MA310.A.LB.001

## **Specification** 

Part No. : **MA310.A.LB.001** 

Product Name  : Magnet Mount GPS/GLONASS 4G LTE/Cellular Features : 1*LTE Antenna 1*Active GNSS Antenna - GPS L1 and GLONASS L1 Screwmount [Permanent Mount] IP67 Enclosure Dims: mm LTE: 3M RG-174 Cable and SMA(M)ST Connector GNSS: 3M RG-174 Cable and SMA(M)ST Connector Custom Cables and Connectors Available 

**RoHS Compliant** 

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SPE-18-8-088/A/AW 

## **1. Introduction** 

The MA310 antenna is a combination small form factor high performance GPS/GLONASS and Penta-band Cellular (GSM/GPRS/CDMA/ PCS/DCS/ WCDMA/UMTS) antenna to simplify AVL or Fleet management antenna systems worldwide. 

It comes with magnetic mount as standard. An internal O-ring meets stringent IP-67 waterproof standards. With the strongest GPS/GLONASS and Cellular antenna design team in the industry and rigorous testing Taoglas offers guaranteed performance with your system and your environment. 

The standard version comes with 3 metres RG174 cable and SMA(M) connectors for both GPS/GLONASS and Cellular feeds. Cables and connectors are customizable upon requests. 

## **Features** 

## **GPS/GLONASS** 

- High LNA Gain up to 31 dB 

- Antenna Gain 28 ± 2 dB 

- Miniaturized to 56.2 x 16.8 mm 

- Low Noise Figure 2.8 dB typ. for GPS 

- 3.2 dB typ. for GLONASS 

- Ultra-Low Power Consumption 7~10mA typ. ( at 3.3V DC) 

## **Cellular** 

- Advanced penta-band cellular antenna (GSM/GPRS/CDMA/PCS/DCS/WCDMA/UMTS/HSPA) 

- GSM850: 824~896MHz, GSM900: 880~960MHz, 

- DCS: 1710~1880MHz, DCS: 1850~1990MHz 

- UMTS/WCDMA/HSPA: 1920~2170MHz 

## **Other** 

- IP67 Water Resistant due to Internal O-Ring Structure 

- Quality textured covert design. Low profile. 

- ABS housing 

- Optional cables and connectors 

- ROHS Compliant 

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## **2. Specification** 

## **LTE** 

|**LTE Antenna**|**LTE Antenna**|**LTE Antenna**|**LTE Antenna**|**LTE Antenna**|**LTE Antenna**|**LTE Antenna**|**LTE Antenna**|**LTE Antenna**|
|---|---|---|---|---|---|---|---|---|
|Frequency (MHz)||LTE700|GSM850|GSM900|DCS|PCS|UMTS1|LTE2600|
|||698~824|824~894|880~960|1710~1880|1710~1880<br>1850~1990|1850~1990<br>1920~2170|1920~2170<br>2490~2690|
|**Efficiency (%)**|||||||||
|Free Space|0.3M|24.29|62.29|65.14|47.76|56.03|55.32|38.15|
||1M|21.55|54.25|56.74|39.16|46.00|44.96|30.14|
||2M|17.96|45.04|46.51|29.53|34.36|33.28|21.48|
||3M|14.98|37.11|38.26|22.39|25.60|24.67|15.46|
|On 30x30cm<br>Ground Plane<br>~~TT~~|0.3M|35.33|52.72|40.18|58.35|54.95|50.97|45.37|
||1M|31.36|45.92|34.99|47.80|45.13|41.43|35.49|
||2M|26.16|38.14|28.71|36.08|33.71|30.68|25.28|
||3M<br>~~TT~~|21.84<br>~~TT~~|31.47<br>~~TT~~|23.61<br>~~TT~~|27.36<br>~~TT~~|25.12<br>~~TT~~|22.74<br>~~TT~~|17.94<br>~~TT~~|
|**Average Gain (dB)**<br>~~TT~~|||||||||
|Free Space|0.3M|-6.15|-2.06|-1.86|-3.21|-2.52|-2.57|-4.19|
||1M|-6.67|-2.66|-2.46|-4.07|-3.37|-3.47|-5.21|
||2M|-7.46|-3.46|-3.32|-5.30|-4.64|-4.78|-6.68|
||3M|-8.24|-4.30|-4.17|-6.50|-5.92|-6.08|-8.11|
|On 30x30cm<br>Ground Plane|0.3M|-4.52|-2.78|-3.96|-2.34|-2.60|-2.93|-3.43|
||1M|-5.04|-3.38|-4.56|-3.21|-3.46|-3.83|-4.50|
||2M|-5.82|-4.19|-5.42|-4.43|-4.72|-5.13|-5.97|
||3M|-6.61|-5.02|-6.27|-5.63|-6.00|-6.43|-7.46|
|**Peak Gain (dBi)**<br>~~|~~|||||||||
|Free Space|0.3M|-4.11|-1.24|-1.41|-2.63|-2.01|-2.01|-2.89|
||1M|-4.71|-1.84|-2.01|-3.43|-2.91|-2.91|-3.89|
||2M|-5.51|-2.64|-2.81|-4.73|-4.21|-4.21|-5.29|
||3M|-6.31|-3.54|-3.71|-5.93|-5.51|-5.51|-6.69|
|On 30x30cm<br>Ground Plane|0.3M|-3.23|-2.53|-2.91|-1.92|-2.40|-2.40|-3.06|
||1M|-3.83|-3.13|-3.51|-2.72|-3.30|-3.30|-4.06|
||2M|-4.63|-3.93|-4.31|-3.92|-4.60|-4.60|-5.56|
||3M|-5.43|-4.76|-5.21|-5.22|-5.81|-5.90|-7.06|
|Impedance|50 Ω||||||||
|Return loss|< -3 dB||||||||
|Polarization|Vertical||||||||



