# ANTENNAS MAGNET MOUNT COMBO ANTENNA

![Product image](https://novapart.co/image/farnell:4619363/)

**URL**: https://novapart.co/products/MA350.A.LBICG.003/antennas-magnet-mount-combo-antenna
**SKU**: MA350.A.LBICG.003
**Manufacturer**: TAOGLAS / PARTNER STOCK
**Price**: €215.5100
**Stock**: 10+

## Specifications

| Parameter | Value |
|---|---|
| Svhc | No SVHC (07-Nov-2024) |

## Datasheet

📄 [Download PDF](https://novapart.co/datasheet/farnell:4619363/)

## **Specification** 

Part No. : **MA350.A.LBICG.003** 

Product Name : Steedan 5-in-1 Magnetic Mount Antenna with GNSS, 2*LTE & 2*Wi-Fi 

Features : Low Profile Magnetic Mount Enclosure 2* LTE MIMO 698-960MHz / 1710-2170MHz / 24902690MHz / 3300-3600MHz 2* Wi-Fi MIMO 2.4GHz/5.8GHz 1* GPS-GLONASS-GALILEO-BeiDou Antenna IP67 Rated, Ruggedized PC/ABS Enclosure LTE: 3M CFD200 Cable and SMA(M)ST Connector Wi-Fi: 3M CFD200 Cable and RP SMA(M)ST Connector GNSS: 3M RG-174 Cable and SMA(M)ST Connector Dims: 247 * 144.3 * 47.8 mm 

**RoHS Compliant** 

Page 1 of 68 

SPE-18-8-095/A/AW 

## **1. Introduction** 

The Taoglas Steedan MA350 is a 5-in-1 next-generation low profile magnetic mount antenna for vehicle, outdoor building and heavy equipment roof applications. It has a fully IP67 rated waterproof robust ABS enclosure and base. This is an ideal external combination antenna solution that is used where drilling a hole through the roof of a vehicle or a metal panel is not feasible. It can be mounted on steel surfaces and its ultrastrong neodymium magnets. A soft foam cushion on the base protects the mounting surface during installation and removal. Only 48mm high it mounts discretely to the target application out of sight of most onlookers. 

This outstanding antenna delivers powerful MIMO antenna technology for LTE (2G/3G/4G) and Wi-Fi 2.4/5.8GHz and a custom tuned GPS/GLONASS/BeiDou patch antenna for GNSS location services. The 5 internal antennas have superior isolation. The LTE antennas also include backward compatibility to work at most worldwide 3G and 2G bands. 

Typical Applications: 

- Next Generation OEM Automotive Connectivity 

- Multimedia, Navigation and Telematics Systems 

- V2V, V2X and Fleet Management Applications 

- Real-time HD Video Streaming 

- Digital Signage and Remote Monitoring 

- First Net Responder Routers 

The MA350 is ideal for applications that require highly sophisticated antennas for realtime streaming applications that demand high-speed video uplink and downlink into the cabin of the vehicle. These challenges are resolved by the highly efficient, high gain MIMO antennas, with high isolation, all of which is necessary to achieve the required signal to noise ratio and throughput. 

The MA350 can also be customized for your particular wireless application and frequency band, subject to NRE and MOQ. There are 5x 3000mm low loss TGC-200 cables, terminating in SMA(M) connectors for LTE MIMO, and RP SMA(M) for Wi-Fi MIMO. There is a 3000mm RG-174 cable for GNSS terminating in an SMA(M) connector. All cable lengths and connector types are customizable. 

