MA9909.A.002

MA9909 9IN1 GUARDIANX ADHESIVE EXTE

⚠️ Reference pricing provided. In case of supply shortages, we will connect you with our trusted procurement partners to ensure your project's continuity.
Manufacturer: TAOGLAS / PARTNER STOCK
Product type:
SVHC: No SVHC (07-Nov-2024)
Delivery and price
Units per pack	3
Price	233.81 €
Current stock	25+
Lead time	30 days
Datasheet
## **Specification** 

Part No. : **MA9909.A.002** Product Name : GuardianX 1M 9in1 1*Active GNSS RG174 SMA(M) 8*LTE MIMO TGC200 SMA(M) Features : Low-profile Housing with Wall Mount 8* LTE MIMO 698 to 960MHz/1710 to 2170MHz/ 2490 to 2690MHz/ 3300 to 3600MHz 1* GPS-GLONASS- Antenna Worldwide 4G Bands including 3G and 2G IP67 Waterproof Resistant Enclosure Dims: 360mm * 160mm * 16.5mm 1M Low Loss TGC-200 and RG174 with SMA(M)/RPSMA(M) connectors Custom Cables and Connectors Available RoHS compliant 

SPE-18-8-097/A/AW Page 1 of 81 

## **1. Introduction** 

The Taoglas GuardianX MA9908.A.001 is a low profile heavy duty, fully IP67 waterproof external antenna. Combining 8 elements into one antenna, 1 

GPS/GLONASS/Galileo, 8* LTE MIMO (698 to 960MHz/1710 to 2170MHz/ 2490 to 2690MHz/ 3300 to 3600MHz. This unique product delivers powerful worldwide 4G LTE MIMO antenna technology at 700MHz/800MHz/1700MHz/1800MHz/2600MHz and GNSS. 

Typical applications include: 

- Passenger Bus / Rail / Air Applications. 

- Automotive and Heavy Equipment Vehicle Tracking and Telematics 

- Remote Asset and Pipeline Monitoring 

- HD Video over LTE 

- First Responder and Emergency Services 

- M2M Applications/IoT 

LTE 4G 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 between the two MIMO antennas to prevent self-interference. Low loss cables are used to keep efficiency high over long cable lengths. In contrast, smaller MIMO antennas with poorer quality thinner cables will have much reduced efficiency and isolation, which would lead to a large drop in system throughput, increased number of drops, and may indeed not make a system connection at all. 

Cable length and connector types are customizable. Contact your regional Taoglas sales office for support. 

Page 2 of 81 

SPE-18-8-097/A/AW 

## **2. Specification** 

|**2G/3G/4G MIMO Antenna**<br>~~LT~~|**2G/3G/4G MIMO Antenna**<br>~~LT~~|**2G/3G/4G MIMO Antenna**<br>~~LT~~|**2G/3G/4G MIMO Antenna**<br>~~LT~~|**2G/3G/4G MIMO Antenna**<br>~~LT~~|**2G/3G/4G MIMO Antenna**<br>~~LT~~|**2G/3G/4G MIMO Antenna**<br>~~LT~~|**2G/3G/4G MIMO Antenna**<br>~~LT~~|**2G/3G/4G MIMO Antenna**<br>~~LT~~|
|---|---|---|---|---|---|---|---|---|
|Frequency (MHz)||LTE700|GSM850|GSM900|DCS|PCS|UMTS1|LTE2600|
|||698~806|824~894|880~960|1710~1880|1710~1880<br>1850~1990|1850~1990<br>1920~2170|1920~2170<br>2490~2690|
|**Efficiency (%)**<br>~~LT~~|||||||||
|LTE1|0.3M|40.43|46.11|55.89|48.39|52.24|59.34|48.34|
||1M|38.32|44.05|53.36|44.13|47.66|54.74|44.09|
||2M|35.76|40.36|48.67|39.33|42.11|47.96|38.32|
||3M|33.11|37.49|45.22|34.96|37.09|42.41|33.39|
||5M|30.67|34.83|42.02|31.08|32.68|37.51|29.10|
|LTE2|0.3M|29.45|29.73|31.73|17.97|54.87|67.07|68.57|
||1M|27.95|28.40|30.30|16.77|50.04|61.15|63.21|
||2M|26.09|26.03|27.64|14.95|44.60|54.04|55.36|
||3M|24.14|24.17|25.69|13.44|39.64|47.58|48.97|
||5M|22.34|22.45|23.88|12.09|35.23|41.90|43.31|
|LTE3|0.3M|42.76|53.50|53.81|56.38|63.42|65.38|46.32|
||1M|40.55|51.09|51.38|51.41|57.85|60.26|42.24|
||2M|37.84|46.81|46.86|45.82|51.13|52.79|36.70|
||3M|35.02|43.49|43.58|40.73|45.02|46.68|31.95|
||5M|32.42|40.40|40.53|36.20|39.64|41.28|27.82|
|LTE4|0.3M|34.69|38.21|33.37|44.24|40.48|39.12|54.81|
||1M|32.90|36.49|31.86|40.36|36.93|36.03|49.99|
||2M|30.70|33.44|29.06|35.97|32.67|31.60|43.44|
||3M|28.42|31.06|27.04|31.98|28.75|27.90|37.83|
||5M|26.31|28.85|25.15|28.43|25.30|24.64|32.95|
|LTE5|0.3M|33.63|37.30|33.06|44.90|39.93|38.90|54.66|
||1M|31.89|35.63|31.57|40.96|36.40|35.82|49.84|
||2M|29.76|32.65|28.80|36.51|32.21|31.43|43.30|
||3M|27.54|30.32|26.78|32.46|28.34|27.74|37.71|
||5M|25.49|28.16|24.91|28.86|24.94|24.49|32.84|
|LTE6|0.3M|43.09|51.93|52.88|55.26|64.68|66.42|45.37|
||1M|40.85|49.59|50.50|50.41|58.99|61.21|41.39|
||2M|38.13|45.43|46.06|44.93|52.14|53.63|35.95|
||3M|35.29|42.21|42.83|39.93|45.90|47.42|31.30|
||5M|32.67|39.21|39.83|35.49|40.42|41.94|27.26|
|LTE7|0.3M|29.19|30.19|32.01|49.76|66.45|65.00|36.72|
||1M|27.72|28.84|30.58|45.38|60.59|59.89|33.48|
||2M|25.87|26.43|27.89|40.44|53.56|52.47|29.09|
||3M|23.93|24.55|25.92|35.93|47.15|46.40|25.34|
||5M|22.14|22.80|24.09|31.92|41.51|41.04|22.07|
|LTE8|0.3M|38.75|50.32|54.81|45.83|52.11|59.53|46.12|
||1M|36.71|48.07|52.34|41.79|47.53|54.90|42.07|
||2M|34.26|44.05|47.74|37.25|41.99|48.09|36.57|



