MA931.W.A.LBICGH.001.WM [TAOGLAS]
Guardian 6in1 Wall Mount Antenna GNSS, 2*LTE and 3*Wi-Fi;型号: | MA931.W.A.LBICGH.001.WM |
厂家: | Taoglas |
描述: | Guardian 6in1 Wall Mount Antenna GNSS, 2*LTE and 3*Wi-Fi LTE |
文件: | 总137页 (文件大小:11943K) |
中文: | 中文翻译 | 下载: | 下载PDF数据表文档文件 |
Specification
PATENT PENDING
Part No.
:
MA931.W.A.LBICGH.001.wm
Product Name :
Guardian 6in1 Wall Mount Antenna
GNSS, 2*LTE and 3*Wi-Fi
Low-profile Housing – Mounts flush to Wall
1* GPS-GLONASS-GALILEO-BeiDou Antenna
2* LTE MIMO 698-960MHz/1710-2170MHz/
2490-2690MHz/ 3300-3600MHz
3* Wi-Fi MIMO 2.4GHz/5.8GHz
Features
:
Worldwide 4G Bands including 3G and 2G
IP67 Waterproof Enclosure
Dims: 146*134*20mm
Cables: 1M Low Loss KSR200-P and RG174
Connectors: SMA(M)/RP-SMA(M)
Cables and Connectors Customizable
RoHS Compliant
SPE-18-8-024/A
Page 1 of 137
1.Introduction
The MA931 Guardian is a next generation combination antenna. The first panel antenna
worldwide designed for IoT Gateway and Router devices. It is a low profile 6in1 wall
mount antenna. It is a heavy-duty, fully IP67 waterproof external M2M antenna for use
by RF professionals in IoT Gateway and Routers, HD Video Streaming, Transportation
and Remote Monitoring Applications.
This antenna delivers powerful MIMO antenna technology for worldwide 4G LTE bands
at 698-960MHz/1710-2170MHz/2490-2690MHz/3300-3600MHz, dualband 2.4/5.8GHz
Wi-Fi, plus GPS-GLONASS-GALILEO-BeiDou for location accuracy. It enables designers
to cover a wide range of technologies by installing a single antenna.
4G wireless applications demand high speed data uplink and downlink. High efficiency
and high gain MIMO antennas are necessary to achieve the required signal to noise
ratio and throughput required to solve these challenges. Taoglas also takes care to
have high isolation among these antennas to prevent self-interference. Low loss cables
used to keep efficiency high over long cable lengths.
The GPS-GLONASS-GALILEO-BeiDou active antenna has been carefully designed for
excellent performance across all GNSS bands, leading to higher location accuracy and
stability of tracking in urban environments.
The housing is IP67 waterproof and comes with a 3M foam adhesive. The antenna can
be mounted internally or externally on a vehicle. The MA931 comes with 1 meter, low
loss KSR-200P coaxial cables for the LTE and Wi-Fi antennas, and RG174 coaxial cable
for the GNSS antenna as standard. Customized cables and connector versions are also
available.
SPE-18-8-024/A
Page 2 of 137
1. Specification
GPS-GLONASS-GALILEO-BeiDou
GPS/GALILEO:1575.42±1.023MHz
Center Frequency
GLONASS:1602±5MHz
BeiDou:1561.098±2.046MHz
GPS/GALILEO: 48%
GLONASS: 57%
Passive Antenna
Efficiency (without cable
loss)
BeiDou: 63%
GPS/GALILEO: -3.13dBi
GLONASS: -2.39dBi
BeiDou: -1.97dBi
Passive Antenna Average
Gain (without cable loss)
GPS/GALILEO: 1.98dBi
GLONASS: 3.01dBi
BeiDou: 3dBi
Passive Antenna Peak
Gain (without cable loss)
VSWR
3:1 Max
Impedance
50Ω
GPS/GALILEO:<14.02
GLONASS:<5.9
BeiDou:<9.7
Axial Ratio
Polarization
Cable
RHCP
1 meter RG174 standard, fully customizable
SMA(M) standard, fully customizable
Connector
LNA and Filter Electrical Properties
GPS/GALILEO:1575.42±1.023MHz
GLONASS:1602±5MHz
Center Frequency
BeiDou: 1561.098±2.046MHz
Output Impedance
VSWR
50Ω
< 2:1
Return Loss
10dB Min.