Page 2 of 68 

SPE-18-8-095/A/AW 

## **2. Specification** 

**LTE MIMO1 & MIMO 2 on 30x30cm Ground Plane** 

|**LTE Antenna**<br>~~nn~~|**LTE Antenna**<br>~~nn~~|**LTE Antenna**<br>~~nn~~|**LTE Antenna**<br>~~nn~~|**LTE Antenna**<br>~~nn~~|**LTE Antenna**<br>~~nn~~|**LTE Antenna**<br>~~nn~~|**LTE Antenna**<br>~~nn~~|**LTE Antenna**<br>~~nn~~|
|---|---|---|---|---|---|---|---|---|
|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 (%)**|||||||||
|MIMO1|0.3M|42.71|66.20|69.35|54.36|60.18|62.55|65.55|
||1M|40.51|63.21|66.22|49.56|54.89|57.63|59.78|
||2M|37.81|57.93|60.39|44.17|48.52|50.52|51.94|
||3M|34.94|53.80|56.13|39.27|42.70|44.65|45.22|
||5M|32.30|49.97|52.18|34.91|37.59|39.46|39.38|
|MIMO2|0.3M|43.39|46.55|42.78|49.60|48.61|54.25|64.76|
||1M|41.10|44.44|40.85|45.25|44.32|49.96|59.06|
||2M|38.35|40.72|37.26|40.33|39.16|43.81|51.32|
||3M|35.53|37.83|34.62|35.87|34.48|38.70|44.67|
||5M|32.91|35.14|32.17|31.90|30.36|34.19|38.90|
|Average Gain (dB)<br>~~Td~~|||||||||
|MIMO1|0.3M|-3.70|-1.79|-1.59|-2.65|-2.21|-2.04|-1.83|
||1M|-3.92|-1.99|-1.79|-3.05|-2.61|-2.39|-2.23|
||2M|-4.22|-2.37|-2.19|-3.55|-3.14|-2.97|-2.85|
||3M|-4.57|-2.69|-2.51|-4.06|-3.70|-3.50|-3.45|
||5M|-4.91|-3.01|-2.82|-4.57|-4.25|-4.04|-4.05|
|MIMO2|0.3M|-3.63|-3.32|-3.69|-3.05|-3.13|-2.66|-1.89|
||1M|-3.86|-3.52|-3.89|-3.44|-3.53|-3.01|-2.29|
||2M|-4.16|-3.90|-4.29|-3.94|-4.07|-3.58|-2.90|
||3M|-4.49|-4.22|-4.61|-4.45|-4.62|-4.12|-3.50|
||5M|-4.83|-4.54|-4.93|-4.96|-5.18|-4.66|-4.10|
|Peak Gain (dBi)|||||||||
|MIMO1|0.3M|-2.30|-1.57|-1.14|-2.48|-1.83|-1.76|-1.29|
||1M|-2.50|-1.77|-1.34|-2.88|-2.23|-2.14|-1.69|
||2M|-2.80|-2.17|-1.74|-3.38|-2.83|-2.66|-2.30|
||3M|-3.20|-2.47|-2.04|-3.88|-3.33|-3.24|-2.94|
||5M|-3.60|-2.77|-2.34|-4.38|-3.83|-3.74|-3.54|
|MIMO2|0.3M|-2.42|-2.86|-3.13|-2.62|-2.51|-1.80|-1.10|
||1M|-2.72|-3.06|-3.33|-3.02|-2.91|-2.20|-1.50|
||2M|-3.02|-3.46|-3.73|-3.52|-3.51|-2.70|-2.10|
||3M|-3.32|-3.76|-4.13|-4.02|-4.01|-3.30|-2.70|
||5M|-3.62|-4.06|-4.45|-4.52|-4.51|-3.90|-3.30|
|Impedance|50 Ω||||||||
|Polarization|Linear||||||||