SPE-18-8-097/A/AW Page 3 of 81 

|3M<br>31.73<br>40.91<br>44.38<br>33.11<br>36.99<br>42.53<br>31.86<br>5M<br>29.39<br>38.01<br>41.26<br>29.43<br>32.59<br>37.62<br>27.77<br>**Average Gain(dB)**<br>~~LT~~|||||||||
|---|---|---|---|---|---|---|---|---|
||3M|31.73|40.91|44.38|33.11|36.99|42.53|31.86|
|LTE1|0.3M|-3.93|-3.36|-2.53|-3.15|-2.82|-2.27|-3.16|
||1M|-4.17|-3.56|-2.73|-3.55|-3.22|-2.62|-3.56|
||2M|-4.47|-3.94|-3.13|-4.05|-3.76|-3.19|-4.17|
||3M|-4.80|-4.26|-3.45|-4.56|-4.31|-3.73|-4.76|
||5M|-5.13|-4.58|-3.77|-5.08|-4.86|-4.26|-5.36|
|LTE2|0.3M|-5.31|-5.27|-4.99|-7.46|-2.61|-1.73|-1.64|
||1M|-5.54|-5.47|-5.19|-7.75|-3.01|-2.14|-1.99|
||2M|-5.84|-5.85|-5.59|-8.25|-3.51|-2.67|-2.57|
||3M|-6.17|-6.17|-5.90|-8.72|-4.02|-3.23|-3.10|
||5M|-6.51|-6.49|-6.22|-9.18|-4.53|-3.78|-3.63|
|LTE3|0.3M|-3.69|-2.72|-2.69|-2.49|-1.98|-1.85|-3.34|
||1M|-3.92|-2.92|-2.89|-2.89|-2.38|-2.20|-3.74|
||2M|-4.22|-3.30|-3.29|-3.39|-2.91|-2.77|-4.35|
||3M|-4.56|-3.62|-3.61|-3.90|-3.47|-3.31|-4.96|
||5M|-4.89|-3.94|-3.92|-4.41|-4.02|-3.84|-5.56|
|LTE4|0.3M|-4.60|-4.18|-4.77|-3.54|-3.93|-4.08|-2.61|
||1M|-4.83|-4.38|-4.97|-3.94|-4.33|-4.43|-3.01|
||2M|-5.13|-4.76|-5.37|-4.44|-4.86|-5.00|-3.62|
||3M|-5.46|-5.08|-5.68|-4.95|-5.41|-5.54|-4.22|
||5M|-5.80|-5.40|-5.99|-5.46|-5.97|-6.08|-4.82|
|LTE5|0.3M|-4.73|-4.28|-4.81|-3.48|-3.99|-4.10|-2.62|
||1M|-4.96|-4.48|-5.01|-3.88|-4.39|-4.46|-3.02|
||2M|-5.26|-4.86|-5.41|-4.38|-4.92|-5.03|-3.63|
||3M|-5.60|-5.18|-5.72|-4.89|-5.48|-5.57|-4.24|
||5M|-5.94|-5.50|-6.04|-5.40|-6.03|-6.11|-4.84|
|LTE6|0.3M|-3.66|-2.85|-2.77|-2.58|-1.89|-1.78|-3.43|
||1M|-3.89|-3.05|-2.97|-2.97|-2.29|-2.13|-3.83|
||2M|-4.19|-3.43|-3.37|-3.47|-2.83|-2.71|-4.44|
||3M|-4.52|-3.75|-3.68|-3.99|-3.38|-3.24|-5.04|
||5M|-4.86|-4.07|-4.00|-4.50|-3.93|-3.77|-5.65|
|LTE7|0.3M|-5.35|-5.20|-4.95|-3.03|-1.77|-1.87|-4.35|
||1M|-5.57|-5.40|-5.15|-3.43|-2.18|-2.23|-4.75|
||2M|-5.87|-5.78|-5.55|-3.93|-2.71|-2.80|-5.36|
||3M|-6.21|-6.10|-5.86|-4.45|-3.27|-3.33|-5.96|
||5M|-6.55|-6.42|-6.18|-4.96|-3.82|-3.87|-6.56|
|LTE8|0.3M|-4.12|-2.98|-2.61|-3.39|-2.83|-2.25|-3.36|
||1M|-4.35|-3.18|-2.81|-3.79|-3.23|-2.60|-3.76|
||2M|-4.65|-3.56|-3.21|-4.29|-3.77|-3.18|-4.37|
||3M|-4.99|-3.88|-3.53|-4.80|-4.32|-3.71|-4.97|
||5M|-5.32|-4.20|-3.85|-5.31|-4.87|-4.25|-5.56|
||||||||||



