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萩原良昭講師の半導体教育講座 「半導体とは?」
2024年3月29日現在
「小学生の為の半導体未来館(マンガ館)」を準備するための参考資料(大学生用?)
連絡先 hagiwara@aiplab.com (教育講座の講師として使ってください♡)
P+P-N-P-P+ダブル接合Pinned Photodiode型太陽電池の原理試作の資金が必要です。
太陽光発電をエネルギー源とする人工知能(AI)搭載の人間にやさしい鉄腕アトムを創ります。
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Hagiwara_履歴_2023_03_24.pdf
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Introduction to the world of Digital Circuits for Artificial Intelligence
If you are interestied in the book, Please visit
https://www.seizansha.co.jp/ISBN/ISBN978-4-88359-339-2.html
https://www.seizansha.co.jp/
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A Japanese Newspaper by Sangyou Times
wrote an aticle on Hagiwara Profile.
on Nov 13, 2020
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https://www.sangyo-times.jp/article.aspx?ID=5331
Sangyo-Times.jp/article_ID=5331_(PDF)
Sangyo-Times.jp/article_ID=5331_(html)
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半導体未来館(マンガ館)の参考教材
Smart_AI_Robot_Vision_Image_Sensor_also_works_as_Solar_Cell_Yoshiaki_Hagiwara.pdf
Smart_AI_Robot_Vision_Image_Sensor_also_works_as_Solar_Cell_Yoshiaki_Hagiwara_01.mp4
Smart_AI_Robot_Vision_Image_Sensor_also_works_as_Solar_Cell_Yoshiaki_Hagiwara_02/44
Smart_AI_Robot_Vision_Image_Sensor_also_works_as_Solar_Cell_Yoshiaki_Hagiwara_03/44
Smart_AI_Robot_Vision_Image_Sensor_also_works_as_Solar_Cell_Yoshiaki_Hagiwara_04/44
Smart_AI_Robot_Vision_Image_Sensor_also_works_as_Solar_Cell_Yoshiaki_Hagiwara_05/44
Smart_AI_Robot_Vision_Image_Sensor_also_works_as_Solar_Cell_Yoshiaki_Hagiwara_06/44
Smart_AI_Robot_Vision_Image_Sensor_also_works_as_Solar_Cell_Yoshiaki_Hagiwara_07/44
Smart_AI_Robot_Vision_Image_Sensor_also_works_as_Solar_Cell_Yoshiaki_Hagiwara_08/44
Smart_AI_Robot_Vision_Image_Sensor_also_works_as_Solar_Cell_Yoshiaki_Hagiwara_09/44
Smart_AI_Robot_Vision_Image_Sensor_also_works_as_Solar_Cell_Yoshiaki_Hagiwara_10/44
Smart_AI_Robot_Vision_Image_Sensor_also_works_as_Solar_Cell_Yoshiaki_Hagiwara_11/44
Smart_AI_Robot_Vision_Image_Sensor_also_works_as_Solar_Cell_Yoshiaki_Hagiwara_12/44
Smart_AI_Robot_Vision_Image_Sensor_also_works_as_Solar_Cell_Yoshiaki_Hagiwara_13/44
Smart_AI_Robot_Vision_Image_Sensor_also_works_as_Solar_Cell_Yoshiaki_Hagiwara_14/44
Smart_AI_Robot_Vision_Image_Sensor_also_works_as_Solar_Cell_Yoshiaki_Hagiwara_15/44
Smart_AI_Robot_Vision_Image_Sensor_also_works_as_Solar_Cell_Yoshiaki_Hagiwara_16/44
Smart_AI_Robot_Vision_Image_Sensor_also_works_as_Solar_Cell_Yoshiaki_Hagiwara_17/44
Smart_AI_Robot_Vision_Image_Sensor_also_works_as_Solar_Cell_Yoshiaki_Hagiwara_18/44
Smart_AI_Robot_Vision_Image_Sensor_also_works_as_Solar_Cell_Yoshiaki_Hagiwara_19/44
Smart_AI_Robot_Vision_Image_Sensor_also_works_as_Solar_Cell_Yoshiaki_Hagiwara_20/44
Smart_AI_Robot_Vision_Image_Sensor_also_works_as_Solar_Cell_Yoshiaki_Hagiwara_21/44
Smart_AI_Robot_Vision_Image_Sensor_also_works_as_Solar_Cell_Yoshiaki_Hagiwara_22/44