SPE-18-8-095/A/AW Page 3 of 68 

**WI-FI_MIMO1 and MIMO2_On 30x30cm Ground Plane** 

|**Wi-Fi Antenna (2.4GHz/5.8GHz)**<br>~~LSS~~|**Wi-Fi Antenna (2.4GHz/5.8GHz)**<br>~~LSS~~|**Wi-Fi Antenna (2.4GHz/5.8GHz)**<br>~~LSS~~|**Wi-Fi Antenna (2.4GHz/5.8GHz)**<br>~~LSS~~|
|---|---|---|---|
|Frequency (MHz)||2400~2500|4900~5850|
|**Efficiency** **(%)**||||
|MIM01|0.3M|64.14|52.70|
||1M|58.48|45.39|
||2M|50.93|36.79|
||3M|44.36|29.79|
||5M|38.64|24.13|
|MIMO2|0.3M|44.33|57.67|
||1M|40.43|49.64|
||2M|35.21|40.23|
||3M|30.67|32.57|
||5M|26.71|26.37|
|**Average Gain (dB)**||||
|MIM01|0.3M|-1.93|-2.78|
||1M|-2.33|-3.43|
||2M|-2.93|-4.34|
||3M|-3.53|-5.26|
||5M|-4.13|-6.17|
|MIMO2|0.3M|-3.53|-2.39|
||1M|-3.93|-3.04|
||2M|-4.53|-3.95|
||3M|-5.13|-4.87|
||5M|-5.73|-5.79|
|**Peak Gain (dBi)**<br>~~[~~||||
|MIMO1|0.3M|-1.67|-1.95|
||1M|-2.07|-2.55|
||2M|-2.67|-3.45|
||3M|-3.27|-4.34|
||5M|-3.87|-5.14|
|MIMO2|0.3M|-2.82|-1.65|
||1M|-3.22|-2.35|
||2M|-3.82|-3.25|
||3M|-4.42|-4.15|
||5M|-5.02|-5.05|
|Impedance|50 Ω|||
|Return loss|< -6 dB|||
|Polarization|Linear|||



Page 4 of 68 

SPE-18-8-095/A/AW 

|**GNSS ELECTRICAL**<br>~~LSS~~<br>~~eee~~|**GNSS ELECTRICAL**<br>~~LSS~~<br>~~eee~~|**GNSS ELECTRICAL**<br>~~LSS~~<br>~~eee~~|**GNSS ELECTRICAL**<br>~~LSS~~<br>~~eee~~|
|---|---|---|---|
|Frequency<br>~~LSS~~|GPS L1: 1575.42 MHz ± 1.023 MHz<br>GLONASS L1: 1602 MHz ± 1.023 MHz<br>~~LSS~~<br>~~eee~~|||
|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|30dBic|32dBic|
|Current Consumption|6mA|12mA|30mA|
|Noise Figure|2.7dB|3.0dB|3.7dB|



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|**MECHANICAL**<br>~~eee)~~|**MECHANICAL**<br>~~eee)~~|
|---|---|
|Dimensions|247*144.3*47.78 mm|
|Cable|LTE MIMO 1 & 2: 3000mm TGC200<br>Wi-Fi MIMO & 2: 3000mm TGC200<br>GNSS: 3000mm RG174|
|Connector|LTE: SMA(M)<br>Wi-Fi: RP SMA(M)<br>GNSS: SMA(M)|
|Casing|PC+ABS|
|Adhesive|3M 9448HK + CR4305|
|Sealant|Rubber Stopper|
|Weight|550 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|24.5N∙m|
|Maximum MountingTorque|29.5N∙m|



