12.40 15.00 18.00 26.50 40.00
Wave guide band WR1500 WR 975 WR 770 WR 650 WR 430 WR 284 WR 187 WR 137 WR 112 WR 90 WR 75 WR 62 WR 42 WR 28
Gain at center frequency 15.5 15.5 13.7 15.5 15.5 18.0 18.0 22.1 18.0 22.1 24.7 24.7 24.7 24.7
Polarization Linear Linear Linear Linear Linear Linear Linear Linear Linear Linear Linear Linear Linear Linear
VSWR 1.4:1 1.4:1 1.4:1 1.4:1 1.4:1 1.4:1 1.4:1 1.4:1 1.4:1 1.4:1 1.4:1 1.4:1 1.4:1 1.4:1
Return loss < -15 dB < -15 dB < -15 dB < -15 dB < -15 dB < -15 dB < -15 dB < -15 dB < -15 dB < -15 dB < -15 dB < -15 dB < -15 dB < -15 dB
On-axis cross polar discrimination > 40 dB > 40 dB > 40 dB > 40 dB > 40 dB > 40 dB > 40 dB > 40 dB > 40 dB > 40 dB > 40 dB > 40 dB > 40 dB > 40 dB
Power handling(1)
(continuous wave)SMA 500 W 500 W 500 W 450 W 360 W 300 W 250 W 190 W 180 W 160 W 150 W 140 W 120 W –N 1600 W 1600 W 1600 W 1500 W 1000 W 900 W 700 W 600 W 570 W 500 W – 400 W – –K – – – – – – – – – – – – – 20 W
Impedance 50 Ohms
*Standardgainhornatintermediatefrequencyrangesarealsoavailable.(1)25°CatsealeveldependingonRFconnectortype.
SGH 170 H plane cut at 1800 MHz
SGH 170 co & cross polarization vs frequency
SGH 170 H plane cut at 1825 MHz
SGH 170 E plane cut at 2000 MHz
30
Mechanical drawing & interface SGH 1800
SGH 395
Mechanicalcharacteristics
Part number SGH SGH SGH SGH SGH SGH SGH SGH SGH SGH SGH SGH SGH SGH 049 075 096 112 170 260 395 585 705 820 1000 1240 1800 2650
Dimensions 1252 x 853 x 643 x 583 x 515 x 539 x 360 x 523 x 233 x 353 x 441 x 368 x 257 x 185 xL x W x H 1289 x 836 x 561x 561 x 373 x 328 x 220 x 293 x 130 x 198 x 187 x 153 x 103 x 70 x 956 mm 620 mm 417 mm 417 mm 277 mm 244 mm 164 mm 218 mm 97 mm 148 mm 154 mm 126 mm 84 mm 58 mm
Weight (approx) 26.8 Kg 15 Kg 8.1 Kg 7.2 Kg 3.2 Kg 2.6 Kg 1.2 Kg 2.1 Kg 0.5 Kg 0.9 Kg 1.3 Kg 0.7 Kg 0.4 Kg 0.2 Kg
Connector SMA(1) SMA(1) SMA(1) SMA(1) SMA(1) SMA(1) SMA(1) SMA(1) SMA(1) SMA(1) SMA(3) SMA(3) SMA(3) K(4) Female Female Female Female Female Female Female Female Female Female Female Female Female Female (N(2) type (N(2) type (N(2) type (N(2) type (N(2) type (N(2) type (N(2) type (N(2) type (N(2) type (N(2) type (N(2) type optional) optional) optional) optional) optional) optional) optional) optional) optional) optional) optional)
Material Aluminum
Treatment Alodine(5) 1200
Color Blue Blue Blue Blue Blue Blue Blue Blue Blue Blue Blue Blue Blue
Interface (Ø) 110 mm 110 mm 110 mm 110 mm 110 mm 110 mm 110 mm 60 mm 60 mm 60 mm 60 mm 60 mm 60 mm
(1)SWMItype212-503SF(2)SWMItype312-14SF(3)SWMItype212-513SF(4)SWMItype1012-23SF(5)EquivalenttoMIL-C5541Eclass3
“W” “H”
See interface
“L”
M5 M4
ø3 H7
ø4 H7
ø35.4
ø60ø65
ø110
67.2
67.2
ø50
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Linear Array Reference Antennas >
> Main use: • Linear array antenna calibration
> Delivered documents: • Typical performance data (TYMEDATM)• Measured return loss data
> Surface treatment: • Alodine 1200 according to MIL-C 5541E class 3• Blue paint
> Related services: • Calibration and maintenance• Customization
➊TECHNICALPERFORMANCE• Wide bandwidth • Dual slant +45°/-45° or H/V polarization• Low cross polarization
➋DESIGN• Lightweight for easy handling • Reduced inter-element coupling• Adjustable interface for easy mounting
➌REPEATABILITY• Precision mounting interface• Robust mechanical design • Precision machined• High reliability connector
REFERENCE ANTENNAS
Typical 3D radiation pattern
REFERENCE ANTENNAS
32
Mechanicalcharacteristics
Part number BTS 892 BTS 1940
DimensionsA 300 mm 148 mmB 178 mm 152 mmC 1144 mm 800 mmL 2320 mm 1225 mmWeight < 25 Kg < 8 Kg Connector N Female N Female
Electricalcharacteristics
Part number BTS 892 BTS 1940
Type of antenna Linear array Linear array
Available frequencies/ Frequency range 824 – 960 MHz 1710 – 2170 MHz
Gain > 15 dBi > 15 dBi
Polarization Dual slant Dual slant +45°/-45°(1) +45°/-45°(1)
VSWR < 1.5 < 1.5
Return loss < -15 dB < -15 dB
Cross polar discrimination > 25 dB on axis > 25 dB on axis
Impedance 50 Ohms 50 Ohms
Efficiency > -2 dB > -2.5 dB
(1)DuallinearH/Vavailableuponrequest
BTS 1940 Boresight Gain vs frequency for input ports
BTS 1940 Peak Gain vs frequency
BTS 1940 Elevation plane co & cross polar components at 1940 MHz
BTS 1940 Efficiency vs frequency
BTS 1940 Mechanical drawing
“L”
“C”
“B”
“A”
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Open Boundary Wideband Quad Ridge Horns>
> Main use: • Gain calibration• Wideband probe for far-field test range• Reflector feed for high gain applications
> Delivered documents: • Typical performance data (TYMEDATM)• Measured return loss data and port-to-port coupling
> Surface treatment: • Alodine 1200 according to MIL-C 5541E class 3 • Blue paint
> Related services: • Calibration and maintenance• Customization
➊TECHNICALPERFORMANCE• Circular polarization available with external hybrid coupler • Uniform gain over operational bandwidth• Dual linear discrimination with high polarization purity and isolation• Low VSWR• Wide bandwidth
➋DESIGN• Prevents excitation of unwanted higher order modes in the aperture• Smooth radiation pattern over the operational bandwidth• Lightweight for easy handling
➌REPEATABILITY• Stiff and robust mechanical design• Standard SATIMO circular interface for precision centering• Precision pin for accurate polarization alignment• Precision machined• High reliability connector
REFERENCE ANTENNAS
QH Typical 3D cross-Polarization radiation pattern
QH Typical 3D co-Polarization radiation pattern
REFERENCE ANTENNAS
34
QH 400 performance
❚ @ 3 GHz Normalized Elevation Patterns (E – H plane) - Lower Port
❚ @ 3 GHz Normalized Elevation Patterns (E – H plane) - Upper Port
Pattern E-plane lower port @ 3 GHz
Pattern E-plane PORT 2 @ 3 GHz
Pattern H-plane lower port @ 3 GHz
Pattern H-plane PORT 2 @ 3 GHz
QH 2000 boresight gain vs frequency
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Electricalcharacteristics
Part number QH 400 QH 800 QH 2000
Type of antenna Open boundary Open boundary Open boundary wideband wideband wideband Quad ridge antenna Quad ridge antenna Quad ridge antenna
Frequency range 0.4 – 6.0 GHz 0.8 – 12 GHz 2 – 32 GHz
Average gain 5 – 15 dBi 5 – 15 dBi 5 – 17 dBi
Average VSWR < 1.9:1 < 1.9:1 < 2.5:1 [2-4 GHz] < 1.9:1 [4-32 GHz]
Average return loss < -10 dB < -10 dB <-7 dB [2-4 GHz] < -10 dB [4-32 GHz]
Polarization Dual linear Dual linear Dual linear
Cross-polar discrimination > 30 dB > 30 dB [0.8-10.2] GHz > 30 dB
> 25 dB [10.8-12.0] GHz
Port-to-port isolation > 30 dB > 30 dB [0.8-10.8] GHz > 30 dB
> 25 dB [10.8-12.0]GHz
Impedance 50 Ohms 50 Ohms 50 Ohms
QH 800 performance
❚ @ 6 GHz Normalized Elevation Patterns (E – H plane) - Lower Port
❚ @ 6 GHz Normalized Elevation Patterns (E – H plane) - Upper Port
Pattern E-plane lower port @ 6 GHz
Pattern E-plane PORT 2 @ 6 GHz
Pattern H-plane lower port @ 6 GHz
Pattern H-plane PORT 2 @ 6 GHz
36
M5
ø4 H7
ø65
ø110
67.2
67.2
Mechanicalcharacteristics
Part number QH 400 QH 800 QH 2000
Dimensions (approx) H x W X L 527 x 527 x 462 mm 264 x 264 x 245 mm 110 x 105 x 105 mm
Weight (approx) 5 kg 1.2 kg 0.24 kg
Connector PC 3.5 Female(1) PC 3.5 Female(1) PC 3.5 Female(1)
Material Aluminum Aluminum Aluminum
Treatment Alodine 1200(2) Alodine 1200(2) Alodine 1200(2)
Color Blue Blue Blue
Interface Ø 110 mm 110 mm 60 mm
(1)Huber+Suhnertype23PC35-50-0-51/199UE(2)EquivalenttoMIL-C5541Eclass3
QH 400, QH 800 interface
M4
ø3 H7ø35.4
ø60 ø50
“L”
“W”= “H”
QH 2000 interface
Mechanical drawing
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Closed Wideband Quad Ridge Horns >
> Main use: • Gain calibration• Wideband probe for far-field test range• Reflector feed for high gain applications
> Delivered documents: • Typical performance data (TYMEDATM)• Measured return loss data and port-to-port coupling
> Surface treatment: • Alodine 1200 according to MIL-C 5541E class 3• Blue paint
> Related services: • Calibration and maintenance• Customization
➊TECHNICALPERFORMANCE• Circular polarization available with external hybrid coupler• Uniform gain over operational bandwidth• Dual linear discrimination with high polarization purity and isolation• Low VSWR• Wide bandwidth
➋DESIGN• Prevents excitation of unwanted higher order modes in the aperture• Smooth radiation pattern over the operational bandwidth• Lightweight for easy handling
➌REPEATABILITY• Stiff and robust mechanical design• Standard SATIMO circular interface for precision centering• Precision pin for accurate polarization alignment• Precision machined• High reliability connector
REFERENCE ANTENNAS
QR Typical 3D cross-Polarization radiation pattern
QR 18000
QR 2000 QR Typical 3D co-Polarization radiation pattern
REFERENCE ANTENNAS
38
Electricalcharacteristics
Part number QR 2000 QR 18000
Type of antenna Closed wideband Closed wideband quad ridge horn quad ridge horn
Frequency range 2 – 18 GHz 18 – 40 GHz
Average gain 7 – 21 dBi 14 – 18 dBi
Average VSWR < 1.9:1 < 1.9:1
Return loss < -10 dB < -10 dB
Polarization Dual linear Dual linear
Cross polar Discrimination > 25 dB (typical) > 30 dB (typical)
Port-to-port isolation > 30 dB (typical) > 35 dB (typical)
Impedance 50 Ohms 50 Ohms
Mechanicalcharacteristics
Part number QR 2000 QR 18000
Dimensions 257.4 x 125 x 125 134.7 x 48 x 48 H x W x L [mm]
Weight (approx) 1.3 Kg 0.2 Kg
Connector PC 3.5(1) Female K(2) Female
Material Aluminum Aluminum
Treatment Alodine 1200(3) Alodine 1200(3)
Color Blue Blue
Interface Ø 60 mm 60 mm
(1)Huber+Suhnertype23PC35-50-0-51/199UE(2)SWMItype1012-16SF(3)EquivalenttoMIL-C5541Eclass3
Mechanical drawing & interface
“L”
“W”= “H”
QR2000 Boresight gain versus frequency
QR2000 E plane cut at 10 GHz
QR2000 H plane cut at 10 GHz
M4
ø3 H7ø35.4
ø60 ø50
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Measurementprobes>
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Open-Ended Waveguides >
> Main use: • Near-field probes from L to Ka band• Calibration and polarization reference
