Ericsson AB AKRX10102 3GPP NR Base Radio TA8AKRX10102 TA8AKRX10102 akrx10102
Calibration certificates RISE equipment used for test report 2P03617
R&S FSW 43
R&S ESU 26
R&S ZNB 40 Bilog antenna Schaffner 6143A EMCO Horn Antenna 3115 EMCO Horn Antenna 3115 EMCO Horn Antenna 3116 Mixer FS-Z60 Mixer FS-Z90 Mixer FS-Z110 Mixer FS-Z170 Mixer FS-Z220 Flann STD Gain Horn Antenna 20240-20
Flann STD Gain Horn Antenna 22240-20
Flann STD Gain Horn Antenna 24240-20
Flann STD Gain Horn Antenna 26240-20
Flann STD Gain Horn Antenna 27240-20
Flann STD Gain Horn Antenna 29240-20
Flann STD Gain Horn Antenna 30240-20
Serial number on equipment RISE number
100 560
100 409
101 544
23 169 9509-4562 00143 161 9904-2426
100 996 101 871 101 467 100 974 100 967 Manufacturer provided gain
407 Manufacturer provided gain
258 660 Manufacturer provided gain
141 Manufacturer provided gain
124 440 Manufacturer provided gain
281 Manufacturer provided gain
46 Manufacturer provided gain
29
902 073
901 553
BX50051 504 079 502 175 902 212 503 279 BX90566 BX90567 BX81425 BX81426 BX81427 BX92412
BX92413
BX92414
BX92416
BX92417
BX92419
BX92420
File name/ Page number
902 073 FSW43.pdf
901 553 ESU26.pdf BX50051 ZNB40.pdf
2 9 10 14 15 19 20 24 25 31 32 38 39 48 49 55 56 62
63
64
65
66
67
68
69
Calibration Certificate
Kalibrierschein
Unit Data
Item Gegenstand
Harmonic Mixer, 110 GHz to 170 GHz
Manufacturer Hersteller
RPG
Type
RPG FS-Z170
Typ
Material Number 3622.0714.02 Serial Number
Materialnummer
Seriennummer
100974
Asset Number Inventarnummer
Order Data
Customer Auftraggeber
Certificate Number 24-0170-100974-01
Zertifikatsnummer
This calibration certificate documents, that the named item is tested and measured against defined specifications. Measurement results are located usually in the corresponding interval with a probability of approx. 95% (coverage factor k = 2). Calibration is performed with test equipment and standards directly or indirectly traceable by means of approved calibration techniques to the PTB/DKD or other national/international standards, which realize the physical units of measurement according to the International System of Units (SI). In all cases where no standards are available, measurements are referenced to standards of the R&S laboratories. Principles and methods of calibration correspond with EN ISO/IEC 17025. This calibration certificate may not be reproduced other than in full. Calibration certificates without signatures are not valid. The user is obliged to have the object recalibrated at appropriate intervals.
Order Number Bestellnummer
Date of Receipt Eingangsdatum
Performance
Place and Date of Calibration Ort und Datum der Kalibrierung
Scope of Calibration Umfang der Kalibrierung
Statement of Compliance (Incoming) Konformitätsaussage (Anlieferung)
Statement of Compliance (Outgoing) Konformitätsaussage (Auslieferung) Extend of Calibration Documents Umfang des Kalibrierdokuments
Meckenheim, 2018-02-05 Standard Calibration New device
All measured values are within the data sheet specifications. 2 pages Calibration Certificate 5 pages Outgoing Results
Dieser Kalibrierschein dokumentiert, dass der genannte Gegenstand nach festgelegten Vorgaben geprüft und gemessen wurde. Die Messwerte lagen im Regelfall mit einer Wahrscheinlichkeit von annähernd 95% im zugeordneten Werteintervall (Erweiterte Messunsicherheit mit k = 2). Die Kalibrierung erfolgte mit Messmitteln und Normalen, die direkt oder indirekt durch Ableitung mittels anerkannter Kalibriertechniken rückgeführt sind auf Normale der PTB/DKD oder anderer nationaler/internationaler Standards zur Darstellung der physikalischen Einheiten in Übereinstimmung mit dem Internationalen Einheitensystem (SI). Wenn keine Normale existieren, erfolgt die Rückführung auf Bezugsnormale der R&S-Laboratorien. Grundsätze und Verfahren der Kalibrierung beziehen sich auf EN ISO/IEC 17025. Dieser Kalibrierschein darf nur vollständig und unverändert weiterverbreitet werden. Kalibrierscheine ohne Unterschriften sind ungültig. Für die Einhaltung einer angemessenen Frist zur Wiederholung der Kalibrierung ist der Benutzer verantwortlich.