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|**Peak Gain(dBi)**<br>~~LT~~|**Peak Gain(dBi)**<br>~~LT~~|**Peak Gain(dBi)**<br>~~LT~~|**Peak Gain(dBi)**<br>~~LT~~|**Peak Gain(dBi)**<br>~~LT~~|**Peak Gain(dBi)**<br>~~LT~~|**Peak Gain(dBi)**<br>~~LT~~|**Peak Gain(dBi)**<br>~~LT~~|**Peak Gain(dBi)**<br>~~LT~~|
|---|---|---|---|---|---|---|---|---|
|LTE1|0.3M|1.5|1.6|1.92|-4.21|3.2|3.15|3.27|
||1M|1.2|1.4|1.72|-4.51|2.8|2.75|2.97|
||2M|0.9|1|1.32|-5.01|2.3|2.15|2.37|
||3M|0.6|0.7|1.02|-5.51|1.8|1.65|1.87|
||5M|0.3|0.4|0.72|-6.01|1.3|1.15|1.37|
|LTE2|0.3M|-1.01|-1.44|-0.5|-0.96|1.38|3.07|3.42|
||1M|-1.21|-1.64|-0.7|-1.26|0.98|2.67|3.12|
||2M|-1.51|-2.04|-1.1|-1.76|0.48|2.07|2.52|
||3M|-1.85|-2.34|-1.4|-2.26|-0.02|1.57|2.02|
||5M|-2.15|-2.64|-1.7|-2.76|-0.52|1.07|1.52|
|LTE3|0.3M|0.5|1.65|1.77|3.23|3.93|4.12|2.35|
||1M|0.26|1.45|1.57|2.83|3.53|3.82|1.95|
||2M|-0.04|1.05|1.17|2.33|2.93|3.22|1.25|
||3M|-0.4|0.75|0.87|1.83|2.43|2.72|0.65|
||5M|-0.7|0.45|0.57|1.33|1.93|2.22|0.05|
|LTE4|0.3M|1.48|1.25|0.66|2.18|2.18|2.08|3.75|
||1M|1.28|1.05|0.46|1.78|1.78|1.68|3.35|
||2M|0.98|0.65|0.06|1.28|1.28|1.18|2.75|
||3M|0.68|0.35|-0.24|0.78|0.78|0.58|2.15|
||5M|0.38|0.05|-0.54|0.28|0.28|0.05|1.55|
|LTE5|0.3M|2.02|1.11|0.45|2.16|3.03|3.03|4.11|
||1M|1.72|0.91|0.25|1.76|2.63|2.63|3.71|
||2M|1.42|0.51|-0.15|1.26|2.03|2.03|3.11|
||3M|1.12|0.21|-0.45|0.76|1.53|1.53|2.51|
||5M|0.82|-0.09|-0.75|0.26|1.03|1.03|1.91|
|LTE6|0.3M|0.83|1.5|1.65|2.69|3.73|3.73|2.67|
||1M|0.63|1.3|1.45|2.29|3.33|3.33|2.27|
||2M|0.33|0.9|1.05|1.79|2.73|2.73|1.57|
||3M|-0.07|0.6|0.75|1.29|2.23|2.23|0.97|
||5M|-0.41|0.3|0.45|0.79|1.73|1.73|0.37|
|LTE7|0.3M|-0.98|-1.6|-0.76|1.77|2.66|3.15|0.99|
||1M|-1.18|-1.8|-0.96|1.37|2.26|2.85|0.59|
||2M|-1.48|-2.2|-1.36|0.87|1.66|2.25|-0.01|
||3M|-1.78|-2.5|-1.66|0.37|1.16|1.65|-0.51|
||5M|-2.08|-2.8|-1.96|-0.13|0.66|1.05|-1.01|
|LTE8|0.3M|2.32|1.55|2.78|3.07|2.73|2.35|2.46|
||1M|2.02|1.35|2.58|2.67|2.33|2.05|2.06|
||2M|1.72|0.95|2.18|2.17|1.83|1.45|1.36|
||3M|1.42|0.65|1.88|1.67|1.33|0.95|0.76|
||5M|1.12|0.35|1.58|1.17|0.83|0.45|0.16|
|Impedance|50 Ω||||||||
|Polarization|Vertical||||||||



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|**CERAMIC PATCH**<br>~~LT~~|**CERAMIC PATCH**<br>~~LT~~|**CERAMIC PATCH**<br>~~LT~~|**CERAMIC PATCH**<br>~~LT~~|
|---|---|---|---|
|Frequency|1574~1610MHz|||
|Gain @ Zenith|1575.42MHz 1.5 dBic Typ. @ Zenith<br>1602MHz +0 dBic Typ. @ Zenith|||
|Gain at 90° with LNA|1575.42MHz: 31 ± 3dBic<br>1602MHz: 30 ± 3dBic|||
|Polarization|RHCP|||
|Axial Ratio|6.0dB max. @ 1575.42MHz Zenith<br>14.0dB max. @ 1602MHz Zenith|||
|Patch Dimension|25.1*25.1*4mm|||
|**LNA**<br>~~Lo~~||||
|Frequency|1574~1610MHz|||
|Outer Band<br>Attenuation|1592±140MHz 15dB min.|||
|Output Impedance|50Ω|||
|Output VSWR|2.0 Max|||
|Pout at 1dB Gain<br>Compression point|Typ. -2dBm|||
||Min. -6dBm|||
|Input Voltage|Min:1.8V Typ. 3.0V Max:5V|||
|LNA Gain, Power Consumption and Noise Figure||||
|Input Voltage|Min:1.8V|Typ. 3.0V|Max: 5.5V|
|Total Gain @ Zenith|25dBic|31dBic|34dBic|
|Current Consumption|5mA|10mA|23mA|
|Noise Figure|3dB|3dB|3.3dB|
|Cable|3m RG174 standard, fully customizable|||
|Connector|SMA(M) standard, standard, fully customizable|||



Page 6 of 81 

SPE-18-8-097/A/AW 

|**MECHANICAL**<br>~~eee~~|**MECHANICAL**<br>~~eee~~|
|---|---|
|Dimensions<br>~~eee~~|360mm * 160mm * 16.5mm<br>~~eee~~|
|Cable|1M TGC-200 for LTE Antenna – Fully Customizable<br>1M RF174 for GPS Antenna – Fully Customizable|
|Connector|SMA-Male – Fully Customizable|
|Casing|UV Resistant PC|
|Sealant|Rubber O-Ring|
|Weight|1300g|
|**ENVIRONMENTAL**<br>~~eee~~||
|Protection<br>~~eee~~|IP67<br>~~eee~~|
|Temperature Range|-40°C to +85°C|
|Thermal Shock|100 cycles -40°C to +85°C|
|Humidity|Non-condensing 65°C 95% RH|



Page 7 of 81 

SPE-18-8-097/A/AW 

## **3. Antenna Characteristics** 

## **3.1 Block Diagram (Active antenna)** 

## **3.1.1 Return Loss** 

Page 8 of 81 

SPE-18-8-097/A/AW 

## **3.1.2 Out Band Rejection @3V** 

## **3.1.3 LNA Noise Figure and Gain @3V** 

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SPE-18-8-097/A/AW 

## **3.1.4 Efficiency** 

## **3.1.5 Average Gain** 

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SPE-18-8-097/A/AW 

## **3.1.6 Peak Gain** 

## **3.1.7 Axial Ratio** 

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SPE-18-8-097/A/AW 

## **3.1.8 2D Radiation Patterns** 

## **XY Plane** 

## **ZX Plane** 

**ZY Plane** 

Page 12 of 81 

SPE-18-8-097/A/AW 

## **3.1.9 3D Radiation Patterns** 

## **1575.42MHz** 

**1602MHz** 

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SPE-18-8-097/A/AW 

## **3.2 LTE Antenna** 

## **3.2.1 Return Loss** 

## **3.2.2 Isolation** 

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SPE-18-8-097/A/AW 

SPE-18-8-097/A/AW Page 15 of 81 

SPE-18-8-097/A/AW Page 16 of 81 

SPE-18-8-097/A/AW Page 17 of 81 

## **3.2.3 Efficiency** 

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SPE-18-8-097/A/AW 

## **3.2.4 Average Gain** 

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SPE-18-8-097/A/AW 

## **3.2.5 Peak Gain** 

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SPE-18-8-097/A/AW 

SPE-18-8-097/A/AW Page 21 of 81 

## **4. Antenna Radiation Patterns** 

- **4.1 Antenna Setup (Antenna Test Setup in Anechoic Chamber)** 

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SPE-18-8-097/A/AW 

## **4.2 2D Radiation Patterns** 

## **4.2.1 LTE1** 

## **XY Plane** 

## **X** 

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Y<br>**----- End of picture text -----**<br>


## **X** 

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## **X** 

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SPE-18-8-097/A/AW 

## **XZ Plane** 

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**----- Start of picture text -----**<br>
Z<br>0<br>] “49<br>__/ )<br>10 4 J = ; 7<br>X<br>= 120<br>\<br>.<br>180 (dBi)<br>Z<br>0<br>/ —~30<br>/<br>rS \, 60<br>X<br>. a<br>\. ssp<br>.“ (dBi)<br>Z<br>0<br>/ 30<br>PAD oo<br>X<br>**----- End of picture text -----**<br>