> Delivered documents: • Measured return loss• Theoretical gain versus frequency information data
> Surface treatment: • Alodine 1200 according to MIL-C 5541E class 3 • Blue paint
> Included equipment: • Mounting flange• Integral coaxial transition with high precision SMA connectors• Absorber plates
> Related services: • Calibration and maintenance• Customization
➊TECHNICALPERFORMANCE• Low loss and high efficiency• Bandwidth (L to Ka band)
➋DESIGN• Tapered ends to minimize diffraction effects• Lightweight for easy handling• Standard wave guide bands
➌REPEATABILITY• Stiff and robust mechanical design• Standard SATIMO circular interface for precision centering• Precision machined• High reliability connector • Integral coaxial transition with high precision SMA connectors• Precision pin for accurate polarization alignment
MEASUREMENT PROBES
Typical 3D radiation pattern
OEW 585
MEASUREMENT PROBES
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Mechanical drawing & interface
M5 M4
ø3 H7
ø4 H7
ø35.4
ø60ø65
ø110
67.2
67.2
ø50
Electricalcharacteristics
Part number Frequency range [GHz] Waveguide band Polarization
OEW 049 0.49-0.75 WR 1500 Linear
OEW 075 0.75-1.12 WR 975 Linear
OEW 096 0.96-1.45 WR 770 Linear
OEW 112 1.12-1.70 WR 650 Linear
OEW 145 1.45-2.20 WR 510 Linear
OEW 170 1.70-2.60 WR 430 Linear
OEW 220 2.20-3.30 WR 340 Linear
OEW 260 2.60-3.95 WR 284 Linear
OEW 330 3.30-4.90 WR 229 Linear
OEW 395 3.95-5.85 WR 187 Linear
OEW 490 4.90-7.05 WR 159 Linear
OEW 585 5.85-8.20 WR 137 Linear
OEW 705 7.05-10.0 WR 112 Linear
OEW 820 8.20-12.40 WR 90 Linear
OEW 1000 10.00-15.00 WR 75 Linear
OEW 1240 12.40-18.00 WR 62 Linear
OEW 1800 18.00-26.50 WR 42 Linear
OEW 2650 26.50-40.00 WR 28 Linear
W
L D
H
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Mechanicalcharacteristics
Part number Absorbers Dimensions Weight Connector Material Treatment Color Interface D L W=H (approx) (Ø) [mm] [mm] [mm] [kg] [mm]
OEW 049 AEP-18 815 1047 609.6 17.8 SMA(2) Female Aluminum Alodine(1) 1200 Blue 110 x 609.6 (N(3) type optional)
OEW 075 AEP-18 815 994 609.6 15.0 SMA(2) Female Aluminum Alodine(1) 1200 Blue 110 x 609.6 (N(3) type optional)
OEW 096 AEP-18 815 973 609.6 13.3 SMA(2) Female Aluminum Alodine(1) 1200 Blue 110 x 609.6 (N(3) type optional)
OEW 112 AEP-12 815 959 609.6 10.2 SMA(2) Female Aluminum Alodine(1) 1200 Blue 110 x 609.6 (N(3) type optional)
OEW 145 AEP-12 815 942 609.6 8.8 SMA(2) Female Aluminum Alodine(1) 1200 Blue 110 x 609.6 (N(3) type optional)
OEW 170 AEP-12 610 726 609.6 8.1 SMA(2) Female Aluminum Alodine(1) 1200 Blue 110 x 609.6 (N(3) type optional)
OEW 220 AEP-12 610 719 609.6 6.9 SMA(2) Female Aluminum Alodine(1) 1200 Blue 110 x 609.6 (N(3) type optional)
OEW 260 AEP-8 405 502 457.2 3.1 SMA(2) Female Aluminum Alodine(1) 1200 Blue 110 x 457.2 (N(3) type optional)
OEW 330 AEP-8 405 500 457.2 3.3 SMA(2) Female Aluminum Alodine(1) 1200 Blue 110 x 457.2 (N(3) type optional)
OEW 395 AEP-6 330 420 406.4 2.5 SMA(2) Female Aluminum Alodine(1) 1200 Blue 110 x 406.4 (N(3) type optional)
OEW 490 AEP-6 330 408 406.4 2.4 SMA(2) Female Aluminum Alodine(1) 1200 Blue 110 x 406.4 (N(3) type optional)
OEW 585 AEP-6 330 410 406.4 2.2 SMA(2) Female Aluminum Alodine(1) 1200 Blue 110 x 406.4 (N(3) type optional)
OEW 705 AEP-4 280 337 406.4 2.0 SMA(2) Female Aluminum Alodine(1) 1200 Blue 60 x 406.4 (N(3) type optional)
OEW 820 AEP-4 280 334 406.4 2.0 SMA(2) Female Aluminum Alodine(1) 1200 Blue 60 x 406.4 (N(3) type optional)
OEW 1000 AEP-4 280 333 406.4 1.6 SMA(2) Female Aluminum Alodine(1) 1200 Blue 60 x 406.4 (N(3) type optional)
OEW 1240 AEP-4 280 322 406.4 1.8 SMA(2) Female Aluminum Alodine(1) 1200 Blue 60 x 406.4 (N(3) type optional)
OEW 1800 AEP-4 280 320 406.4 1.8 SMA(4) Female Aluminum Alodine(1) 1200 Blue 60 x 406.4
OEW 2650 AEP-4 280 321 406.4 1.8 K(5) Female Aluminum Alodine(1) 1200 Blue 60 x 406.4
(1)EquivalenttoMIL-C5541Eclass3(2)SWMItype212-503SF(3)SWMItype312-14SF(4)SWMItype212-513SF(5)SWMItype1012-23SF
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Dual Polarized Open-Ended Waveguide With Interchangeable Apertures>
> Main use: • Dual polarized field probe for near-field and far-field
measurement • Calibration and polarization reference
> Delivered documents: • Measured return loss and port-to-port coupling• Typical performance data (TYMEDATM)
> Surface treatment: • Alodine 1200 according to MIL-C 5541E class 3• Blue paint
> Included equipment: • Mounting flange• Removable absorber plates
> Related services: • Calibration and maintenance• Customization • Available with integrated RF switch upon request
➊TECHNICALPERFORMANCE• Avoid any additional alignment procedures when aperture is changed• Minimize interaction between probe and the antenna under test
➋DESIGN• Apertures integrated with a wideband dual polarized orthomode junction• Tapered ends to minimize diffraction effects• Lightweight for easy handling• Easily interchangeable apertures
➌REPEATABILITY• Repeatable radiation performance due to the axial symmetry of the interchangeable apertures• Stiff and robust mechanical design• Standard SATIMO circular interface for precision centering• Precision machined• High precision PC 3.5 mm Female connectors• Precision pin for accurate polarization alignment
MEASUREMENT PROBES
Typical 3D radiation pattern
DOEW 6000
MEASUREMENT PROBES
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Mechanicalcharacteristics
Part number DOEW 6000 DOEW 18000
Dimensions* L x D X Ø 362 x 216 x 400 mm 231 x 85 x 400 mm
Apertures Threaded termination Threaded termination
Weight* 2 kg 1.9 kg
Connector K female(1) K Female(1)
Material Aluminum Aluminum
Treatment Alodine 1200(2) Alodine 1200(2)
Color Blue Blue
Interface (Standard) Ø 110 mm 110 mm
*Approximately
(1) SWMI type 1032-10SF
(2) MIL-C 5541 E class 3
Mechanical drawing
L
D
Ø
Electricalcharacteristics
Part number DOEW 6000 DOEW 18000
Frequency range 6 - 20 GHz divided into three sub-bands 18 - 40 GHz divided into two sub-bands (1:1.5 bandwidth ratio each) (1:1.5 bandwidth ratio each)
Average gain > 7 dBi > 7 dBi
Average VSWR 2.0:1 2.0:1
Polarization Dual linear Dual linear
Port-to-port isolation 45 dB 45 dB
Impedance 50 Ohms 50 Ohms
Absorbers AEMI AEP-4 AEMI AEC-1.5
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DOEW 6000 Aperture 1: Measured Boresight Gain
DOEW 6000 Aperture 2: Measured Boresight Gain
DOEW 6000 Aperture 3: Measured Boresight Gain
DOEW 6000 Aperture 1: Measured Return Loss and Isolation
DOEW 6000 Aperture 2: Measured Return Loss and Isolation
DOEW 6000 Aperture 3: Measured Return Loss and Isolation
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DOEW 6000 Aperture 1: Radiation pattern at 6 GHz
DOEW 6000 Aperture 2: Radiation pattern at 9 GHz
DOEW 6000 Aperture 3: Radiation pattern at 13.5 GHz
DOEW 6000 Aperture 3: Radiation pattern at 20 GHz
DOEW 6000 assembly Three aperture choices
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Dual Polarized Probes >
> Main use: • Spherical and planar near-field measurement probes• Measurement probes for far-field systems
> Delivered documents: • Typical performance data (TYMEDATM)• Return loss data and port-to-port coupling
> Surface treatment: • Alodine 1200 according to MIL-C 5541 E class 3 • Blue paint
> Optional equipment: • Custom mechanical interface• Absorder plates
> Related services: • Calibration, maintenance, customization
➊TECHNICALPERFORMANCE• Pattern shape• On-axis polarization purity• Off-axis polarization purity• Low return loss / VSWR• Port-to-port isolation
➋DESIGN• Consists of an orthomode junction (OMJ) feeding a circular, open-ended or corrugated aperture• OMJ based on a quad-ridge circular waveguide with external feeding circuits• OMJ feeds directly into a circular waveguide providing wideband performance• Electrical symmetry for mono-mode excitation enforced by balanced feeding on a 1:3 bandwidth
➌REPEATABILITY• Stiff and robust mechanical design• Precision machined• High reliability connectors• High reliability of external components
MEASUREMENT PROBES
Typical 3D pattern
SP 2600
MEASUREMENT PROBES
SP 800
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Standard probes
Electricalcharacteristics
Part number SP 800 SP 2600 SP 6000 SP 18000
Type of antenna dual probe dual probe dual probe dual probe
Frequency BW 0.8 – 3 GHz 2.6 – 8.2 GHz 6 – 20 GHz 18 – 40 GHz
Return loss < -10 dB < -10 dB < -10 dB < -10 dB
VSWR < 1.9 < 1.9 < 1.9 < 1.9
Polarization Dual Linear H & V Dual Linear H & V Dual Linear H & V Dual Linear H & V
Antenna gain > 8 dBi > 8 dBi > 7 dBi > 8 dBi
On-axis XPD > 45 dB > 45 dB > 45 dB > 45 dB
Impedance 50 Ohms 50 Ohms 50 Ohms 50 Ohms
Port-to-port isolation > 45 dB > 45 dB > 45 dB > 45 dB
Polarization orientation < 0.6° < 0.6° < 0.6° < 0.6°
Channel imbalance < 0.5 dB < 0.5 dB < 0.5 dB < 0.5 dB
Antenna losses(1) < 1 dB < 1 dB < 1.5 dB < 2 dB
(1)AntennaLosses:Directivity–IEEEgain
SP 800 directivity pattern at 2 GHz SP 6000 directivity pattern cuts at 12 GHz
Mechanicalcharacteristics
Part number SP 800 SP 2600 SP 6000 SP 18000
Length (L) < 800 mm < 500 mm < 365 mm < 235 mm
Radiating aperture diameter (D) 280 mm 120 mm 50 mm 17 mm
Weight < 5 Kg < 2.5 Kg < 2 Kg < 1.9 Kg
Interface Standard 110 Standard 110 Standard 110 Standard 110
Connectors PC 3.5 Female K Female(1) K Female(1) K Female(1)
(1)SWMItype1032-10SF
Mechanical drawing
“L”
“D”
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Custom probes
Probe customization can be implemented for the following features:
Polarization:• Dual Linear• Dual Circular
Aperture types:• Corrugated design based on customer specifications• Flared design• Stepped design• Open ended design
Launcher types:• Auto balanced feeding• SP feeding (refer to standard probes)• Balanced feeding with external BFN • Waveguide orthomode junction
Examples of custom probes are shown below.