Radiometer Physics GmbH; Meckenheim
Date of Issue Ausstellungsdatum
Head of Laboratory Laborleitung
Person Responsible Bearbeiter
2018-02-05
Schulze
Dick
Page (Seite) 1/2
Vers2010-05-05/ RPG2014-02-28
Radiometer Physics GmbH Werner-von-Siemens-Str. 4 53340 Meckenheim Telephone national: 02225/99981-0 international: 0049 2225-99981-0 Fax: 02225/99981-99 Managing Director: Achim Walber, Dr. Thomas Rose Company's Place of Business: Meckenheim Commercial Register No.: Bonn, HRB 10291 VAT Identification No.: DE 123 377 395
Material Number 3622.0714.02
Calibration Method Kalibrieranweisung Ambient Temperature Umgebungstemperatur
Serial Number 100974
RPG-PAQA-TN-2014-002
(23
+7 -3
)
°C
Certificate Number 24-0170-100974-01
Relative Humidity 20 % - 80 %
Relative Luftfeuchte
Working standards used (having a significant effect on the accuracy) Verwendete Gebrauchsnormale (mit signifikantem Einfluss auf die Genauigkeit)
Item Gegenstand
Vector Network Analyzer Powersensor
Type Typ
R&S® ZVA67 R&S® NRP-Z55
Serial Number Seriennummer
101097 140093
Calibration Certificate Number Kalibrierscheinnummer
20-300432406 20-300426315
Cal. Due Kalibr. bis
2020-07-21 2018-05-17
UGB1 UGB2
A compliance statement may be possible where a confidence level of less than 95 % is acceptable. Die Bestätigung der Konformität ist möglich, sofern ein Grad des Vertrauens von weniger als 95 % akzeptabel ist.
A non-compliance statement may be possible where a confidence level of less than 95 % is acceptable. Die Bestätigung der Nicht-Konformität ist möglich, sofern ein Grad des Vertrauens von weniger als 95 % akzeptabel ist.
Ref.: ILAC-G8:03/2009 `Guidelines on the Reporting of Compliance with Specification'.
Notes Anmerkungen
If the new product is stored under the climate conditions as specified in the data sheet upon delivery, the product's accuracy is not significantly affected within 12 month after its calibration in our factory. In this case, the recommended calibration interval starts on the date when the product is actually put into operation.
Page 2/2
Material Number 3622.0714.02
Serial Number 100974
Certificate Number 24-0170-100974-01
Outgoing Results
The following abbreviations may be used in this document
{a}
{b}
{c} {d} {e} DL or DT DLL DUL MU MLL or MLV MUL or MUV Nom. Dev. MErr. Act. UGB UGB1 UGB2 DU
No measurement uncertainty stated because the errors always add together. So it is sure that a measurement result evaluated as "PASS" is pass. The measurement uncertainty depends on the measurement result. The stated measurement uncertainty is valid for the close area around the specification. Measurement results outside the close area have a higher measurement uncertainty but are within the specification. Functional test, therefore no measurement uncertainty is stated. Typical value, refer to performance test. The measurement uncertainty is taken into account when setting the measuring system. Data Limit for symmetrical tolerance limits Datasheet Lower Limit Datasheet Upper Limit Measurement Uncertainty Measurement Uncertainty Lower Value Measurement Uncertainty Upper Value Nominal Value Deviation Measurement Error Actual Value Uncertainty Guard Band: Measuring uncertainty violates the data (spec.) limit. Measurement results marked as UGB1 show conformity with a probability of >50 %and <95 %. Measurement results marked as UGB2 show non-conformity with a probability of >50 %and <95 %. Datasheet Uncertainty
Explanation of charts
Page 1/5
Material Number 3622.0714.02
Serial Number 100974
Software used for measurement Item Type Measurement Studio Professional Edition MixerCertification
Version 2013 7_08
Certificate Number 24-0170-100974-01
Remark
Page 2/5
Material Number 3622.0714.02
Serial Number 100974
1.1 RF Input VSWR
Measurement uncertainty:
0.05 (VSWR)
Certificate Number 24-0170-100974-01
Page 3/5
Material Number 3622.0714.02
Serial Number 100974
1.2 Conversion loss
LO level Bias
+15.5 dBm nominal 0 A
Measurement uncertainty:
1.5 dB
Certificate Number 24-0170-100974-01
Note: Numeric calibration data can be found attached to the PDF file of the calibration certificate. Click the "paper clip" symbol to display the file. The file has been renamed for safety reasons. When downloading the file onto your PC, please delete the ".file" extension and unzip the data.
