NXP Semiconductors N.V. recently announced an industry milestone for 5G energy efficiency with the integration of Gallium Nitride (GaN) technology to its multi-chip module platform. Building on the company’s investment in its GaN fab in Arizona — the most advanced fab dedicated to RF power amplifiers in the U.S. — NXP is the first to announce RF solutions for 5G massive MIMO that combine the high efficiency of GaN with the compactness of multi-chip modules.
Reducing energy consumption is a major goal for telecom infrastructure, where every point of efficiency counts. The use of GaN in multi-chip modules increases lineup efficiency to 52 percent at 2.6 GHz, which is eight percentage points higher than the company’s previous module generation.
Additionally, NXP has further improved performance with a proprietary combination of LDMOS and GaN in a single device, delivering 400 MHz of instantaneous bandwidth that makes it possible to design wideband radios with a single power amplifier.
This energy efficiency and wideband performance are now available in the small footprint of NXP’s 5G multi-chip modules. The new portfolio will enable RF developers to reduce the size and weight of radio units, helping mobile network operators lower the cost of deploying 5G on cellular towers and rooftops.
In a single package, the modules integrate a multi-stage transmit chain, 50-ohm in/out matching networks and a Doherty combiner — and NXP is now adding bias control using its latest SiGe technology. This new step in integration removes the need for a separate analog control IC and provides tighter monitoring and optimization of power-amplifier performance.
“NXP has developed a unique technology toolbox dedicated to 5G infrastructure that includes proprietary LDMOS, GaN, and SiGe, as well as advanced packaging and RF design IP,” said Paul Hart, executive VP and GM of the Radio Power Business Line at NXP. “This enables us to leverage the benefits of each element and combine them in the most optimal way for each use case.”
NXP’s new 5G multi-chip modules will sample in Q3, with production starting later this year.
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