Izinduna ze-GAN zihlinzeka nge-RDS ephansi (kuvuliwe) nokushintsha okusheshayo, kanye ne-VF ephansi ne-QRR ephansi, kusho uFarnell, inkampani ye-avnet. Ziphinde ziqhume futhi zilethe ukushintshwa kwezinzimba ngesango eligoqekile lokugobazeka, kubenze balungele izinhlelo zokusebenza zokunciphisa amandla ezincishisiwe ezimotweni zikagesi (evs), imishini ye-iot.
Umsabalalisi uthi ukwethulwa kobubanzi kufike ngesikhathi njengoba izitolo zinikeza amandla futhi zisebenzisa ukusebenza kahle kwefomu kanye nesidingo sokunciphisa ukuguqulwa kwe-CO2 kanye nemboni kuqhubekela ekuguqukeni kwamandla kagesi futhi kwandise ukukhiqizwa kukagesi .
Ubuchwepheshe be-Gan bunqoba ukulinganiselwa kobuchwepheshe, njenge-IGTS esekwe ku-silicon ne-SIC, ekuguqukeni kwamandla, kusho uFarnell. Ku-EVS ikakhulukazi, uGan unciphisa ukulahleka kwamandla okungathinta uhla lwemoto. Ukusebenza kahle kokuguqulwa kwamandla futhi kunciphisa isidingo sezinhlelo zokupholisa ukuqeda ukushisa okukhiqizwayo, ukunciphisa isisindo semoto kanye nobunzima besistimu, uhla oluzuzayo noma ukuvumela uhla olufanayo nebhethri elincane. Kukhona futhi izinhlelo zokusebenza, zithola i-Farnell, yama-FOOR GAN ezikhungweni zedatha, ingqalasizinda yezingqalasizinda kanye nezicelo zezimboni.
I-Farnell ibamba i-webinar yamahhala e-Webinar ye-Power Gan ngomhlaka 16 Septhemba 2020 ngo-2pm BST. I-webInar izonikeza umbono we-Overview of Nexperia's Cascode Technology, izinzuzo ze-topologies ezilukhuni futhi ezithambile futhi zifaka isifundo sesikhathi se-4KW Totem Pole PFC.