DCP580
Probe Frequency range Launcher type Aperture
DCP-SC-100 DLP-SC-100
1.00 – 2.00 GHz SP feeding Corrugated
DLP-AC-150 1.50 – 1.90 GHz Auto balanced feeding Corrugated
DCP-SC-200DLP-SC-200
2.00 – 3.30 GHz SP feeding Corrugated
DLP-AC-190 1.90 – 2.35 GHz Auto balanced feeding Corrugated
DLP-AC-235 2.35 – 2.90 GHz Auto balanced feeding Corrugated
DLP-AF-270 2.70 – 3.40 GHz Auto balanced feeding Flared
DLP-BC-340DCP-BC-340
3.40 – 4.20 GHz External BFN Corrugated
DLP-SS-340 3.40 – 7.00 GHz SP feeding Stepped-Flared
DLP-AC-390 3.90 – 4.85 GHz Auto balanced feeding Corrugated
DLP-BC-580 5.80 – 6.70 GHz External BFN Corrugated
DCP-SC-580 5.80 – 6.80 GHz SP feeding Corrugated
DLP-AC-610 6.10 – 7.50 GHz Auto balanced feeding Corrugated
DCP-SC-600DLP-SC-600
6.00 – 12.00 GHz SP feeding Corrugated
DCP-SC-700DLP-SC-700
7.00 – 14.00 GHz SP feeding Corrugated
DLP-AF-850 8.50 – 10.00 GHz Auto balanced feeding Flared
DCP-SC-1000DLP-SC-1000
10.00 – 20.00 GHz SP feeding Corrugated
DLP-WC-1070 10.70 – 14.60 GHz Waveguide junction Corrugated
DCP-SC-1240DLP-SC-1240
12.40 – 20.00 GHz SP feeding Corrugated
DLP-WC-1670 16.70 – 18.60 GHz Waveguide junction Corrugated
DLP: Dual Linear Probe DCP: Dual Circular Probe
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Compact Range Feed Horns>
> Main use: • Illumination of compact range reflectors • Direct range illumination or field probing • Illumination of communication reflector antennas
> Delivered documents: • Measured VSWR• Measured radiation pattern main cuts (0°, 45°, 90° and 135°)
> Surface treatment: • Anodized
> Related services: • Calibration, maintenance, customization (i.e. high gain half octave, dual linear low gain full octave, dual linear medium gain…)
➊TECHNICALPERFORMANCE• Rotationally symmetric radiation pattern• Low cross polarization• Stable amplitude taper with frequency• Optimized reflector edge and chamber wall illumination
➋DESIGN• High precision mechanical mounting• Corrugated aperture
MEASUREMENT PROBES
WhichCRfeedhorndoyouneed?
Suited for Main characteristics
Low Gain Compact range with Lower amplitude short focal length taper, lower weight, options for full octave bandwidth, higher reflector edge and wall illumination, higher cross-polarization
Medium Gain Standard focal Best overall length ORBIT/FR performance, reflectors compliant to the compact range catalogue specifications
High Gain Measurement applications Higher amplitude taper, for antennas smaller lower reflector edge than the specified quiet and wall illumination, zone size that require reduced quiet zone size high accuracy low sidelobe measurements
MEASUREMENT PROBES
AL-2309-2.6-SL shown with optional absorber plate
AL 2309-2.60 DL
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Half octave single linear feed horns
The medium gain corrugated horn is the first choice for general purpose compact ranges. It offers the best overall performance in regard to amplitude taper, cross polarization performance, reflector edge illumi-nation, chamber wall illumination, and feed leakage into the quiet zone.
The low gain corrugated feed horns offer lower amplitude taper (typically 0.3 dB over the full quiet zone versus 0.8 dB for the medium gain horns) at the cost of slightly degraded quiet zone ripple and cross-polarization performance. It is also fre-quently used on compact range systems with shorter focal lengths, which require an illumination cone angle of ± 16 deg. Other advantages of the low gain feeds are lower weight and the availability of a full octave frequency bandwidth up to 8 GHz.
Part number Frequency Gain Directivity VSWR Taper Cross Nominal 3 dB range (GHz) (dBi) (Typ) (dBi) (Typ) (dB)(1) polarization(1) (Typ) Beamwidth
AL 2309-0.75 SL 0.75 - 1.12 13 14 1.6:1 0.8 35° 34 - 40°
AL 2309-1.12 SL 1.12 - 1.70 13 14 1.6:1 0.8 35° 34 - 40°
AL 2309-1.70 SL 1.70 - 2.60 13 14 1.6:1 0.8 37° 34 - 40°
AL 2309-2.00 SL 2.00 - 3.00 13 14 1.6:1 0.8 37° 34 - 40°
AL 2309-2.60 SL 2.60 - 3.95 13 14 1.6:1 0.8 37° 34 - 40°
AL 2309-3.00 SL 3.00 - 4.50 13 14 1.6:1 0.8 37° 34 - 40°
AL 2309-3.95 SL 3.95 - 5.85 13 14 1.4:1 0.8 40° 34 - 40°
AL 2309-4.50 SL 4.50 - 6.70 13 14 1.4:1 0.8 40° 34 - 40°
AL 2309-5.85 SL 5.85 - 8.20 13 14 1.4:1 0.8 40° 34 - 40°
AL 2309-6.70 SL 6.70 - 10.0 13 14 1.4:1 0.8 40° 34 - 40°
AL 2309-8.20 SL 8.20 - 12.4 13 14 1.4:1 0.8 40° 34 - 40°
AL 2309-10.0 SL 10.0 - 15.0 13 14 1.4:1 0.8 40° 34 - 40°
AL 2309-12.4 SL 12.4 - 18.0 13 14 1.4:1 0.8 40° 34 - 40°
AL 2309-15.0 SL 15.0 - 22.0 13 14 1.4:1 0.8 40° 34 - 40°
AL 2309-18.0 SL 18.0 - 26.5 13 14 1.4:1 0.8 40° 34 - 40°
AL 2309-22.0 SL 22.0 - 33.0 13 14 1.4:1 0.8 40° 34 - 40°
AL 2309-26.5 SL 26.5 - 40.0 13 14 1.4:1 0.8 40° 34 - 40°
AL 2309-33.0 SL 33.0 - 50.0 13 14 1.4:1 0.8 37° 34 - 40°
AL 2309-40.0 SL 40.0 - 60.0 13 14 1.4:1 0.8 35° 34 - 40°
AL 2309-50.0 SL 50.0 - 75.0 13 14 1.4:1 0.8 35° 34 - 40°
AL 2309-60.0 SL 60.0 - 90.0 13 14 1.4:1 0.8 35° 34 - 40°
AL 2309-75.0 SL 75.0 - 110.0 13 14 1.4:1 0.8 35° 34 - 40°
(1)Cross-polarizationappliestotheconicalangleof+-8deg,whichilluminatesthequietzoneofORBIT/FRcompactranges.
Mechanical drawing
Medium gain
• Alignment pin for accurate and repeatable mounting.• Spirit level for repeatable polarization reference.
Mediumgainfeedhornswithdualpolarizationformoreefficientrangeutilizationareavailableuponrequest.
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Medium gain corrugated feed horn aperture performance
Part number Frequency Gain Directivity VSWR Taper Taper Nominal 3 dB range (GHz) (dBi) (Typ) (dBi) (Typ) (dB)(1) (dB)(2) Beamwidth
AL 2310-0.75 SL 0.75 - 1.12 9 10 1.6:1 0.3 0.9 55 - 66
AL 2310-1.12 SL 1.12 - 1.70 9 10 1.6:1 0.3 0.9 55 - 66
AL 2310-1.70 SL 1.70 - 2.60 9 10 1.6:1 0.3 0.9 55 - 66
AL 2310-2.00 SL 2.00 - 3.00 9 10 1.6:1 0.3 0.9 55 - 66
AL 2310-2.60 SL 2.60 - 3.95 9 10 1.6:1 0.3 0.9 55 - 66
AL 2310-3.00 SL 3.00 - 4.50 9 10 1.6:1 0.3 0.9 55 - 66
AL 2310-3.95 SL 3.95 - 5.85 9 10 1.4:1 0.3 0.9 55 - 66
AL 2310-4.50 SL 4.50 - 6.70 9 10 1.4:1 0.3 0.9 55 - 66
AL 2310-5.85 SL 5.85 - 8.20 9 10 1.4:1 0.3 0.9 55 - 66
AL 2310-6.70 SL 6.70 - 10.0 9 10 1.4:1 0.3 0.9 55 - 66
AL 2310-8.20 SL 8.20 - 12.4 9 10 1.4:1 0.3 0.9 55 - 66
AL 2310-10.0 SL 10.0 - 15.0 9 10 1.4:1 0.3 0.9 55 - 66
AL 2310-12.4 SL 12.4 - 18.0 9 10 1.4:1 0.3 0.9 55 - 66
AL 2310-15.0 SL 15.0 - 22.0 9 10 1.4:1 0.3 0.9 55 - 66
AL 2310-18.0 SL 18.0 - 26.5 9 10 1.4:1 0.3 0.9 55 - 66
AL 2310-22.0 SL 22.0 - 33.0 9 10 1.4:1 0.3 0.9 55 - 66
AL 2310-26.5 SL 26.5 - 40.0 9 10 1.4:1 0.3 0.9 55 - 66
AL 2310-33.0 SL 33.0 - 50.0 9 10 1.4:1 0.3 0.9 55 - 66
AL 2310-40.0 SL 40.0 - 60.0 9 10 1.4:1 0.3 0.9 55 - 66
AL 2310-50.0 SL 50.0 - 75.0 9 10 1.4:1 0.3 0.9 55 - 66
AL 2310-60.0 SL 60.0 - 90.0 9 10 1.4:1 0.3 0.9 55 - 66
AL 2310-75.0 SL 75.0 - 110.0 9 10 1.4:1 0.3 0.9 55 - 66
(1)Cross-polarizationappliestotheconicalangleof±8deg,whichilluminatesthequietzoneofORBIT/FRcompactranges.
(2)Cross-polarizationappliestotheconicalangleof±16deg.
Low gain
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Low gain feed horn aperture performance
Mechanicalcharacteristics
Part number Aperture diameter Connector
AL-2310-1.70-SL 359 mm SMA
AL-2310-2.60-SL 236 mm SMA
AL-2310-3.95-SL 157 mm N
AL-2310-5.85-SL 110 mm N
AL-2310-8.20-SL 75 mm SMA
AL-2310-12.4-SL 51 mm SMA
AL-2310-18.0-SL 35 mm K
AL-2310-26.5-SL 23 mm K
AL-2310-33.0-SL 19 mm 2.4
AL-2310-50.0-SL 12 mm WR 15
AL-2310-75.0-SL 8 mm WR 10
Mechanicalcharacteristics*
Part number Aperture diameter Connector
AL 2309-0.75 SL 877 mm N
AL 2309-1.12 SL 586 mm SMA
AL 2309-1.70 SL 373 mm SMA
AL 2309-2.00 SL 328 mm SMA
AL 2309-2.60 SL 246 mm SMA
AL 2309-3.00 SL 219 mm SMA
AL 2309-3.95 SL 168 mm SMA
AL 2309-4.50 SL 147 mm SMA
AL 2309-5.85 SL 117 mm SMA
AL 2309-6.70 SL 99 mm SMA
AL 2309-8.20 SL 80 mm SMA
AL 2309-10.0 SL 66 mm SMA
AL 2309-12.4 SL 54 mm SMA
AL 2309-15.0 SL 45 mm SMA
AL 2309-18.0 SL 37 mm K
AL 2309-22.0 SL 30 mm K
AL 2309-26.5 SL 25 mm K
AL 2309-33.0 SL 20 mm 2.4
AL 2309-40.0 SL 15 mm WR 19
AL 2309-50.0 SL 13 mm WR 15
AL 2309-60.0 SL 10 mm WR 12
AL 2309-75.0 SL 9 mm WR 10
*Typicalcharacteristicsformediumgainfeedhorns
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Electricalcharacteristics
Part number AL 2310-1 SL WB AL 2310-2 SL WB AL 2310-4 SL WB
Available frequencies 1 – 2 GHz 2 – 4 GHz 4 – 8 GHz
Average gain 9 dBi 9 dBi 9 dBi
Nominal 3dB Beamwidth 48-70° 48-70° 48-70°
Full octave single linear feed horns
Half octave dual linear feed horns
Low gain full octave aperture performance
Mechanicalcharacteristics
Part number AL 2310-1 SL WB AL 2310-2 SL WB AL 2310-4 SL WB
Connector SMA SMA SMA
ORBIT/FR offers a full line of dual linear polarized feeds to enable convenient and more efficient range utilization. An automatic high speed (PIN diode) or pre-test (electromechanical) switching between two ports is also available (as an option). Theses feeds incorporate the corrugated aperture design needed to produce the rotationally symmetric patterns optimized for reflector illumination. High levels of polarization isolation are achieved due to specific orthomode design.
