Wireless

5G, C-V2X, LPWA, LTE-A, smart module, LTE, WCDMA/HSPA(+), GSM/GPRS modules

Global leading supplier of M2M modules and solution provider

Ranked first in global shipments for 4 consecutive years

SIMCom Wireless Solutions Limited is global leading Machine-to-Machine (M2M) wireless modules and solutions supplier, Since established in 2002, SIMCom has been fully committed to provide a variety of wireless technology platform modules and terminal level solutions around the world, such as 5G, C-V2X, LPWA, LTE-A, Smart Module, LTE, WCDMA/HSPA(+), GSM/GPRS and GNSS Modules. According to the latest M2M report by ABI Research Inc., a leading U.S. market research company, SIMCom has led the world in wireless communication module sales for four consecutive years.

Leading the 5G race to create a new era of 5G+AIoT

As the Internet of Things (IoT) experiences explosive growth, SIMCom continuously satisfies the demand for IoT in various sectors with its 17 years of professional technical innovation and service capabilities. While digging into vertical industries, it constantly defines superior products and builds competitive edges. SIMCom launched the world’s first 5G module SIM8200EA-M2 series in 2019 and passed the real network signal test. SIMCom will continue to develop in the 5G field from four aspects, i.e. product quality, cost, service and innovation

Network spread across six continents

The headquarter of SIMCom is located in Shanghai City, China. The product distribution sales and on-site technical support network is across six continents all over the world. SIMCom can provide highest cost performance and innovative wireless solutions to global customers in order to save cost and expedite the time to market by virtue of its remarkable R&D, superior product and perfect channels. Besides the complete wireless module portfolio, SIMCom also provide professional customized ODM services including smart metering, fleet management, track and trace, remote medical, safety protection, industrial monitoring application segments.