LNA Gain
Current Draw
Noise Figure
(Typ)
Voltage
(Typ)
(Typ)
LNA Gain, Current Draw,
and Noise Figure@GPS
Min 1.8V
Typ 3.0V
Max 5.5V
28dB
7.9mA
1.13dB
30dB
9.0mA
1.13dB
33dB
9.9mA
1.14dB
Total Specification (Through Antenna, SAW Filter, and LNA)
Frequency
1561.098±2.046MHz
1575.42±1.023MHz
1575.42MHz:28±3dBi
50Ω
1602±5MHz
1602MHz:28±3d
Bi
Gain@3V
1561MHz:28±3dBi
Output Impedance
SPE-18-8-024/A
Page 3 of 137
4G/3G/2G LTE Antenna
LTE700
GSM850
GSM900
DCS
PCS
UMTS1
LTE2600
LTE3500
Frequency (MHz)
3300~36
00
698~803 824~894 880~960 1710~1880 1850~1990 1920~2170 2490~2690
Efficiency (%)
Free space
ABS
50.82
68.31
67.99
42.12
67.97
54.13
71.74
64.53
55.62
61.91
55.85
69.61
67.37
51.55
70.42
58.97
66.05
55.70
63.13
48.38
41.29
61.27
62.94
58.33
66.80
48.65
58.58
45.22
56.59
52.88
66.47
66.31
66.89
39.49
63.91
61.54
63.18
64.94
32.14
58.00
70.19
70.86
71.80
47.20
64.94
68.31
69.29
67.87
40.89
56.47
71.51
70.00
69.58
47.71
63.35
68.39
69.23
65.86
43.97
56.36
50.92
51.88
52.83
44.85
51.49
52.55
54.95
51.77
52.90
48.72
49.20
50.61
51.00
44.36
50.37
MIMO_1
MIMO_2
Glass
Metal
Wall
Free space
ABS
54.62
53.95
50.05
54.22
54.68
Glass
Metal
Wall
Average Gain (dBi)
Free space
ABS
-2.96
-1.68
-1.73
-3.94
-1.70
-2.72
-1.47
-1.93
-2.61
-2.09
-2.62
-1.59
-1.73
-2.88
-1.53
-2.32
-1.81
-2.56
-2.00
-3.15
-3.85
-2.13
-2.02
-2.37
-1.76
-3.17
-2.33
-3.46
-2.50
-2.79
-1.78
-1.79
-1.75
-4.07
-1.95
-2.11
-2.00
-1.88
-4.95
-2.37
-1.54
-1.50
-1.44
-3.27
-1.88
-1.66
-1.59
-1.68
-3.90
-2.48
-1.46
-1.55
-1.58
-3.23
-1.99
-1.66
-1.60
-1.82
-3.59
-2.50
-2.96
-2.87
-2.79
-3.51
-2.89
-2.83
-2.63
-2.87
-2.77
-3.15
-3.12
-3.00
-2.96
-3.57
-3.00
Glass
MIMO_1
MIMO_2
Metal
Wall
Free space
ABS
-2.65
-2.71
-3.04
-2.67
-2.63
Glass
Metal
Wall
Peak Gain (dBi)
Free space
ABS
3.18
4.65
3.71
5.09
4.74
5.83
4.33
3.02
3.54
3.21
3.60
4.00
3.92
3.10
4.97
3.66
4.52
3.14
3.11
1.77
2.14
3.98
5.24
5.28
4.50
5.44
3.78
4.34
4.99
3.12
5.49
4.37
6.05
6.16
4.96
4.84
4.01
4.73
5.89
4.36
5.49
4.37
6.05
7.67
5.69
4.84
4.01
5.69
6.02
5.02
7.20
4.49
3.18
3.87
4.96
3.75
3.97
5.42
4.42
4.95
4.74
3.70
4.69
3.45
4.35
4.73
3.67
2.57
4.41
1.36
3.33
2.15
5.34
6.02
5.08
MIMO_1
MIMO_2
Glass
Metal
Wall
Free space
ABS
3.87
5.64
6.18
7.16
6.10
Glass
Metal
Wall
Impedance
50Ω
Polarization
Linear
< 3
VSWR
Cable
1 meter KSR200-P standard, fully customizable
SMA(M) standard, fully customizable
Connector
SPE-18-8-024/A
Page 4 of 137
2.4GHz/5.8GHz Wi-Fi Antenna
2400~2500
Frequency (MHz)
4900~5850
Efficiency (%)
Free space
57.73
53.59
53.98
51.80
61.02
44.09
46.34
40.79
45.58
50.62
TBC
48.06
49.42
47.16
46.70
46.29
47.04
46.79
46.88
45.59
43.60
TBC
ABS
Glass
Metal
Wall
MIMO_1
MIMO_2
MIMO_3
Free space
ABS
Glass
Metal
Wall
Free space
ABS
TBC
TBC
Glass
Metal
Wall
TBC
TBC
TBC
TBC
TBC
TBC
Average Gain (dBi)
-2.39
-2.71
-2.68
-2.86
-2.15
-3.57
-3.37
-3.91
-3.45
-2.96
TBC
Free space
ABS
-3.25
-3.13
-3.36
-3.44
-3.42
-3.33
-3.36
-3.35
-3.52
-3.67
TBC
MIMO_1
MIMO_2
MIMO_3
Glass
Metal
Wall
Free space
ABS
Glass
Metal
Wall
Free space
ABS
TBC
TBC
TBC
TBC
Glass
Metal
TBC
TBC
Wall
TBC
TBC
Peak Gain (dBi)
4.35
Free space
ABS
4.84
5.18
5.03
5.98
5.77
5.70
5.43
7.07
6.76
5.97
TBC
TBC
TBC
TBC
TBC
5.34
2.99
5.22
5.47
2.94
2.18
3.75
6.02
3.23
TBC
TBC
TBC
TBC
TBC
MIMO_1
MIMO_2
MIMO_3
Glass
Metal
Wall
Free space
ABS
Glass
Metal
Wall
Free space
ABS
Glass
Metal
Wall
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ELECTRICAL
Impedance
Polarization
50Ω
Linear
< 3
VSWR
Cable