SPE-18-8-095/A/AW Page 6 of 68 

|LTE BANDS<br>~~——_—_——_——__~~<br>~~==~~|LTE BANDS<br>~~——_—_——_——__~~<br>~~==~~|LTE BANDS<br>~~——_—_——_——__~~<br>~~==~~|LTE BANDS<br>~~——_—_——_——__~~<br>~~==~~|LTE BANDS<br>~~——_—_——_——__~~<br>~~==~~|
|---|---|---|---|---|
|Band Number<br>~~——_—_——_——__~~|LTE/LTE-Advanced/WCDMA/HSPA/HSPA+/TD-SCDMA<br>~~——_—_——_——__~~<br>~~==~~||||
|~~——_—_——_——__~~|**Uplink**<br>~~——_—_——_——__~~|**Downlink**<br>~~——_—_——_——__~~|**MIMO 1**<br>~~——_—_——_——__~~<br>~~==~~|**MIMO 2**<br>~~——_—_——_——__~~<br>~~==~~|
|**1**|UL: 1920 to 1980|DL: 2110 to 2170|✓<br>~~==~~|✓<br>~~==~~|
|**2**|UL: 1850 to 1910|DL: 1930 to 1990|✓|✓|
|**3**|UL: 1710 to 1785|DL: 1805 to 1880|✓|✓|
|**4**|UL: 1710 to 1755|DL: 2110 to 2155|✓|✓|
|**5**|UL: 824 to 849|DL: 869 to 894|✓|✓|
|**7**|UL: 2500 to 2570|DL:2620 to 2690|✓|✓|
|**8**|UL: 880 to 915|DL: 925 to 960|✓|✓|
|**9**|UL: 1749.9 to 1784.9|DL: 1844.9 to 1879.9|✓|✓|
|**11**|UL: 1427.9 to 1447.9|DL: 1475.9 to 1495.9|✓|✓|
|**12**|UL: 699 to 716|DL: 729 to 746|✓|✓|
|**13**|UL: 777 to 787|DL: 746 to 756|✓|✓|
|**14**|UL: 788 to 798|DL: 758 to 768|✓|✓|
|**17**|UL: 704 to 716|DL: 734 to 746 (LTE only)|✓|✓|
|**18**|UL: 815 to 830|DL: 860 to 875 (LET only)|✓|✓|
|**19**|UL: 830 to 845|DL: 875 to 890|✓|✓|
|**20**|UL: 832 to 862|DL: 791 to 821|✓|✓|
|**21**|UL: 1447.9 to 1462.9|DL: 1495.9 to 1510.9|✓|✓|
|**22**|UL: 3410 to 3490|DL: 3510 to 3590|✓|✓|
|**23**|UL:2000 to 2020|DL: 2180 to 2200 (LTE only)|✓|✓|
|**24**|UL:1625.5 to 1660.5|DL: 1525 to 1559 (LTE only)|✓|✓|
|**25**|UL: 1850 to 1915|DL: 1930 to 1995|✓|✓|
|**26**|UL: 814 to 849|DL: 859 to 894|✓|✓|
|**27**|UL: 807 to 824|DL: 852 to 869 (LTE only)|✓|✓|
|**28**|UL: 703 to 748|DL: 758 to 803 (LTE only)|✓|✓|
|**29**|UL: -|DL: 717 to 728 (LTE only)|✓|✓|
|**30**|UL: 2305 to 2315|DL: 2350 to 2360 (LTE only)|✓|✓|
|**31**|UL: 452.5 to 457.5|DL: 462.5 to 467.5 (LTE only)|✓|✓|
|**32**|UL: -|DL: 1452 - 1496|✓|✓|
|**35**|1850 to 1910||✓|✓|
|**38**|2570 to 2620||✓|✓|
|**39**|1880 to 1920||✓|✓|
|**40**|2300 to 2400||✓|✓|
|**41**|2496 to 2690||✓|✓|
|**42**|3400 to 3600||✓|✓|
|**43**|3600 to 3800||✓|✓|



*Covered bands represent an efficiency greater than 20% 

Page 7 of 68 

SPE-18-8-095/A/AW 

## **3. Antenna Characteristics** 

## **3.1. LTE MIMO1 and MIMO2 Antennas** 

## **3.1.1. Return Loss – LTE MIMO1 and MIMO2** 

## **3.1.2. Efficiency – LTE MIMO1 and MIMO2** 

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SPE-18-8-095/A/AW 

## **3.1.3. Average Gain – LTE MIMO1 and MIMO2** 

## **3.1.4. Peak Gain – LTE MIMO1 and MIMO2** 

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SPE-18-8-095/A/AW 

## **3.1.5. Isolation – LTE MIMO1 and MIMO2** 

## **3.1.6. ECC – LTE MIMO1 and MIMO2** 

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SPE-18-8-095/A/AW 

## **3.2. WI-FI MIMO1 and MIMO2 Antennas** 

## **3.2.1. Return Loss – WI-FI MIMO1 and MIMO2** 

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SPE-18-8-095/A/AW 

## **3.2.3. Average Gain – WI-FI MIMO1 and MIMO2** 

## **3.2.4. Peak Gain – WI-FI MIMO1 and MIMO2** 

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SPE-18-8-095/A/AW 

## **3.2.5. Isolation – WI-FI MIMO1 and MIMO2** 

## **3.2.6. ECC – WI-FI MIMO1 and MIMO2** 

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SPE-18-8-095/A/AW 

## **3.3. GNSS Antenna** 

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

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

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0<br>-5<br>-10<br>-15<br>-20<br>-25<br>-30<br>-35<br>-40<br>1400 1450 1500 1550 1600 1650 1700 (MHz)<br>(dB)<br>**----- End of picture text -----**<br>