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SPE-18-8-097/A/AW 

## **YZ Plane** 

**==> picture [138 x 557] intentionally omitted <==**

**----- Start of picture text -----**<br>
Z<br>0<br>] 30<br>|<br>\ +]|~> W s, 60<br>es 90 Y<br>/<br>| \ 120<br>|_\ 4<br>a“<br>\ 150<br>180<br>(dBi)<br>Z<br>0<br>10. ] T 30<br>9p} |<br>/ 60<br>/<br>Y<br>\ Ss Z<br>ae \ » 120<br>— \ 1<br>a ee ===<br>\ 150<br>180<br>(dBi)<br>Z<br>0<br>10<br>/ 30<br>\o |<br>li \Os 60<br>| / NXOSe<br>eo, ee<br>40-4 = — 90 Y<br>**----- End of picture text -----**<br>


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SPE-18-8-097/A/AW 

## **4.2.2 LTE2** 

## **XY Plane** 

## **X** 

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**----- Start of picture text -----**<br>
r L Vo / ===704MHz<br>Y<br>x {420<br>~- 180 7 150 ===—==960MHz 824MHz<br>(dBi)<br>X<br>0<br>_10- 7. —- ~ ~ 30<br>—— \<br>. 60<br>20— \<br>0 \ |<br>Y<br>XZ ay |<br>Lao /}— | }—} 90<br>me / —=1710MHz<br>IM 7 120<br>= L / —=1850MHz<br>a “eo ——=1990MHz<br>480 —=2170MHz<br>(dBi)<br>X<br>0<br>30<br>\ 60<br>20 —— > — \<br>L/S \ \<br>Y<br>**----- End of picture text -----**<br>


Page 26 of 81 

SPE-18-8-097/A/AW 

## **XZ Plane** 

**==> picture [138 x 551] intentionally omitted <==**

**----- Start of picture text -----**<br>
Z<br>0<br>/ . 30<br>i<br>N /. 60<br>/<br>OTA ( —T<br>— 90 X<br>—_—/ {| \ , \ X 120<br>\<br>\ 150<br>\ ee<br>180 (dBi)<br>Z<br>0<br>/ 30<br>|<br>/ 60<br>WHYS — a\ 90 X<br>//~+ \\\ x| 120<br>= \ ==<br>7 \<br>\ 150<br>180 (aBi)<br>Z<br>0<br>10<br>] 30<br>|<br>\ | KO 60<br>X<br>**----- End of picture text -----**<br>


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## **YZ Plane** 

**==> picture [16 x 12] intentionally omitted <==**

**----- Start of picture text -----**<br>
Z<br>**----- End of picture text -----**<br>


**==> picture [152 x 535] intentionally omitted <==**

**----- Start of picture text -----**<br>
Y<br>S ° 120 —==751MHz<br>\ em<br>. p<br>\ em 960<br>180 (dBi)<br>Z<br>0<br>| | ;<br>=<br>Hh / |<br>Y<br>T\\Q > =—==1710MHz<br>\\ j 7.<br>\ tn ==<br>\ =m<br>| ;<br>=e?<br>180 .<br>Z<br>0<br>10 | | ;<br>\ ™ 7<br>|) /*K\<br> | Ze | Y<br>RY 120 =m 2500MHz<br>**----- End of picture text -----**<br>


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## **4.2.3 LTE3** 

## **XY Plane** 

**==> picture [16 x 12] intentionally omitted <==**

**----- Start of picture text -----**<br>
X<br>**----- End of picture text -----**<br>


**==> picture [130 x 451] intentionally omitted <==**

**----- Start of picture text -----**<br>
— y! |_| 99 Y<br>TG A |<br>/ ~/ 120<br>Wa<br>"450<br>iso<br>X  (dBi)<br>0<br>——_| N,<br>LR \ \, 60<br>Y<br>1} >} —} 90<br>f I~<br>as<br>Y/ WA / / 420<br>480<br>180<br>(dBi)<br>X<br>0<br>.<br>.<br>\ \<br>, x \<br>Y<br>**----- End of picture text -----**<br>


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## **XZ Plane** 

**==> picture [154 x 603] intentionally omitted <==**

**----- Start of picture text -----**<br>
Z<br>0<br>/ 30<br>—|—_| WA<br>\ 60<br>+L /<br>_— ) 90 X<br>—=704MHz<br>| \ \“ gy 420<br>f_|_ \ . —=751MHz<br>——=824MHz<br>\ 150<br>\ e960<br>180 ;<br>(dBi)<br>Z<br>0<br>/ . 30<br>|_| Lo<br>\ DSS 60<br>X<br>|e \ \ \ >[} f : 120 —==1710MHz<br>ax =——=1850MHz<br>Aan —=—=1990MHz<br>\ 150<br>: ee 2170MHZ<br>180 ;<br>(dBi)<br>Z<br>0<br>10<br>/ 30<br>/<br>} L.<br>\ IY . 60<br>-20,}—/ a<br>— 90 X<br>‘ye e2500MHZ<br>**----- End of picture text -----**<br>