1 meter KSR200-P standard, fully customizable
RP-SMA(M) standard, fully customizable
Connector
MECHANICAL
Antenna Dimensions
146*134*20mm
Casing
ASA
438g
Weight (including cable)
Ingress Protection Rating
IP67
ENVIRONMENTAL
-40°C to 85°C
Operation Temperature
Storage Temperature
Humidity
-40°C to 90°C
Non-condensing 65°C 95% RH
SPE-18-8-024/A
Page 6 of 137
2.1. LTE Bands Covered while on metal Ground Plane
LTE BANDS
Band
Number
LTE / LTE-Advanced / WCDMA / HSPA / HSPA+ / TD-SCDMA
Uplink
UL: 1920 to 1980
UL: 1850 to 1910
UL: 1710 to 1785
UL: 1710 to 1755
UL: 824 to 849
UL: 2500 to 2570
UL: 880 to 915
UL: 1749.9 to 1784.9
UL: 1427.9 to 1447.9
UL: 699 to 716
UL: 777 to 787
UL: 788 to 798
UL: 704 to 716
UL: 815 to 830
UL: 830 to 845
UL: 832 to 862
UL: 1447.9 to 1462.9
UL: 3410 to 3490
UL:2000 to 2020
UL:1625.5 to 1660.5
UL: 1850 to 1915
UL: 814 to 849
UL: 807 to 824
UL: 703 to 748
UL: -
Downlink
DL: 2110 to 2170
MIMO 1
MIMO 2
1
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
2
DL: 1930 to 1990
3
DL: 1805 to 1880
4
DL: 2110 to 2155
5
DL: 869 to 894
7
DL:2620 to 2690
8
DL: 925 to 960
9
DL: 1844.9 to 1879.9
DL: 1475.9 to 1495.9
DL: 729 to 746
11
12
13
14
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
35
38
39
40
41
42
43
DL: 746 to 756
DL: 758 to 768
DL: 734 to 746 (LTE only)
DL: 860 to 875 (LTE only)
DL: 875 to 890
DL: 791 to 821
DL: 1495.9 to 1510.9
DL: 3510 to 3590
DL: 2180 to 2200 (LTE only)
DL: 1525 to 1559 (LTE only)
DL: 1930 to 1995
DL: 859 to 894
DL: 852 to 869 (LTE only)
DL: 758 to 803 (LTE only)
DL: 717 to 728 (LTE only)
DL: 2350 to 2360 (LTE only)
DL: 462.5 to 467.5 (LTE only)
DL: 1452 - 1496
UL: 2305 to 2315
UL: 452.5 to 457.5
UL: -
1850 to 1910
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
2570 to 2620
1880 to 1920
2300 to 2400
2496 to 2690
3400 to 3600
3600 to 3800
*Covered bands represent an efficiency greater than 20%
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2.2. LTE Bands Covered in Free Space
LTE BANDS
Band
Number
LTE / LTE-Advanced / WCDMA / HSPA / HSPA+ / TD-SCDMA
Uplink
UL: 1920 to 1980
UL: 1850 to 1910
UL: 1710 to 1785
UL: 1710 to 1755
UL: 824 to 849
UL: 2500 to 2570
UL: 880 to 915
UL: 1749.9 to 1784.9
UL: 1427.9 to 1447.9
UL: 699 to 716
UL: 777 to 787
UL: 788 to 798
UL: 704 to 716
UL: 815 to 830
UL: 830 to 845
UL: 832 to 862
UL: 1447.9 to 1462.9
UL: 3410 to 3490
UL:2000 to 2020
UL:1625.5 to 1660.5
UL: 1850 to 1915
UL: 814 to 849
UL: 807 to 824
UL: 703 to 748
UL: -
Downlink
DL: 2110 to 2170
MIMO 1
MIMO 2
1
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
2
DL: 1930 to 1990
3
DL: 1805 to 1880
4
DL: 2110 to 2155
5
DL: 869 to 894
7
DL:2620 to 2690
8
DL: 925 to 960
9
DL: 1844.9 to 1879.9
DL: 1475.9 to 1495.9
DL: 729 to 746
11
12
13
14
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
35
38
39
40
41
42
43
DL: 746 to 756
DL: 758 to 768
DL: 734 to 746 (LTE only)
DL: 860 to 875 (LTE only)
DL: 875 to 890
DL: 791 to 821
DL: 1495.9 to 1510.9
DL: 3510 to 3590
DL: 2180 to 2200 (LTE only)
DL: 1525 to 1559 (LTE only)
DL: 1930 to 1995
DL: 859 to 894
DL: 852 to 869 (LTE only)
DL: 758 to 803 (LTE only)
DL: 717 to 728 (LTE only)
DL: 2350 to 2360 (LTE only)
DL: 462.5 to 467.5 (LTE only)
DL: 1452 - 1496
UL: 2305 to 2315
UL: 452.5 to 457.5
UL: -
1850 to 1910
2570 to 2620
1880 to 1920
2300 to 2400
2496 to 2690
3400 to 3600
3600 to 3800
*Covered bands represent an efficiency greater than 20%
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2. Antenna Characteristics
2.1. GPS-GLONASS-GALILEO-BeiDou
2.1.1. Block Diagram (Active antenna)
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2.1.2. Test Setup
2.1.3. GPS-GLONASS-GALILEO-BeiDou Return Loss (Passive antenna)
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2.1.4. GPS-GLONASS-GALILEO-BeiDou Smith Chart (Passive antenna)
2.1.5. GPS-GLONASS-GALILEO-BeiDou Efficiency (Passive antenna)
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2.1.6. GPS-GLONASS-GALILEO-BeiDou Peak Gain (Passive antenna)
2.1.7. GPS-GLONASS-GALILEO-BeiDou Average Gain (Passive antenna)
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2.1.8. GPS-GLONASS-GALILEO-BeiDou Radiation Pattern (Passive antenna)
2D Radiation Pattern
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2.1.9. 3D Radiation Pattern (Passive antenna)
1561MHz
1575.42MHz
1602MHz
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2.1.10. Axial Ratio (Passive antenna)
1561MHz
1575.42MHz
1602MHz
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2.1.11. GPS-GLONASS-GALILEO-BeiDou LNA Gain and Noise Figure (Active
antenna)
LNA Gain@3.0V
LNA Noise Figure @3.0V
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2.2. LTE_MIMO/Wi-Fi_MIMO Antenna
2.2.1. Test Setup
Glass
ABS
Free space
Wall
Metal
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2.2.2. LTE_1 Antenna Return Loss
Performance in different environments with 1 meter cable length
2.2.3. LTE_2 Antenna Return Loss
Performance in different environments with 1 meter cable length
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2.2.4. LTE Envelope Correlation Coefficient
Performance in different environments with 1 meter cable length
2.2.5. LTE_1 Antenna Efficiency
Performance in different environments with 1 meter cable length
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2.2.6. LTE_2 Antenna Efficiency
Performance in different environments with 1 meter cable length
2.2.7. LTE_1 Antenna Average Gain
Performance in different environments with 1 meter cable length
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2.2.8. LTE_2 Antenna Average Gain
Performance in different environments with 1 meter cable length
2.2.9. LTE_1 Antenna Peak Gain
Performance in different environments with 1 meter cable length
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2.2.10. LTE_2 Antenna Peak Gain
Performance in different environments with 1 meter cable length
2.2.11. Wi-Fi_1 Antenna Return Loss
Performance in different environments with 1 meter cable length
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2.2.12. Wi-Fi_2 Antenna Return Loss
Performance in different environments with 1 meter cable length
2.2.13. Wi-Fi Envelope Correlation Coefficient
Performance in different environments with 1 meter cable length
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2.2.14. Wi-Fi_1 Antenna Efficiency
Performance in different environments with 1 meter cable length
2.2.15. Wi-Fi_2 Antenna Efficiency
Performance in different environments with 1 meter cable length
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2.2.16. Wi-Fi_1 Antenna Average Gain
Performance in different environments with 1 meter cable length
2.2.17. Wi-Fi_2 Antenna Average Gain
Performance in different environments with 1 meter cable length
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2.2.18. Wi-Fi_1 Antenna Peak Gain
Performance in different environments with 1 meter cable length
2.2.19. Wi-Fi_2 Antenna Peak Gain
