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Top 5 Trends in Power Semiconductors for 2025
2024 brought significant challenges for the power semiconductor industry, with weaker demand in the automotive sector, particularly for Electric Vehicles, a slowdown in industrial applications due to geopolitical uncertainties, and a struggling consumer market. These hurdles came at a time when many industry players were heavily investing in capacity expansions, sparking concerns about fab utilization and profitability.
2025-02-07
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Intel and TSMC Expand Manufacturing in the US to Bolster Domestic Chip Supply
Intel and TSMC Expand Manufacturing in the US to Bolster Domestic Chip Supply Intel and TSMC are accelerating the construction of their advanced semiconductor fabs in Arizona and Ohio, focusing on creating chips for automotive and defense applications. These efforts aim to address the increasing demand for localized semiconductor manufacturing in the US amidst global supply chain uncertainties.
2025-02-06
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Bosch Secures $225 Million Subsidy for SiC Semiconductor Production in California
The US Department of Commerce has announced a preliminary agreement to provide up to $225 million in subsidies to Bosch, a German automotive supplier, to produce silicon carbide (SiC) power semiconductors in California. Bosch plans to invest $1.9 billion to renovate its manufacturing facility in Roseville, California, aiming to boost US capabilities in advanced power semiconductors.
2025-01-25
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Fusion Power System — Application Guide
Fusion Power System addresses the most demanding power conversion challenge in human engineering — supplying hundreds of kiloamperes at tens of kilovolts with sub-0.1% regulation accuracy and millisecond-level response. NexPower's SCR-based solution for Poloidal Field (PF) and Central Solenoid (CS) coil power supplies leverages 12-pulse thyristor rectifier topology with anti-parallel bridge configuration.
넶1 2026-06-04 -
Static Var Generator (STATCOM) — Application Guide
STATCOM (Static Synchronous Compensator) is a next-generation dynamic reactive power compensation device based on Voltage Source Converter (VSC) technology. It provides fast, continuous reactive power regulation with response time under 5 milliseconds — far outperforming traditional SVC. A key advantage: output current remains at full capacity even when system voltage dips, making it uniquely effective during grid disturbances.
넶4 2026-06-02 -
Active Power Filter — Application Guide
APF (Active Power Filter) is a power electronic device designed for dynamic harmonic suppression and reactive power compensation. It detects harmonic components in load current and injects equal-amplitude opposite-phase compensation currents to achieve active harmonic elimination across the full 2nd~50th range with over 97% filtration rate. Unlike passive filters, APF introduces no resonance risk and operates safely in parallel with existing systems.
넶1 2026-06-02 -
Solid State Transformer — Application Guide
SST (Solid State Transformer, or Power Electronic Transformer PET) is a next-generation power conversion device that replaces traditional iron-core transformers with high-frequency power electronics. It delivers AC/DC transformation in a single compact unit with end-to-end efficiency above 98.5%, footprint reduced to 1/3~1/5 of conventional transformers, and millisecond-level bidirectional power flow control.
넶3 2026-06-02