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## **YZ Plane** 

**==> picture [16 x 11] intentionally omitted <==**

**----- Start of picture text -----**<br>
Z<br>**----- End of picture text -----**<br>


**==> picture [123 x 441] intentionally omitted <==**

**----- Start of picture text -----**<br>
) 90 Y<br>N,<br>\ 4 120<br>\<br>\ 150<br>\ me<br>180 (dBi)<br>Z<br>0<br>30<br>—|—_/ SNS c<br>/ *<br>I~ N 60<br>Y<br>\ SN 7 171<br>\ \ 7gy  \ > 120<br>\ 150<br>180 (aBi)<br>Z<br>0<br>30<br>{<br>rySY /L. 60<br>k/ 4 :<br>90<br>Y<br>**----- End of picture text -----**<br>


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**4.2.4 LTE4** 

## **XY Plane** 

## **X** 

**==> picture [16 x 11] intentionally omitted <==**

**----- Start of picture text -----**<br>
Y<br>**----- End of picture text -----**<br>


## **X** 

**==> picture [17 x 11] intentionally omitted <==**

**----- Start of picture text -----**<br>
Y<br>**----- End of picture text -----**<br>


## **X** 

**==> picture [12 x 11] intentionally omitted <==**

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## **XZ Plane** 

**==> picture [15 x 11] intentionally omitted <==**

**----- Start of picture text -----**<br>
Z<br>**----- End of picture text -----**<br>


**==> picture [138 x 459] intentionally omitted <==**

**----- Start of picture text -----**<br>
 — / 90 X<br>71<br>| \ \ 120<br>\<br>\ 150<br>\ eee<br>180 ;<br>(dBi)<br>Z<br>0<br>/ 30<br>| (<br>. I>y ' 60<br>f/f)<br>See ae \ Yoo<br>X<br>/ \\x xXyGf  ~ 120 ==<br>_ 7 \ ==<br>\ \ 150 ==<br>180 (dBi)<br>Z<br>0<br>/ 30<br>—_~ v4<br>\ ly 7 60<br>4}, \<br>ee |<br>X<br>**----- End of picture text -----**<br>


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## **YZ Plane** 

**==> picture [141 x 558] intentionally omitted <==**

**----- Start of picture text -----**<br>
Z<br>0<br>/ 30<br>/<br>~ /<br>/ W4 60<br>Y<br>p11 4 Lo<br>\ffe~ > 120<br>YY <<br>\ comme<br>\ 150<br>\<br>180 ;<br>(dBi)<br>Z<br>0<br>10<br>/ 30<br>Lo<br>\ =, 60<br>90<br>Y<br>[7 SL 120,<br>\ 180<br>Z  180 (dBi);<br>0<br>/ 30<br>/<br>es - 60<br>Y<br>**----- End of picture text -----**<br>


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## **4.2.5 LTE5** 

## **XY Plane** 

**==> picture [17 x 11] intentionally omitted <==**

**----- Start of picture text -----**<br>
X<br>**----- End of picture text -----**<br>


## **X** 

**==> picture [34 x 217] intentionally omitted <==**

**----- Start of picture text -----**<br>
Y<br>—=704MHz<br>= 751 MHz<br>—=—=—=824MHz<br>—=960MHz<br>Y<br>**----- End of picture text -----**<br>


## **X** 

**==> picture [16 x 11] intentionally omitted <==**

**----- Start of picture text -----**<br>
Y<br>**----- End of picture text -----**<br>


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## **Z-X Plane** 

**==> picture [159 x 604] intentionally omitted <==**

**----- Start of picture text -----**<br>
Z<br>0<br>10<br>/ 30<br>|<br>\ / ‘ 60<br>X<br>PL NN NS —=704MHz<br>/ \ Vv @& 120<br>_ \ \ e751 MHz<br>at ——=824MHz<br>\ 150 eemme960 MHZ<br>180 (4Bi)<br>Z<br>0<br>/ 30<br>/<br>“10 . /<br>\ / % 60<br>s/o Ne<br>a | oo X<br>/ \ x] 100 == 171 0MHz<br>——=1850MHz<br>\ \ 150 === 1990MHz<br>——=2170MHz<br>180 (aBi)<br>Z<br>)<br>/ 30<br>| v4<br>\ I> . 60<br>|—{ / XX<br>X<br> —- ! 90<br>IN "20 —=2500MHz<br>**----- End of picture text -----**<br>


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## **YZ Plane** 

**==> picture [143 x 541] intentionally omitted <==**

**----- Start of picture text -----**<br>
Z<br>0<br>/ 30<br>/<br>/<br>i> Se 60<br>_ N<br>/ 90 Y<br>\ 120<br> Py, 7 —==704MHz<br>\~\ —=824MHz<br>\ 150<br>\ em 960MHz<br>180 (dBi);<br>Z<br>0<br>/ 30<br>/<br>/ SN \¥ 60<br>L/ KX v<br>L/A > ,<br>” — 80 Y<br>NN y~. ==—=1710MHz<br>\ + 4 ; > 120<br>\ —=1850MHz<br>\ ome 1990MHz<br>\ 150<br>=2170MHz<br>160 (dBi)<br>Z<br>0<br>/ 30<br>|<br>] > 60<br>h/ ZX :<br>ee<br>Y<br>**----- End of picture text -----**<br>