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## **GNSS** 

|**GNSS ELECTRICAL**<br>~~LSS~~<br>~~eae~~|**GNSS ELECTRICAL**<br>~~LSS~~<br>~~eae~~|**GNSS ELECTRICAL**<br>~~LSS~~<br>~~eae~~|**GNSS ELECTRICAL**<br>~~LSS~~<br>~~eae~~|
|---|---|---|---|
|Frequency|GPS L1: 1575.42 MHz ± 1.023 MHz<br>GLONASS L1: 1602 MHz ± 1.023 MHz<br>~~eae~~|||
|Bandwidth -<br>Return Loss <-10 dB|6 MHz min|||
|Return loss (GPS L1<br>GLONASS L1)|< -10 dB|||
|Passive Gain at Zenith<br>(GPS L1 and<br>GLONASS L1)|+1.0 dBic typ.|||
|Polarization|RHCP|||
|Impedance|50 Ω|||
|LNA Out-band<br>Attenuation|fo = 1575.42MHz<br>fo ± 30 MHz 5dB Min.<br>fo ± 50 MHz 20dB Min.<br>fo ± 100 MHz 25dB Min.|||
|Input Voltage|Min:1.8V|Typ. 3.0V|Max: 5.5V|
|Total Gain @ Zenith|25dBic|27dBic|29dBic|
|Current Consumption|6mA|12mA|30mA|
|Noise Figure|3.5dB|3.5dB|3.7dB|



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|**MECHANICAL**<br>~~eee)~~|**MECHANICAL**<br>~~eee)~~|
|---|---|
|Dimensions|Φ 77*21mm|
|Cable|LTE: 3000mm CFD200<br>GNSS: 3000mm RG174|
|Connector|LTE: SMA(M)<br>GNSS: SMA(M)|
|Casing|PC+ABS|
|Adhesive|3M 9448HK + CR4305|
|Sealant|Rubber Stopper|
|Weight|g|
|**ENVIRONMENTAL**<br>~~eee)~~||
|Protection|IP67|
|Corrosion|5% NaCl for 96hrs - Nickel plated steel base and thread|
|Temperature Range|-40°C to +85°C|
|Thermal Shock|100 cycles -40°C to +85°C|
|Humidity|Non-condensing 65°C 95% RH|
|Shock (Drop Test)|1m drop on concrete 6 axes|
|Cable Pull|8 Kgf|
|Recommended MountingTorque|N∙m|
|Maximum MountingTorque|N∙m|



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## **3. Antenna Characteristics** 

## **3.1. LTE Antennas** 

## **3.1.1. Return Loss – LTE** 

## **3.1.2. Efficiency – LTE** 

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## **3.1.3. Average Gain – LTE** 

## **3.1.4. Peak Gain – LTE** 

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## **3.2. GNSS Antenna** 

## **3.2.1. Block Diagram (Active antenna)** 

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## **3.2.2. Return Loss – GNSS Antenna** 

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## **3.2.3. Impedance – GNSS Antenna** 

## **3.2.4. Efficiency – GNSS Antenna (passive measurement)** 

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## **3.2.5. Average Gain – GNSS Antenna (passive measurement)** 

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## **3.2.6. Peak Gain – GNSS Antenna (passive measurement)** 

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## **3.2.7. Axial Ratio – GNSS Antenna (Zenith is at 0** ° **)** 

**Axial Ratio at GPS L1 (1575.42 MHz)** 

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## **Axial Ratio at GLONASS L1 (1602 MHz)** 

## **3.2.8. GNSS Antenna Active Measurements** 

## **LNA Gain @ 3.0V** 

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## **LNA Gain and Noise Figure @ 3.0V** 

