TECHSHIP IS A GLOBAL SUPPLIER OF WIRELESS COMPONENTS
Compliant with 3GPP Release 14 (Rel. 14), the ME310G1 LTE UE Cat M1/NB2 module enables increased power saving for IoT applications using Power Saving Mode (PSM) and extended Discontinuous Reception (eDRX). These features allow devices to wake up periodically and deliver only small amounts of data necessary before returning to sleep mode. Enhanced coverage, enabled by maximum coupling loss (MCL) of up to +15 dB/+20 dB, provides superior in-building penetration compared to earlier cellular LTE standards. LTE Cat M1/NB2 devices are optimized in cost, size and power consumption compared to higher UE categories. 3GPP Rel. 14 further improves these features by adding techniques to increase the data rate for LTE-M and NB-IoT
• Small size and low power consumption
• Optimized for ease-of-design, high yield and low-cost manufacturing
• Compliant to 3GPP Rel. 14 Cat M1/NB2, tailored for IoT devices
• An ideal solution for medical devices, fitness trackers, industrial sensors, smart meters and other mass-production, mass-deployment applications.
Contact firstname.lastname@example.org for more information, MOQ's may apply.
This version of ME310G1 does not support VoLTE, for version with VoLTE;
11440 - Telit ME310G1-WWV
IP Easy User guide for Telit modules
SSL/TLS user guide for Telit modules.
This archive contains the Windows 11 WHQL certified Telit module drivers for x64 system platforms.
Microsoft Windows 11
This archive contains the Windows 10 WHQL certified Telit module drivers for both x86 and x64 system platforms.
Microsoft Windows 10
How to collect initial diagnostics data and logs for Telit cellular modules needed when requesting Techship technical support?
In order to ease the troubleshooting of technical problems and understand your end-product or application and its usage scenario we ask you to please provide the following information when creating a technical support ticket at: techship.com/technical_support/
Please give a detailed problem description and in what precise circumstances it is present.
Describe the host system:
-Hardware (system board, processor architecture, other peripheral devices...)
-Operating system with detailed versions (E.g. Windows version and build, Linux distribution, kernel version)
-Drivers used and versions (Linux: out-of-tree vendor drivers or in-kernel drivers?)
Details from the cellular module label:
-SKU/BOM or P/N code
For Linux systems, capture terminal logs from commands:
ls -l /dev/serial/by-id
ls -l /sys/bus/usb-serial/devices
The cellular module logs can be acquired by accessing one of the USB enumerated serial (COM) interfaces or physical UART serial interfaces accepting AT commands. In Windows device manager they are generally found as modem infterface or serial and ports interface types).
Send AT commands to module and capture the text output:
Test that you get a OK reply:
Enable AT command echo:
Verbose error reporting:
USB endpoint configuration:
Serial port configuration:
Selected network access techniques:
List network operator info:
Network registration status:
Last serving cell network information:
Current network status:
List APN details:
List Packet switch enable/disable status:
List PDP profiles status:
List default data connection details:
List bearers and IP addresses:
Additional test commands for Telit LM940/LM960/FN98x: