GW.05.0153

## **SPECIFICATION** 

|Part No.|:|**GW.05.0153**|
|---|---|---|
|Product Name|:|Dual-Band WiFi 2.4~2.5GHz/5.15~5.85GHz|
|||Terminal Mount Monopole Antenna|
|Features|:|High Efficiency – with and without groundplane|
|||WiFi/Bluetooth/Zigbee|
|||Extremely Compact - 62.3mm ± 1.5mm|
|||Aesthetic look and feel|
|||Unique can rotate 360 degrees and articulate|
|||through 180 degrees|
|||Max Peak Gain compliant with most WiFI modules|
|||Standard RP-SMA(M) connector|
|||ROHS Compliant|
|Photo:|||



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## **1. Introduction** 

The GW.05 dual band WiFi Hinged Rotatable Antenna is a high efficiency monopole antenna. Compared to other much larger antennas on the market, it has superior wide-band high efficiency characteristics. The bright green colour of the antenna adds a unique quality look and feel to any modern WiFi application point, device or router. It also provides differentiation if using Taoglas other similar looking antennas (such as the black color Taoglas TG.09 cellular antenna) on same device. The connector used is Rev SMA(M), the standard mating part for an antenna to most WiFi application points and routers in the market. 

The GW.05, as all monopole antennas, works best connected directly to the ground-plane of the device main PCB or to the outside of a metal housing. However it still has very good performance (>50%) even without connecting to a ground-plane, making it the best all round small WiFi terminal antenna on the market. 

In the un-grounded installation condition it also comes below the max peak gain requirements for most WiFi modules which are usually 2dBi, so it can comply with FCC regulations. 

The GW.05 is for Wi-Fi, WLAN, Zigbee, Bluetooth, and 802.11a/b/g/n/ac applications. 

Many module manufacturers specify peak gain limits for any antennas that are to be connected to that module. Those peak gain limits are based on free-space conditions. In practice, the peak gain of an antenna tested in free-space can degrade by at least 1 or 2dBi when put inside a device. So ideally you should go for a slightly higher peak gain antenna than mentioned on the module specification to compensate for this effect, giving you better performance. 

Upon testing of any of our antennas with your device and a selection of appropriate layout, integration technique, or cable, Taoglas can make sure any of our antennas’ peak gain will be below the peak gain limits. Taoglas can then issue a specification and/or report for the selected antenna in your device that will clearly show it complying with the peak gain limits, so you can be assured you are meeting regulatory requirements for that module. 

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For example, a module manufacturer may state that the antenna must have less than 2dBi peak gain, but you don’t need to select an embedded antenna that has a peak gain of less than 2dBi in free-space. This will give you a less optimized solution. It is better to go for a slightly higher free-space peak gain of 3dBi or more if available. Once that antenna gets integrated into your device, performance will degrade below this 2dBi peak gain due to the effects of GND plane, surrounding components, and device housing. If you want to be absolutely sure, contact Taoglas and we will test. Choosing a Taoglas antenna with a higher peak gain than what is specified by the module manufacturer and enlisting our help will ensure you are getting the best performance possible without exceeding the peak gain limits. 

It is better not to select an embedded antenna with very low free-space peak gain (<2dBi) directly, as this antenna would have worse performance in your device, and lead to compromised performance compared to using a Taoglas antenna. 

Also comes as a standard SMA(M) version. 

## **2. Specification** 

|Parameter|Parameter|||Wireless Bands|Wireless Bands|Wireless Bands|Wireless Bands||||
|---|---|---|---|---|---|---|---|---|---|---|
|||Straight Position|||||||||
|Frequency (MHz)<br>2400<br>2450<br>2500<br>5150<br>5350<br>5750<br>5850<br>Average Gain (dBi)<br>-2.62<br>-2.61<br>-1.74<br>-2.00<br>-2.17<br>-3.15<br>-2.62<br>~~ee~~<br>~~ee ee es ee~~|||||||||||
|Efficiency (%)<br>Peak Gain (dBi)|In Free Space|54.71<br>1.04|54.78<br>1.25|67.05<br>0.82|63.12<br>0.85||60.71<br>1.38|60.71<br>48.43<br>0.28|48.43|54.71<br>1.04|
|Return Loss (dB)|||< -6||||< -10||||
|Average Gain (dBi)||-1.90|-1.58|-2.28|-2.98||-3.08|-4.06||-1.90|
|Efficiency (%)|With 15x9cm|64.54|69.56|59.14|50.33||49.21|49.21<br>39.26|39.26|64.54|
|Peak Gain (dBi)|Ground Plane|3.22|3.57|1.42|1.07||1.30|0.40||3.22|
|Return Loss (dB)|||< -8||||< -5|< -5|||
|Average Gain (dBi)||-0.88|-0.62|-1.37|-1.62||-1.97|-2.74||-0.88|
|Efficiency (%)|On 30x30cm|81.67|86.74|72.99|68.85||63.56|53.23||81.67|
|Peak Gain (dBi)|Metal Plane Edge|4.73|5.13|3.83|3.63||3.93|3.21||4.73|
|Return Loss (dB)|||< -10||||< -10||||
|Average Gain (dBi)|On 30x30cm|-1.67|-1.12|-2.36|-2.57||-2.32|-3.18||-1.67|



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|~~> a~~<br>TAOGLAS.|~~> a~~<br>TAOGLAS.|~~> a~~<br>TAOGLAS.|~~> a~~<br>TAOGLAS.|~~> a~~<br>TAOGLAS.|~~> a~~<br>TAOGLAS.|~~> a~~<br>TAOGLAS.|~~> a~~<br>TAOGLAS.|~~> a~~<br>TAOGLAS.|
|---|---|---|---|---|---|---|---|---|
|Efficiency (%)|Metal Plane<br>Center|68.05|77.21|58.10|55.32|58.60|48.11|68.05|
|Peak Gain (dBi)||3.85|4.62|4.50|4.21|5.80|4.67|3.85|
|Return Loss (dB)||< -6|||< -10||||
|Bent Position 90°<br>~~eee~~|||||||||
|Average Gain (dBi)|In Free Space|-2.80|-2.71|-1.67|-1.71|-1.68|-1.85|-2.80|
|Efficiency (%)||52.53|53.54|68.07|67.43|67.87|65.29|52.53|
|Peak Gain (dBi)||1.19|1.57|2.57|0.66|1.03|0.59|1.19|
|Return Loss (dB)||< -6|||< -10||||
|Average Gain (dBi)|With 15x9cm<br>Ground Plane|-1.80|-1.50|-1.98|-2.18|-2.18|-2.42|-1.80|
|Efficiency (%)||66.14|70.72|63.44|60.53|60.57|57.34|66.14|
|Peak Gain (dBi)||3.47|3.68|3.88|3.59|2.40|1.92|3.47|
|Return Loss (dB)||< -8|||< -7||||
|Average Gain (dBi)|On 30x30cm<br>Metal Plane Edge|-0.89|-0.63|-1.52|-1.63|-1.30|-1.36|-0.89|
|Efficiency (%)||81.40|86.57|70.51|68.75|74.21|73.15|81.40|
|Peak Gain (dBi)||5.36|5.46|4.98|4.33|4.07|4.53|5.36|
|Return Loss (dB)||< -10|||< -10||||
|Average Gain (dBi)|On 30x30cm<br>Metal Plane<br>Center|-1.53|-0.97|-2.10|-2.28|-1.95|-2.38|-1.53|
|Efficiency (%)||70.29|80.04|61.72|59.21|63.83|57.80|70.29|
|Peak Gain (dBi)||3.63|4.36|3.81|3.31|4.90|4.04|3.63|
|Return Loss (dB)||< -7|||< -10||||
|Radiation||Omni-directional|||||||
|Polarization||Linear|||||||
|Impedance||50 Ω|||||||
|Input Power||10W|||||||
|MECHANICAL<br>~~Se~~|||||||||
|Antenna length||62.3mm|||||||
|Antenna Diameter||10mm|||||||
|Casing||POM|||||||
|Connector||RP-SMA(M)|||||||
|Weight||6g|||||||
|Recommended Torque for Mounting||0.9N∙m|||||||
|Max Torque for Mounting||1.176N∙m|||||||
|ENVIRONMENTAL<br>~~Se~~|||||||||
|Operation Temperature||-40°C ~ + 85°C|||||||
|Storage Temperature||-40°C ~ + 85°C|||||||
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Humidity 

Non-condensing 65°C 95% RH 

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## **3. Antenna Characteristics** 

## **3.1 Testing Setup** 

## **Antenna Straight Position** 

a)In free space b)with 15*9cm c)with 30*30cm d)with 30*30cm Ground Plane Ground Plane Edge Ground Plane Center 

## **Antenna Bent 90° Position** 

a)In free space b)with 15*9cm c)with 30*30cm Ground Plane Ground Plane Edge 

d)with 30*30cm Ground Plane Center 

**Figure.1** Measurement environments 

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## **3.2 Return Loss** 

**Figure2.** Return loss of GW.05 antenna with straight position 

**Figure3.** Return loss of GW.05 antenna with bent position 

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## **3.3 Efficiency** 

**Figure4.** Efficiency of GW.05 antenna with straight position 

**Figure5.** Efficiency of GW.05 antenna with bent position 

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## **3.4 Peak Gain** 

**Figure6.** Peak gain of GW.05 antenna with straight position 

**Figure7.** Peak gain of GW.05 antenna with bent position 

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## **3.5 Average Gain** 

**Figure8.** Average gain of GW.05 with antenna straight position 

**Figure9.** Average gain of GW.05 antenna with bent position 

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## **4. Antenna Radiation Patterns** 

The antenna radiation patterns were measured in a CTIA certified ETS Anechoic Chamber. The measurement setup is shown below. 

## **Antenna with Straight Position** 

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In free space 

15x9cm ground plane 

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30x30cm metal ground center 

30x30cm metal ground edge 

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## **Antenna Bent Position** 

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Y<br>Y<br>X<br>X<br>Z<br>a Z<br>In free space       15x9cm ground plane<br>Y<br>Y<br>X<br>X<br>Z<br>**----- End of picture text -----**<br>


In free space 

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30x30cm metal ground center 

30x30cm metal ground edge 

**Figure.10.** Testing Setup in ETS Anechoic Chamber 

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**4.1 2D Radiation Pattern (Straight position in free space)** XY Plane 

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4.2 2D Radiation Pattern (Straight position with 15x9cm<br>ground plane)<br>X<br> XY Plane<br>0<br>10 ——__<br>330. 30<br>300 > 60<br>| -20 —— —\<br>[ (f/ Ro > he<br>Y<br>270 | | ~40 i} | 90<br>\ y/<br>Ji \b —2400MHz<br>240<br>|<br>\ 120 __2450MHz<br>210 450 —~2500MHz<br>180 (dB)<br>XY Plane<br>X<br>0<br>10 ——_<br>330 30<br>300 J 10 60<br>a Ae on => on<br>Y<br>**----- End of picture text -----**<br>


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**4.3 2D Radiation Pattern (Straight position with 30x30cm ground plane edge)** XY Plane 

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XZ Plane<br>Z<br>0<br>10 ——_<br>330 30<br>300 Sa 60<br>/ -20<br>270 | x0 ae 90 X<br>. | | /<br>L<br>240°<br>|<br>oS 120<br>180 (dB)<br>XZ Plane<br>Z<br>0<br>10 ——__<br>330 30<br>300 e and 60<br>/ -20 -—<br>fF / 80) \ |<br>X<br>270 f -40 - | § 90<br>**----- End of picture text -----**<br>


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4.4 2D Radiation Pattern (Straight position with 30x30cm<br>ground plane center) X<br> XY Plane<br>0<br>10<br>330. 30<br>300 TTT 60<br>-20 ——<br>|<br>(30 - oe \n<br>270 | + ~40 ae 90 Y<br>|<br>/ | \b —=2400MHz<br>240 LL 120 _2450MHz<br>ad. Ken —=2500MHz<br>180 (oP)<br>XY Plane<br>X<br>0<br>10<br>330. 30<br>300 TTT 60<br>-20 ——<br>(30 - | |<br>Y<br>**----- End of picture text -----**<br>


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## **4.5 2D Radiation Pattern (Bent position in free space)** XY Plane 

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X<br>0<br>10<br>330 30<br>300 arn 60<br>-20 -——<br>) ff 80 {ye<br>270, {| {-40 «| +} 90 Y<br>|<br>[|<br>240 ae 120<br>Daal | (50<br>180 (cB)<br>XY Plane<br>X<br>0<br>10<br>330 30<br>300 aan 60<br>-20 -——<br>a ae > on<br>Y<br>**----- End of picture text -----**<br>


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**4.6 2D Radiation Pattern (Bent position with 15x9cm ground plane)** X XY Plane 

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Y<br>|<br>[| \<br>240 ae 120<br>a (50<br>180 (cB)<br>XY Plane<br>X<br>0<br>10 —__<br>330 30<br>) (80-20 —— | \ |<br>270, f--40 ff} 90 Y<br>**----- End of picture text -----**<br>


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XZ Plane<br>Z<br>0<br>10 ——_<br>330 30<br>o-—<br>“en<br>300 ’ 60<br>-20 ——<br>a Oa = \on<br>270} 40 | 90 X<br>.<br>il "<br>240<br>/ | [\]<br>120<br>> 450<br>180 (cB)<br>XZ Plane<br>Z<br>0<br>10 ——__<br>330 30<br>o-—<br>300 —~lt | 60<br>[By 30. > a<br>270 | eS Sa } 90 X<br>**----- End of picture text -----**<br>


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**4.7 2D Radiation Pattern (Bent position with 30x30cm ground plane edge)** XY Plane 

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XZ Plane<br>Z<br>0<br>10<br>330_ 30<br>300 as 60<br>|<br>-20 \/<br>270 | 1.40 ae 90 X<br>|<br>240 | ‘20<br>210 | 450 ~~<br>180 (48)<br>XZ Plane<br>Z<br>0<br>10<br>330_ 30<br>300 ay 60<br>-20 ——<br>X<br>**----- End of picture text -----**<br>


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4.8 2D Radiation Pattern (Bent position with 30*30cm<br>ground plane center) X<br> XY Plane<br>0<br>10<br>330 30<br>300 TF 60<br>-20 ——<br>270 | 1-40{BO a\ 90 Y<br>|<br>[| \ —2400MHz<br>240 a 120 _2450MHz<br>aoe (50 ==2500MHz<br>| 180 ee)<br>XY Plane<br>X<br>0<br>10<br>330 30<br>300 TF 60<br>-20 ——<br>|<br>| (80 - | |<br>Y<br>270 | 1-40 ] I, 90<br>240 > —=5150MHz<br>LL<br>120 _5350MHz<br>==5750MHz<br>210 150 —=5850MHz<br>Pp 180[| ee)<br>SPE-14-8-105/C/WY   Page 34 of 39<br>**----- End of picture text -----**<br>


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XZ Plane<br>Z<br>0<br>10 ——_<br>330 30<br>—<br>300 \N Af 60<br>20 7%<br>(30. | |<br>270, \ |=40 90 X<br>/<br>/<br>Coal<br>240 ,<br>120<br>180 (dB)<br>XZ Plane<br>Z<br>0<br>10 ——_<br>330 30<br>—<br>300 60<br>FY 20 -~<br>(30. = w<br>270 Q | -40 / |} 90<br>X<br>**----- End of picture text -----**<br>


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YZ Plane<br>Z<br>0<br>10 ——_<br>330 30<br>o-—<br>300 anv a 60<br>Pf / Bo<br>Y<br>| /|\\<br>240 120<br>210—~ 450<br>180 (dB)<br>YZ Plane<br>Z<br>0<br>10 ——_<br>330 30<br>o-<br>300 FO — NS 60<br>ppt 20 —<br>PF a0 )<br>Y<br>**----- End of picture text -----**<br>


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## **5. Installation** 

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## **6. Mechanical Drawing** 

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## **7. Packaging** 

1 piece per small PE Bag, 100 small bags per big PE bag. 

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SPE-14-8-105/C/WY