Performance in different environments with 1 meter cable length
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2.2.20. Test Setup for Antenna Radiation Pattern
Y
X
Z
In free space
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2.2.21. 2D Radiation Pattern (LTE_MIMO1 with 1M cable length in free space)
XY Plane
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XZ Plane
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YZ Plane
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2.2.22. 3D Radiation Pattern (LTE_MIMO1 with 1M cable length in free space)
704MHz
960MHz
1710MHz
2170MHz
3500MHz
2690MHz
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2.2.23. 2D Radiation Pattern (LTE_MIMO2 with 1M cable length in free space)
XY Plane
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XZ Plane
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YZ Plane
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3.2.24 3D Radiation Pattern (LTE_MIMO2 with 1M cable length in free
space)
704MHz
960MHz
2170MHz
1710MHz
2690MHz
3500MHz
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2.2.24. 2D Radiation Pattern (Wi-Fi_MIMO1 with 1M cable length in free
space)
XY Plane
XZ Plane
YZ Plane
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2.2.25. 3D Radiation Pattern (Wi-Fi_MIMO1 with 1M cable length in free
space)
2450MHz
5550MHz
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2.2.26. 2D Radiation Pattern (Wi-Fi_MIMO2 with 3M cable length in free
space)
XY Plane
XZ Plane
YZ Plane
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2.2.27. 3D Radiation Pattern (Wi-Fi_MIMO2 with 1M cable length in free
space)
2450MHz
5550MHz
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2.2.28. Test Setup for Antenna Radiation Pattern
Y
X
Z
On the ABS
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2.2.29. 2D Radiation Pattern (LTE_MIMO1 with 1M cable length on ABS)
XY Plane
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XZ Plane
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YZ Plane
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2.2.30. 3D Radiation Pattern (LTE_MIMO1 with 1M cable length on ABS)
704MHz
960MHz
1710MHz
2170MHz
2690MHz
3500MHz
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2.2.31. 2D Radiation Pattern (LTE_MIMO2 with 1M cable length on ABS)
XY Plane
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XZ Plane
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YZ Plane
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2.2.32. 3D Radiation Pattern (LTE_MIMO2 with 1M cable length on ABS)
960MHz
704MHz
1710MHz
2170MHz
2690MHz
3500MHz
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2.2.33. 2D Radiation Pattern (Wi-Fi_MIMO1 with 1M cable length on ABS)
XY Plane
XZ Plane
YZ Plane
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2.2.34. 3D Radiation Pattern (Wi-Fi_MIMO1 with 1M cable length on ABS)
2450MHz
5550MHz
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2.2.35. 2D Radiation Pattern (Wi-Fi_MIMO2 with 3M cable length of ABS)
XY Plane
XZ Plane
YZ Plane
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2.2.36. 3D Radiation Pattern (Wi-Fi_MIMO2 with 1M cable length on ABS)
5550MHz
2450MHz
2.2.37. Test Setup for Antenna Radiation Pattern
Y
X
Z
On glass
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2.2.38. 2D Radiation Pattern (LTE_MIMO1 with 1M cable length on glass)
XY Plane
