Der Blätterkatalog benötigt Javascript.
Bitte aktivieren Sie Javascript in Ihren Browser-Einstellungen.
The Blätterkatalog requires Javascript.
Please activate Javascript in your browser settings.
Manufacturing metrics to encompass supply chain resilience in an increasingly uncertain geopolitical environment The technology’s compatibility with standard silicon manufacturing processes ensures access to the industry’s most mature and geographically distributed production capacity Standard 200 mm and 300 mm silicon fabrication facilities worldwide can manufacture SuperQ devices without requiring specialized equipment or rare materials This contrasts sharply with SiC and GaN production which depends on limited substrate suppliers specialized epitaxial growth equipment and tightly controlled manufacturing processes that restrict production to a small number of facilities The CMOScompatible manufacturing flow ensures high yields and enables rapid capacity scaling through existing foundry partnerships This approach significantly reduces supply chain risk while maintaining cost competitiveness critical factors as the industry navigates ongoing materials restrictions and manufacturing capacity constraints Production scalability is demonstrated through iDEAL Semiconductor’s commercial rollout with 150 Vand 200 V SuperQ MOS-FETs entering full production in July 2025 Higher voltage variants spanning 250 Vto 400 Vare progressing through development pipelines leveraging the same fundamental manufacturing processes to ensure consistent supply availability Applicationdriven performance validation Realworld application testing validates SuperQ technology’s practical benefits across diverse power conversion scenarios In AI data center applications where 54 Vserver architectures demand both efficiency and reliability SuperQ MOSFETs serve as synchronous rectifiers with demonstrable thermal advantages Telecommunications infrastructure applications have shown similar benefits where SuperQ devices function as primaryside control MOSFETs in isolated DC DC converters Acommercially deployed 270 kHz Active Clamp Forward topology demonstrates SuperQ’s impact on system reliability and operational lifetime In a 48 Vinput 12 Voutput 17 Aconfiguration SuperQ devices reduce power losses by up to 2 Watts compared to leading competitors while operating 31 °Ccooler under identical conditions In brushless direct current BLDC motor drives the versatile and robust SuperQ can be used for both threephase inverter switching as well as battery protection When deployed in battery disconnect switching applications the devices combine industryleading onresistance with exceptional shortcircuit current handling withstanding fault currents up to 700 Asignificantly exceeding comparable silicon devices with similar resistance and die area Figure 4 SuperQ technology has undergone comprehensive JEDEC qualification testing including HTRB HTGB thermal cycling BHAST IOL HTSL and UHAST protocols with stress levels exceeding standard requirements by at least 2× The devices maintain stable operation to 175 °Cjunction temperatures with wide safe operating area SOA margins ensuring robust performance in demanding industrial automotive and data center environments Strategic design implications SuperQ technology addresses a fundamental challenge facing power electronics engineers achieving advanced performance without compromising supply chain security or cost competitiveness As geopolitical tensions continue to affect semiconductor availability and widebandgap materials face ongoing cost and supply constraints siliconbased innovations that extend performance may become a strategically wise choice The immediate commercial availability of SuperQ technology provides design teams with a more practical path to quantifiable per - formance improvements without the supply chain concentration risks inherent in widebandgap alternatives while still delivering cost structures compatible with highvolume production requirements As power conversion requirements will continue to expand in the future across vehicle electrification renew - able energy and digital infrastructure sectors SuperQ technology is an excellent example of how strategic innovation within established manufacturing ecosystems can address both performance demands and supply chain vulnerabilities eg Figure 3 Peak shortcircuit current to failure for Competitor Aleft 570A and SuperQ right 692A for similar RDSon and silicon area Green Drain Current Blue Drainto-Source Voltage Yellow Gateto-Source Voltage Table 2 Lowest RDSon in TOLL package for iDEAL’s SuperQ devices compared to two industryleading competitors 7 PCIM Magazine 02 2025