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SHIPPING AND PICKUP INFORMATION

RelojFROM 8 TO 18 HRS

Despacho
SHIPPING
Pay your order before 12:00 hrs and your order will be shipped on the same day, otherwise will be shipped the next working day.
Shipping arrival date will depend on the city and commune you have selected.
Retiro
IN-STORE PICK-UP
Pay your order and once we confirm your payment, you can pick-up your order on our store from 8 AM to 6 PM. Payments are confirmed in no more than 4 working hours. 
*This method is only available on our Santiago store
Modulo Júpiter SE868-A /GPS
SKU MCI01952
Price
26.990
Availability
Tienda Santiago : Disponible
Viña : Agotado
Quantity

Description:

This module allows you to get the position through satellites that are in our orbit, delivering information by the UART you have.

Jupiter SE868-A is the representative of a new family of multi-constellation GNSS modules with SMT antenna including high performance with a sensitivity of -165 dBm.

The SE868-A is designed to fully support GPS, QZSS and GLONASS, is capable of simultaneously tracking GPS + GLONASS constellations.

Jupiter SE868-A supports the injection ephemeris files (A-GPS) and for Satellite Based Augmentation System (SBAS) to increase position accuracy.

Her software engine that is capable of locally has predicted ephemeris up to three days in advance, from broadcast ephemeris data for GNSS satellites received by the module and stored in the internal flash memory.

Features:

  • Multi-constellation GNSS module with integrated high performing 9 x 9 mm SMT antenna
  • With GPS and GLONASS Compliant standards
  • Requiring not SMT mounting holes on host PCB
  • Ready for Galileo
  • Low current delivers core processing power optimized multi-constellation tracking
  • Ultra-sensitive -165 dBm (tracking) RF front-end
  • Embedded LNA Allows use of passive antennas
  • Supports ephemeris file injection (A-GPS)
  • Satellite Based Augmentation System (SBAS) compliant
  • MediaTek MT3333 based

Documents:

Warranty 3,0 Months
Weight 0,200
height 1
Width 1
Volume 0,0