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

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90 | | | —GPS/ GLONASS<br>90 | | |<br>80<br>11<br>»<br>70 |I |<br>70 | |<br>60<br>60 | |<br>| ]<br>50<br>_ 50 | |<br>e 40 i '<br>“<br>| | ]<br>30<br>30 1 4 |<br>| | |<br>20<br>20 rt 1<br>10 10 | | |<br>| | i]<br>0 0<br>1500 1400 1520 1450 1540 1560 1500 1580 1550 1600 1620 1600 1640 1660 1650 1680 1700 1700 (MHz) (MHz)<br>(%)<br>**----- End of picture text -----**<br>


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

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5<br>—GPS/GLONASS |<br>5 i<br>0<br>o0<br>2<br>-5<br>-10<br>-10<br>1500 1400 1520 1450 1540 1560 1500 1580 1550 1600 1620 1600 1640 1660 1650 1680 1700 1700 (MHz) (MHz)<br>(dB)<br>**----- End of picture text -----**<br>


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## **3.3.5. Peak Gain – GNSS Antenna (passive** 

## **measurement)** 

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10<br>10<br>—CGPS/ GLONASS<br>5<br>5<br>3 [0]<br>0<br>4<br>-10 -5<br>1500 1400 1520 1450 1540 1560 1500 1580 1550 1600 1620 1600 1640 1660 1650 1680 1700 1700 (MHz) (MHz)<br>(dBi)<br>**----- End of picture text -----**<br>


## **3.3.6. 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)** 

## **3.3.7. 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** 

## **On 30*30cm GND** 

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## **4.2 2D Radiation Patterns** 

**4.2.1 LTE MIMO1_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>270 -40 90 Y<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>270 -40 90 Y<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>270 -40 90 Y<br>240 120<br>2170MHz<br>210 150<br>180 (dBi) 2500MHz<br>**----- End of picture text -----**<br>


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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>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** 

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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>617MHz<br>704MHz<br>210 150<br>751MHz<br>180 (dBi) aGl=D 824MHz<br>Z<br>0<br>10<br>330 30<br>0<br>-10<br>300 ae?~~ 60<br>-20<br>-30<br>270 -40 90 X<br>240 120<br>960MHz<br>1710MHz<br>210 150<br>1850MHz<br>180 (dBi) aGl=D> 1990MHz<br>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>2170MHz<br>210 150<br>180 (dBi) 2500MHz<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>270 -40 90 X<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>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 30<br>0<br>-10<br>300 / y = ~ ~ “ON 60<br>-20<br>-30<br>270 -40 90 Y<br>240 120<br>617MHz<br>704MHz<br>210 150<br>751MHz<br>180 (dBi) a=» 824MHz<br>Z<br>0<br>10<br>330 30<br>0<br>-10<br>300 60<br>-20<br>-30<br>270 QJ -40 90 Y<br>\ N a [| \sva / /<br>240 120<br>960MHz<br>Ry —<br>1710MHz<br>210 150<br>1850MHz<br>180 (dBi) a=» 1990MHz<br>Z<br>0<br>10<br>330 30<br>0<br>-10<br>300 60<br>-20<br>-30<br>270 Bie -40 Sicsee! | 90 Y<br>\ \ a/|\< / y /<br>240 120<br>2170MHz<br>210 150<br>180 (dBi) 2500MHz<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>270 -40 90 Y<br>BP io See |<br>240 120<br>2690MHz<br>ane 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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## **4.2.2 LTE MIMO2_On 30x30cm GND** 