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## **4.2.6 LTE6** 

## **XY Plane** 

## **X** 

**==> picture [16 x 11] intentionally omitted <==**

**----- Start of picture text -----**<br>
Y<br>**----- End of picture text -----**<br>


## **X** 

**==> picture [16 x 11] intentionally omitted <==**

**----- Start of picture text -----**<br>
Y<br>**----- End of picture text -----**<br>


## **X** 

**==> picture [16 x 11] intentionally omitted <==**

**----- Start of picture text -----**<br>
Y<br>**----- End of picture text -----**<br>


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## **XZ Plane** 

**==> picture [168 x 570] intentionally omitted <==**

**----- Start of picture text -----**<br>
Z<br>0<br>40 | . 30<br>i<br>-40——_| 4<br>\ / 60<br>+f / »<br>8 aN ) 90 —==704MHz X<br>| \ \ 120<br>==824MHz<br>\ 150<br>\ eemme 960 MHz<br>180 (dBi)<br>Z<br>0<br>/]. 30<br>Z — ON<br>l SA L<br>{ / ZX<br>_ 60<br>/ 90<br>X<br>Jy \ G —===1710MHz<br>| \ J. \ 120 —==1850MHz<br>— === 1990MHz<br>\ 150<br>—=2170MHz<br>180 (dBi)<br>Z<br>0<br>/ 30<br>/<br>> a 60<br>s/o \A X<br>**----- End of picture text -----**<br>


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## **YZ Plane** 

## **Z** 

**==> picture [151 x 438] intentionally omitted <==**

**----- Start of picture text -----**<br>
Y<br>| L AN| |\, y), 7 —=704MHz<br>| 3 | == 751 MHz<br>\ mmm 824MHz<br>;<br>\ == 960MHz<br>180 (dBi)<br>Z<br>0<br>| ;<br>| , :<br>-20, f / *<br>Y<br>h+Y\ X . —1710MHz<br>| \_ /Z Jon<br>\ \ ==1850MHz<br>——— —! em 1990MHz<br>i ;<br>eee 217 0MHz<br>180 |<br>(dBi)<br>Z<br>0<br>10. |<br>| ;<br>\0<br>’ ;<br>' [-y > .<br><> —e 90 Y<br>**----- End of picture text -----**<br>


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## **4.2.7 LTE7** 

## **XY Plane** 

**==> picture [17 x 11] intentionally omitted <==**

**----- Start of picture text -----**<br>
X<br>**----- End of picture text -----**<br>


**==> picture [159 x 419] intentionally omitted <==**

**----- Start of picture text -----**<br>
Y<br>/ 420<br>4A. ——=824MHz<br>“80 - "180 <—===960MHz<br>(dBi)<br>X<br>0<br>—__<br>~~ 30<br>NAY \ \eo<br>+ NS x \<br>\\ \—~ |<br>j_} \ eae<br>Y<br>—=—=1710MHz<br>< ff 120<br>| , —==1850MHz<br>450 ===1990MHz<br>480 —2170MHz<br>(dBi)<br>X  0<br>——__<br>~~ 30<br>. . .<br>ee 00<br>\ \<br>\~ \SY |<br>en \<br>Y<br>**----- End of picture text -----**<br>


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## **XZ Plane** 

**==> picture [164 x 578] intentionally omitted <==**

**----- Start of picture text -----**<br>
Z<br>i)<br>/ 30<br>/<br>; a. WA 60<br>LL _-<br> — \ 90<br>AX ON y), —=704MHz X<br>\ A. 120<br>—f —=751MHz<br>\ = 824MHz<br>\ 150<br>\ == 960MHz<br>180 ;<br>(dBi)<br>Z<br>)<br>10<br>/ 30<br>: Z<br>\ / \\ y, 60<br>\<br>X<br>: 90<br>1 +\ KR —=1710MHz<br>| \ ~. 120<br>ET \ ——1850MHz<br>\ \ 150 === 1990MHz<br>me 2170MHz<br>180 ;<br>(dBi)<br>Z<br>i)<br>/ 30<br>9 /<br>Wa<br>\ y 60<br>90 X<br>1200 ascomHz<br>**----- End of picture text -----**<br>


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## **YZ Plane** 

**==> picture [169 x 589] intentionally omitted <==**

**----- Start of picture text -----**<br>
Z<br>0<br>10<br>| ;<br>/<br>90<br>| \<“\ y —===704MHz Y<br>| \, ; 7.<br>\ . mmm 824MHz<br>|<br>=m 960 MHz<br>180 (dBi)<br>Z<br>0<br>10 | | ;<br>= | |<br>{ / x<br>Y<br>SO —==1710MHz<br>5\ Y > 120 —=1850MHz<br>= \ == 1990MHz<br>: p<br>\ ee2 170MHZ<br>7 (dBi)<br>Z<br>0<br>| ;<br>|<br>\ PINS .<br>Y<br>**----- End of picture text -----**<br>


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## **4.2.8 LTE8** 

## **XY Plane** 

**==> picture [17 x 11] intentionally omitted <==**

**----- Start of picture text -----**<br>
X<br>**----- End of picture text -----**<br>


## **X** 

**==> picture [39 x 235] intentionally omitted <==**

**----- Start of picture text -----**<br>
Y<br>~~<br>===824MHz<br>—===960MHz<br>Y<br>**----- End of picture text -----**<br>


## **X** 

**==> picture [16 x 11] intentionally omitted <==**

**----- Start of picture text -----**<br>
Y<br>**----- End of picture text -----**<br>


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## **XZ Plane** 

**==> picture [169 x 604] intentionally omitted <==**

**----- Start of picture text -----**<br>
Z<br>0<br>10<br>30<br>6 /<br>\ | “RX >» 60<br>pf / .¢<br>40 8 = - 90<br>X<br>/ \ \ 420<br>Sy, . —751MHz<br>' ===824MHz<br>\ “150<br>\ =m 960MHz<br>180 (dBi)<br>Z<br>0<br>/ 30<br>[ :<br>/ » a<br>X<br>Try » yy) : ==1710MHz<br>\ 7) . . ” 420 —==—=1850MHz<br>\ . em 1990MHz<br>\; 150 ==2170MHz<br>180 (dBi)<br>Z<br>0<br>/ 30<br>[ /<br>IND s. 60<br>| / 7 \A<br>X<br>©1200 3500MHz<br>**----- End of picture text -----**<br>


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## **YZ Plane** 

**==> picture [169 x 529] intentionally omitted <==**

**----- Start of picture text -----**<br>
Z<br>0<br>10 : 30<br>\_0 | ;<br>Lh 7?<br>| ‘60<br>yA — : } - 90<br>LG , 120 ersimiz Y<br>} s \ ——=824MHz<br>“450<br>\ =m 960MHz<br>180 (dBi)<br>Z<br>0<br>10<br>30<br>0<br>, ~<br>-20\ 60<br>30}<br>\<br>“40 # 90<br>Y<br>\ ——=1710MHz<br>\ 120<br>—=1850MHz<br>== 1990MHz<br>150<br>——=2170MHz<br>180 (dBi)<br>Z<br>0<br>10<br>/ 30<br>\_0 a,<br>\<br>IS / ‘60<br>\2a-+4 / .<br>Y<br>**----- End of picture text -----**<br>


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## **4.3 3D Radiation Patterns** 

## **4.3.1 LTE1** 

704MHz 

960MHz 

1710MHz 

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2170MHz 

2300MHz 

2690MHz 

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## **4.3.2 LTE2** 

704MHz 

960MHz 

1710MHz 

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2170MHz 

2300MHz 

2690MHz 

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## **4.3.3 LTE3** 

704MHz 

960MHz 

1710MHz 

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2170MHz 

2300MHz 

2690MHz 

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## **4.3.4 LTE4** 

704MHz 

960MHz 

1710MHz 

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2170MHz 

2300MHz 

2690MHz 

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## **4.3.5 LTE5** 

704MHz 

960MHz 

1710MHz 

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2170MHz 

2300MHz 

2690MHz 

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## **4.3.6 LTE6** 

704MHz 

960MHz 

1710MHz 

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2170MHz 

2300MHz 

2690MHz 

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## **4.3.7 LTE7** 

704MHz 

960MHz 

1710MHz 

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2170MHz 

2300MHz 

2690MHz 

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## **4.3.8 LTE8** 

704MHz 

960MHz 

1710MHz 

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2170MHz 

2300MHz 

2690MHz 

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## **5. Mechanical Drawing (Unit: mm)** 

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## **6. Packaging** 

Packaging has been requested, will update when received. 

## **7. Application Note** 

The MA9909 antenna performance with different cable lengths is shown below. 

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## **7.1. Return Loss** 

## **7.1.1 LTE1** 

## **7.1.2 LTE2** 

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## **7.1.3 LTE3** 

## **7.1.4 LTE4** 

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**==> picture [380 x 63] intentionally omitted <==**

**----- Start of picture text -----**<br>
7.1.5 LTE5<br>'‘\ifee Pe<br>**----- End of picture text -----**<br>


## **7.1.6 LTE6** 

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## **7.1.7 LTE7** 

## **7.1.8 LTE8** 

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## **7.2. Efficiency** 

## **7.2.1 LTE1** 

## **7.2.2 LTE2** 

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## **7.2.3 LTE3** 

## **7.2.4 LTE4** 

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## **7.2.5 LTE5** 

## **7.2.6 LTE6** 

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## **7.2.7 LTE7** 

## **7.2.8 LTE8** 

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## **7.3. Average Gain** 

## **7.3.1 LTE1** 

## **7.3.2 LTE2** 

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## **7.3.3 LTE3** 

## **7.3.4 LTE4** 

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## **7.3.5 LTE5** 

## **7.3.6 LTE6** 

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**----- Start of picture text -----**<br>
7.3.7 LTE7<br>**----- End of picture text -----**<br>


## **7.3.8 LTE8** 

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## **7.4. Peak Gain** 

## **7.4.1 LTE1** 

## **7.4.2 LTE2** 

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## **7.4.3 LTE3** 

## **7.4.4 LTE4** 

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## **7.4.5 LTE5** 

## **7.4.6 LTE6** 

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## **7.4.7 LTE7** 

## **7.4.8 LTE8** 

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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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SPE-18-8-097/A/AW
Updated at June 9, 2026
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