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## **4. Antenna Radiation Patterns** 

## **4.1 Antenna Setup** 

**Free Space** 

**On 30*30cm GND** 

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## **4.2 2D Radiation Patterns** 

**4.2.1 LTE_Free Space** 

## **XY Plane** 

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X<br>0<br>10<br>330 30<br>0<br>-10<br>300 60<br>-20<br>-30<br>270 -40 90 Y<br>240 120<br>617MHz<br>704MHz<br>210 150<br>751MHz<br>(dBi)<br>180 824MHz<br>X<br>0<br>10<br>330 30<br>0<br>-10<br>300 60<br>-20<br>-30<br>270 -40 90 Y<br>240 120<br>960MHz<br>1710MHz<br>210 150<br>1850MHz<br>(dBi)<br>180 1990MHz<br>X<br>0<br>10<br>330 30<br>0<br>-10<br>300 60<br>-20<br>-30<br>270 -40 90 Y<br>@®<br>240 120<br>2170MHz<br>210 150<br>(dBi) 2500MHz<br>180<br>**----- End of picture text -----**<br>


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**X** 

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0<br>10<br>330 30<br>0<br>-10<br>300 60<br>-20<br>-30<br>270 -40 90 Y<br>240 120<br>2690MHz<br>210 150 3300MHz<br>180 (dBi) 3400MHz<br>X<br>0<br>10<br>330 30<br>0<br>-10<br>300 60<br>-20<br>-30<br>Y<br>270 -40 90<br>240 120<br>5150MHz<br>210 150 5550MHz<br>180 (dBi) 5925MHz<br>**----- End of picture text -----**<br>


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## **XZ Plane** 

## **Z** 

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## **Z** 

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## **YZ Plane** 

## **Z** 

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0<br>10<br>330 30<br>0<br>-10<br>300 60<br>-20<br>-30<br>Y<br>270 -40 90<br>240 120<br>617MHz<br>704MHz<br>210 150<br>751MHz<br>180 (dBi) 824MHz<br>Z<br>0<br>10<br>330 30<br>0<br>-10<br>300 60<br>-20<br>-30<br>Y<br>270 -40 90<br>240 120<br>960MHz<br>1710MHz<br>210 150<br>1850MHz<br>180 (dBi) 1990MHz<br>**----- End of picture text -----**<br>


## **Z** 

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0<br>10<br>330 30<br>0<br>-10<br>300 60<br>-20<br>-30<br>270 -40 90<br>240 120 Y<br>2170MHz<br>210 150<br>180 (dBi) 2500MHz<br>**----- End of picture text -----**<br>


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**Z** 

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0<br>10<br>330 30<br>0<br>-10<br>300 60<br>-20<br>|=~|<br>-30<br>270 -40 90 Y<br>240 120<br>2690MHz<br>210 150 3300MHz<br>180 (dBi) 3400MHz<br>Z<br>0<br>10<br>330 30<br>0<br>-10<br>300 60<br>-20<br>-30<br>FQ<br>270 -40 90 Y<br>ee<br>240 120<br>5150MHz<br>SY 210 150 = 5550MHz<br>180 (dBi) 5925MHz<br>**----- End of picture text -----**<br>


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## **4.2.2 LTE_On 30x30cm GND** 

## **XY Plane** 

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X<br>0<br>10<br>330 30<br>0<br>-10<br>300 60<br>-20<br>-30<br>Y<br>270 -40 90<br>240 120<br>617MHz<br>704MHz<br>210 150<br>751MHz<br>180 (dBi) 824MHz<br>X<br>0<br>10<br>330 30<br>0<br>-10<br>300 60<br>-20<br>-30<br>Y<br>270 -40 90<br>240 120<br>960MHz<br>1710MHz<br>210 150<br>1850MHz<br>180 (dBi) 1990MHz<br>X<br>0<br>10<br>330 30<br>0<br>-10<br>300 60<br>-20<br>-30<br>Y<br>270 -40 90<br>240 120<br>2170MHz<br>210 150<br>180 (dBi) 2500MHz<br>**----- End of picture text -----**<br>


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**X** 

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0<br>10<br>330 30<br>0<br>-10<br>300 60<br>-20<br>-30<br>270 -40 90 Y<br>240 120<br>2690MHz<br>210 150 3300MHz<br>180 (dBi) 3400MHz<br>X<br>0<br>10<br>330 30<br>0<br>-10<br>300 60<br>-20<br>-30<br>270 -40 90 Y<br>240 120<br>5150MHz<br>210 150 5550MHz<br>180 (dBi) 5925MHz<br>**----- End of picture text -----**<br>