## **XY Plane** 

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X<br>0<br>10<br>330 30<br>0<br>-10 x<br>300 60<br>-20<br>TN<br>-30<br>270 -40 90 Y<br>240 120<br>617MHz<br>NY es YY eGla=D 704MHz<br>210 150<br>751MHz<br>180 (dBi) a=» 824MHz<br>X<br>0<br>10<br>330 30<br>0<br>-10<br>300 L / ~ mw \ 60<br>-20<br>-30<br>270 -40 90 Y<br>240 120<br>9 4 — 960MHz<br>NY el en VO 1710MHz<br>210 150<br>1850MHz<br>180 (dBi) a=» 1990MHz<br>X<br>0<br>10<br>330 30<br>0<br>AS— rw<br>-10<br>300 60<br>-20<br>-30<br>270 -40 90 Y<br>240 120<br>\ <<?)IN we /<br>2170MHz<br>210 150<br>180 (dBi) 2500MHz<br>**----- End of picture text -----**<br>


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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>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>r?)<br>5150MHz<br>210 150 5550MHz<br>180 (dBi) 5925MHz<br>**----- End of picture text -----**<br>


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## **XZ Plane** 

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**----- Start of picture text -----**<br>
Z<br>0<br>10<br>330 30<br>Ka 0 | N<br>/ ZASs -10 — > /SS \S\<br>300 60<br>aa] -20 —— » \S \<br>-30<br>270 {{1 -40 {fi}})} 90 X<br>\\< T_T SL /<br>240 \ NL \Z / 120<br>.\ [1] y a=» 617MHz<br>\ ——— So 704MHz<br>210 150<br>751MHz<br>180 (dBi) a=» 824MHz<br>Z<br>0<br>10<br>330 30<br>va nn 0 N\<br>J 4 -10 NN\<br>300 f J \ \ 60<br>-20<br>-30<br>270 -40 90 X<br>\\\——//<br>240 X\ 7 SL 4 120<br>\ NSA NS / a=» 960MHz<br>1710MHz<br>210 150<br>1850MHz<br>180 (dBi) a=» 1990MHz<br>Z<br>0<br>10<br>330 30<br>wa 0 Sy —_lh NN<br>/LN SX -10 _ »~ \<br>300 yi /xX “AY TS <x\ \\\ 60<br>-20<br>-30<br>270 -40 90 X<br>Le \ 4 / /<br>240 \ \ ~. Xx / 4 120<br>\ ~ = (a /<br>2170MHz<br>210 NO pA 150<br>180 (dBi) a=» 2500MHz<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>270 -40 90 X<br>i ee teea<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>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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**----- Start of picture text -----**<br>
Z<br>0<br>10<br>330 — ~ 30<br>LN 0 | IN<br>300 Z/Lo/Lo -10 7\ y_ /™aNX \ \\ 60<br>-20<br>-30<br>270 -40 90 Y<br>240 \wa XxX y, 120<br>617MHz<br>N\ ~—S - Lo au=> 704MHz<br>210 150<br>751MHz<br>180 (dBi) a=» 824MHz<br>Z<br>0<br>10<br>330 30<br>va ey 0 Poo N\<br>-10<br>300 60<br>-20<br>-30<br>270 -40 90 Y<br>\ \ HW » y /<br>240 120<br>960MHz<br>1710MHz<br>210 150<br>1850MHz<br>180 (dBi) a=» 1990MHz<br>Z<br>0<br>10<br>— ~<br>330 30<br>LN 0 | IN<br>/Lo 7\ —_ \<br>Lo -10 a \<br>300 60<br>-20<br>-30<br>270 -40 90 Y<br>240 \ \ _X 7 120<br>2170MHz<br>210 150<br>180 (dBi) 2500MHz<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>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>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 WI-FI MIMO1_On 30x30cm GND** 

## **XY Plane** 

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X<br>0<br>10<br>330 30<br>0<br>f xX<br>-10<br>300 60<br>-20<br>-30<br>270 -40 90 Y<br>\ \ \ LU /<br>240 120<br>NY yO VA aGa=D> 2400MHz<br>210 150<br>2450MHz<br>180 (dBi) a=» 2500MHz<br>X<br>0<br>10<br>330 - ~ 30<br>LN 0 | IN<br>LN SX -10 _ \<br>300 LF pa I~ \ 60<br>-20<br>-30<br>270 \\\ -40 ~I||| 90 Y<br>\\ \\ *\ p11 A L" y / /<br>240 \ \ NX ™ \e*va y, ieWA 120<br>4900MHz<br>IN = _ — Me<br>5150MHz<br>210 150<br>5550MHz<br>180 (dBi) al=D 5850MHz<br>**----- End of picture text -----**<br>


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## **XZ Plane** 

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Z<br>0<br>10<br>330 \ y 30<br>4 0 \ NN<br>/J LO -10 ~~ \<br>300 K x > \ 60<br>/~%/ 4 ANmM \\ \\<br>-20<br>| f / -30 vA +4 \ \ \<br>270 -40 90 X<br>\eK\ \ < ~L_| | 2) /SL / /<br>240 K\\\ Se~ea -> ae»x4Dsa,JVA 120<br>\ ~ - Lo rd 2400MHz<br>210 NY \Y 150<br>2450MHz<br>180 (dBi) a=» 2500MHz<br>Z<br>0<br>10<br>330 30<br>0<br>/ y -10 = > \<br>300 60<br>/ -20 a \ \<br>-30<br>270 -40 90 X<br>\ \ \ NL \%“ / /<br>240 x \c — SL / 120<br>\4 NL \~ \/ a= 4900MHz<br>5150MHz<br>210 150<br>5550MHz<br>180 (dBi) a=» 5850MHz<br>**----- End of picture text -----**<br>


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## **YZ Plane** 

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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 Y<br>240 120<br>NY s oa“ a=» 2400MHz<br>210 150<br>2450MHz<br>180 (dBi) aGa=D> 2500MHz<br>Z<br>0<br>10<br>330 30<br>0<br>-10<br>300 60<br>/ Ya x -20 7 (7 a > \ \<br>-30<br>270 -40 90 Y<br>240 120<br>4900MHz<br>NZ TO YY 5150MHz<br>210 150<br>5550MHz<br>180 (dBi) aGm==D> 5850MHz<br>**----- End of picture text -----**<br>


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## **4.2.4 WI-FI MIMO2_On 30x30cm GND** 

## **XY Plane** 

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**----- Start of picture text -----**<br>
X<br>0<br>10<br>330 30<br>0<br>/va 2 -10 a ——_ - w N\\<br>300 60<br>// L/ -20 \ t+! NY\ \ \\<br>-30<br>270 -40 90 Y<br>240 120<br>\ \ — 4 ‘A /<br>I~. we J<br>210 a YY 150 2400MHz<br>2450MHz<br>180 (dBi) a=» 2500MHz<br>X<br>0<br>10<br>330 30<br>a. 0 pe aaa ~w<br>/ LO -10 Aa ~ \<br>300 / /K y// / -20 | AK. \Sx\ \\\ 60 \<br>-30<br>270 -40 90 Y<br>\ \ \ SAL| A vi ] |<br>\ane,\ \, \ ~ eS ie /<br>240 XK \ NO 4 Vj y 120<br>\ \/ 4 \/ a=» 4900MHz<br>\ ae _ _\ [_—] 2<br>5150MHz<br>210 150<br>5550MHz<br>180 (dBi) a=» 5850MHz<br>**----- End of picture text -----**<br>


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## **XZ Plane** 

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**----- Start of picture text -----**<br>
Z<br>0<br>10<br>330 yy 30<br>a. 0 : ~~<br>Z > ~~ .<br>300 //y SL yx -10 6:tl —> \\ 60<br>|; ~<% -20 y NN was<br>-30<br>270 -40 90 X<br>240 Xx - / / 120<br>VN IN /<br>\ en ee a Ga=D> 2400MHz<br>210 150<br>2450MHz<br>180 (dBi) aGl=D 2500MHz<br>Z<br>0<br>10<br>330 30<br>y, 0<br>-10<br>300 / / 4 ‘N \ 60<br>-20<br>-30<br>270 -40 90 X<br>| | ‘ XL] |\S* [+ |<br>240 KON x ’ 120<br>\a ON < \— J/ a= 4900MHz<br>NX i 4 2<br>NZ 7 : [YO] au=D 5150MHz<br>210 150<br>al=D 5550MHz<br>180 (dBi) aGm==D> 5850MHz<br>**----- End of picture text -----**<br>