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Specifications for standard orbit/fr dual linear feeds are shown below
Mechanicalcharacteristics
Part number Aperture diameter Connector
AL 2309-0.75 DL 877 N
AL 2309-1.12 DL 586 SMA
AL 2309-1.70 DL 373 SMA
AL 2309-2.60 DL 246 SMA
AL 2309-3.95 DL 164 SMA
AL 2309-5.85 DL 117 SMA
AL 2309-8.20 DL 80 SMA
AL 2309-12.40 DL 54 SMA
AL 2309-18.00 DL 37 K
AL 2309-26.50 DL 25 K
AL 2309-40.00 DL 15 WR 19
Electricalcharacteristics
Part number Frequency Gain Cross polarization(1) VSWR Nominal 3 dB range (GHz) (dBi) (Typ) (dB) (Typ) (Typ) Beamdwidth
AL 2309-0.75 DL 0.75 - 1.12 12 37 1.5:1 ± 16 - 20°
AL 2309-1.12 DL 1.12 - 1.70 12 37 1.5:1 ± 16 - 20°
AL 2309-1.70 DL 1.70 - 2.60 12 37 1.5:1 ± 16 - 20°
AL 2309-2.60 DL 2.60 - 3.95 12 37 1.5:1 ± 16 - 20°
AL 2309-3.95 DL 3.95 - 5.85 12 37 1.5:1 ± 16 - 20°
AL 2309-5.85 DL 5.85 - 8.20 12 37 1.5:1 ± 16 - 20°
AL 2309-8.20 DL 8.20 - 12.4 12 37 1.5:1 ± 16 - 20°
AL 2309-12.40 DL 12.4 - 18 12 40 1.5:1 ± 16 - 20°
AL 2309-18.00 DL 18 - 26.5 12 40 1.5:1 ± 16 - 20°
AL 2309-26.50 DL 26.5 - 40 12 40 1.5:1 ± 16 - 20°
AL 2309-40.00 DL 40 - 60 12 40 1.5:1 ± 16 - 20°
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Diagonal Horns >
> Main use: • Illumination of anechoic chambers• Quasi-monostatic radar cross section (RCS) measurements• Outdoor antenna and RCS measurements• Illumination of DUT for EW evaluations• Material measurements
> Delivered document: • Measured VSWR data
> Included equipment: • Waveguide to coax adapters
> Related services: • Measured antenna pattern data, mounting bracket• Customization for other range geometries
➊TECHNICALPERFORMANCE• Nearly circular symmetric beam• Extremely low sidelobes (30 dB nominal)• 60 dB isolation between adjacent diagonal horns• 2.5:1 bandwidth or more• Nominally constant gain and bandwidth
➋DESIGN• Low sidelobes due to diagonal design• Aperture defocusing produces minimal variations in gain
MEASUREMENT PROBES
MEASUREMENT PROBES
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Thelowsidelobelevelofthediagonalhornresultsinextremelylowspecularreflectionsfromchamberwalls,thusprovidingsubstantiallyimprovedquietzoneperformanceandgreatermeasurementaccuracy.
Electricalcharacteristics
Part number OFR 6417 A OFR 6415 OFR 6414 OFR 6413Frequency range 1 – 3 GHz 3 – 8 GHz 6.5 – 18 GHz 18 – 40 GHzGain (nominal) 17 dBi 17 dBi 22 dBi 17 dBiBeamwidth, deg (nominal) 17 dBi 17 dBi 14 dBi 17 dBiSidelobe level (nominal) 30 dB 30 dB 30 dB 30 dBVSWR (max) 2:1 2:1 2:1 2:1Isolation (min) 60 dB 60 dB 60 dB 60 dBInput N Female SMA Female SMA Female WRD-180
OFR 6417 Typical antenna gain OFR 6414 Typical antenna gain
OFR 6415 Typical antenna gain
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Mechanicalcharacteristics
Part number OFR 6417 A OFR 6415 OFR 6414 OFR 6413Length (in) 58.25 23 23.7 4.84Aperture size (in) 31 10 8.25 1.95Aperture (sq feet) 6.67 0.7 0.47 0.026Flare length (in) 34.06 11 17.5 2.15Length with adapter (in) 62.6 25 24.75 5.84Mounting plate size (sq in) 23 10 8 0.8Weight (lb) 64 20 5 0.5
OFR 6414 typical V plane antenna pattern OFR 6415 typical V plane antenna pattern
OFR 6414 typical H plane antenna pattern OFR 6415 typical H plane antenna pattern
OFR 6417 Mechanical drawing & interface
62.6058.25
34.06
31.00inside
SQ
.25
27.62
11.00
11.00
11.00SQ.
(REF.)
11.00 11.00
7.33
7.337.333.663.66
Ø .26 THRU24 PLS.
7.33
3.66
3.6623.00
23.00
Center of gravity
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OFR 6413 Mechanical drawing & interface
OFR 6414 Mechanical drawing & interface
OFR 6415 Mechanical drawing & interface
4.842.502.151
1.951
8.00
10.00
10.00
8.00
.281 DIA. THRU16 PLS.
.281 DIA. THRU20 PLS.
24.75 (REF.)23.70 (REF.)
17.55 (REF.)
24.68 (REF.)23.18 (REF.)
11.02 (REF.)
10.28 (REF.)
8.25 (REF.)
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Dual Polarization Feed Antennas >
> Main use: • Illumination of anechoic chambers• Compact Range feed• Outdoor antenna and RCS measurements • Near-field probe • Material measurements
> Delivered documents: • Measured VSWR data• Port-to-port isolation data
> Optional equipment: • Mounting bracket
> Related services: • Measured antenna pattern data, measured gain• Maintenance and customization to specific range geometries
➊TECHNICALPERFORMANCE• Nearly circularly symmetric beam • 40 dB minimum isolation between ports • 10:1 bandwidth • Nominally constant gain and beamwidth
➋DESIGN• Compact size for a low frequency antenna
MEASUREMENT PROBES
MEASUREMENT PROBES
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Electricalcharacteristics
Part number AL-2309-LF
Frequency range 200 MHz – 2000 MHz
Bandwidth ratio 10:1
Gain (nominal) 1.7 to 4.3 dBi
VSWR < 3:1 (< 2:1 typical)
3 dB Beamwidth E plane 70 to 75 degrees (0.4-2 GHz)
3 dB Beamwidth E plane < 120 degrees (0.2-0.4 GHz)
3 dB Beamwidth H plane 70 to 75 degrees (0.4-1.8 GHz)
3 dB Beamwidth H plane < 85 degrees (0.2-0.4 GHz and 1.8-2.0 GHz)
Isolation (min) > 40 dB (port-to-port)
Connector SMA
Mechanicalcharacteristics
Part number AL-2309-LF
Length (in) 13.3
Aperture size (in) 28.2 diameter
Aperture (sq feet) 4.3
Length with bracket (in) 26
Mounting plate size Circular mounting pattern 8 holes 8.3 mm on 290 mm diameter
Weight (lb) 31.2
Typical antenna gain Co & cross polarization E and H plane at 2 GHz
Co & cross polarization E and H plane at 200 MHz Typical 3 dB beamwidth
CopolarHplaneCopolarEplaneCrosspolarHplaneCrosspolarEplane
H’plane-port1E’plane-port1H’plane-port2E’plane-port2
CopolarHplaneCopolarEplaneCrosspolarHplaneCrosspolarEplane
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Additional SATIMO - ORBIT/FR Interface>
The standard SOI interface allows for precise and easy positioning of any SATIMO standard antenna with a 60 mm or 110 mm flange onto an ORBIT/FR measurement system. The interface consists of two parallel flanges (SATIMO flange and ORBIT/FR flange) aligned by three precision rods. The assembly is also equipped with a bubble level. The SATIMO circular interface allows the user to center the an-tenna with very high accuracy. Antennas with the 60 mm flange are fastened by four M4 screws while antennas with the 110 mm flange are fastened by four M5 screws. The alignment is determined by a precision pin.
SOI 200 + SH antenna SOI 200 + QH antenna SOI 200 + SGH antenna SOI 200 + OEW antenna
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SOI 200 Mechanical drawing & interface
8 SATIMO FLANGE
ORBIT FLANGE
ø8 THRUFOR ALIGNMENT PIN ø11 THRU
TYP.8 EQ. ON ø179.4
174,3
3,3 13
ø150
ø200
ø110
ø90,5
Mechanicalcharacteristics
Type of interface SOI 200
Dimensions Ø xH 200 x 175 mm
Weight (approx) 1.4 kg
Material Aluminum ALU 6082-T6
Treatment Alodine 1200(1)
(1)EquivalenttoMIL-C5541Eclass3
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Jamming & Telecommunication>
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Omni-directional High Power Antennas>
➊TECHNICALPERFORMANCE• Radiate power uniformly in horizontal plane• Directive pattern shape in vertical plane• High power up to 400 W
➋DESIGN• Easy to install on a vehicle• Resists harsh environmental conditions
> Main use: • Jamming antenna for radio
communication frequencies
> Delivered documents: • Conformity certificate (measured VSWR)• Antenna manual
> Related standard: • MIL-STD-810-E
> Related services: • Maintenance and customization
PROFESSIONAL APPLICATION
Electricalcharacteristics
Part Number CD 080-B CD 080-A CD 180-B CD 180-A CD 200-A CD 230-A
Frequency range in MHz 800 – 960 800 – 960 1800 – 2170 1800 – 2170 2000 – 2500 2300 – 2900
Gain 6.5 dBi 3 dBi 6.5 dBi 5.8 dBi 6.5 dBi 6.5 dBi
VSWR 2.0:1 2.0:1 2.0:1 2.0:1 2.0:1 2.0:1
CW Power 400 W 400 W 400 W 400 W 400 W 400 W
DC ground Yes Yes Yes Yes Yes Yes
Type Colinear Dipole
Impedance 50 Ohms
Polarization Linear Vertical
Radiation Pattern 360° (Ripple +/-1.5 dB) – Elevation downtilt: 5°
Cross-Polarization < 15 dB
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CD 180-B Typical radiation pattern (vertical cut) CD 180-B Typical VSWR
Mechanicalcharacteristics
Part Number CD 080-B CD 080-A CD 180-B CD 180-A CD 200-A CD 230-A
Dimensions Length (A) 1480 mm 500 mm 690 mm 500 mm 690 mm 690 mmDiameter (B) 138 mm 138 mm 100 mm 100 mm 100 mm 100 mmDiameter (C) 123 mm 123 mm 85 mm 85 mm 85 mm 85 mm
Weight 3.75 kg 1.6 Kg 1.2 Kg 0.9 Kg 1.2 Kg 1.2 Kg
Color of the radome White/Black/ White/Black/ White/Black/ White/Black/ White/Black/ White/Black/ NATO Green NATO Green NATO Green NATO Green NATO Green NATO Green
Radome Polycarbonate/ Polycarbonate/ Polycarbonate/ Polycarbonate/ Polycarbonate/ Polycarbonate/ UV protected UV protected UV protected UV protected UV protected UV protected
Connector N Female N Female N Female N Female N Female N Female
Ingress protection IP 67 IP 67 IP 67 IP 67 IP 67 IP 67
Operating temperature -10°C - +55°C -10°C - +55°C -10°C - +55°C -10°C - +55°C -10°C - +55°C -10°C - +55°C
Storage temperature -30°c +85°c -30°c +85°c -30°c +85°c -30°c +85°c -30°c +85°c -30°c +85°c
Mechanical drawing & interface
A
Ø B
Ø C
Fixing holes: Ø 8.50 0.33
68
➊TECHNICALPERFORMANCE• Radiate power uniformly in horizontal plane• Directive pattern shape in vertical plane• Wide bandwidth• High power up to 100 W
➋DESIGN• Easy to install inside a vehicle• Nato base • Resists harsh environmental conditions
> Main use: • Jamming antenna for radio
communication frequencies
> Delivered documents: • Conformity certificate (measured VSWR)• Antenna manual
> Related standard: • MIL-STD-810-E
> Related services: • Maintenance and customization
PROFESSIONAL APPLICATION
Omni-directional High Power Antennas For Embedded Applications>
Electricalcharacteristics
Part Number CD 040-A
Frequency range 486 – 807 MHz
Gain ≥ 2 dBi at 486 MHz ≥ 5.5 dBi (Freq > 550 MHz)
VSWR 2.0:1
CW Power 100 W
DC ground Yes
Type Colinear Dipole
Impedance 50 Ohms
Polarization Linear Vertical
Radiation Pattern 360° (Ripple +/- 1.5 dB)
Cross-Polarization < 15 dB
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Mechanicalcharacteristics
Part Number CD 040-ADimensions Length (A) 1200 mmDiameter (B) 80 mm
Weight 4 Kg
Color of the radome NATO GREEN
Radome Polycarbonate/UV protected
Connector N Female
Ingress protection IP 67
Operating temperature -10°C - +55°C
Typical VSWR Typical radiation pattern vertical cut
Mechanical drawing & interface
A
Ø B
