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FXUB53.07.0150C
RF Antenna, 600MHz to 6GHz, 4G/5G/Cellular/NB-IoT/Cat-M/WiFi/ISM, 6.02dBi, 50 ohm, 2W, Linear
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- Manufacturer: TAOGLAS
- Product type:
- Gain: 6.02dBi
- SVHC: No SVHC (27-Jun-2024)
- VSWR: -
- Input Power: 2W
- Antenna Type: 4G / 5G / Cellular / NB-IoT / Cat-M / WiFi / ISM
- Frequency Max: 5.925GHz
- Frequency Min: 5.15GHz
- Product Range: -
- Input Impedance: 50ohm
- Antenna Mounting: Adhesive / UFL / MHF1 / I-Pex Connector
- Antenna Polarisation: Linear
| Delivery and price | |
|---|---|
| Units per pack | 500 |
| Price | 3.17 € |
| Current stock | 50+ |
| Lead time | 30 days |
Datasheet
## AS ~ a“ > TAOGLAS. + 5 Qd on Y) (© +) (O C) **Part No: FXUB53.07.150C** **Description** Super Small, Wide Band Flex Antenna 600MHz – 6GHz **Features:** Flexible Wideband Antenna Covers worldwide 5G/4G Bands Connector: I-PEX MHFI (U.FL Compatible) Cable: 150mm 1.37 Coaxial Dimensions: 120 x 20 x 0.24mm RoHS & Reach Compliant SPE-24-8-126-A www.taoglas.com **==> picture [358 x 218] intentionally omitted <==** **----- Start of picture text -----**<br> 1. Introduction 3<br>2. Specification 4<br>3. Mechanical Drawing 6<br>4. Packaging 7<br>5. Antenna Characteristics 8<br>6. Radiation Patterns 12<br>7. Application Note 52<br>Changelog 60<br>**----- End of picture text -----**<br> 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. 2 www.taoglas.com SPE-24-8-126-A ## Super Small, High-performance Wideband Cellular Antenna The Taoglas FXUB53 flexible wideband antenna has been designed to cover all working frequencies in the 600-6000 MHz spectrum. It is engineered to cover all 5G/4G cellular bands (with fallback to 3G/2G), NB-IoT, Cat-M, Wi-Fi, and ISM bands. With its super small footprint of 120x20mm, it alleviates size constraint issues commonly seen when integrating a high-performance antenna into compact IoT devices. It has been designed to be mounted directly onto a plastic enclosures or glass. When used in-device, the radiated power and sensitivity improves substantially, and enables the highest throughput rate, essential for today's broadband devices. The antenna is delivered on a flexible PCB with exceptional efficiencies on all bands for antenna of this size. It is ground-plane independent, with a cable and connector for easy installation. It is made of durable flexible polymer, with efficiencies of up to 70% across all cellular bands. At 120 x 20 x 0.2mm, the antenna has a small footprint and is ultra-thin. It is installed in devices by a simple “peel and stick” process, attaching securely to non-metal surfaces via 3M adhesive. It enables designers to use only one antenna that covers all frequencies and future proofs device design for 5G and 4G globally. It is also the ideal antenna to fit in devices that are being retrofitted with wireless functionality, as it will cover non cellular applications such as 868, 915MHz or Zigbee applications. The wide bandwidth is more resistant to detuning than traditional small but narrow-band legacy antennas. ## Typical Applications Include: - IoT and