为了提升1700V IGBT模块的电流密度,英飞凌专门开发了1700V的IGBT7芯片,并首先应用于EconoDUAL™3封装。IGBT7芯片技术采用了微沟槽(micro-pattern trench,简称MPT)结构,以解决芯片高电流密度面临的挑战,MPT结构的简化示意图如图4所示。把栅极沟槽的台面宽度减少到亚微米长度,可以增加载流子约束,实现更低的饱和压降...
为了提升1700V IGBT模块的电流密度,英飞凌专门开发了1700V的IGBT7芯片,并首先应用于EconoDUAL™3封装。IGBT7芯片技术采用了微沟槽(micro-pattern trench,简称MPT)结构,以解决芯片高电流密度面临的挑战,MPT结构的简化示意图如图4所示。把栅极沟槽的台面宽度减少到亚微米长度,可以增加载流子约束,实现更低的饱和压降。另外...
IGBT7芯片技术采用了微沟槽(micro-pattern trench,简称MPT)结构,以解决芯片电流密度增加面临的挑战,MPT结构的简化示意图如图4所示。将台面(mesa)的宽度降至亚微米级别,可以增加载流子限制,从而实现更低的饱和压降。此外,通过调整栅极沟槽、发射极沟槽和有源沟槽的接触方案,可以同时优化芯片的开关特性、开关损耗和门极电...
为了提升1700V IGBT模块的电流密度,英飞凌专门开发了1700V的IGBT7芯片,并首先应用于EconoDUAL™3封装。IGBT7芯片技术采用了微沟槽(micro-pattern trench,简称MPT)结构,以解决芯片高电流密度面临的挑战,MPT结构的简化示意图如图4所示。把栅极沟槽的台面宽度减少到亚微米长度,可以增加载流子约束,实现更低的饱和压降。另外...
IGBT7晶片技術採用了微溝槽(micro-pattern trench,簡稱MPT)結構,以解決晶片高電流密度面臨的挑戰,MPT結構的簡化示意圖如圖4所示。把柵極溝槽的台面寬度減少到亞微米長度,可以增加載流子約束,實現更低的飽和壓降。另外,通過調整柵極溝槽、發射極溝槽和活躍通道的接觸方案,則可以同時優化晶片的開關特性、開關損耗和門極電荷...
WIDTH PITCH LINKS GUIDE :A2 PATTERN 700 100 98 Product WarrantyWe give one year or 1000 working hours guarrantee for all customers.Every rubber tracks has its own serial Number.We may trace the product date against the serial Number.So,if you ...
foot support for your bike. The adjustable laces allow you to customize the fit, ensuring that your keys are securely attached and your bike is supported with ease. The lightweight design means that it won't add unnecessary weight to your bike, and the universal fit ensures that it can be...
The new chip utilizes a plugged cell merged (PCM) trench gate surface pattern and a light-punch-through (LPT) vertical structure. The new device exhibits a significantly improved VCE(sat) versus ESW(off) characteristic compared to conventional planar gate devices. The new chip simultaneously ...
Meanwhile, a pattern of grids and slashes, touches of mirror finish, and a leather ROG logo deliver a variety of carefully crafted surface textures. Last but not least, a distinctive lighting pattern built into the M.2 Combo-Sink finishes off a colorful tour of ...
When an intermittent recording is performed with the plural rotary heads by running the magnetic tape more slowly than a normal recording to form such a normal track pattern as formed in the normal recording, the signal having the intermediate value of the amplitude of the recording signal to ...