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XZ Plane
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YZ Plane
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2.2.39. 3D Radiation Pattern (LTE_MIMO1 with 1M cable length on glass)
704MHz
960MHz
1710MHz
2170MHz
2690MHz
3500MHz
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2.2.40. 2D Radiation Pattern (LTE_MIMO2 with 1M cable length on glass)
XY Plane
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XZ Plane
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YZ Plane
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2.2.41. 3D Radiation Pattern (LTE_MIMO2 with 1M cable length on glass)
704MHz
960MHz
2170MHz
1710MHz
2690MHz
3500MHz
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2.2.42. 2D Radiation Pattern (Wi-Fi_MIMO1 with 1M cable length on glass)
XY Plane
XZ Plane
YZ Plane
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2.2.43. 3D Radiation Pattern (Wi-Fi_MIMO1 with 1M cable length on glass)
2450MHz
5550MHz
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2.2.44. 2D Radiation Pattern (Wi-Fi_MIMO2 with 3M cable length on glass)
XY Plane
XZ Plane
YZ Plane
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2.2.45. 3D Radiation Pattern (Wi-Fi_MIMO2 with 1M cable length on glass)
2450MHz
5550MHz
2.2.46. Test Setup for Antenna Radiation Pattern
Y
X
Z
On metal
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2.2.47. 2D Radiation Pattern (LTE_MIMO1 with 1M cable length on metal)
XY Plane
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XZ Plane
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YZ Plane
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2.2.48. 3D Radiation Pattern (LTE_MIMO1 with 1M cable length on metal)
704MHz
1710MHz
2690MHz
960MHz
2170MHz
3500MHz
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2.2.49. 2D Radiation Pattern (LTE_MIMO2 with 1M cable length on metal)
XY Plane
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XZ Plane
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YZ Plane
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2.2.50. 3D Radiation Pattern (LTE_MIMO2 with 1M cable length on metal)
704MHz
960MHz
1710MHz
2170MHz
2690MHz
3500MHz
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2.2.51. 2D Radiation Pattern (Wi-Fi_MIMO1 with 1M cable length on metal)
XY Plane
XZ Plane
YZ Plane
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2.2.52. 3D Radiation Pattern (Wi-Fi_MIMO1 with 1M cable length on metal)
2450MHz
5550MHz
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2.2.53. 2D Radiation Pattern (Wi-Fi_MIMO2 with 3M cable length on metal)
XY Plane
XZ Plane
YZ Plane
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2.2.54. 3D Radiation Pattern (Wi-Fi_MIMO2 with 1M cable length on metal)
5550MHz
2450MHz
2.2.55. Test Setup for Antenna Radiation Pattern
Y
X
Z
On the Wall
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2.2.56. 2D Radiation Pattern (LTE_MIMO1 with 1M cable length on the wall)
XY Plane
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XZ Plane
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YZ Plane
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2.2.57. 3D Radiation Pattern (LTE_MIMO1 with 1M cable length on the wall)
960MHz
704MHz
2170MHz
1710MHz
2690MHz
3500MHz
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2.2.58. 2D Radiation Pattern (LTE_MIMO2 with 1M cable length on the wall)
XY Plane