Connected Devices - UAVs and Autonomous Vehicles - Industrial Robotics and Automation The antenna has a unique hybrid design. Within one antenna structure the electromagnetic waves travel in two predominant propagation modes - one for lower frequencies, e.g. 600 MHz, and the other for higher 5G/4G and Wi-Fi frequencies up to 6GHz. It is an ideal choice for any device maker that needs to keep manufacturing costs down over the lifetime of a product, as the same antenna can be used if the radio module is upgraded to include additional frequency bands. Cables and Connectors are fully customizable, subject to MOQ, for further information please contact your regional Taoglas Customer support team. 3 www.taoglas.com SPE-24-8-126-A |**LTE Electrical**|**LTE Electrical**|**LTE Electrical**|**LTE Electrical**|**LTE Electrical**|**LTE Electrical**|**LTE Electrical**|**LTE Electrical**|**LTE Electrical**|**LTE Electrical**| |---|---|---|---|---|---|---|---|---|---| |**Band**|Frequency<br>(MHz)|Measurement|Measurement<br>Efficiency (%)|Average Gain<br>(dB)|Peak Gain<br>(dBi)|Impedance|Polarization|Radiation<br>Pattern|Max. input<br>power| |**5GNR/4G**<br>Band71|617-698|Cable Feed<br>Left|24.7|-6.08|-0.73|50 Ω|Linear|Omni|2W| |||Cable Feed<br>Right|39.2|-4.06|1.28||||| |||Cable Feed<br>Straight|32.3|-4.91|-0.17||||| |**4G/3G**<br>Band<br>12,13,14,17,28,29|698-824|Cable Feed<br>Left|61.5|-2.11|2.81||||| |||Cable Feed<br>Right|66.4|-1.78|2.29||||| |||Cable Feed<br>Straight|65.2|-1.86|1.93||||| |**4G/3G/NB-IoT/Cat M**<br>Band<br>5,8,18,19,20,26,27|824-960|Cable Feed<br>Left|60.7|-2.17|2.54||||| |||Cable Feed<br>Right|57.3|-2.42|1.80||||| |||Cable Feed<br>Straight|60.7|-2.17|1.82||||| |**5GNR/4G**<br>Band 21,32,74,75,76|1427-1518|Cable Feed<br>Left|72.5|-1.40|2.73||||| |||Cable Feed<br>Right|65.3|-1.85|2.75||||| |||Cable Feed<br>Straight|70.1|-1.54|3.24||||| |**4G/3G**<br>Band<br>1,2,3,4,9,23,25,35,39,<br>66|1710-2200|Cable Feed<br>Left|68.1|-1.67|4.23||||| |||Cable Feed<br>Right|69.9|-1.56|3.47||||| |||Cable Feed<br>Straight|70.2|-1.54|3.88||||| |**4G/3G**<br>Band 7,30,38,40,41|2300-2690|Cable Feed<br>Left|64.8|-1.89|4.89||||| |||Cable Feed<br>Right|62.9|-2.01|3.86||||| |||Cable Feed<br>Straight|64.1|-1.93|3.77||||| |**5GNR/4G**<br>Band<br>22,42,48,77,78,79|3300-5000|Cable Feed<br>Left|65.6|-1.83|7.18||||| |||Cable Feed<br>Right|65.4|-1.85|6.34||||| |||Cable Feed<br>Straight|67.0|-1.74|6.69||||| |**LTE5200/Wi-Fi5800**|5150-5925|Cable Feed<br>Left|55.6|-2.55|6.12||||| |||Cable Feed<br>Right|56.4|-2.49|5.80||||| |||Cable Feed<br>Straight|58.0|-2.37|6.02||||| 4 www.taoglas.com SPE-24-8-126-A ||**Mechanical**| |---|---| ||| |**Dimensions**|120 x 20 x 0.24mm| ||| ||| |**Weight**|1.7g| ||| ||| |**Material**|Flexible Polymer| ||| ||| |**Connector**|I-PEX MHFI (U.FL Compatible)| ||| ||| |**Cable**|150mm of 1.37 Co-axial| ||| ||**Environmental**| |---|---| ||| |**Temperature Range**|-40°C to 85°C| ||| ||| |**Relative Humidity**|40% to 95%| ||| ||| |**RoHs & REACH Compliant**|Yes| ||| 5 www.taoglas.com SPE-24-8-126-A 6 www.taoglas.com SPE-24-8-126-A 7 www.taoglas.com SPE-24-8-126-A ## Test Setup **==> picture [422 x 13] intentionally