FXUB66010150C [TAOGLAS]
Flexible Ultra Wide Band Antenna 700-6000MHz;型号: | FXUB66010150C |
厂家: | Taoglas |
描述: | Flexible Ultra Wide Band Antenna 700-6000MHz |
文件: | 总14页 (文件大小:994K) |
中文: | 中文翻译 | 下载: | 下载PDF数据表文档文件 |
SPECIFICATION
PATENT GRANTED
Part No:
FXUB66.01.0150C
Product Name:
Maximus
Flexible Ultra Wide Band Antenna 700-6000MHz
Features:
Ground Plane Independent
700-6000MHz
5 dBi Peak Gain
Efficiencies above 60% on all cellular 2G/3G/4G bands
120.4x50.4x0.2 mm size
SMA(M) Connector
RoHS Compliant
SPE-12-8-145/C/RC
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US Patent 9257747
1. INTRODUCTION
The patent granted Maximus FXUB66 flexible ultra wideband antenna has been designed to
cover all working frequencies in the 700-6000 MHz spectrum, including all Cellular, Wi-Fi, ISM
and GNSS bands. Its use in a device improves substantially the radiated power and sensitivity,
and enables the highest throughput rates of today's broadband devices.
The antenna is delivered with a flexible body with ground breaking high efficiencies on all bands,
ground-plane independent, with a cable and connector for easy installation. It is made of durable
flexible polymer, with a peak gain of 5dBi, an efficiency of more than 60% across all cellular
bands and is designed to be mounted directly onto a plastic or glass enclosure / cover.
At 120.4x50.4x.2mm, the antenna is ultra thin. It is assembled by a simple “peel and stick”
process, attaching securely to non-metal surfaces via 3M adhesive. It enables designers to use
only one antenna that covers all frequencies and future proofs device design for LTE and 4G
globally. It is also the ideal antenna to fit in devices that are being retrofitted with wireless
functionality, as it will cover non cellular applications such as 868, 915MHz or Zigbee
applications. It's inherently wide bandwidth is more resistant to detuning than traditional small
but narrow-band legacy antennas.
The Maximus antenna has a unique hybrid design. Within one antenna structure the
electromagnetic waves travel in two predominant propagation modes - one for lower
frequencies, (e.g. LTE at 700 MHz) and the other for higher 4G and Wi-Fi frequencies up to
6GHz.
It is an ideal choice for any device maker that needs to keep manufacturing costs down over the
lifetime of a product, as the same antenna can be used if the radio module is upgraded to work
on a different frequency band.
Cables and Connectors are customizable.
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US Patent 9257747
2.SPECIFICATION
ELECTRICAL
1700
/180
0/19
00
LTE/
GSM/
CDMA
1710-
1990
700/8
50/90
Band
1400
1575
2100
2400
2600
LTE
3500
LTE
5000
0
LTE/G
SM/CD
MA
UMTS/
HSPA
ISM/
WIFI
ISM/
WIFI
Standard
MIL
GPS
1390-
1435
1755-
2170
2400-
2500
2500-
2700
3400-
3600
4800-
6000
Frequency (MHz)
698-960
1575.42
Polarization
Impedance (Ohms)
Max VSWR
Linear
50 Ohms
3.3:1
-5.5
3.5:1
-5
3.5:1
-5
1.1:1
-20
5
3.0:1
-6
2.2:1
-7
2.0:1
-10
3.8
2.2:1
-7
3.0:1
-6
Max Return Loss (dB)
Peak Gain (dBi)
Efficiency (%)
2.7
3.8
55
5
5
3.5
75
6.4
85
5.5
60
80
75
78
-1
65
75
Average Gain (dB)
Radiation Properties
-0.97
-2.6
-1.1
-1.8
-1.1
-1.1
-0.7
-2
Omni-directional
5
Max Input Power
(Watts)
*Antenna measured on 2mm ABS plastic plate.
MECHANICAL
Dimensions (mm)
Material
120.4x50.4x0.2 mm
Flexible Polymer
Connector and Cable
SMA(M) and 1.37 mm mini coax
ENVIRONMENTAL
Operation Temperature
Storage Temperature
-40°C to 85°C
-40°C to 85°C
Relative Humidity
RoHs Compliant
40% to 95%
Yes
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US Patent 9257747
3. TEST SET UP
Figure 1. Impedance measurements (left hand) and peak gain, average gain, efficiency and radiation
pattern measurements (right hand).
4.ANTENNA PARAMETERS
4.1 Return Loss
Figure 2. Return loss of FXUB66 UWB Antenna.
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US Patent 9257747
4.2 VSWR
Figure 3. VSWR of FXUB66 UWB Antenna.
4.3 Efficiency
Figure 4. Efficiency of FXUB66 UWB Antenna.
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US Patent 9257747
4.4 Peak Gain
Figure 5. Peak Gain of FXUB66 UWB Antenna.
4.5 Average Gain
Figure 6. Average Gain of FXUB66 UWB Antenna.
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US Patent 9257747
4.6 Radiation Pattern
Figure 7. Radiation Pattern at 750 MHz of FXUB66 UWB Antenna.
Figure 8. Radiation Pattern at 850 MHz of FXUB66 UWB Antenna.
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US Patent 9257747
Figure 9. Radiation Pattern at 925 MHz of FXUB66 UWB Antenna.
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US Patent 9257747
Figure 10. Radiation Pattern at 1400 MHz of FXUB66 UWB Antenna.
Figure 11. Radiation Pattern at 1575 MHz of FXUB66 UWB Antenna.
Figure 12. Radiation Pattern at 1750 MHz of FXUB66 UWB Antenna.
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Figure 13. Radiation Pattern at 1850 MHz of FXUB66 UWB Antenna.
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US Patent 9257747
Figure 14. Radiation Pattern at 1950 MHz of FXUB66 UWB Antenna.
Figure 15. Radiation Pattern at 2100 MHz of FXUB66 UWB Antenna.
Figure 16. Radiation Pattern at 2450 MHz of FXUB66 UWB Antenna.
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US Patent 9257747
Figure 17. Radiation Pattern at 2600 MHz of FXUB66 UWB Antenna.
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US Patent 9257747
Figure 18. Radiation Pattern at 3600 MHz of FXUB66 UWB Antenna.
Figure 19. Radiation Pattern at 5500 MHz of FXUB66 UWB Antenna.
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US Patent 9257747
5.MECHANICAL DRAWING
Figure 20. Mechanical drawing of FXUB66 UWB Antenna.
Taoglas makes no warranties based on the accuracy or completeness of the contents of this document and reserves the right to
make changes to specifications and product descriptions at any time without notice.
Taoglas reserves all rights to this document and the information contained herein. Reproduction, use or disclosure to third parties
without express permission is strictly prohibited. Copyright © 2012, Taoglas Ltd.
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US Patent 9257747
相关型号:
FXUB68.07.0180C_17
Minima Embedded Flexible 4G LTE Wide Band Antenna 700-960MHz, 1700-2700MHz
TAOGLAS
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