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➊TECHNICALPERFORMANCE• Radiate uniformily in vertical plane• Directive pattern shape in horizontal plane
➋DESIGN• Resists harsh environmental conditions
> Main use: • Data transmission base station
for Secured-WiFi telecommunications
> Delivered document: • Conformity certificate (measured VSWR)
> Related standard: • IEC-68-2
> Related services: • Maintenance and customization
PROFESSIONAL APPLICATION
Omni-directional Low Power Antennas>
Electricalcharacteristics
Part Number CD 210-B CD 210-A CD 220-B CD 220-A CD 580-A
Frequency range 2100 – 2300 MHz 2100 – 2300 MHz 2200 – 2400 MHz 2200 – 2400 MHz 5725 – 5825 MHz
Gain 6 dBi 2 dBi 10 dBi 6 dBi 6 dBi
VSWR 2.0:1 2.0:1 2.0:1 2.0:1 2.0:1
CW Power 20 W 20 W 20 W 20 W 20 W
DC ground Yes Yes Yes Yes Yes
Type Colinear Dipole Colinear Dipole Colinear Dipole Colinear Dipole Colinear Dipole
Impedance 50 Ohms 50 Ohms 50 Ohms 50 Ohms 50 Ohms
Polarization Linear Vertical Linear Vertical Linear Vertical Linear Vertical Linear Vertical
Radiation Pattern 360° 360° 360° 360° 360° (Ripple +/- 1.5 dB) (Ripple +/- 1.5 dB) (Ripple +/- 1.5 dB) (Ripple +/- 1.5 dB) (Ripple +/- 1.5 dB)
Cross-Polarization < 20 dB < 20 dB < 20 dB < 20 dB < 20 dB
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Mechanicalcharacteristics
Part Number CD 210-B CD 210-A CD 220-B CD 220-A CD 580-A
Dimensions Length (A) 400 mm 150 mm 700 mm 400 mm 180 mmDiameter (B) 22 mm 22 mm 22 mm 22 mm 22 mm
Weight (max) 140 g 100 g 200 g 140 g 120 g
Color of the radome* Pantone cool Pantone cool Pantone cool Pantone cool Pantone cool Gray 1C Gray 1C Gray 1C Gray 1C Gray 1C Nato green Nato green Nato green Nato green Nato green
Radome Acrylonitrile Acrylonitrile Acrylonitrile Acrylonitrile Acrylonitrile Styrene Acrylate Styrene Acrylate Styrene Acrylate Styrene Acrylate Styrene Acrylate (ASA) UL-94-HB/ (ASA) UL-94-HB/ (ASA) UL-94-HB/ (ASA) UL-94-HB/ (ASA) UL-94-HB/ UV protected UV protected UV protected UV protected UV protected
Connector N Female N Female N Female N Female N Female
Ingress protection IP 67 IP 67 IP 67 IP 67 IP 67
Operating temperature -40°C - +50°C -40°C - +50°C -40°C - +50°C -40°C - +50°C -40°C - +50°C
*Differentcolorsavailableuponrequest
CD 220-A Typical radiation pattern in vertical cut CD 220-A Typical VSWR
Mechanical drawing
A
Ø B
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Planar Antennas For Integrated Applications>
➊TECHNICALPERFORMANCE• High gain• Power handling up to 20 W• Linear or circular polarization
➋DESIGN• Optimized WR42 microstrip transition allows the connection of electronic parts with a standard flange• Can be easily integrated in existing systems
> Main use: • General transmitting and receiving
applications at 24 GHz• Radar doppler and radio link point- to-point
> Delivered document: • Conformity certificate (measured VSWR)
> Related standard: • IEC-68-2
> Related services: • Maintenance and customization
PROFESSIONAL APPLICATION
Electricalcharacteristics
Part Number PA 2400-A PA 2400-B PA 2400-C PA 2400CP-A
Frequency range 24.025 – 24.225 GHz 24.025 – 24.225 GHz 24.025 – 24.225 GHz 24.025 – 24.225 GHz
Gain 26 dBi 23 dBi 20 dBi 21 dBic
VSWR 2.0:1 2.0:1 2.0:1 2.0:1
CW power 20 W 20 W 20 W 20 W
Type Patch array Patch array Patch array Patch array
Patch array antennaImpedance 50 Ohms 50 Ohms 50 Ohms 50 Ohms
Polarization Linear Linear Linear RHCP
Radiation pattern Directive Directive Directive Directive
Side lobes H plan < -20 dB < -20 dB < -16 dB < -16 dB
Side lobes V plan < -25 dB < -25 dB < -18 dB < -18 dB
Beamwidth at 3 dB 8° x 8° 13° x 8° 13° x 13° 11° x 11°
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Mechanicalcharacteristics
Part Number PA 2400-A PA 2400-B PA 2400-C PA 2400CP-A
Dimensions Length (A) 130 mm 130 mm 80 mm 80 mmWidth (B) 130 mm 70 mm 80 mm 80 mmThickness (C) 5 mm 5 mm 5 mm 5 mm
Weight < 250 g < 200 g < 100 g < 100 g
Radome No No No No
Connector WR42 WR42 WR42 WR42
Operating temperature -40°C - +50°C -40°C - +50°C -40°C - +50°C -40°C - +50°C
Typical radiation Pattern for PA 2400-A PA 2400 Typical VSWR
Mechanical drawing PA2400-C and PA2400CP-A
AC
B
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Planar Antennas For WLAN Applications>
Electricalcharacteristics
Part Number PA 210-A PA 220-A PA 580-A
Frequency range 2100 – 2300 MHz 2200 – 2400 MHz 5725 – 5875 MHz
Gain ≥ 14 dBi ≥ 14 dBi ≥ 18 dBi
VSWR 1.8:1 1.8:1 1.8:1
CW Power 20 W 20 W 20 W
Type Patch array antenna Patch array antenna Patch array antenna
Impedance 50 Ohms 50 Ohms 50 Ohms
Polarization Linear Vertical Linear Vertical Linear Vertical
DC ground Yes Yes Yes
Radiation pattern Directive Directive Directive
Side lobes H plan < -13 dB < -13 dB < -15 dB
Side lobes V plan < -13 dB < -13 dB < -15 dB
Beamwidth at 3dB H plan 30° ± 4° 30° ± 4° 20° ± 4°
Beamwidth at 3dB V plan 30° ± 4° 30° ± 4° 20° ± 4°
➊TECHNICALPERFORMANCE• Optimized gain• Handling power up to 20 W• Low profile
➋DESIGN• Easy to integrate in existing installations• Connector on the back
> Main use: • General transmitting and receiving applications from 2.1 to 5.8 GHz • Radar doppler and radio link point- to-point
> Delivered document: • Conformity certificate (measured VSWR)
> Related standard: • IEC-68-2
> Related services: • Maintenance and customization
PROFESSIONAL APPLICATION
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Mechanicalcharacteristics
Part Number PA 210-A PA 220-A PA 580-B
Dimensions Length (A) 235 mm 235 mm 235 mmWidth (B) 235 mm 235 mm 235 mmThickness (C) 17 mm 17 mm 17 mm
Weight (max) 1 Kg 1 Kg 1 Kg
Radome ABS ASA (White)* ABS ASA (White)* ABS ASA (White)*
Connector N Female N Female N Female
Operating temperature -40°C - +55°C -40°C - +55°C -40°C - +55°C
*Differentcolorsavailableuponrequest
PA 220-A Typical radiation pattern cuts (co & cross polarization) PA 220-A Typical VSWR
Mechanical drawing
A
B
C
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Planar Antennas For Wireless Communication Applications>
> Main use: • General transmitting and receiving applications from 880 MHz up to 5.875 GHz • Point-to-point telecommunications
> Delivered document: • Conformity certificate (measured VSWR)
> Related services: • Maintenance and customization
PROFESSIONAL APPLICATION
Electricalcharacteristics
Part Number PA 088-A PA 180-A PA 192-A PA 240-A PA 250-A PA 330-A PA 515-A
Frequency range 880 – 1710 – 1800– 1920– 2400 – 2500 – 3300 – 5150 – 960 MHz 1880 MHz 1900 MHz 2170 MHz 2500 MHz 2900 MHz 3700 MHz 5875 MHz
Gain ≥ 10 dBi ≥ 11 dBi ≥ 10 dBi ≥ 10 dBi ≥ 13 dBi ≥ 13 dBi ≥ 14 dBi ≥ 16 dBi GSM DCS
Side lobes H plan < -18 dB - < -15 dB < -15 dB < -15 dB < -12 dB < -10 dB < -20 dB
Side lobes V plan - < -18 dB < -15 dB < -15 dB < -15 dB < -12 dB < -10 dB < -20 dB
Beamwidth at 3dB H plan 40° ± 6° 50° ± 6° 45° ± 5° 45° ± 2° 36° ± 2° 35° ± 5° 35° ± 5° 20° ± 5°
Beamwidth at 3dB V plan 60° ± 6° 40° ± 6° 60° ± 5° 60° ± 2° 36° ± 2° 35° ± 5° 35° ± 5° 20° ± 5°
VSWR 1.5:1 1.5:1 1.5:1 1.5:1 1.5:1 1.5:1 1.5:1 1.5:1
CW power 10 W 10 W 10 W 10 W 10 W 10 W 10 W 10 W
Type Patch array Patch array Patch array Patch array Patch array Patch array Patch array Patch array
Impedance 50 Ohms 50 Ohms 50 Ohms 50 Ohms 50 Ohms 50 Ohms 50 Ohms 50 Ohms
Polarization Linear Linear Linear Linear Linear Linear Linear Linear Vertical Vertical Vertical Vertical Vertical Vertical Vertical Vertical
➊TECHNICALPERFORMANCE• Optimized gain• Power handling up to 10 W
➋DESIGN• Easy to integrate in existing installation• Connector on the side• Fix to mast or on wall
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Mechanicalcharacteristics
Part Number PA 088-A PA 180-A PA 192-A PA 240-A PA 250-A PA 330-A PA 515-A
Dimensions Length (A) 300 mm 180 mm 180 mm 180 mm 180 mm 180 mm 180 mmWidth (B) 180 mm 180 mm 180 mm 180 mm 180 mm 180 mm 180 mmThickness (C) 40 mm 15 mm 15 mm 15 mm 15 mm 15 mm 15 mm
Weight (max) 1.3 Kg 0.50 Kg 0.50 Kg 0.50 Kg 0.50 Kg 0.50 Kg 0.50 Kg
Radome Polycarbonate Polycarbonate Polycarbonate Polycarbonate Polycarbonate Polycarbonate Polycarbonate (White) (White) (White) (White) (White) (White) (White)
Connector SMA Female SMA Female SMA Female SMA Female SMA Female SMA Female SMA Female
Operating temperature -35°C - +75°C -35°C - +75°C -35°C - +75°C -35°C - +75°C -35°C - +75°C -35°C - +75°C -35°C - +75°C
PA 240 Typical radiation pattern cut PA 240-A Typical VSWR
Mechanical drawing
A
B
C
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UWB Antennas>
Electricalcharacteristics
Part Number UWB 050-A UWB 200-A UWB 300-A
Frequency range 0.50 – 1.00 GHz 2.00 – 3.00 GHz 3.00 – 10.00 GHz
Gain ≥ 2 dBi ≥ 2 dBi 1 dBi at 3 GHz / 5 dBi at 10 GHz
CW power 200 W 20 W 20 W
Radiation pattern 360° (Ripple ± 2 dB) 360° (Ripple ± 2 dB) 360° (Ripple ± 2 dB)
VSWR 2.0:1 2.0:1 2.0:1
Type Monopole Monopole Monopole
Impedance 50 Ohms 50 Ohms 50 Ohms
Polarization Linear Vertical Linear Vertical Linear Vertical
> Main use: • High speed data transmission for telecommunication applications
> Delivered documents: • Conformity certificate (measured VSWR) • Antenna manual
> Related standards: • MIL STD 810 for UWB 050-A• IEC 68 for UWB 200 and UWB 300
> Related services: • Maintenance and customization
PROFESSIONAL APPLICATION
➊TECHNICALPERFORMANCE• Very wide bandwidth• Omnidirectional pattern in azimuth• Power handling up to 200 W
➋DESIGN• Resists harsh environmental conditions
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Mechanicalcharacteristics
Part Number UWB 050-A UWB 200-A UWB 300-A
Dimensions Length (A) 220 mm 65 mm 47 mm Diameter (B) 265 mm 45 mm 47 mm
Weight 1.7 Kg < 150 g < 100 g
Color of the radome White White White
Radome Polycarbonate/ Polycarbonate/ Polycarbonate/ UV protected UV protected UV protected
Connector N Female SMA Female SMA Female
Ingress protection IP 67 IP 67 IP 67
Operating temperature -40°C - +75°C -40°C to +55°C -40°C to +55°C
UWB 050-A Typical radiation pattern cuts UWB 050-A Typical VSWR
Mechanical drawing
AØ B
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UWB Discone Antennas>
> Main use: • Jamming antenna for communication at low frequencies
> Delivered documents: • Conformity certificate (measured VSWR) • Antenna manual
> Related standard: • MIL STD 810-E
> Related services: • Maintenance and customization
PROFESSIONAL APPLICATION
Electricalcharacteristics
Part Number UWB 010-A
Frequency range 100 – 500 MHz
Gain from -15° to +5° 100 – 250 MHz / 250 – 500 MHz ≥ 1 dBi ≥ -1 dBi
Gain from 0° > 0 dBi
VSWR 2.5:1
CW Power 200 W
Type Discone antenna
