News: Microelectronics
2 April 2026
onsemi’s hybrid power integrated modules used in Sineng Electric’s solar and energy storage solutions
Intelligent power and sensing technology firm onsemi of Scottsdale, AZ, USA says that its hybrid power integrated modules (PIMs) will be featured in Sineng Electric’s next-generation 430kW liquid-cooled string energy storage systems (ESS) and 320kW utility-scale solar inverter. The design win builds upon the long-standing collaboration between onsemi and Sineng to deliver high-performance, future-ready solutions in the growing renewable energy and AI infrastructure markets.
At the core of Sineng’s new platforms, onsemi’s latest-generation Field Stop (FS7) insulated-gate bipolar transistor (IGBT) and silicon carbide (SiC) hybrid PIMs in the F5BP package are engineered to boost the power output of utility-scale solar string inverters and energy storage systems (ESS). Compared to previous generations, the modules offer 32% increased power density with 0.1% higher efficiency within the same footprint to increase the total system power of a solar inverter from 320kW to 350kW.
Onsemi’s hybrid F5BP PIMs integrate the company’s FS7 IGBT and EliteSiC diode technologies, reducing power dissipation by up to 8% and switching losses by 10% compared to previous generations. Their advanced direct bonded copper (DBC) substrate design minimizes stray inductance and lowers thermal resistance to the heat sink by 9.3%. Together, the reduction in switching losses and thermal resistance enables up to 32% higher system power at the same weight and density compared to prior-generation designs.
The modules also feature an optimized electrical layout and an innovative baseplate design that enhance thermal management. This combination is claimed to enables superior system performance and enhanced long-term reliability.
Compared to previous-generation modules, onsemi’s latest FS7-based hybrid PIM combines lower switching losses and reduced thermal resistance, enabling the following system-level improvements in Sineng’s new 430kW string ESS:
- a 0.75% increase in round-trip efficiency (RTE), building on module-level efficiency gains demonstrated in benchmark testing;
- a 5% reduction in auxiliary power consumption, lowering total operating costs;
- higher power density, reducing the number of required modules and cutting component costs;
- cooler operation under high loads and improved reliability.
“Utility-scale operators are laser-focused on squeezing more kilowatts from the same footprint while cutting lifecycle costs,” says Sineng Electric’s general manager of R&D Jianfeng Sun. “By integrating onsemi’s F5BP package hybrid modules into our 430kW ESS and 320kW inverter platforms, we’re addressing two industry imperatives at once: higher power density that uplifts system ratings, and conversion efficiency gains that compound at gigawatt scale. Those incremental improvements translate into real savings for product development and a more stable, dispatchable renewable grid,” he adds.
“Developers need solutions that fit existing layouts, simplify thermal design, and reduce energy losses,” says Sravan Vanaparthy, VP & general manager of onsemi ‘s IGBT Power Division. “By pairing FS7 IGBTs with EliteSiC diodes in our F5BP modules, we deliver higher conversion efficiency and power density without increasing the footprint, enabling significantly higher power ratings at the same system size. This combination allows utility-scale solar and storage sites to increase output from existing installations, while improving reliability and lowering lifetime operating costs.”