omitted <==** **----- Start of picture text -----**<br> Cable Feed Left Cable Feed Straight Cable Feed Right<br>**----- End of picture text -----**<br> 8 www.taoglas.com SPE-24-8-126-A ## Return Loss ## VSWR 9 www.taoglas.com SPE-24-8-126-A ## Efficiency ## Average Gain 10 www.taoglas.com SPE-24-8-126-A ## Peak Gain 11 www.taoglas.com SPE-24-8-126-A ## Test Setup **==> picture [72 x 8] intentionally omitted <==** **----- Start of picture text -----**<br> Cable Feed Left<br>**----- End of picture text -----**<br> **==> picture [89 x 10] intentionally omitted <==** **----- Start of picture text -----**<br> Cable Feed Straight<br>**----- End of picture text -----**<br> Cable Feed Right 12 www.taoglas.com SPE-24-8-126-A ## Cable Feed Left Patterns at 650 MHz ## XZ Plane ## YZ Plane ## XY Plane 13 www.taoglas.com SPE-24-8-126-A ## Cable Feed Right Patterns at 650 MHz ## XZ Plane ## YZ Plane ## XY Plane 14 www.taoglas.com SPE-24-8-126-A ## Cable Feed Straight Patterns at 650 MHz ## XZ Plane ## YZ Plane ## XY Plane 15 www.taoglas.com SPE-24-8-126-A ## Cable Feed Left Patterns at 750 MHz ## XZ Plane ## YZ Plane ## XY Plane 16 www.taoglas.com SPE-24-8-126-A ## Cable Feed Right Patterns at 750 MHz ## XZ Plane ## YZ Plane ## XY Plane 17 www.taoglas.com SPE-24-8-126-A ## Cable Feed Straight Patterns at 750 MHz ## XZ Plane ## YZ Plane ## XY Plane 18 www.taoglas.com SPE-24-8-126-A ## Cable Feed Left Patterns at 890 MHz ## XZ Plane ## YZ Plane ## XY Plane 19 www.taoglas.com SPE-24-8-126-A ## Cable Feed Right Patterns at 890 MHz ## XZ Plane ## YZ Plane ## XY Plane 20 www.taoglas.com SPE-24-8-126-A ## Cable Feed Straight Patterns at 890 MHz ## XZ Plane ## YZ Plane ## XY Plane 21 www.taoglas.com SPE-24-8-126-A ## Cable Feed Left Patterns at 1470 MHz ## XZ Plane ## YZ Plane ## XY Plane 22 www.taoglas.com SPE-24-8-126-A ## Cable Feed Right Patterns at 1470 MHz ## XZ Plane ## YZ Plane ## XY Plane 23 www.taoglas.com SPE-24-8-126-A ## Cable Feed Straight Patterns at 1470 MHz ## XZ Plane ## YZ Plane ## XY Plane 24 www.taoglas.com SPE-24-8-126-A ## Cable Feed Left Patterns at 1805 MHz ## XZ Plane ## YZ Plane ## XY Plane 25 www.taoglas.com SPE-24-8-126-A ## Cable Feed Right Patterns at 1805 MHz ## XZ Plane ## YZ Plane ## XY Plane 26 www.taoglas.com SPE-24-8-126-A ## Cable Feed Straight Patterns at 1805 MHz ## XZ Plane ## YZ Plane ## XY Plane 27 www.taoglas.com SPE-24-8-126-A ## Cable Feed Left Patterns at 1920 MHz ## XZ Plane ## YZ Plane ## XY Plane 28 www.taoglas.com SPE-24-8-126-A ## Cable Feed Right Patterns at 1920 MHz ## XZ Plane ## YZ Plane ## XY Plane 29 www.taoglas.com SPE-24-8-126-A ## Cable Feed Straight Patterns at 1920 MHz ## XZ Plane ## YZ Plane ## XY Plane 30 www.taoglas.com SPE-24-8-126-A ## Cable Feed Left Patterns at 1990 MHz ## XZ Plane ## YZ Plane ## XY Plane 31 www.taoglas.com SPE-24-8-126-A ## Cable Feed Right Patterns at 1990 MHz ## XZ Plane ## YZ Plane ## XY Plane 32 www.taoglas.com SPE-24-8-126-A ## Cable Feed Straight Patterns at 1990 MHz ## XZ Plane ## YZ Plane ## XY Plane 33 www.taoglas.com SPE-24-8-126-A ## Cable Feed Left Patterns at 2360 MHz ## XZ Plane ## YZ Plane ## XY Plane 34 