Impedance 50 Ohms
Polarization Linear Vertical
Radiation Pattern 360° (Ripple ± 2 dB)
➊TECHNICALPERFORMANCE• Radiate power uniformly in horizontal plane• Directive pattern shape in vertical plane• High power handling up to 200 W
➋DESIGN• Easy to install on a vehicle• Resists harsh environmental conditions
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Mechanicalcharacteristics
Part Number UWB 010-A
Dimensions Height (A) 700 mmBase diameter (B) 750 mm
Weight 4 Kg
Connector N Female
Ingress protection IP 67
Operating temperature -20°C - +75°C
Typical radiation pattern Typical VSWR
Mechanical drawing
Ø B A
Radiation Pattern (Elevation)
L1: f:100 MHzL2:f:200MHzL3:f:300 MHzL5:f:500 MHz
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Positioning>
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Professional GPS Terminal Antennas >
> Main use: • Positioning of equipment for aerospace and marine applications
> Delivered documents: • Conformity certificate (measured VSWR)• Antenna manual
> Related standards: • MIL STD 810 E• Gam eg 13
> Related services: • Maintenance and customization
➊TECHNICALPERFORMANCE• Hemispherical pattern• Low profile
➋DESIGN• Resists harsh environmental conditions
END-USER APPLICATION
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Electricalcharacteristics
Part Number P0 156-A
Frequency range 1565 – 1585 MHz (L1)
Gain ≥ 4 dBi
VSWR 1.8:1
CW power 10 W
DC Yes
Type Patch
Impedance 50 Ohms
Polarization RHCP
Radiation pattern Hemispheric
Axial ratio < 2.5 dB
Beamwidth at 3 dB H plan 100° ± 5°
Beamwidth at 3 dB V plan 100° ± 5°
Mechanicalcharacteristics
Part Number P0 156-A
Dimensions Diameter (A) 90 mmThickness (B) 25 mm
Weight (max) < 150 g
Radome ULTEM
Connector SMA Female
Operating temperature -40°C - +55°C
GPS Antenna Typical VSWRTypical elevation radiation Pattern
Mechanical drawing
Ø A
B
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Professional GALILEO/GPS Terminal Antennas >
> Main use: • Ground segment portable antenna for professional applications covering GALILEO E5, E6, L1 bands and GPS L5, L2, L1 bands
> Delivered documents: • Measured return loss• Measured radiation pattern• Phase center calibration report
> Related standards: • IEC 60068-2/14; -2/6; -2/64; 2/32• EN 55022• IEC60529
> Optional services: • Maintenance• Dedicated filters for custom GALILEO and/or GPS sub-bands• Specific radome and mechanical support
➊TECHNICALPERFORMANCE• Excellent phase center and group delay stability• Optimized multi-path immunity• Stable radiation pattern• Reduced ohmic losses (< 1.2 dB)• Tri-frequency version available (separated Galileo E5/GPS L5 band, Galileo E6 band and Galileo L1/GPS L1 sub-bands)
➋DESIGN• Reduced accommodation (easy to install on top of a mast)• Lightweight (980 g), easy to transport• Sealed radome and environmentally robust design (resists temperature, shocks and vibrations)• Dedicated filters for out-of-band rejection and dedicated LNA for pre-amplification
END-USER APPLICATION
This portable Galileo antenna has been designed under the GARDA contract
with the Galileo Joint Undertaking (GJU).
Typical 3D radiation pattern
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Electricalcharacteristics
Part number ANTE 005-A
Operational frequency bands B1 Galileo/GPS: 1575.42 ± 20.46 MHz (GPS L1 C/A, GPS L1 P(Y), GAL L1F, SBAS L1)
B2 Galileo/GPS/GLONASS: 1227.60 ± 61.38 MHz (GPS L5, GPS L2C, GPS L2 P(Y), GAL E5a, GAL E5b, SBAS L5, GLO L2 C/A, GLO L2 P, GAL E6C)
Option: reduced B1 and/or B2 bands
Polarization* Right hand circularly polarized
Coverage* Maximized within a conical coverage up to 85 degrees from zenith
Gain antenna (without LNA)* > +5 dBi at zenith > 0 dBi from 25 deg to 90 deg elevation > -6 dBi from 5 to 25 degrees elevation < -6 dBi below 5 degree elevation
Gain* LNA gain > 25 dB Gain antenna with LNA > 30 dB
Axial Ratio* < 7 dB between 5 and 10 degrees elevation < 5 dB between 10 and 30 degrees elevation < 3 dB between 30 and 60 degrees elevation < 2 dB above 60 degrees elevation
Phase center knowledge accuracy* Within 5 mm radius
Phase center stability < 0.5 mm radius for E5 and E6 Galileo, L5 and L2 GPS < 1.0 mm radius for L1 Galileo, L1 GPS
Group delay variation < 6 ns for E5 and E6 Galileo, L5 and L2 GPS at fixed temperature < 14 ns for L1 Galileo, L1 GPS at fixed temperature
Group delay stability* < ± 300 ps at a given frequency point over temperature
Signal to noise density ratio* C/No ≥ 35 dBHz at E5, E6 or L1 Galileo and L5, L2, L1 GPS reference conditions
LNA 1dB compression point* ≥ 18 dBm
LNA Output 3rd order intercept* ≥ 20 dBm
LNA Burn-out protection (CW)* Antenna system able to withstand with no damage an in-band +20 dBm CW signal
LNA Burn-out protection (In-band Pulse)* Antenna system able to withstand with no damage an in-band pulsed interference with the following characteristics: •Pulsepeakpower:+30dBm •Pulsemaxwidth:1ms(maxdutycycleof10%)
(*)ApplicabletoeachoftheGalileoandGPSfrequencybands(GalileoE5,GalileoE6,GalileoL1,GPSL5,GPSL2andGPSL1)
ENVIRONMENTALTESTING:
• ThermalcyclingtestperformedaccordingtothenormIEC60068-2-14.
• SinevibrationtestperformedaccordingtothenormIEC60068-2-6.
• RandomvibrationtestperformedaccordingtothenormIEC60068-2-64.
• FreefalltestperformedaccordingtothenormIEC60068-2-32
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Functional&environmentalcharacteristics
Part number ANTE 005-A
Antenna input impedance 50 Ohms
Supply voltage 5 V (supplied through the RF cables)
Power consumption ≤ 1.0 Watt (total power consumption)
Output VSWR Better than 1.7:1
Emitted radiation The antenna system radiated emission is compatible with [EN-55022] recommendations
Conducted EMC The antenna system conducted emission is compatible with [EN-55022] recommendations
Temperature range Tested to IEC 60068-2-14 edition 1986 test Nb for thermal cycling Operation range: -40°C to +60°C Storage range: -55°C to +85°C
Wind/other Able to withstand wind and blast conditions < 200 km/h
Humidity Able to operate between 0% and 100% humidity Immune to rain under storm conditions Waterproof, compliant to IEC60529 Classification IP66
Pressure The antenna system works properly with an equivalent air pressure condition of 3000 m altitude
Radiation Able to withstand UV and other radiation
Radome protection Radome composed of epoxy resin (60%) and glass fibers (40%) with a polyurethane coating
Shock and vibration Tested to IEC 60086-2-6 (Sinusoidal vibration), Tested to IEC 60086-2-64 edition 1993 (random vibrations) Tested to IEC 60086-2-32 edition 1975 (free fall)
Lightning protection The antenna is protected from static electricity and lightning induced current surges of up to 6000 A
Typical measured directivity
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Mechanicalcharacteristics
Part number ANTE 005-A
Dimensions (diameter x height) 150 mm x 110 mm
Weight (approx) 1 kg
Connector 2 x N Female (B2 and B1 ports) Option: 1 x N Female (B2 + B1 port)
Radome coating Polyurethane
Color White
Ingress protection Alodine 1200 according to MIL-C 5541 E class 3 for coating treatment
Operating temperature -40°C to +60°C
Mechanical drawing Mechanical interface
Ø38 M4 x 8
150 mm130 mm
114 mm
127 mm
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GALILEO/GPS/GLONASS Base Station Reference Antennas >
>Main use: • Base station antenna for reference applications covering GALILEO E5, E6, L1 bands, GPS L5, L2, L1 bands and GLONASS L2, L1 bands.
>Delivered documents: • Measured return loss• Measured radiation pattern• Phase center calibration report
>Related standards: • IEC 60068-2/14; -2/6; -2/64; 2/32• EN 55022
>Related services: • Maintenance• Dedicated filters for custom GALILEO, GPS and/or GLONASS sub-bands• Specific radome and mechanical support
➊TECHNICALPERFORMANCE• Excellent phase center and group delay stability• Highly stable radiation pattern (magnitude & phase)• Optimized radiating element combined to a choke ring provides excellent multi-path immunity• Wide operational bandwidth of the cross dipoles• Reduced ohmic losses (< 1.0 dB)
➋DESIGN• Sealed radome to be used in severe environments• Dedicated filters for out-of-band rejection and dedicated LNA for pre-amplification• Reduced accommodation (easy to install on the top of a mast)
BASE STATION ANTENNAS
Typical 3D radiation pattern
This antenna has been designed under the SWIRLS contract with the Galileo
Supervisory Authority (GSA) specifically targeting reference applications
with a high level of flexibility in terms of covered frequency bands.
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Electricalcharacteristics
Part number ANTE 011-A
Operational frequency bands B1 Galileo/GPS/GLONASS: 1589.81 ± 24.62 MHz (GPS L1 C/A, GPS L1 P(Y), GAL L1F, SBAS L1, GLO L1 C/A, GLO L1 P)
B2 Galileo/GPS/GLONASS: 1227.60 ± 61.38 MHz (GPS L5, GPS L2C, GPS L2 P(Y), GAL E5a, GAL E5b, SBAS L5, GLO L2 C/A, GLO L2 P, GAL E6C)
Option: reduced B1 and/or B2 bands
Polarization* Right hand circularly polarized
Coverage* Maximized within a conical coverage up to 85 degrees from zenith.
Gain antenna (without LNA)* < +7 dBi at zenith > 0 dBi from 45 to 90 deg. elevation > -5 dBi from 10 to 45 deg elevation > -10 dBi from 0 to 10 deg elevation < -5 dBi at 5 deg elevation
LNA Gain* 35 dB +/- 2 dB
Axial Ratio* < 1 dB from 60 to 90 deg. el. < 2 dB from 10 to 60 deg. el. < 4 dB from 5 to 10 deg. el.
Phase center knowledge accuracy* Within 5 mm radius
Phase center stability < 1 mm radius for B1 sub-band < 0.5 mm radius for B2 sub-band
Group delay variation < 10 ns
Group delay stability* < ± 250 ps at a given frequency point over temperature
Signal to noise density ratio* C/No ≥ 35 dBHz at B2 or B1 reference conditions
LNA 1dB compression point* ≥ -10 dBm
LNA Output 3rd order intercept* ≥ 0 dBm
LNA Burn-out protection (CW)* Antenna system able to withstand with no damage an in-band +20 dBm CW signal
LNA Burn-out protection (In-band Pulse)* Antenna system able to withstand with no damage an in-band pulsed interference with the following characteristics: •Pulsepeakpower:+30dBm •Pulsemaxwidth:1ms(maxdutycycleof10%)
(*)ApplicabletoeachoftheGALILEOE5,E6,L1bands,GPSL5,L2,L1bandsandGLONASSL2,L1bands.
ENVIRONMENTALTESTING:
• ThermalcyclingtestperformedaccordingtothenormIEC60068-2-14.
• SinevibrationtestperformedaccordingtothenormIEC60068-2-6.
• RandomvibrationtestperformedaccordingtothenormIEC60068-2-64.
• FreefalltestperformedaccordingtothenormIEC60068-2-32.
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Functional&environmentalcharacteristics
Part number ANTE 011-A
Antenna input impedance 50 Ohms
Supply voltage 5 V (supplied through the RF cables)
Power consumption ≤ 0.3 Watt (total power consumption)
Output VSWR Better than 1.7:1
Emitted radiation The antenna system radiated emission is compatible with [EN-55022] recommendation
Conducted EMC The antenna system conducted emission is compatible with [EN-55022] recommendation
Temperature range Tested to IEC 60068-2-14 edition 1986 test Nb for thermal cycling. Operation range: -40°C to +70°C Storage range: -55°C to +85°C
Wind/other Able to withstand wind and blast conditions < 200 km/h
Housing Hermeticity Immune to rain under storm conditions.
Pressure The antenna system works properly with an equivalent air pressure condition of 6000 m altitude.
Radiation Able to withstand UV and other radiation
Radome protection Radome composed of epoxy resin (60%) and glass fibers (40%) with a polyurethane coating.
Shock and vibration Tested to IEC 60086-2-6 (Sinusoidal vibration), Tested to IEC 60086-2-64 edition 1993 (random vibrations) Tested to IEC 60086-2-32 edition 1975 (free fall).
Mechanicalcharacteristics
Part number ANTE 011-A
Dimensions (diameter x height) 408 mm x 230 mm
Weight (approx) 7.5 kg
Connector N Female
Radome coating Polyurethane
Color White
Ingress protection Alodine 1200 according to MIL-C 5541 E class 3 for coating treatment
Operating temperature -40°C to +70°C
Typical measured directivity
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Mechanical drawing
8 x M6 Ø152 mm
230 mm
408 mm
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GALILEO/GPS Base Station Reference Antennas >
> Main use: • Base station antenna for reference applications covering GALILEO E5, E6, L1 bands and GPS L5, L2, L1 bands.
> Delivered documents: • Measured return loss• Measured radiation pattern• Phase center calibration report
> Related standards: • IEC 60068-2/14; -2/6; -2/64; 2/32• EN 55022
> Related services: • Maintenance• Dedicated filters for custom GALILEO, GPS and/or GLONASS sub-bands• Specific radome and mechanical support
➊TECHNICALPERFORMANCE• Excellent phase center and group delay stability• Highly stable radiation pattern (magnitude & phase)• Optimized radiating element combined to a choke ring provides increased multi-path immunity• Wide bandwidth of the radiating helix• Reduced ohmic losses (< 1.0 dB)
➋DESIGN• Sealed radome resists extreme weather conditions• High-performance LNA connector• Reduced accommodation (easy to install on the top of a mast)• Integrated thermo-regulation for polar applications (down to -60°C)• Dedicated filters for out-of-band rejection and dedicated LNA for pre-amplification
BASE STATION ANTENNAS
Typical 3D radiation pattern
This antenna has been designed under an ESA contract (European Space Agency)
specifically targeting fixed ground segment reference applications requiring very
strong constraints on phase center stability and multi-path immunity.
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Electricalcharacteristics
Part number ANTE 010-A
Operational frequency bands B1 Galileo/GPS: 1575.42 ± 20.46 MHz (GPS L1 C/A, GPS L1 P(Y), GAL L1F, SBAS L1)
B2 Galileo/GPS/GLONASS: 1227.60 ± 61.38 MHz (GPS L5, GPS L2C, GPS L2 P(Y), GAL E5a, GAL E5b, SBAS L5, GLO L2 C/A, GLO L2 P, GAL E6C)
Option: reduced B1 and/or B2 bands
Polarization* Right hand circularly polarized
Coverage* Maximized within a conical coverage up to 85 degrees from zenith.
Gain antenna (without LNA)* > +5 dBic at zenith > 0 dBic from 25 deg to 90 deg elevation < -7 dBic at 5 deg elevation
LNA Gain* 35 dB +/- 2 dB
Axial Ratio* < 7 dB at 5 degrees elevation < 5 dB at 10 degrees elevation < 3 dB at 30 degrees elevation < 2 dB at 60 degrees elevation
Phase center knowledge accuracy* Within 5 mm radius
Phase center stability < 1 mm radius for B1 sub-band < 0.5 mm radius for B2 sub-band
Group delay variation* < 10 nsec
Group delay stability* < ± 250 ps at a given frequency point over temperature
Signal to noise density ratio* C/No ≥ 35 dBHz at B2 or B1 reference conditions
LNA 1dB compression point* ≥ -10 dBm
LNA Output 3rd order intercept* ≥ 0 dBm
LNA Burn-out protection (CW)* Antenna system able to withstand with no damage an in-band +20 dBm CW signal
LNA Burn-out protection (In-band Pulse)* Antenna system able to withstand with no damage an in-band pulsed interference with the following characteristics: •Pulsepeakpower:+30dBm •Pulsemaxwidth:1ms(maxdutycycleof10%)
(*)ApplicabletoeachoftheGALILEOE5,E6,L1bandsandGPSL5,L2,L1bands.
ENVIRONMENTALTESTING:
•ThermalcyclingtestperformedaccordingtothenormIEC60068-2-14.
•SinevibrationtestperformedaccordingtothenormIEC60068-2-6.
•RandomvibrationtestperformedaccordingtothenormIEC60068-2-64.
•FreefalltestperformedaccordingtothenormIEC60068-2-32.
96
Functional&environmentalcharacteristics
Part number ANTE O10-A
Antenna input impedance 50 Ohms
Supply voltage 5 V (supplied through the RF cables)
Power consumption ≤ 0.3 Watt (total power consumption)
Output VSWR Better than 1.7:1
Emitted radiation The antenna system radiated emission is compatible with [EN-55022] recommendations
Conducted EMC The antenna system conducted emission is compatible with [EN-55022] recommendations
Temperature range Tested to IEC 60068-2-14 edition 1986 test Nb for thermal cycling. Operation range: -40°C to +80°C (option with heaters for polar operation -60°C to + 80°C) Storage range: -60°C to +85°C
Wind / other Able to withstand wind and blast conditions < 200 km/h
Housing Hermeticity Immune to rain under storm conditions.
Pressure The antenna system works properly with an equivalent air pressure condition of 6000 m altitude
Radiation Able to withstand UV and other radiation
Radome, protection Radome composed of epoxy resin (60 %) and glass fibers (40 %) with a polyurethane coating
Shock and vibration Tested to IEC 60086-2-6 (Sinusoidal vibration), Tested to IEC 60086-2-64 edition 1993 (random vibrations) Tested to IEC 60086-2-32 edition 1975 (free fall)
Mechanicalcharacteristics
Part number ANTE 010-A
Dimensions (diameter x height) 310 Ø mm x 280 mm
Weight (approx) < 3.5 kg
Connector N Female single connector, feeding through RF cable (+5 V)
Radome coating Polyurethane
Color White
Ingress protection Alodine 1200 according to MIL-C 5541 E class 3 for coating treatment
Operating temperature -40°C to +80°C (option with heaters: -60°C to +80°C)
Mechanical drawingTypical measured gain (without LNA)
8 x M4 Ø140 mm
310 mm
290 mm
Localization& Safety>
98
ARGOS Tx/Rx Ultra Compact Terminal Antennas >
> Main use: • Bi-directional data transmission (activity, environmental or localization) for Argos 3 user applications (boats, containers, etc.)
> Delivered documents: • Typical performance data (TYMEDATM)• Measured return loss
> Surface treatment: • Alodine 1200 according to MIL-C 5541 E class 3
> Optional equipment: • Radome for outdoor applications
> Related services: • Maintenance
➊TECHNICALPERFORMANCE• Maximum gain values at low elevation angles• Rotational symmetry of radiation pattern• Dual frequency operation (Tx and Rx)• Natural circular polarization
➋DESIGN• Ultra compact dimensions compared to the wavelength• Lightweight• Integrated diplexer
END-USER APPLICATION
Typical 3D radiation pattern
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SATIMO/CNESpatentedsmartdesign,nogroundplanerequired.
Electricalcharacteristics
Part number SA-A
Type of antenna Patch antenna
Frequency bands Tx: 401.65 MHz (+30 KHz; -60 KHz) Rx: 465.78 MHz (±15 KHz)
Average gain Max gain between 5° - 60° elevation - 1 dBc
Gain variation over azimuth Rotational symmetric
VSWR < 2.5
Polarization RHCP (LHCP optional)
Return loss < -7.5 dB
Isolation Rx/Tx > 50 dB
Impedance 50 Ohms
Mechanicalcharacteristics
Part number SA-A
Dimensions(diameter x height) 120 mm x 60 mm
Weight (approx) 150 g
Connector SMA Female
Operating temperature -40°C to +60°C
Typical elevation cuts at 401.65 MHz
Typical elevation cuts at 466 MHz
100
COSPAS-SARSAT Ultra Compact terminal Antennas>
> Main use: • Localization, safety and rescue applications
> Delivered documents: • Typical performance data (TYMEDATM)• Measured return loss
> Optional equipment: • Radome for outdoor applications
> Related services: • Specific radome and mechanical support upon request
➊TECHNICALPERFORMANCE• Maximum gain values at low elevation angles• Rotational symmetry of radiation pattern• Natural circular polarization
➋DESIGN• Ultra compact dimensions compared to the wavelength• Lightweight• Environmentally robust
END-USER APPLICATION
Typical 3D radiation pattern
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SATIMO/CNESpatentedsmartdesign,nogroundplanerequired.