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## **YZ Plane** 

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Z<br>0<br>10<br>330 30<br>0<br>-10<br>300 LJ /LO _ aeTr < >A \\ 60<br>-20<br>-30<br>270 -40 90 Y<br>240 120<br>2400MHz<br>210 150<br>2450MHz<br>180 (dBi) a=» 2500MHz<br>Z<br>0<br>10<br>330 30<br>va 1 0 ja N\<br>-10<br>300 / AX ~ \ 60<br>-20<br>-30<br>270 -40 90 Y<br>240 120<br>\Y oN / a=» 4900MHz<br>5150MHz<br>210 150<br>5550MHz<br>180 (dBi) a=» 5850MHz<br>**----- End of picture text -----**<br>


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## **4.2.5 GNSS** 

## **XY Plane** 

**XZ Plane** 

## **YZ 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>\ N XLIT\SX<br>240 4 / 120<br>1561MHz<br>210 150<br>1575.42MHz<br>180 (dBi) 1602MHz<br>Y<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<br>1575.42MHz<br>180 (dBi) 1602MHz<br>**----- End of picture text -----**<br>


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## **3D Radiation Patterns** 

## **4.2.6 LTE MIMO1_ On 30x30cm GND** 

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## **4.2.7 LTE MIMO2_ On 30x30cm GND** 

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## **4.2.8 WI-FI MIMO1_ On 30x30cm GND** 

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## **4.2.9 WI-FI MIMO2_ On 30x30cm GND** 

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## **4.1.1 GNSS** 

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

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## **6. Packaging** 

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## **7. Application Note** 

The MA350 antenna performance with different cable lengths is shown below. 

## **7.1. Return Loss** 

**Return Loss – LTE MIMO1 Antenna (On 30*30cm GND)** 

## **Return Loss – LTE MIMO2 Antenna (On 30*30cm GND)** 

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**Return Loss – WI-FI MIMO1 Antenna (On 30*30cm GND)** 

**Return Loss – WI-FI MIMO2 Antenna (On 30*30cm GND)** 

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## **7.2. Efficiency** 

**Efficiency – LTE MIMO1 Antenna (On 30*30cm GND)** 

## **Efficiency – LTE MIMO2 Antenna (On 30*30cm GND)** 

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**Efficiency – WI-FI MIMO1 Antenna (On 30*30cm GND)** 

**Efficiency – WI-FI MIMO2 Antenna (On 30*30cm GND)** 

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## **7.3. Average Gain** 

**Average Gain – LTE MIMO1 Antenna (On 30*30cm GND)** 

## **Average Gain – LTE MIMO2 Antenna (On 30*30cm GND)** 

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**Average Gain – WI-FI MIMO1 Antenna (On 30*30cm GND)** 

**Average Gain – WI-FI MIMO2 Antenna (On 30*30cm GND)** 

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## **7.4. Peak Gain** 

**Peak Gain – LTE MIMO1 Antenna (On 30*30cm GND)** 

**Peak Gain – LTE MIMO2 Antenna (On 30*30cm GND)** 

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## **Peak Gain – WI-FI MIMO1 Antenna (On 30*30cm GND)** 

## **Peak Gain – WI-FI MIMO2 Antenna (On 30*30cm GND)** 

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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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## Links

- [View this product on Novapart](https://novapart.co/products/MA350.A.LBICG.003/antennas-magnet-mount-combo-antenna)
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- [Supplier page](https://es.farnell.com/taoglas-partner-stock/ma350-a-lbicg-003/antennas-magnet-mount-combo-antenna/dp/4619363)
---

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