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GNSS L1/L2 Multi-Band Magnetic Mount Antenna - 5m (SMA)

The ANN-MB-00 GNSS multiband antenna is extremely unique from other GNSS/GPS antennas in that it is designed to receive both the classic L1 and L2 GPS bands. Additionally, the ANN-MB-00 from u-blox is extremely well built with both a magnetic base with mounting holes for additional anchoring for the harshest environments.

Designed for the latest u-blox F9 platform--including the ZED-F9P module--it provides a fast, easy, and reliable multi-band antenna solution but can be used with any GPS/GNSS receiver that can benefit from the L1/L2 dual reception.

This antenna supports GPS, GLONASS, Galileo, and BeiDou and includes a high-performance multi-band RHCP dual-feed patch antenna element, a built-in high-gain LNA with SAW pre-filtering, and a 5m SMA cable.

Please Note: This antenna is not compatible with the Europe PointPerfect L-Band correction service.
  • Frequency:
    • L1 Band: 1559-1606MHz
    • L2/L5 Band: 1197-1249MHz
  • Peak gain (over 15cm diameter ground plane):
    • L1 Band: 3.5dBic
    • L2/L5 Band: 0-2.0dBic
  • VSWR: max. 2
  • Bandwidth: min. 200MHz
  • Impedance: 50 Ohm
  • Polarization RHCP
  • Supports GPS, GLONASS, Galileo, and BeiDou
  • 5m coaxial cable with SMA connector
  • Magnetic base, fixed installation option (screw mount, 2 x M4 screws)
  • Dimensions: 60.0mm x 82.0mm x 22.5mm
  • Weight: 175g (including cable)

GNSS L1/L2 Multi-Band Magnetic Mount Antenna - 5m (SMA) Product Help and Resources

GPS-RTK2 Hookup Guide

January 14, 2019

Get precision down to the diameter of a dime with the new ZED-F9P from u-blox.

SparkFun GPS-RTK Dead Reckoning ZED-F9R Hookup Guide

July 9, 2020

The u-blox ZED-F9R is a powerful GPS-RTK unit that uses a fusion of IMU, wheel ticks, a vehicle dynamics model, correction data, and GNSS measurements to provide highly accurate and continuous position for navigation in the difficult conditions. We will quickly get you set up using the Qwiic ecosystem through Arduino and Python so that you can start reading the output!

Setting up a Rover Base RTK System

October 14, 2020

Getting GNSS RTCM correction data from a base to a rover is easy with a serial telemetry radio! We'll show you how to get your high precision RTK GNSS system setup and running.

How to Build a DIY GNSS Reference Station

October 15, 2020

Learn how to affix a GNSS antenna, use PPP to get its ECEF coordinates and then broadcast your own RTCM data over the internet and cellular using NTRIP to increase rover reception to 10km!

Core Skill: Electrical Prototyping

If it requires power, you need to know how much, what all the pins do, and how to hook it up. You may need to reference datasheets, schematics, and know the ins and outs of electronics.

2 Electrical Prototyping

Skill Level: Rookie - You may be required to know a bit more about the component, such as orientation, or how to hook it up, in addition to power requirements. You will need to understand polarized components.
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Comments

Looking for answers to technical questions?

We welcome your comments and suggestions below. However, if you are looking for solutions to technical questions please see our Technical Assistance page.

  • The u-blox data sheet for the MB is here: https://www.u-blox.com/en/ubx-viewer/view/ANN-MB1_ProductSummary_UBX-21000238

    It says the frequency range is L1 and L2 (1197 - 1249 MH_, and does not include L5 ( 1176.45).

    Your description says L1/L2/L5 and frequency range is 1197-1249MHz. But L5 is below that. Who is correct?

  • Member #1627544 / about 4 years ago / 1

    Is there a variant of this that has a shorter cable length ?

  • Member #1598287 / about 5 years ago / 1

    Is it OK to shorten the SMA cable by cutting and then soldering new connector?

Customer Reviews

4 out of 5

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1 of 3 found this helpful:

Really good product

Arrived very fast, plug n play. Found the device under linux and recieved input quickly