Page 4/5
Material Number 3622.0714.02
Serial Number 100974
Certificate Number 24-0170-100974-01
1.3 Frequency response within 1 GHz
IF = 404.4 MHz, 12th harmonic IF = 729 MHz, 12th harmonic IF = 1330 MHz, 10th harmonic
DUL 6 dB 6 dB 6 dB
Actual (worst case) 2.14 dB
2.15 dB
1.99 dB
Evaluation PASS PASS PASS
Page 5/5
Calibration Certificate
Kalibrierschein
Unit Data
Item Gegenstand
Harmonic Mixer, 140 GHz to 220 GHz
Manufacturer Hersteller
RPG
Type
RPG FS-Z220
Typ
Material Number 3593.3250.02 Serial Number
Materialnummer
Seriennummer
100967
Asset Number Inventarnummer
Order Data
Customer Auftraggeber
Certificate Number 24-0220-100967-01
Zertifikatsnummer
This calibration certificate documents, that the named item is tested and measured against defined specifications. Measurement results are located usually in the corresponding interval with a probability of approx. 95% (coverage factor k = 2). Calibration is performed with test equipment and standards directly or indirectly traceable by means of approved calibration techniques to the PTB/DKD or other national/international standards, which realize the physical units of measurement according to the International System of Units (SI). In all cases where no standards are available, measurements are referenced to standards of the R&S laboratories. Principles and methods of calibration correspond with EN ISO/IEC 17025. This calibration certificate may not be reproduced other than in full. Calibration certificates without signatures are not valid. The user is obliged to have the object recalibrated at appropriate intervals.
Order Number Bestellnummer
Date of Receipt Eingangsdatum
Performance
Place and Date of Calibration Ort und Datum der Kalibrierung
Scope of Calibration Umfang der Kalibrierung
Statement of Compliance (Incoming) Konformitätsaussage (Anlieferung)
Statement of Compliance (Outgoing) Konformitätsaussage (Auslieferung) Extend of Calibration Documents Umfang des Kalibrierdokuments
Meckenheim, 2018-03-01 Standard Calibration New device
All measured values are within the data sheet specifications. 2 pages Calibration Certificate 5 pages Outgoing Results
Dieser Kalibrierschein dokumentiert, dass der genannte Gegenstand nach festgelegten Vorgaben geprüft und gemessen wurde. Die Messwerte lagen im Regelfall mit einer Wahrscheinlichkeit von annähernd 95% im zugeordneten Werteintervall (Erweiterte Messunsicherheit mit k = 2). Die Kalibrierung erfolgte mit Messmitteln und Normalen, die direkt oder indirekt durch Ableitung mittels anerkannter Kalibriertechniken rückgeführt sind auf Normale der PTB/DKD oder anderer nationaler/internationaler Standards zur Darstellung der physikalischen Einheiten in Übereinstimmung mit dem Internationalen Einheitensystem (SI). Wenn keine Normale existieren, erfolgt die Rückführung auf Bezugsnormale der R&S-Laboratorien. Grundsätze und Verfahren der Kalibrierung beziehen sich auf EN ISO/IEC 17025. Dieser Kalibrierschein darf nur vollständig und unverändert weiterverbreitet werden. Kalibrierscheine ohne Unterschriften sind ungültig. Für die Einhaltung einer angemessenen Frist zur Wiederholung der Kalibrierung ist der Benutzer verantwortlich.
Radiometer Physics GmbH; Meckenheim
Date of Issue Ausstellungsdatum
Head of Laboratory Laborleitung
Person Responsible Bearbeiter
2018-03-02
Schulze
Grossmindorf
Page (Seite) 1/2
Vers2010-05-05/ RPG2014-02-28
Radiometer Physics GmbH Werner-von-Siemens-Str. 4 53340 Meckenheim Telephone national: 02225/99981-0 international: 0049 2225-99981-0 Fax: 02225/99981-99 Managing Director: Achim Walber, Dr. Thomas Rose Company's Place of Business: Meckenheim Commercial Register No.: Bonn, HRB 10291 VAT Identification No.: DE 123 377 395
Material Number 3593.3250.02
Calibration Method Kalibrieranweisung Ambient Temperature Umgebungstemperatur
Serial Number 100967
RPG-PAQA-TN-2014-002
(23
+7 -3
)
°C
Certificate Number 24-0220-100967-01
Relative Humidity 20 % - 80 %
Relative Luftfeuchte
Working standards used (having a significant effect on the accuracy) Verwendete Gebrauchsnormale (mit signifikantem Einfluss auf die Genauigkeit)
Item Gegenstand
Vector Network Analyzer Powersensor
Type Typ
R&S® ZVA67 R&S® NRP-Z55
Serial Number Seriennummer
101097 140093
Calibration Certificate Number Kalibrierscheinnummer
20-300432406 20-300426315
Cal. Due Kalibr. bis
2020-07-21 2018-05-17
UGB1 UGB2
A compliance statement may be possible where a confidence level of less than 95 % is acceptable. Die Bestätigung der Konformität ist möglich, sofern ein Grad des Vertrauens von weniger als 95 % akzeptabel ist.
A non-compliance statement may be possible where a confidence level of less than 95 % is acceptable. Die Bestätigung der Nicht-Konformität ist möglich, sofern ein Grad des Vertrauens von weniger als 95 % akzeptabel ist.
Ref.: ILAC-G8:03/2009 `Guidelines on the Reporting of Compliance with Specification'.
Notes Anmerkungen
If the new product is stored under the climate conditions as specified in the data sheet upon delivery, the product's accuracy is not significantly affected within 12 month after its calibration in our factory. In this case, the recommended calibration interval starts on the date when the product is actually put into operation.
Page 2/2
Material Number 3593.3250.02
Serial Number 100967
Certificate Number 24-0220-100967-01
Outgoing Results
The following abbreviations may be used in this document
{a}
{b}
{c} {d} {e} DL or DT DLL DUL MU MLL or MLV MUL or MUV Nom. Dev. MErr. Act. UGB UGB1 UGB2 DU
No measurement uncertainty stated because the errors always add together. So it is sure that a measurement result evaluated as "PASS" is pass. The measurement uncertainty depends on the measurement result. The stated measurement uncertainty is valid for the close area around the specification. Measurement results outside the close area have a higher measurement uncertainty but are within the specification. Functional test, therefore no measurement uncertainty is stated. Typical value, refer to performance test. The measurement uncertainty is taken into account when setting the measuring system. Data Limit for symmetrical tolerance limits Datasheet Lower Limit Datasheet Upper Limit Measurement Uncertainty Measurement Uncertainty Lower Value Measurement Uncertainty Upper Value Nominal Value Deviation Measurement Error Actual Value Uncertainty Guard Band: Measuring uncertainty violates the data (spec.) limit. Measurement results marked as UGB1 show conformity with a probability of >50 %and <95 %. Measurement results marked as UGB2 show non-conformity with a probability of >50 %and <95 %. Datasheet Uncertainty
Explanation of charts
Page 1/5
Material Number 3593.3250.02
Serial Number 100967
Software used for measurement Item Type Measurement Studio Professional Edition MixerCertification
Version 2013 7_08
Certificate Number 24-0220-100967-01
Remark
Page 2/5
Material Number 3593.3250.02
Serial Number 100967
1.1 RF Input VSWR
Measurement uncertainty:
0.05 (VSWR)
Certificate Number 24-0220-100967-01
Page 3/5
Material Number 3593.3250.02
Serial Number 100967
1.2 Conversion loss
LO level Bias
+13 dBm nominal 0 A
Measurement uncertainty:
4 dB
Certificate Number 24-0220-100967-01
Note: Numeric calibration data can be found attached to the PDF file of the calibration certificate. Click the "paper clip" symbol to display the file. The file has been renamed for safety reasons. When downloading the file onto your PC, please delete the ".file" extension and unzip the data.
