這是前奏曲吧,根本就衹是書裏那個原理圖的實物版而矣。
除了電容預充,這機關還有兩種接法: 電感預充或電容短路法,電容短路法不需雙擲開關,衹需按鍵式的就可以。
Can we have English audio of your other videos. Thank you sir.
which one do you like best? I will translate it
COOL!
Nice video! Would it be possible include English closed captions?? 😊
Added,thanks for your remdinding!
磁阻大,不能节能
特斯拉使用的是哪种?
汽车上都采用的FOC,DTC低速平顺性略差
ni de😂输出在哪里🧐
芯片的供给电源就是输出呀
,,,
播放不了啊
technology is awesomeeeeeeeeeeeeeeeeeeee⚡⚡⚡🧲🧲🧲🗣🗣🗣🔥🔥🔥💯💯💯
Good, Keep up
更复杂法节约功率损耗: 利用磁绝缘物塑料隔离 金属转轴产生磁感涡流。
TOP LIKE 🇧🇷🇧🇷🇧🇷 👍👍👍
looking for more in detail regarding pmsm
Drop the AI voice. The animation is solid. Thank you.
Promo>SM
❤
СУПЕР МЕГА УЛЬТРА КЛАСС ♦️♦️
+15 social credit👍
Dobre tlumaczenie
to jest dobrze pokazane.
Ohhhh, there's an i in the title, not l.
Well detailed and accurate
這是前奏曲吧,根本就衹是書裏那個原理圖的實物版而矣。
除了電容預充,這機關還有兩種接法: 電感預充或電容短路法,電容短路法不需雙擲開關,衹需按鍵式的就可以。
Can we have English audio of your other videos. Thank you sir.
which one do you like best? I will translate it
COOL!
Nice video! Would it be possible include English closed captions?? 😊
Added,thanks for your remdinding!
磁阻大,不能节能
特斯拉使用的是哪种?
汽车上都采用的FOC,DTC低速平顺性略差
ni de😂输出在哪里🧐
芯片的供给电源就是输出呀
,,,
播放不了啊
technology is awesomeeeeeeeeeeeeeeeeeeee⚡⚡⚡🧲🧲🧲🗣🗣🗣🔥🔥🔥💯💯💯
Good, Keep up
更复杂法节约功率损耗: 利用磁绝缘物塑料隔离 金属转轴产生磁感涡流。
TOP LIKE 🇧🇷🇧🇷🇧🇷 👍👍👍
looking for more in detail regarding pmsm
Drop the AI voice. The animation is solid. Thank you.
Promo>SM
❤
СУПЕР МЕГА УЛЬТРА КЛАСС ♦️♦️
+15 social credit👍
Dobre tlumaczenie
to jest dobrze pokazane.
Ohhhh, there's an i in the title, not l.
Well detailed and accurate