www.taoglas.com SPE-24-8-126-A ## Cable Feed Right Patterns at 2360 MHz ## XZ Plane ## YZ Plane ## XY Plane 35 www.taoglas.com SPE-24-8-126-A ## Cable Feed Straight Patterns at 2360 MHz ## XZ Plane ## YZ Plane ## XY Plane 36 www.taoglas.com SPE-24-8-126-A ## Cable Feed Left Patterns at 2595 MHz ## XZ Plane ## YZ Plane ## XY Plane 37 www.taoglas.com SPE-24-8-126-A ## Cable Feed Right Patterns at 2595 MHz ## XZ Plane ## YZ Plane ## XY Plane 38 www.taoglas.com SPE-24-8-126-A ## Cable Feed Straight Patterns at 2595 MHz ## XZ Plane ## YZ Plane ## XY Plane 39 www.taoglas.com SPE-24-8-126-A ## Cable Feed Left Patterns at 3550 MHz ## XZ Plane ## YZ Plane ## XY Plane 40 www.taoglas.com SPE-24-8-126-A ## Cable Feed Right Patterns at 3550 MHz ## XZ Plane ## YZ Plane ## XY Plane 41 www.taoglas.com SPE-24-8-126-A ## Cable Feed Straight Patterns at 3550 MHz ## XZ Plane ## YZ Plane ## XY Plane 42 www.taoglas.com SPE-24-8-126-A ## Cable Feed Left Patterns at 4600 MHz ## XZ Plane ## YZ Plane ## XY Plane 43 www.taoglas.com SPE-24-8-126-A ## Cable Feed Right Patterns at 4600 MHz ## XZ Plane ## YZ Plane ## XY Plane 44 www.taoglas.com SPE-24-8-126-A ## Cable Feed Straight Patterns at 4600 MHz ## XZ Plane ## YZ Plane ## XY Plane 45 www.taoglas.com SPE-24-8-126-A ## Cable Feed Left Patterns at 4800 MHz ## XZ Plane ## YZ Plane ## XY Plane 46 www.taoglas.com SPE-24-8-126-A ## Cable Feed Right Patterns at 4800 MHz ## XZ Plane ## YZ Plane ## XY Plane 47 www.taoglas.com SPE-24-8-126-A ## Cable Feed Straight Patterns at 4800 MHz ## XZ Plane ## YZ Plane ## XY Plane 48 www.taoglas.com SPE-24-8-126-A ## Cable Feed Left Patterns at 5530 MHz ## XZ Plane ## YZ Plane ## XY Plane 49 www.taoglas.com SPE-24-8-126-A ## Cable Feed Right Patterns at 5530 MHz ## XZ Plane ## YZ Plane ## XY Plane 50 www.taoglas.com SPE-24-8-126-A ## Cable Feed Straight Patterns at 5530 MHz ## XZ Plane ## YZ Plane ## XY Plane 51 www.taoglas.com SPE-24-8-126-A This application note shows how changing the cable length affects the antenna performance. ## Return Loss – Feed From Left ## VSWR – Feed From Left 52 www.taoglas.com SPE-24-8-126-A ## Efficiency – Feed From Left ## Average Gain – Feed From Left 53 www.taoglas.com SPE-24-8-126-A ## Peak Gain – Feed From Left Return Loss – Feed From Right 54 www.taoglas.com SPE-24-8-126-A ## VSWR – Feed From Right ## Efficiency – Feed From Right 55 www.taoglas.com SPE-24-8-126-A ## Average Gain – Feed From Right ## Peak Gain – Feed From Right 56 www.taoglas.com SPE-24-8-126-A ## Return Loss – Feed Cable Straight ## VSWR – Feed Cable Straight 57 www.taoglas.com SPE-24-8-126-A ## Efficiency – Feed Cable Straight ## Average Gain – Feed Cable Straight 58 www.taoglas.com SPE-24-8-126-A ## Peak Gain – Feed Cable Straight 59 www.taoglas.com SPE-24-8-126-A Changelog for the datasheet **SPE-24-8-126 – FXUB53.07.0150C** **Revision: A (Original First Release)** Date: 2024-07-11 Notes: Initial Release Author: Gary West ## **Previous Revisions** **==> picture [495 x 483] intentionally omitted <==** 60 www.taoglas.com SPE-24-8-126-A 61 www.taoglas.com SPE-24-8-126-A
Updated at June 9, 2026
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