Page 4/5
Material Number 3593.3250.02
Serial Number 100967
Certificate Number 24-0220-100967-01
1.3 Frequency response within 1 GHz
IF = 404.4 MHz, 16th harmonic IF = 729 MHz, 16th harmonic IF = 1330 MHz, 14th harmonic
DUL 6 dB 6 dB 6 dB
Actual (worst case) 4 dB
4.22 dB
4.13 dB
Evaluation PASS PASS PASS
Page 5/5
Standard Gain Horn
Model 20240-20
Waveguide Size: Nominal Gain: Operating Frequencies:
Overall Length (A): Aperture Width (B): Aperture Height (C): Waveguide Width (D): Waveguide Height (E): Flare Length (F):
WG20 (WR42, R220) 20 dBi 17.6 - 26.7 GHz
120.3 mm (4.736 inch) 52.00 mm (2.047 inch) 37.40 mm (1.472 inch) 10.668 mm (0.420 inch) 4.318 mm (0.170 inch) 115.20 mm (4.535 inch)
Typical Performance Data
Frequency (GHz) 17.6 17.7 17.85 18 18.15 18.3 18.45 18.6 18.75 18.9 19.05 19.2 19.35 19.5 19.65 19.8 19.95 20.1 20.25 20.4 20.55
Gain (dBi) 18.11 18.15 18.22 18.29 18.36 18.42 18.49 18.56 18.62 18.69 18.75 18.82 18.88 18.94 19.00 19.06 19.13 19.19 19.25 19.31 19.36
Beamwidth
Frequency
E-Plane H-Plane (GHz)
23.1°
22.3°
20.7
23.0°
22.2°
20.85
22.8°
22.0°
21
22.6°
21.8°
21.15
22.4°
21.6°
21.3
22.2°
21.4°
21.45
22.1°
21.3°
21.6
21.9°
21.1°
21.75
21.7°
20.9°
21.9
21.5°
20.8°
22.05
21.4°
20.6°
22.2
21.2°
20.4°
22.35
21.0°
20.3°
22.5
20.9°
20.1°
22.65
20.7°
20.0°
22.8
20.6°
19.8°
22.95
20.4°
19.7°
23.1
20.3°
19.5°
23.25
20.1°
19.4°
23.4
20.0°
19.2°
23.55
19.8°
19.1°
23.7
Gain (dBi) 19.42 19.48 19.54 19.59 19.65 19.71 19.76 19.82 19.87 19.93 19.98 20.03 20.09 20.14 20.19 20.24 20.29 20.35 20.40 20.45 20.50
Beamwidth
Frequency
E-Plane H-Plane (GHz)
19.7°
19.0°
23.85
19.5°
18.8°
24
19.4°
18.7°
24.15
19.2°
18.6°
24.3
19.1°
18.4°
24.45
19.0°
18.3°
24.6
18.8°
18.2°
24.75
18.7°
18.0°
24.9
18.6°
17.9°
25.05
18.5°
17.8°
25.2
18.3°
17.7°
25.35
18.2°
17.6°
25.5
18.1°
17.4°
25.65
18.0°
17.3°
25.8
17.9°
17.2°
25.95
17.7°
17.1°
26.1
17.6°
17.0°
26.25
17.5°
16.9°
26.4
17.4°
16.8°
26.55
17.3°
16.7°
26.7
17.2°
16.6°
Gain (dBi) 20.54 20.59 20.64 20.69 20.74 20.79 20.83 20.88 20.93 20.97 21.02 21.06 21.11 21.15 21.20 21.24 21.28 21.33 21.37 21.41
Beamwidth
E-Plane H-Plane
17.1°
16.5°
17.0°
16.4°
16.9°
16.3°
16.8°
16.2°
16.6°
16.1°
16.5°
16.0°
16.4°
15.9°
16.3°
15.8°
16.3°
15.7°
16.2°
15.6°
16.1°
15.5°
16.0°
15.4°
15.9°
15.3°
15.8°
15.2°
15.7°
15.1°
15.6°
15.0°
15.5°
15.0°
15.4°
14.9°
15.3°
14.8°
15.2°
14.7°
Gain (dBi) 3 dB Beamwidth (°)
Gain (dBi)
E-Plane Beamwidth (°)
H-Plane Beamwidth (°)
22.5
24
22
23
21.5
22
21
21
20.5
20
20
19
19.5
18
19
17
18.5
16
18
15
17.5
14
17
18
19
20
21
22
23
24
25
26
27
Frequency (GHz)
Notes: Gain calculations based on NRL Report 4433 - accuracy to approx ± 0.3dBi
Half-power (3dB) beamwidth estimates calculated using 50.8 / C (E-Plane) and 68.1 / B (H-Plane). This is a 'large aperture' approximation that breaks down at gain values smaller than around 12 dBi. For 10dBi Standard Gain Horns, beamwidths are approximately 63º at the lowest frequency and 48º at the highest frequency.
FLANN MICROWAVE LTD
Dunmere Road Bodmin, Cornwall PL31 2QL United Kingdom Tel: +44 (0)1208 77777 Fax: +44 (0)1208 76426
sales@flann.com
1/7/2013
FLANN MICROWAVE INC
One Boston Place Suite 2600 Boston
Massachusetts, MA 02108-4407 Tel: 617 621 7034 Fax: 617 577 8234
www.flann.com
Form 305 Iss 21
Standard Gain Horn
Model 27240-20
Waveguide Size: Nominal Gain: Operating Frequencies:
WG27 (WR10, R900) 20 dBi 73.8 - 112 GHz
Overall Length (A): Aperture Width (B): Aperture Height (C): Waveguide Width (D): Waveguide Height (E): Flare Length (F):
32.5 mm (1.280 inch) 12.40 mm (0.488 inch) 9.00 mm (0.354 inch) 2.540 mm (0.100 inch) 1.270 mm (0.050 inch) 26.00 mm (1.024 inch)
Typical Performance Data
Frequency (GHz) 73.8 74.25 75 75.75 76.5 77.25 78 78.75 79.5 80.25 81 81.75 82.5 83.25 84 84.75 85.5 86.25 87 87.75 88.5
Gain (dBi) 18.12 18.17 18.26 18.34 18.42 18.50 18.57 18.65 18.73 18.80 18.88 18.95 19.03 19.10 19.17 19.24 19.31 19.38 19.45 19.52 19.59
Beamwidth Frequency
E-Plane H-Plane (GHz)
22.9° 22.3° 89.25
22.8° 22.2°
90
22.6° 21.9° 90.75
22.3° 21.7°
91.5
22.1° 21.5° 92.25
21.9° 21.3°
93
21.7° 21.1° 93.75
21.5° 20.9°
94.5
21.3° 20.7° 95.25
21.1° 20.5°
96
20.9° 20.3° 96.75
20.7° 20.1°
97.5
20.5° 20.0° 98.25
20.3° 19.8°
99
20.1° 19.6° 99.75
20.0° 19.4° 100.5
19.8° 19.3° 101.25
19.6° 19.1°
102
19.4° 18.9° 102.75
19.3° 18.8° 103.5
19.1° 18.6° 104.25
Gain (dBi) 19.66 19.72 19.79 19.85 19.92 19.98 20.04 20.11 20.17 20.23 20.29 20.35 20.41 20.47 20.53 20.58 20.64 20.70 20.76 20.81 20.87
Beamwidth Frequency
E-Plane H-Plane (GHz)
19.0° 18.4°
105
18.8° 18.3° 105.75
18.6° 18.1° 106.5
18.5° 18.0° 107.25
18.3° 17.8°
108
18.2° 17.7° 108.75
18.0° 17.6° 109.5
17.9° 17.4° 110.25
17.8° 17.3°
111
17.6° 17.1° 111.75
17.5° 17.0°
112
17.3° 16.9°
17.2° 16.8°
17.1° 16.6°
17.0° 16.5°
16.8° 16.4°
16.7° 16.3°
16.6° 16.1°
16.5° 16.0°
16.3° 15.9°
16.2° 15.8°
Gain (dBi) 20.92 20.98 21.03 21.08 21.14 21.19 21.24 21.29 21.34 21.39 21.41
Beamwidth E-Plane H-Plane
16.1° 15.7° 16.0° 15.6° 15.9° 15.5° 15.8° 15.3° 15.7° 15.2° 15.6° 15.1° 15.4° 15.0° 15.3° 14.9° 15.2° 14.8° 15.1° 14.7° 15.1° 14.7°
Gain (dBi) 3 dB Beamwidth (°)
Gain (dBi)
E-Plane Beamwidth (°)
H-Plane Beamwidth (°)
22.5
24
22
23
21.5
22
21
21
20.5
20
20
19
19.5
18
19
17
18.5
16
18
15
17.5
14
70
75
80
85
90
95
100
105
110
115
Frequency (GHz)
Notes: Gain calculations based on NRL Report 4433 - accuracy to approx ± 0.3dBi Half-power (3dB) beamwidth estimates calculated using 50.8 / C (E-Plane) and 68.1 / B (H-Plane). This is a 'large aperture' approximation
that breaks down at gain values smaller than around 12 dBi. For 10dBi Standard Gain Horns, beamwidths are approximately 63º at the lowest
frequency and 48º at the highest frequency.
