ANT-2.4-ID-2000-SMA [LINX]
Weatherized assembly for outdoor installation;型号: | ANT-2.4-ID-2000-SMA |
厂家: | Linx Technologies |
描述: | Weatherized assembly for outdoor installation |
文件: | 总3页 (文件大小:828K) |
中文: | 中文翻译 | 下载: | 下载PDF数据表文档文件 |
ANT-2.4-ID
Data Sheet
by
Product Description
3.18 mm
(0.13")
The ID Series, ½-wave center-fed Industrial Dipole
antenna is a weatherized design with industrial
and outdoor applications in mind, such as outdoor
meters, solar panel controls and other sensor
monitoring and control systems requiring a low
cost - but rugged - solution. The plastic and cable
are rated for a wide temperature range and UV
exposure for long term reliability.
Ø9.5 mm
(0.37")
104.4 mm
(4.11")
Two standard cable lengths of 1m and 2m allow
the antenna to be remote mounted in a position to
achieve the best RF performance. An integrated
flange makes mounting the antenna simple.
ID Series antennas attach via a standard SMA or
Part 15 compliant RP-SMA connector. Custom
colors, cable lengths and connectors are available
for volume OEM customers.
Ø14.5 mm
(0.57")
10.4 mm
(0.41")
15.0 mm
(0.59")
Ø3.2 mm
(0.13")
Features
1.0 m
(39.4”)
or
2.0 m
(78.7”)
•ꢀ Weatherized assembly for outdoor installation
•ꢀ UV protection
•ꢀ IP-67 rating*
•ꢀ Wide temperature range
•ꢀ Small size
•ꢀ Outstanding VSWR
•ꢀ Integrated mounting flange
•ꢀ Standard SMA or Part 15 compliant RP-SMA
connector
22.7 mm
(0.90")
12.4 mm
(0.49")
31.2 mm
(1.23")
Ordering Information
Electrical Specifications
ANT-2.4-ID-1000-RPS (1m with RP-SMA connector)
ANT-2.4-ID-1000-SMA (1m with SMA connector)
ANT-2.4-ID-2000-RPS (2m with RP-SMA connector)
ANT-2.4-ID-2000-SMA (2m with SMA connector)
MEC-PSA-ID (Optional PSA adhesive patch)
Center Frequency:
Recom. Freq. Range:
Bandwidth:
2.4GHz
2.35–2.60GHz
250MHz
Wavelength:
VSWR:
½-wave
≤ 1.9 typical
Peak Gain:
3.0dBi max
Contact Linx for custom cable lengths.
Impedance:
50-ohms
Cable:
Connection:
Oper. Temp. Range:
UV Resistance:
1 or 2m of RG-58/U
RP-SMA or SMA
–40°C to +80°C
UL 2556 section 4.2.8.5
or equivalent
*The IP rating applies to the antenna body only. IP ratings on
the product’s enclosure depend on how the mating connector is
implemented.
– 1 –
Revised 8/31/2017
VSWR Graph
VSWR
1.064
Reflected Power
25%
3:1
11%
2:1
0%
1:1
2.37GHz
2.45GHz
2.52GHz
What is VSWR?
The Voltage Standing Wave Ratio (VSWR) is a measurement of how well an antenna is matched to a source
impedance, typically 50-ohms. It is calculated by measuring the voltage wave that is headed toward the load
versus the voltage wave that is reflected back from the load. A perfect match has a VSWR of 1:1. The higher
the first number, the worse the match, and the more inefficient the system. Since a perfect match cannot
ever be obtained, some benchmark for performance needs to be set. In the case of antenna VSWR, this
is usually 2:1. At this point, 88.9% of the energy sent to the antenna by the transmitter is radiated into free
space and 11.1% is either reflected back into the source or lost as heat on the structure of the antenna. In
the other direction, 88.9% of the energy recovered by the antenna is transferred into the receiver. As a side
note, since the “:1” is always implied, many data sheets will remove it and just display the first number.
How to Read a VSWR Graph
VSWR is usually displayed graphically versus frequency. The lowest point on the graph is the antenna’s
operational center frequency. In most cases, this is different than the designed center frequency due to
fabrication tolerances. The VSWR at that point denotes how close to 50-ohms the antenna gets. Linx
specifies the recommended bandwidth as the range where the typical antenna VSWR is less than 2:1.
– 2 –
ANT-2.4-ID Data Sheet
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E / Vertical Gain
H / Horizontal Gain
Total Gain
Gain Plots
0
0
0
360
15
360
15
360
15
5.00
0.00
5.00
0.00
5.00
0.00
345
30
345
30
345
30
-5.00
-5.00
-5.00
-10.00
-15.00
-20.00
-25.00
-30.00
-35.00
-40.00
-45.00
-50.00
-55.00
-60.00
-10.00
-15.00
-20.00
-25.00
-30.00
-35.00
-40.00
-45.00
-50.00
-55.00
-60.00
-10.00
-15.00
-20.00
-25.00
-30.00
-35.00
-40.00
-45.00
-50.00
-55.00
-60.00
330
45
330
45
330
45
315
60
315
60
315
60
300
75
300
75
300
75
285
90
285
90
285
90
270
105
270
105
270
105
255
120
255
120
255
120
240
135
240
135
240
135
225
150
225
150
225
150
210
165
210
165
210
165
195
180
195
180
195
180
XZ-Plane Gain
YZ-Plane Gain
XY-Plane Gain
Z
Z
Z
Y
Y
Y
X
X
X
About Gain Plots
The true measure of the effectiveness of an antenna in any given application is determined by the gain
and radiation pattern measurement. For antennas gain is typically measured relative to a perfect (isotropic)
radiator having the same source power as the antenna under test, the units of gain in this case will be
decibels isotropic (dBi). The radiation pattern is a graphical representation of signal strength measured at
fixed distance from the antenna.
Gain when applied to antennas is a measure of how the antenna radiates and focuses energy into free
space. Much like a flashlight focuses light from a bulb in a specific direction, antennas focus RF energy into
specific directions. Gain in this sense refers to an increase in energy in one direction over others.
It should also be understood that gain is not “free”, gain above 0dBi in one
direction means that there must be less gain in another direction. Pictorially
this can be pictured as shown in the figures to the right. The orange pattern
represents the radiation pattern for a perfect dipole antenna, which is shaped
like a donut. The pattern for an omnidirectional antenna with gain is shown in
blue. The gain antenna is able to work with a device located further from the
center along the axis of the pattern, but not with devices closer to the
center when they are off the axis – the donut has been squished.
Gain is also related to the overall physical size of the antenna, as well as
surrounding materials. As the geometry of the antenna is reduced below the effective wavelength (considered
an electrically small antenna) the gain decreases. Also, the relative distance between an electrically small
antenna and its associated ground impacts antenna gain.
Copyright © 2017 Linx Technologies
159 Ort Lane, Merlin, OR 97532
Phone: +1 541 471 6256
Fax: +1 541 471 6251
– 3 –
ANT-2.4-ID Data Sheet
www.linxtechnologies.com
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