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MARKING CODE 4(x) LIST LIST 4(1) LIST 4(2) 4のリスト説明ページへ (MARKING CODE 「4」 TOP MENU) 前のリスト4(1)へ (BACKWARD) MARKING CODE LIST 4(2) * , ** , *** , ****,_=date code,Lot No. etc. #=hfe rank. MARKINGCODE PART No.Grade etc. MAKER PACKAGENAME MAKERPACKAGE NAME PINCOUNT etc. 4M 2SJ0163Grade (-0.6~-6.0) Panasonic SC-59SOT-346 Mini3-G1 3 P-ch MOS Junction FET for switching.Discontinued.Complementary to 2SK1103. 4M 2SJ0364Grade (-0.6~-6.0) Panasonic SC-70 SMini3-G1 3 P-ch Junction FET for analog switching.Discontinued. 4M 2SJ0364GGrade (-0.6~-6.0) Panasonic - SMini3-F2 3 P-ch Junction FET for analog switching.Discontinued. 4MP 2SJ0163Grade P (-0.6~-1.5) Panasonic SC-59SOT-346 Mini3-G1 3 P-ch MOS Junction FET for switching.DiscontinuedComplementary to 2SK1103. 4MP 2SJ0364Grade P (-0.6~-1.5) Panasonic SC-70 SMini3-G1 3 P-ch Junction FET for analog switching.Discontinued. 4MP 2SJ0364GGrade P (-0.6~-1.5) Panasonic - SMini3-F2 3 P-ch Junction FET for analog switching.Discontinued. 4MQ 2SJ0163Grade Q (-1.0~-3.0) Panasonic SC-59SOT-346 Mini3-G1 3 P-ch MOS Junction FET for switching.DiscontinuedComplementary to 2SK1103. 4MQ 2SJ0364Grade Q (-1.0~-3.0) Panasonic SC-70 SMini3-G1 3 P-ch Junction FET for analog switching.Discontinued. 4MQ 2SJ0364GGrade Q (-1.0~-3.0) Panasonic - SMini3-F2 3 P-ch Junction FET for analog switching.Discontinued. 4MR 2SJ0163Grade R (-2.5~-6.0) Panasonic SC-59SOT-346 Mini3-G1 3 P-ch MOS Junction FET for switching.DiscontinuedComplementary to 2SK1103. 4MR 2SJ0364Grade R (-2.5~-6.0) Panasonic SC-70 SMini3-G1 3 P-ch Junction FET for analog switching.Discontinued. 4MR 2SJ0364GGrade R (-2.5~-6.0) Panasonic - SMini3-F2 3 P-ch Junction FET for analog switching.Discontinued. 4N 2SA2082 Panasonic - ML3-N2 3 PNP TRANSISTOR for high speed switching.Discontinued. 4N DB21413 Panasonic - SMini2-F4-B 2 Schottky barrier diode for rectification. 4N DB3X313N Panasonic SC-59SOT-346 Mini3-G3-B 3 Schottky barrier diode for small current rectification. 4N XP5601 Panasonic SC-88 SMini Type 6 Composite Transistor NPN+PNP2SB0709A(2SB709A)+2SD0601A(2SD601A).* Discontinued.Old No. (XP5601) 4N XP05601 Panasonic SC-88 SMini Type 6 Composite TransistorNPN+PNP2SB709A(2SB0709A)+2SD601A(2SD0601A).* Discontinued.New No. (XP05601) 4N XN05601 Panasonic SC-74 Mini Type(6-pin) 6 Composite Transistor NPN+PNP2SB0709A(2SB709A)+2SD0601A(2SD601A).* Discontinued.Old No. (XN5601) 4N XN5601 Panasonic SC-74 Mini Type(6-pin) 6 Composite TransistorNPN+PNP2SB709A(2SB0709A)+2SD601A(2SD0601A).* Discontinued.New No. (XN05601) 4P DB24416 Panasonic - TMiniP2-F2-B 2 Schottky barrier diode for rectification. 