📢 Special June promo: $5.99 worldwide delivery until June 30th! No code or minimum order required. Shop now! 🛒





Automotive GNSS dead reckoning module with 6-axis IMU

Quantity $ per Unit Savings
1 - 9$20.970%
10 - 24$19.368%
25 - 49$17.7615%
50 - 500$17.7016%
Contact Sales
Out of stock
Parameter NameParameter Value
Supply Voltage Min Volt3.0
Supply Voltage Max Volt3.6
Operating Temp Min Celsius-40.0
Operating Temp Max Celsius85.0
Package Size9.7x10.1
Packing TypeTape And Reel
RoHs compliantEcopack2

Teseo-VIC3DA module is an easy to use dead-reckoning Global Navigation Satellite System (GNSS) standalone module, embedding TeseoIII single die standalone positioning receiver IC working simultaneously on multiple constellations (GPS/Galileo/Glonass/BeiDou/QZSS).The Teseo-VIC3DA module brings the proven accuracy and robustness of TeseoIII chip to the reach of everyone: the embedded firmware and the complete evaluation environment save development time.Within its 16.0 mm x 12.2 mm size, Teseo-VIC3DA is offering superior accuracy thanks to the on board Temperature Compensated Crystal Oscillator (TCXO) and a reduced Time To First Fix (TTFF) relying to its dedicated Real Time Clock (RTC) oscillator. Thanks to the embedded flash Teseo-VIC3DA offers many extra features such, 7 days Autonomous Assisted GNSS, Predictive Assisted GNSS and Real-Time Assisted GNSS.Teseo-VIC3DA supports FW configurability as well as FW upgrades. Teseo-VIC3DA module, being a certified solution, optimizes the time to market of the final applications with a temperature operating range from -40 °C to +85 °C.

Key features
  • AEC-Q100 qualification on going
  • Simultaneous multiconstellation
  • Teseo dead-reckoning Automotive way firmware
  • -163 dBm sensitivity tracking
  • 1.5 m CEP accuracy positioning
  • Embedded Flash for FW upgrade
  • Automotive GNSS and 6-axis inertial sensor
  • 3.3 V supply voltage
  • LCC 24 pins package (16.0 mm x 12.2 mm x 2.42 mm)
  • Operating temperature (from -40 °C to +85 °C)
  • Free FW configuration
  • 17 μA standby current