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XZ Plane
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YZ Plane
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2.2.59. 3D Radiation Pattern (LTE_MIMO2 with 1M cable length on the wall)
704MHz
960MHz
2170MHz
1710MHz
2690MHz
3500MHz
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2.2.60. 2D Radiation Pattern (Wi-Fi_MIMO1 with 1M cable length in free
space)
XY Plane
XZ Plane
YZ Plane
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2.2.61. 3D Radiation Pattern (Wi-Fi_MIMO1 with 1M cable length in free
space)
2450MHz
5550MHz
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2.2.62. 2D Radiation Pattern (Wi-Fi_MIMO2 with 3M cable length in free
space)
XY Plane
XZ Plane
YZ Plane
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2.2.63. 3D Radiation Pattern (Wi-Fi_MIMO2 with 1M cable length in free
space)
2450MHz
5550MHz
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4. Mechanical Drawing (Unit: mm)
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5. Packaging
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6. Application Note
The MA931 antenna performance with different cable lengths is shown below.
6.1. In free space (LTE)
6.1.1. Return Loss (LTE_MIMO_1)
6.1.2. Return Loss (LTE_MIMO_2)
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6.1.3. Isolation (LTE antenna)
6.1.4. Efficiency (LTE MIMO_1)
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6.1.5. Efficiency (LTE MIMO_2)
6.1.6. Average Gain (LTE MIMO_1)
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6.1.7. Average Gain (LTE MIMO_2)
6.1.8. Peak Gain (LTE MIMO_1)
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6.1.9. Peak Gain (LTE MIMO_2)
6.2. In free space (Wi-Fi)
6.2.1. Return Loss (Wi-Fi_MIMO_1)
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6.2.2. Return Loss (Wi-Fi_MIMO_2)
6.2.3. Isolation (Wi-Fi)
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6.2.4. Efficiency (Wi-Fi MIMO_1)
6.2.5. Efficiency (Wi-Fi MIMO_2)
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6.2.6. Average Gain (Wi-Fi MIMO_1)
6.2.7. Average Gain (Wi-Fi MIMO_2)
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6.2.8. Peak Gain (Wi-Fi MIMO_1)
6.2.9. Peak Gain (Wi-Fi MIMO_2)
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6.3. On the ABS (LTE)
6.3.1. Return Loss (LTE_MIMO_1)
6.3.2. Return Loss (LTE_MIMO_2)
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6.3.3. Isolation (LTE antenna)
6.3.4. Efficiency (LTE MIMO_1)
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6.3.5. Efficiency (LTE MIMO_2)
6.3.6. Average Gain (LTE MIMO_1)
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6.3.7. Average Gain (LTE MIMO_2)
6.3.8. Peak Gain (LTE MIMO_1)
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6.3.9. Peak Gain (LTE MIMO_2)
6.4. On ABS (Wi-Fi)
6.4.1. Return Loss (Wi-Fi_MIMO_1)
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6.4.2. Return Loss (Wi-Fi_MIMO_2)
6.4.3. Isolation (Wi-Fi)
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6.4.4. Efficiency (Wi-Fi MIMO_1)
6.4.5. Efficiency (Wi-Fi MIMO_2)
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6.4.6. Average Gain (Wi-Fi MIMO_1)
6.4.7. Average Gain (Wi-Fi MIMO_2)
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6.4.8. Peak Gain (Wi-Fi MIMO_1)
6.4.9. Peak Gain (Wi-Fi MIMO_2)
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6.5. On glass (LTE)
6.5.1. Return Loss (LTE_MIMO_1)
