March 19, 2021
The high-precision addition to the GNSS xE868 family provides multi-frequency and multi-constellation support
The high-precision GNSS SE868SY-D is a new multi-frequency, multi-constellation positioning receiver capable of combining GPS/QZSS and Galileo in the L1/E1 and L5/E5 bands, GLONASS in the L1, BeiDou in the B1 and B2 bands, and IRNSS in the L5 band to provide improved performances for position reporting and navigation solutions. Using both the L1 and L5 bands, the module supplies a significantly higher location accuracy than single-frequency devices — even in high-multipath environments such as urban canyons.
The SE868SY-D can navigate to -161 dBm and track to -165 dBm, providing improved performance in harsh environments. The receiver is encased in an 11 x 11 mm QFN package, includes a powerful baseband processor, embedded flash memory and integrated LNA.
This variant offers a smooth migration path from SE868V3 and JF2 for existing customer applications looking to update their products with higher precision and navigation speeds. SE868SY-D can track up to five constellations simultaneously (GPS, QZSS, GALILEO, IRNSS, and GLONASS or BeiDou), providing high-value benefits from multi-constellation and multi-frequency navigation to the host device.
- Dual-frequency (L1 + L5) GNSS receiver
- 62 physical searching and tracking channels
- Best-in-class power consumption
- Multi-constellation (GPS/QZSS, GLONASS, GALILEO, BEIDOU, NAVIC)
- SBAS support
- NMEA 4.11
- Up to 25 Hz update rate
- Telit proprietary $PTWS command
- Pinout compatible with SE868-V3 and JF2
TelitView: Telit GNSS testing tool
The nPM1100 is a dedicated power management IC (PMIC) with dual-mode configurable buck regulator and integrated battery charger. It is designed as a complementary component to Nordic’s nRF52® Series and nRF53® Series System-on-Chips (SoCs) to ensure reliable power...
Based on nRF5340 Nordic Semiconductor wireless SoC with two Arm® Cortex®-M33 processors and advanced feature set, the ISP2053 module is ideally suited for LE Audio, professional lighting, advanced wearables, industrial, medical, and other complex IoT applications. Low...
TDK InvenSense’s barometric pressure sensors use an innovative capacitive MEMS architecture to deliver lower power consumption and lower noise than competing technologies. The SmartPressure products can measure height change as small as 5 cm, less than the height of a...
Stay Up to Date With The Latest News & Updates
Join Our Newsletter
Join our monthly newsletter for the latest updates in the electronics industry