Quectel Announces 2nd Generation 5G NR Modules

Quectel is a leading manufacturer of components for IoT (Internet of Things) devices. A few days ago, the Chinese telecommunication company announced new second generation 5G NR modules that conform to the 3GPP Release 16 standard and support sub-6 GHz or mmWave depending on the module.

 

Meet 3GPP Release 16 standard

The Chinese company Quectel Wireless Solutions has presented a range of new 5G NR modules for IoT products. These are second generation devices that meet the 3GPP Release 16 standard. The new releases are divided into the sub-6GHz modules Rx520F and the Rx520N series as well as the mmWave modules of the RM530x series.

 

The new 5G NR modules are based on the latest 5G modem RF systems Snapdragon X65 and X62 from Qualcomm, which were officially presented only yesterday. The new 5G modems meet the requirements of industries that rely on faster, mobile broadband and reliable communication options. The products are intended to help establish the new mobile communications standard quickly in many areas. You can exploit the advantages of mobile broadband in areas such as fixed wireless access, industrial IoT, mobile computing, telemedicine, private networks and more.

 

Sub-6 GHz and mmWave

The new 5G NR modules RG520F (LGA) and RM520F (M.2) for Sub-6 GHz from Quectel are based on the new Snapdragon X65, which supports up to 10 Gbit/s data transfer in the downstream. RG520N (LGA) and RM520N (M.2), on the other hand, rely on the slower Snapdragon X62. The two Quectel 5G modules of the second generation RM530F and RM530N modules (M.2) transmit with both 5G standards (Sub-6-GHz and mmWave ) and thus have dual connectivity. As Quectel has announced, the new 5G modules support all three combinations of sub-6 GHz TDD and FDD Carrier Aggregation (CA). This ensures high performance data, as a combination of the available 5G spectra is possible.

 

Quectel also lets you know that the new generation of 5G chips has received fundamental improvements. They deliver even higher reliability with minimal latency. This is particularly important in commercial use in industry and other areas.