Smart_AI_Robot_Vision_Image_Sensor_also_works_as_Solar_Cell_Yoshiaki_Hagiwara_23/44
Smart_AI_Robot_Vision_Image_Sensor_also_works_as_Solar_Cell_Yoshiaki_Hagiwara_24/44
Smart_AI_Robot_Vision_Image_Sensor_also_works_as_Solar_Cell_Yoshiaki_Hagiwara_25/44
Smart_AI_Robot_Vision_Image_Sensor_also_works_as_Solar_Cell_Yoshiaki_Hagiwara_26/44
Smart_AI_Robot_Vision_Image_Sensor_also_works_as_Solar_Cell_Yoshiaki_Hagiwara_27/44
Smart_AI_Robot_Vision_Image_Sensor_also_works_as_Solar_Cell_Yoshiaki_Hagiwara_28/44
Smart_AI_Robot_Vision_Image_Sensor_also_works_as_Solar_Cell_Yoshiaki_Hagiwara_29/44
Smart_AI_Robot_Vision_Image_Sensor_also_works_as_Solar_Cell_Yoshiaki_Hagiwara_30/44
Smart_AI_Robot_Vision_Image_Sensor_also_works_as_Solar_Cell_Yoshiaki_Hagiwara_31/44
Smart_AI_Robot_Vision_Image_Sensor_also_works_as_Solar_Cell_Yoshiaki_Hagiwara_32/44
Smart_AI_Robot_Vision_Image_Sensor_also_works_as_Solar_Cell_Yoshiaki_Hagiwara_33/44
Smart_AI_Robot_Vision_Image_Sensor_also_works_as_Solar_Cell_Yoshiaki_Hagiwara_34/44
Smart_AI_Robot_Vision_Image_Sensor_also_works_as_Solar_Cell_Yoshiaki_Hagiwara_35/44
Smart_AI_Robot_Vision_Image_Sensor_also_works_as_Solar_Cell_Yoshiaki_Hagiwara_36/44
Smart_AI_Robot_Vision_Image_Sensor_also_works_as_Solar_Cell_Yoshiaki_Hagiwara_37/44
Smart_AI_Robot_Vision_Image_Sensor_also_works_as_Solar_Cell_Yoshiaki_Hagiwara_38/44
Smart_AI_Robot_Vision_Image_Sensor_also_works_as_Solar_Cell_Yoshiaki_Hagiwara_39/44
Smart_AI_Robot_Vision_Image_Sensor_also_works_as_Solar_Cell_Yoshiaki_Hagiwara_40/44
Smart_AI_Robot_Vision_Image_Sensor_also_works_as_Solar_Cell_Yoshiaki_Hagiwara_41/44
Smart_AI_Robot_Vision_Image_Sensor_also_works_as_Solar_Cell_Yoshiaki_Hagiwara_42/44
Smart_AI_Robot_Vision_Image_Sensor_also_works_as_Solar_Cell_Yoshiaki_Hagiwara_43/44
Smart_AI_Robot_Vision_Image_Sensor_also_works_as_Solar_Cell_Yoshiaki_Hagiwara_44/44
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2017年4月より、半導体産業人協会の教育委員会の委員長時代に
「イメージセンサー賢い電子の目」と題して講師として講義しました。
半導体基礎講座「イメージセンサー賢い電子の目」講師萩原良昭.pdf
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日本の産業のコメとして戦略的に重要な半導体電子部品の基本知識
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(0)はじめに
(1)金属と絶縁体の違い
(2)半導体の基本特性
(3)single接合型のダイオードの整流特性
(4)double 接合型バイポーラトランジスタの電流増幅特性
(5)triple 接合型サイリスター型の理想的な高速Switch動作特性
(6)MOS型のトランジスタの電流増幅特性
(7)CMOS型インバータ回路の省エネ特性
(8)超光感度のCMOS型イメージセンサーの特性
(9)P+PNPP+接合の double接合型の新型太陽電池の構造とその動作原理
イメージセンサーと太陽電池の動作原理_萩原良昭.html
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https://www.caltech.edu/MS1971/BS1972/PhD1975
https://www.ieee.org/IEEE Life Fellow
https://www.sojo-u.ac.jp/崇城大学特任教授
https://www.ssis.or.jp/半導体産業人協会会員
https://ja.wikipedia.org/wiki/萩原良昭
https://en.wikipedia.org/wiki/Yoshiaki_Hagiwara
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Return to Top Home Page of Yoshiaki Hagiwara (AIPS)
http://www.aiplab.com
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