Electricalcharacteristics
Part number SC-B
Type of antenna Patch antenna
Frequency bands Tx: 406.0 - 406.1 MHz
Average gain Max gain between 5° - 60° elevation - 1 dBc
Gain variation over azimuth Symmetric
VSWR < 1.9
Polarization RHCP (LHCP optional)
Return loss < -10 dB
Impedance 50 Ohms
Mechanicalcharacteristics
Part number SC-B
Dimensions(diameter x height) 120 mm x 60 mm
Weight (approx) 200 g
Connector SMA Female
Operating temperature -40°C to +60°C
Typical elevation cuts
102
EMC>
104
Electricalcharacteristics
Part number CSA 010
Type of antenna Conical spiral
Frequency range 1 - 10 GHz
Average gain 2.5 dBic
Antenna factor from 28 dB 1/m at 1 GHz to 48 dB 1/m at 10 GHz
VSWR 1.8:1
Polarization RHCP or LHCP
Beamwidth 100° average
Impedance 50 Ohms
Power Max. 20 W
Mechanicalcharacteristics
Part number CSA 010
Dimensions in mm Axial length: 400 mm Radius: 120 mm
Weight (approx) 3.5 Kg
Connector SMA Female
Material Aluminum alloy and epoxy glass
Wind rating 60 Km/h
Lightening protection DC grounded
CONICAL Spiral Antennas>
> Main use: • EMC testing• Quick spectrum survey
> Delivered documents: • Measured return loss• Typical performance data (TYMEDATM)
> Surface treatment: • Alodine 1200 according to MIL-C 5541E
class 3
> Related services: • Available in RH or LH polarization • Interface customization
EMC APPLICATION
➊TECHNICALPERFORMANCE• Receives all linear polarizations (with polarization loss of 3 dB)• Constant performance over entire bandwidth
➋DESIGN• Stiff and robust architecture• Resists harsh environmental conditions
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LOG Periodic>
> Main use: • EMC and EMI testing• Radio link testing • Direction finding applications
> Delivered documents: • Measured return loss• Typical performance data (TYMEDATM)
> Surface treatment: • Alodine 1200 according to MIL-C 5541E class 3
> Related services: • Maintenance and customization• Calibration• Dual polarization
EMC & EMI APPLICATIONS
➊TECHNICALPERFORMANCE• Low return loss• High front to back ratio• Constant gain with frequency• Equal E-plan and H-plan beamwidth
➋DESIGN• Lightweight• Minimum wind drag• For indoor and outdoor uses
Electricalcharacteristics
Part number LP 030 LP 031 LP 060 LP 065 LP 075 LP 200 LP 450 LP 850 LP 1000
Type of antenna Log periodic
Frequency range 0.03 - 0.03 - 0.06 - 0.065 - 0.075 - 0.2 - 0.45 - 0.85 - 1 - 0.5 GHz 1 GHz 0.5 GHz 0.45 GHz 3 GHz 0.5 GHz 1 GHz 20 GHz 3 GHz
Average gain 6.0 dBi 6.0 dBi 5.7 dBi 6.6 dBi 6.0 dBi 7 dBi 8.2 dBi 7 dBi 10 dBi
VSWR 2.5:1 2.5:1 2.5:1 2.0:1 2.5:1 2.5:1 1.8:1 3.0:1 2.0:1
Polarization Vertical or horizontal
Impedance 50 Ohms
Power 500 W 500 W 500 W 500 W 100 W 100 W 200 W 10 W 20 W
BeamwidthH X E plane 130° x 85° 130° x 85° 130° x 85° 110° x 70° 130° x 85° 100° x 65° 75° x 55° 90° x 90° 60° x 50°
FB ratio < 15 dB(1) < 15 dB(2) > 20 dB(3) < 25 dB < 15 dB(4) < 25 dB > 23 dB > 15 dB > 20 dB
(1)From60to500MHz;10dBworstcaseat30MHz(2)From60to1000MHz;10dBworstcaseat30MHz(3)From100-450MHz;10dBworstcaseat60MHz(4)From150to3000MHz;10dBworstcaseat75MHz
106
Mechanicalcharacteristics
Frequency range 0.03 - 0.03 - 0.06 - 0.065 - 0.075 - 0.2- 0.45 - 0.85 - 1 - 0.5 GHz 1 GHz 0.5 GHz 0.5 GHz 3 GHz 0.5 GHz 1 GHz 20 GHz 3 GHz
Dimensions in mm 4500 x 4700 x 2000 x 2000 x 2000 x 1200 x 1000 x 250 x 600 x(LxHxW) 4900 x 4900 x 2650 x 2650 x 1950 x 850 x 350 x 180 x 155 x+ brackets 100 100 100 100 80 50 40 180(1) 30
Weight (approx) 12 Kg 12 Kg 8 Kg 15 Kg 8 Kg 3 Kg 1 Kg 2 Kg(2) 1 Kg
Connector N Male N Male N Male N Female N Male N Female N Female SMA SMA Female Female
Radome coating Alodine 1200
Mounting pole 50 mm 50 mm 50 mm 50 mm 50 mm 50 mm 35 - custom 40 -
diameter 40 mm(1) 60 mm
Wind rating 80 Km/h 80 Km/h 80 Km/h 60 Km/h 80 Km/h 60 Km/h 80 Km/h 80 Km/h 80 Km/h
Lightening protection DC grounded
(1)Onantennaback(2)Plussupport
LP 1000 Typical radiation pattern LP 200 Typical radiation pattern (6-7 dBi gain)
EplaneHplane
Mechanical drawing
“W”
“L”
“H”
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Discone >
> Main use: • EMC and EMI testing• Radio link testing
> Delivered documents: • Measured return loss• Typical performance data (TYMEDATM)
> Related services: • Maintenance• Calibration• Customization
EMC & EMI APPLICATIONS
➊TECHNICALPERFORMANCE• Stable performance over the entire bandwidth
➋DESIGN• Easy handling and storage• Fully dismountable elements
Electricalcharacteristics
Part number DIS 108
Type of antenna Discone
Frequency bands 108 - 400 MHz
Average gain 2 dBi
VSWR 1.8:1
Polarization Vertical
Beamwidth Omnidirectional
Impedance 50 Ohms
Power Max. 500 W
Mechanicalcharacteristics
Part number DIS 108
Dimensions height: 1050 mmradius: 400 mm
Weight (approx) 2 Kg
Connector N Female
Material Aluminum alloy and PVC
Wind rating 80 Km/h
Interface Vertical pole 1.25” outer diam
108
Elevation pattern at 110 MHz Elevation pattern at 250 MHz
Elevation pattern at 160 MHz
Elevation pattern at 200 MHz
Elevation pattern at 320 MHz
Elevation pattern at 400 MHz
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BICONICAL Antennas >
> Main use: • EMC and EMI testing• Radio link testing
> Delivered documents: • Measured return loss• Typical performance data (TYMEDATM)
> Included equipment: • Balun, connected to the RF N connector
> Optional equipment: • Tripod
> Related services: • Maintenance• Calibration• Customization
EMC & EMI APPLICATIONS
➊TECHNICALPERFORMANCE• Low return loss• Linear gain with frequency
➋DESIGN• Easy handling and storage• Fully dismountable elements
Electricalcharacteristics
Part number SBW 20 SBW 30 SBW 100
Type of antenna Biconic Biconic Biconic
Frequency range 0.02 – 3 GHz 0.03 – 1 GHz 0.1 – 3 GHz
Average gain From -20 to 0 dBi between From -15 to 0 dBi between 1 dBi (Typical) 20 and 70 MHz 30 and 70 MHz 0 dBi between 70 and 3000 MHz 0 dBi between 70 and 1000 MHz -
VSWR From 80:1 to 4:1 between From 30:1 to 4:1 between < 4:1 20 MHz to 70 MHz 30 to 70 MHz
4:1 between 70 and 3000 MHz 4:1 between 70 and 1000 MHz
Polarization Vertical or horizontal Vertical or horizontal Vertical or horizontal
Impedance 50 Ohms 50 Ohms 50 Ohms
Power 100 W 50 W 50 W
Bandwidth Omnidirectional in V pol. Omnidirectional in V pol. Omnidirectional in V pol.
Antenna factor From 20 to 5 dB1/m between From 15 to 5 dB1/m between From 10 dB1/m at 100 MHz, 20 and 70 MHz, 30 and 70 MHz, increasing with frequency Increasing with frequency Increasing with frequency up to 3000 MHz between 70 and 3000 MHz between 70 and 1000 MHz
110
SBW 100 Typical radiation pattern at 100 MHz
SBW 100 Typical radiation pattern at 200 MHz
SBW 100 Typical radiation pattern at 450 MHz
SBW 100 Typical radiation pattern at 1 GHz
SBW 100 Typical radiation pattern at 2 GHz
SBW 100 Typical radiation pattern at 3 GHz
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Mechanicalcharacteristics
Part number SBW 20 SBW 30 SBW 100
Dimensions in mm(width x radius) 1300 x 300 1300 x 300 1300 x 300
Weight (approx) 2 Kg 2 Kg 2 Kg
Connector N Female N Female N Female
Material Aluminum alloy and PVC Aluminum alloy and PVC Aluminum alloy and PVC
Wind rating 60 Km/h 60 Km/h 60 Km/h
Lightening protection DC grounded DC grounded DC grounded
SBW 100 Measured return loss vs frequency
SBW 100 connector and supporting box Mechanical drawing
“W”
“R”
112
Electricalcharacteristics
Part number Tx antenna Rx antenna AR 150 PR 100
Type of antenna - Short monopole
Frequency range 150 KHz – 70 MHz(1) 100 KHz – 100 MHz
Radiation pattern •Azimuth: - Omnidirectional •Elevation: - short dipole
Power handling 20 W NA
(1)Txequippedwithaswitchtoselecttheoperativesub-bands
EMC Tx and Rx Antenna Set>
> Main use: • Reference antenna• Wide band field meter• Assessment of coupling reduction
> Delivered documents: • Measured return loss• Typical performance data (TYMEDATM)
> Related accessories: • SATIMO GP 100 for the Tx antenna• Tripod for Rx antenna
> Related services: • Customization
EMC APPLICATION
➊TECHNICALPERFORMANCE• Constant coupling over the entire bandwidth
➋DESIGN• Stiff and robust architecture• Integrated amplifier for the Rx antenna• High reliability connectors
The set consists of a receiving active antenna and a transmitting passive antenna. The antennas operate in
near-field: the Tx antenna generates an electromagnetic field by a vertical
monopole mounted on a ground plane, and the Rx antenna operates mainly as
an electric field probe, realized by a short monopole.
Mechanicalcharacteristics
Part number Tx antenna Rx antenna AR 150 PR 100
Dimensions (mm) Box: 120 x 120 x 80 Box: 120 X 120 x 80 Rod: up to 820 Rod: 150 high
Weight 0.5 Kg 0.5 Kg
Power source 9 V dry cell - or external
Connector Outer connector (+) Outer connector (+) Inner connector (-) Inner connector (-)
Recommended GP 100(1) Not required due ground plane to amplifier matching balancing
Mechanical M5 screws to fit Screws to fit tripod interface with GP 100
(1)1mdiameter
© SATIMO - ORBIT/FR 2011Product specifi cations and descriptions in this document are subject to change without notice.
Actual products may differ in appearance from images shown.
Active Dipole Antennas>
> Main use: • EMC and EMI testing
> Delivered documents: • Calibration certifi cate
• Antenna manual
> Related services: • Customization
EMC & EMI APPLICATIONS
Electrical characteristics
Part number AD-0020-A
Frequency range 20 – 500 MHz
Electronic gain -11 to +8 dBi
Pratical gain -9 to +10 dBi
VSWR 2.0:1
CW power 100 W
Type Active Dipole
Impedance 50 Ohms
Polarization Linear
Directivity 2 dB average
Antenna factor -5 to 20 dB
Noise fi gure 9 dB
Field sensitivity 20 MHz -15dBµV/m 500 MHz -6dBµV/m (Δf=1KHz)
Intercept point 2nd order >60 dBm 3rd order >30 dBm
Power supply From 15 up to 30 V DC (170 mA)(via RF cable)
Mechanical characteristics
Part number AD-0020-A
Dimensions Length A 1000 mmWidth B 140 mm
Weight 2.5 Kg
Connector N Female
Operating temperature -40°C +70°C
Mechanical drawing
B A
Antenna factor
➊ TECHNICAL PERFORMANCE• High power up to 100 W
• Large bandwidth
➋ DESIGN• Resists harsh environmental conditions
• Easy to mount on a vehicle
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> Contact us:
ORBIT/FR’s Corporate Headquarters
506 Prudential Road
Horsham (Philadelphia), PA 19044, USA
Tel: +1 215 674 5100
Fax: +1 215 674 5108
SATIMO USA
2105 Barrett Park Dr., Suite 104
Kennesaw (Atlanta), GA 30144, USA
Tel: +1 678 797 9172
Fax: +1 678 797 9173
AEMI
9311 Stevens Rd
Santee (San Diego),
CA 92071-2809, USA
Tel: +1 619 449 9492
Fax: +1 619 449 1553
SATIMO’s Corporate Headquarters
17, avenue de Norvège
91140 Villebon-sur-Yvette (Paris), FRANCE
Tel: +33 (0)1 69 29 02 47
Fax : +33 (0)1 69 29 02 27
SATIMO Bretagne
Technopole Brest Iroise
Z.I. du Vernis
225 rue Pierre Rivoalon
29200 Brest, FRANCE
Tel: +33 (0)2 98 05 13 34
Fax: +33 (0)2 98 05 53 87
SATIMO Italy
Via dei Castelli Romani, 59
00040 Pomezia (Rome), ITALY
Tel: +39 06 89 99 53 11
Fax: +39 06 89 99 53 24
ORBIT/FR Germany
Johann-Sebastian-Bach-Str. 11
Vaterstetten 85591 (Munich), GERMANY
Tel: +49 (0)8106 99606 0
Fax: +49 (0)8106 99606 77
Microwave Vision Sweden
P.O. Box 35
44121 Alingsas (Gothenburg), SWEDEN
Tel: + 46 31 402430
Fax: + 46 31 402430
ORBIT/FR Israel
1 Gesher Ha’Ets Street
Emek Hefer Industrial Park
P.O.Box 12096
Emek Hefer (Tel-Aviv) 38777, ISRAEL
Tel: +972 74 7130130
Fax: +972 4 6247375
SATIMO Hong-Kong
Suite 702, 7th fl oor Cyberport 1
100 Cyberport Road
Pok Fu Lam, HONG KONG
Tel: +852 2989 6128
Fax: +852 2989 6108
Microwave Vision Japan
6-20-11 Shinbashi-IK Bldg. 1F
Shinbashi, Minato-ku
Tokyo 105-0004, JAPAN
Tel: +81 3 6426 0432
Fax: +81 3 3435 3233
www.microwavevision.com / [email protected]
About SATIMO and ORBIT/FR
SATIMO and ORBIT/FR specialize in the design and manufacture of antenna measu-
rement systems.
The Antenna Design and Test Center (ADTC) is an integrated unit within SATIMO and
ORBIT/FR that designs, measures and produces high performance antennas.
The combination of both approaches: antenna measurement and antenna design in
one center of expertise, guarantees the effi ciency and quality of the antenna develop-
ment process. The ADTC also offers antenna measurement services.
SATIMO and ORBIT/FR are part of Microwave Vision SA, which also includes AEMI.
Our customer satisfaction program
Antennas are designed, measured and manufactured in three dedicated centers
based in Germany, France and Italy. The local teams are supported by a network of
regional offi ces in North America, the Middle East and Asia. A presence close to our
customers is essential to ensure the best customer satisfaction.
SATIMO and ORBIT/FR are ISO 9001:2008 certifi ed.
2011 Edition
Antenna Catalog
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