FLANN MICROWAVE
Dunmere Road Bodmin, Cornwall PL31 2QL United Kingdom
Tel: +44 (0) 1208 77777 Fax: + 44 (0) 1208 76426
mail@flann.com www.flann.com
03/04/2014
Form 305 Iss 22
STANDARD GAIN HORN
Model 29240-20
Waveguide Size: Nominal Gain: Operating Frequencies:
WG29 (WR6, R1400) 20 dBi 114 - 173 GHz
Overall Length (A): Aperture Width (B): Aperture Height (C): Waveguide Width (D): Waveguide Height (E): Flare Length (F):
24.4 mm (0.961 inch) 8.50 mm (0.335 inch) 6.40 mm (0.252 inch) 1.651 mm (0.065 inch) 0.826 mm (0.033 inch) 18.00 mm (0.709 inch)
Typical Performance Data
Frequency (GHz) 114 115 116 117 118 119 120 121 122 123 124 125 126 127 128 129 130 131 132 133 134
Gain (dBi) 18.73 18.80 18.87 18.94 19.01 19.08 19.14 19.21 19.28 19.34 19.41 19.47 19.53 19.60 19.66 19.72 19.78 19.84 19.90 19.96 20.02
Beamwidth
E-Plane H-Plane
20.9°
21.1°
20.7°
20.9°
20.5°
20.7°
20.3°
20.5°
20.2°
20.3°
20.0°
20.2°
19.8°
20.0°
19.7°
19.8°
19.5°
19.7°
19.3°
19.5°
19.2°
19.4°
19.0°
19.2°
18.9°
19.1°
18.7°
18.9°
18.6°
18.8°
18.4°
18.6°
18.3°
18.5°
18.2°
18.3°
18.0°
18.2°
17.9°
18.1°
17.8°
17.9°
Frequency (GHz) 135 136 137 138 139 140 141 142 143 144 145 146 147 148 149 150 151 152 153 154 155
Gain (dBi) 20.08 20.13 20.19 20.25 20.30 20.36 20.42 20.47 20.52 20.58 20.63 20.68 20.74 20.79 20.84 20.89 20.94 20.99 21.04 21.09 21.14
Beamwidth
E-Plane H-Plane
17.6°
17.8°
17.5°
17.7°
17.4°
17.5°
17.2°
17.4°
17.1°
17.3°
17.0°
17.2°
16.9°
17.0°
16.8°
16.9°
16.6°
16.8°
16.5°
16.7°
16.4°
16.6°
16.3°
16.4°
16.2°
16.3°
16.1°
16.2°
16.0°
16.1°
15.9°
16.0°
15.8°
15.9°
15.7°
15.8°
15.5°
15.7°
15.4°
15.6°
15.3°
15.5°
Frequency (GHz) 156 157 158 159 160 161 162 163 164 165 166 167 168 169 170 171 172 173
Gain (dBi) 21.19 21.24 21.28 21.33 21.38 21.42 21.47 21.52 21.56 21.61 21.65 21.70 21.74 21.78 21.83 21.87 21.91 21.95
Beamwidth
E-Plane H-Plane
15.2°
15.4°
15.2°
15.3°
15.1°
15.2°
15.0°
15.1°
14.9°
15.0°
14.8°
14.9°
14.7°
14.8°
14.6°
14.7°
14.5°
14.6°
14.4°
14.6°
14.3°
14.5°
14.2°
14.4°
14.2°
14.3°
14.1°
14.2°
14.0°
14.1°
13.9°
14.0°
13.8°
14.0°
13.8°
13.9°
Gain (dBi) 3 dB Beamwidth (°)
Gain (dBi)
E-Plane Beamwidth (°)
H-Plane Beamwidth (°)
22.5
22.5
22
21.5
21.5
20.5
21
19.5
20.5
18.5
20
17.5
19.5
16.5
19
15.5
18.5
14.5
18
13.5
17.5
12.5
110
120
130
140
150
160
170
180
Frequency (GHz)
Notes: Gain calculations based on NRL Report 4433 - accuracy to approx ± 0.3dBi. Antenna Gain is only valid within the 'far-field' of the antenna. For more details, please see Ch 16, 'Antenna Theory, Analysis & Design' Balanis, Wiley or Ch 18 'Antenna', Kraus, McGraw-Hill. Half-power (3dB) beamwidth estimates calculated using 50.8 / C (E-Plane) and 68.1 / B (H-Plane). This is a 'large aperture' approximation that breaks down at gain values smaller than around 12 dBi. For 10dBi Standard Gain Horns, beamwidths are approximately 63º at the lowest frequency and 48º at the highest frequency.
