FXUB70.A.07.C.001

PCB Antenna, 698MHz to 3GHz, 2.3 VSWR, 4.5dBi Gain, 50ohm, Linear Polarisation, Adhesive

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Manufacturer: TAOGLAS
Product type:
Antenna Type:PCB; Frequency Min:698MHz; Frequency Max:3GHz; Antenna Mounting:Adhesive; Gain:4.5dBi; VSWR:2.3; Input Power:5W; Input Impedance:50ohm; Antenna Polarisation:Linear; Product
Gain: 4.5dBi
SVHC: To Be Advised
VSWR: 2.3
Input Power: 5W
Antenna Type: PCB
Frequency Max: 3GHz
Frequency Min: 698MHz
Product Range: -
Input Impedance: 50ohm
Antenna Mounting: Adhesive
Antenna Polarisation: Linear

Delivery and price
Units per pack	250
Price	7.18 €
Current stock	10+
Lead time	30 days

Datasheet

## **SPECIFICATION** 

## **PATENT PENDING** 

Part No : **FXUB70.A.07.C.001** Product Name : 4G LTE Wide Band Flex MIMO Antenna 698-3000MHz Features : Patent Pending Covers 4G LTE, 3G HSPA, 2G GSM/GPRS/CDMA Ground Plane Independent 698-3000MHz 5 dBi Peak Gain 182*21*0.2 mm size 150mm Ø1.37mm Cable IPEX MHFI (U.FL Compatible) RoHS Compliant 

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## **1. Introduction** 

The patent pending FXUB70 LTE Wide-band flexible wideband antenna has been designed to cover all working frequencies in the 698-3000 MHz spectrum, covering all Cellular, 2.4GHz Wi-Fi, ISM and AGPS. The antenna is delivered with a flexible body with excellent efficiencies on all bands, ground independent, with cable and connector for easy installation. 

The FXUB70 flexible polymer antenna, at 182*21*0.2mm, is ultra-thin and truly wideband with high efficiencies across the bands. It is assembled by a simple “peel and stick” process, attaching securely to non-metal surfaces via 3M 467 automotive approved adhesive. It enables designers to use only one antenna that covers all common frequencies for LTE and 4G globally. 

The FXUB70 antenna is a durable flexible polymer antenna that has a peak gain of 5dBi, an efficiency of more than 45% across the bands and is designed to be mounted directly onto plastic. It is an ideal choice for any device maker that needs to keep manufacturing costs down over the lifetime of a product. It is ground plane independent and delivered with a cable and connector for easy connecting to the wireless module or customer PCB. Like all such antennas, care should be taken to mount the antenna at least 10mm from metal components or surfaces, and ideally 20mm for best radiation efficiency. 

Cables and Connectors are customizable. If cable routing is not convenient on this antenna, the alternative FXUB71 is recommended. 

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## **2. Specification** 

||ELECTRICAL|ELECTRICAL|ELECTRICAL|ELECTRICAL|ELECTRICAL|ELECTRICAL|ELECTRICAL|ELECTRICAL|
|---|---|---|---|---|---|---|---|---|
|Band|700/800/<br>850/900|1575|1700/<br>1800/1900|2100|2300|2400|2600|3500|
|Standard|CELL|GPS|CELL|CELL|CELL|ISM|CELL|CELL|
|Frequency (MHz)|698-960|1575.42|1710<br>-1990|<br>1755<br>-2170|<br>2305<br>-2360|<br>2400<br>-2500|<br>2500<br>-2690|<br>3400<br>-3600|
|Max VSWR|2:1|2:1|1.8:1|1.7:1||1.7:1|2.3:1||
|Max Return Loss<br>(dB)|-10|-10|-11|-12||-12|-8||
|Peak Gain(dBi)|1|2.5|3.5|5||5|4.5||
|Efficiency (%)|50|75|78|65||75|75||
|Average Gain(dB)|-3|-2|-2|-2.5||-2|-2||
|Radiation Properties|Omnidirectional||||||||
|Max Input Power<br>(Watts)|5||||||||
|Polarization|Linear||||||||
|Impedance(Ohms)|50 Ohms||||||||



*Antenna measured on plastic plate of 3 mm thickness. 