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## **XZ Plane** 

## **Z** 

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0<br>10<br>330 30<br>0<br>/<So -10 ——w_~ SN N,\<br>300 60<br>-20<br>-30<br>270 -40 90 X<br>240 120<br>\ SS SJ a=» 617MHz<br>Nw, = va a=» 704MHz<br>210 150<br>751MHz<br>180 (dBi) a=» 824MHz<br>Z<br>0<br>10<br>330 30<br>LO = 0  |__| _ NN<br>-10<br>300 A Zzx% - Ve5 . xX\ \A 60<br>-20<br>-30<br>270 -40 90 X<br>240 120<br>960MHz<br>NY = wa au» 1710MHz<br>210 150<br>1850MHz<br>180 (dBi) a=» 1990MHz<br>Z<br>0<br>10<br>330 30<br>0<br>300 //wa Yo [A] -10 aT- =— ™\,NX\\ 60<br>-20<br>-30<br>270 -40 90 X<br>240 120<br>NN - — Lo =——: 2170MHz<br>210 150<br>180 (dBi) 2500MHz<br>**----- End of picture text -----**<br>


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**Z** 

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Z<br>0<br>10<br>330 30<br>0<br>-10<br>300 60<br>-20<br>-30<br>270 -40 90 X<br>240 120<br>5150MHz<br>210 150 5550MHz<br>180 (dBi) 5925MHz<br>**----- End of picture text -----**<br>


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## **YZ Plane** 

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Z<br>0<br>10<br>330 va — : 0 ~ ~ ™ 30<br>/// -10 a 2 <N \\<br>300 /ZL -20 Ax— ~NX N\ \\ \ 60<br>-30<br>270 -40 90 Y<br>240 120<br>\.N~ [:] Loy, a=»a=» 617MHz704MHz<br>210 150<br>751MHz<br>180 (dBi) a=! 824MHz<br>Z<br>0<br>10<br>330 30<br>0<br>/KO -10 —— = ~~ aeaWN\<br>300 /f 7 lin -20 FE J}NF RNma \ >\ 60<br>|| -30 /A~\'\<br>270 -40 90 Y<br>240 120<br>\xX uy / va/ a=» 960MHz<br>1710MHz<br>210 150<br>1850MHz<br>180 (dBi) a=! 1990MHz<br>Z<br>0<br>10<br>330 30<br>0<br>/ A -10 ~ \<br>300 60<br>-20<br>/ / l LN mw \ \<br>-30<br>270 -40 90 Y<br>240 \a/ 120<br>\\ 4 /<br>2170MHz<br>210 150<br>(dBi) 2500MHz<br>180<br>**----- End of picture text -----**<br>


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Z<br>0<br>10<br>330 30<br>0<br>-10<br>300 60<br>-20<br>-30<br>Y<br>270 -40 90<br>240 Naa 120<br>2690MHz<br>210 150 3300MHz<br>180 (dBi) 3400MHz<br>Z<br>0<br>10<br>330 30<br>0<br>-10<br>300 60<br>-20<br>-30<br>270 -40 90 Y<br>240 120<br>5150MHz<br>210 150 5550MHz<br>180 (dBi) 5925MHz<br>**----- End of picture text -----**<br>


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## **4.2.3 GNSS** 

## **XY Plane** 

## **XZ Plane** 

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X<br>0<br>10<br>330 30<br>0<br>-10<br>300 60<br>-20<br>-30<br>270 -40 90 Y<br>240 120<br>1561MHz<br>210 150<br>1575.42MHz<br>180 (dBi) 1602MHz<br>X<br>0<br>10<br>330 30<br>0<br>-10<br>300 60<br>-20<br>-30<br>270 -40 90 Z<br>240 120<br>1561MHz<br>210 150 1575.42MHz<br>180 (dBi) 1602MHz<br>**----- End of picture text -----**<br>


## **YZ Plane** 

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## **3D Radiation Patterns** 

## **4.2.4 LTE** 

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## **4.1.1 GNSS** 

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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 MA173.A.LBC.001 antenna performance with different cable lengths is shown below. 

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## **7.1. Return Loss** 

**Return Loss – LTE Antenna (Free Space)** 

**Return Loss – LTE Antenna (On 30*30cm GND)** 

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## **7.2. Efficiency** 

## **Efficiency – LTE Antenna (Free Space)** 

## **Efficiency – LTE Antenna (On 30*30 GND)** 

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## **7.3. Average Gain** 

## **Average Gain – LTE Antenna (Free Space)** 

## **Average Gain – LTE Antenna (On 30*30cm GND)** 

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## **7.4. Peak Gain** 

## **Peak Gain – LTE Antenna (Free Space)** 

## **Peak Gain – LTE Antenna (On 30*30cm GND)** 

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SPE-18-8-088/A/AW