28 Aug 2018
Form 305 Iss 31
Standard Gain Horn
Model 30240-20
Waveguide Size: Nominal Gain: Operating Frequencies:
Overall Length (A): Aperture Width (B): Aperture Height (C): Waveguide Width (D): Waveguide Height (E): Flare Length (F):
WG30 (WR5, R1800) 20 dBi 145 - 220 GHz
17.5 mm (0.689 inch) 6.80 mm (0.268 inch) 5.00 mm (0.197 inch) 1.295 mm (0.051 inch) 0.648 mm (0.026 inch) 14.50 mm (0.571 inch)
Typical Performance Data
Frequency (GHz) 145 145.5 147 148.5 150 151.5 153 154.5 156 157.5 159 160.5 162 163.5 165 166.5 168 169.5 171 172.5 174
Gain (dBi) 18.78 18.81 18.89 18.98 19.06 19.14 19.21 19.29 19.37 19.45 19.52 19.60 19.67 19.74 19.82 19.89 19.96 20.03 20.10 20.16 20.23
Beamwidth
Frequency
E-Plane H-Plane (GHz)
21.0°
20.7°
175.5
20.9°
20.6°
177
20.7°
20.4°
178.5
20.5°
20.2°
180
20.3°
20.0°
181.5
20.1°
19.8°
183
19.9°
19.6°
184.5
19.7°
19.4°
186
19.5°
19.2°
187.5
19.3°
19.1°
189
19.2°
18.9°
190.5
19.0°
18.7°
192
18.8°
18.5°
193.5
18.6°
18.4°
195
18.5°
18.2°
196.5
18.3°
18.0°
198
18.1°
17.9°
199.5
18.0°
17.7°
201
17.8°
17.6°
202.5
17.7°
17.4°
204
17.5°
17.2°
205.5
Gain (dBi) 20.30 20.37 20.43 20.50 20.56 20.62 20.69 20.75 20.81 20.87 20.93 20.99 21.05 21.11 21.17 21.23 21.28 21.34 21.39 21.45 21.50
Beamwidth
Frequency
E-Plane H-Plane (GHz)
17.3°
17.1°
207
17.2°
17.0°
208.5
17.1°
16.8°
210
16.9°
16.7°
211.5
16.8°
16.5°
213
16.6°
16.4°
214.5
16.5°
16.3°
216
16.4°
16.1°
217.5
16.2°
16.0°
219
16.1°
15.9°
220
16.0°
15.8°
15.9°
15.6°
15.7°
15.5°
15.6°
15.4°
15.5°
15.3°
15.4°
15.2°
15.3°
15.0°
15.1°
14.9°
15.0°
14.8°
14.9°
14.7°
14.8°
14.6°
Gain (dBi) 21.56 21.61 21.67 21.72 21.77 21.82 21.87 21.92 21.97 22.01
Beamwidth
E-Plane H-Plane
14.7°
14.5°
14.6°
14.4°
14.5°
14.3°
14.4°
14.2°
14.3°
14.1°
14.2°
14.0°
14.1°
13.9°
14.0°
13.8°
13.9°
13.7°
13.8°
13.6°
Gain (dBi) 3 dB Beamwidth (°)
Gain (dBi)
E-Plane Beamwidth (°)
H-Plane Beamwidth (°)
22.5
22.5
22
21.5
21.5
20.5
21
19.5
20.5
18.5
20
17.5
19.5
16.5
19
15.5
18.5
14.5
18
13.5
17.5
12.5
140
150
160
170
180
190
200
210
220
230
Frequency (GHz)
Notes: Gain calculations based on NRL Report 4433 - accuracy to approx ± 0.3dBi
Half-power (3dB) beamwidth estimates calculated using 50.8 / C (E-Plane) and 68.1 / B (H-Plane). This is a 'large aperture' approximation that breaks down at gain values smaller than around 12 dBi. For 10dBi Standard Gain Horns, beamwidths are approximately 63º at the lowest frequency and 48º at the highest frequency.
FLANN MICROWAVE LTD
Dunmere Road Bodmin, Cornwall PL31 2QL United Kingdom Tel: +44 (0)1208 77777 Fax: +44 (0)1208 76426
sales@flann.com
1/7/2013
FLANN MICROWAVE INC
One Boston Place Suite 2600 Boston
Massachusetts, MA 02108-4407 Tel: 617 621 7034 Fax: 617 577 8234
www.flann.com
Form 305 Iss 21
ELxGem Adobe PDF Library 20.9.95