||MECHANICAL|
|---|---|
|Dimensions (mm)|182*21*0.2 mm|
|Material|Flexible Polymer|
|Connector and Cable|U.FL and 1.37 mm mini coax with 150 mm|
|Cable length|150 mm|



|ENVIRONMENTAL|ENVIRONMENTAL|
|---|---|
|Operation Temperature|-40°C to +85°C|
|Storage Temperature|-40°C to +85°C|
|Relative Humidity|40% to 95%|
|RoHs Compliant|Yes|



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||LTE BANDS|LTE BANDS|LTE BANDS|LTE BANDS|
|---|---|---|---|---|
|Band Number|LTE/LTE-Advanced/WCDMA/HSPA/HSPA+/TD-SCDMA||||
||**Uplink**|**Downlink**|**MIMO 1**|**MIMO 2**|
|**1**|UL: 1920 to 1980|DL: 2110 to 2170|||
|**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% 

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## **3. Antenna Parameters** 

## **3.1. Return Loss** 

**Figure 1.** Return loss of FXUB70 Port 1. 

**Figure 2.** Return loss of FXUB70 Port 2. 

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## **3.2. VSWR** 

**Figure 3.** VSWR of FXUB70 Port 1. 

**Figure 4.** VSWR of FXUB70 Port 1. 

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## **3.3. Isolation** 

**Figure 5.** Isolation of FXUB70 in between Port 1 and Port 2. 

## **3.4. Envelope Correlation Coefficient** 

**Figure 6.** ECC of FXUB70 in between Port 1 and Port 2. 

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## **3.5. Peak Gain** 

**Figure 7.** Peak Gain of FXUB70 Port 1. 

**Figure 8.** Peak Gain of FXUB70 Port 2. 

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## **3.6. Efficiency** 

**Figure 9.** Efficiency of FXUB70 Port 1. 

**Figure 10.** Efficiency of FXUB70 Port 2. 

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## **3.7. Average Gain** 

**Figure 11.** Average Gain of FXUB70 Port 1. 

**Figure 12.** Average Gain of FXUB70 Port 2. 

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## **3.8. Radiation Pattern** 

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**Figure 13.** Radiation Pattern Reference of FXUB70. 

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**Figure 14.** Radiation Pattern at 750 MHz of FXUB70 Port 1. 

**Figure 16.** Radiation Pattern at 850 MHz of FXUB70 Port 1. 

**Figure 18.** Radiation Pattern at 925 MHz of FXUB70 Port 1. 

**Figure 15.** Radiation Pattern at 750 MHz of FXUB70 Port 2. 

**Figure 17.** Radiation Pattern at 850 MHz of FXUB70 Port 2. 

**Figure 19.** Radiation Pattern at 925 MHz of FXUB70 Port 2. 

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**Figure 20.** Radiation Pattern at 1575 MHz of FXUB70 Port1 

**Figure 22.** Radiation Pattern at 1750 MHz of FXUB70 Port 1. 

**Figure 24.** Radiation Pattern at 1850 MHz of FXUB70 Port 1. 

**Figure 21.** Radiation Pattern at 1575 MHz of FXUB70 Port 2. 

**Figure 23.** Radiation Pattern at 1750 MHz of FXUB70 Port 2. 

**Figure 25.** Radiation Pattern at 1850 MHz of FXUB70 Port 2. 

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**Figure 26.** Radiation Pattern at 1950 MHz of FXUB70 Port 1. 

**Figure 28.** Radiation Pattern at 2100 MHz of FXUB70 Port 1. 

**Figure 30.** Radiation Pattern at 2450 MHz of FXUB70 Port 1. 

**Figure 27.** Radiation Pattern at 1950 MHz of 

FXUB70 Port 2. 

**Figure 29.** Radiation Pattern at 2100 MHz of FXUB70 Port 2. 

**Figure 31.** Radiation Pattern at 2450 MHz of FXUB70 Port 2. 

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**Figure 32.** Radiation Pattern at 2600 MHz of FXUB70 Port 1. 

**Figure 33.** Radiation Pattern at 2600 MHz of 

FXUB70 Port 2. 

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## **4. Mechanical Drawings** 

**Figure 34.** Mechanical drawing of FXUB70 UWB Antenna. 

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## **4. Packaging** 

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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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Updated at June 9, 2026

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