6.5.2. Return Loss (LTE_MIMO_2)
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6.5.3. Isolation (LTE antenna)
6.5.4. Efficiency (LTE MIMO_1)
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6.5.5. Efficiency (LTE MIMO_2)
6.5.6. Average Gain (LTE MIMO_1)
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6.5.7. Average Gain (LTE MIMO_2)
6.5.8. Peak Gain (LTE MIMO_1)
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6.5.9. Peak Gain (LTE MIMO_2)
6.6. On glass (Wi-Fi)
6.6.1. Return Loss (Wi-Fi _MIMO_1)
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6.6.2. Return Loss (Wi-Fi _MIMO_2)
6.6.3. Isolation (Wi-Fi)
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6.6.4. Efficiency (Wi-Fi _MIMO_1)
6.6.5. Efficiency (Wi-Fi_MIMO_2)
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6.6.6. Average Gain (Wi-Fi_MIMO_1)
6.6.7. Average Gain (Wi-Fi _MIMO_2)
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6.6.8. Peak Gain (Wi-Fi _MIMO_1)
6.6.9. Peak Gain (Wi-Fi _MIMO_2)
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6.7. On metal (LTE)
6.7.1. Return Loss (LTE_MIMO_1)
6.7.2. Return Loss (LTE_MIMO_2)
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6.7.3. Isolation (LTE antenna)
6.7.4. Efficiency (LTE_MIMO_1)
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6.7.5. Efficiency (LTE_MIMO_2)
6.7.6. Average Gain (LTE_MIMO_1)
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6.7.7. Average Gain (LTE_MIMO_2)
6.7.8. Peak Gain (LTE_MIMO_1)
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6.7.9. Peak Gain (LTE_MIMO_2)
6.8. On metal (Wi-Fi)
6.8.1. Return Loss (Wi-Fi _MIMO_1)
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6.8.2. Return Loss (Wi-Fi_MIMO_2)
6.8.3. Isolation (Wi-Fi)
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6.8.4. Efficiency (Wi-Fi_MIMO_1)
6.8.5. Efficiency (Wi-Fi_MIMO_2)
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6.8.6. Average Gain (Wi-Fi_MIMO_1)
6.8.7. Average Gain (Wi-Fi_MIMO_2)
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6.8.8. Peak Gain (Wi-Fi_MIMO_1)
6.8.9. Peak Gain (Wi-Fi_MIMO_2)
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6.9. On the wall (LTE)
6.9.1. Return Loss (LTE_MIMO_1)
6.9.2. Return Loss (LTE_MIMO_2)
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6.9.3. Isolation (LTE antenna)
6.9.4. Efficiency (LTE_MIMO_1)
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6.9.5. Efficiency (LTE_MIMO_2)
6.9.6. Average Gain (LTE_MIMO_1)
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6.9.7. Average Gain (LTE_MIMO_2)
6.9.8. Peak Gain (LTE_MIMO_1)
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6.1.9 Peak Gain (LTE_MIMO_2)
6.10. On the wall (Wi-Fi)
6.10.1. Return Loss (Wi-Fi_MIMO_1)
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6.10.2. Return Loss (Wi-Fi_MIMO_2)
6.10.3. Isolation (Wi-Fi)
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6.10.4. Efficiency (Wi-Fi_MIMO_1)
6.10.5. Efficiency (Wi-Fi_MIMO_2)
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6.10.6. Average Gain (Wi-Fi_MIMO_1)
6.10.7. Average Gain (Wi-Fi_MIMO_2)
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6.10.8. Peak Gain (Wi-Fi_MIMO_1)
6.10.9. Peak Gain (Wi-Fi_MIMO_2)
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7. Installation Instructions
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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 © Taoglas Ltd.
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