4P DB2X414 Panasonic - Mini2-F4-B 2 Schottky barrier diode for high frequency rectification. 4P 2SC4239Grade P (75~130) Panasonic SC-70 S-Mini(3-pin) 3 NPN transistor for high frequency amp/oscillationmixer.Discontinued. 4P* ATF-34143 AVAGO SC-70 4LSOT-343 - 4 Low Noise Pseudomorphic HEMT. 4Q 2SC4239Grade Q (110~220) Panasonic SC-70 S-Mini(3-pin) 3 NPN transistor for high frequency amp/oscillationmixer.Discontinued. 4Q DA24F41 Panasonic - TMiniP2-F2-B 2 Fast recovery diode for high speed switching. 4Q DB3X313F Panasonic SC-59SOT-346 Mini3-G3-B 3 Schottky barrier diode for small current rectification. 4Q DB4X313F Panasonic - Mini4-G4-B 4 Schottky barrier diode for small current rectification. 4R DB2J411 Panasonic - SMini2-F5-B 2 Schottky barrier diode rectification. 4R 2SB1722G Panasonic SC-89 SSMini3-F3 3 PNP TRANSISTOR for high voltage resistance low frequency amp.Discontinued. 4R 2SB1722J Panasonic SC-89SOT-490 SSMini3-F1 3 PNP TRANSISTOR for high voltage resistance low frequency amp.Discontinued. 4R 2SC4239Grade R (200~300) Panasonic SC-70 S-Mini(3-pin) 3 NPN transistor for high frequency amp/oscillationmixer.Discontinued. 4R1 TCR3UF41A TOSHIBA SC-74ASOT-25 SMV(2.9 x 2.8)(Weight 16mg(typ.)) 5 CMOS LDO(Low Dropout Regulator) TCR3UF series 300mA current 4.1V output. 4R2 TCR3UF42A TOSHIBA SC-74ASOT-25 SMV(2.9 x 2.8)(Weight 16mg(typ.)) 5 CMOS LDO(Low Dropout Regulator) TCR3UF series 300mA current 4.2V output. 4R5 TCR3UF45A TOSHIBA SC-74ASOT-25 SMV(2.9 x 2.8)(Weight 16mg(typ.)) 5 CMOS LDO(Low Dropout Regulator) TCR3UF series 300mA current 4.5V output. 4S 2SK3866Grade (107~310) Panasonic - TSSSMini3-F1 3 N-ch Junction FET for low frequency impedance converter.DiscontinuedAlternative the DSKTJ05. 4S 2SK3866GGrade (107~310) Panasonic - TSSSMini3-F2 3 N-ch Junction FET for low frequency impedance converter.DiscontinuedAlternative the DSKTJ05. 4S DB3X209K Panasonic SC-59SOT-346 Mini3-G3-B 3 Schottky barrier diode for high frequency rectification. 4S MA24D54 Panasonic - TMiniP2-F1 2 Schottky barrier diode for rectifying.Discontinued.Alternative the DB24307. 4SS 2SK3866Grade S (107~210) Panasonic - TSSSMini3-F1 3 N-ch Junction FET for low frequency impedance converter.DiscontinuedAlternative the DSKTJ05. 4SS 2SK3866GGrade S (107~210) Panasonic - TSSSMini3-F2 3 N-ch Junction FET for low frequency impedance converter.DiscontinuedAlternative the DSKTJ05. 4ST 2SK3866Grade T (190~310) Panasonic - TSSSMini3-F1 3 N-ch Junction FET for low frequency impedance converter.DiscontinuedAlternative the DSKTJ05 4ST 2SK3866GGrade T (190~310) Panasonic - TSSSMini3-F2 3 N-ch Junction FET for low frequency impedance converter.DiscontinuedAlternative the DSKTJ05. 4T 2SK1216 Panasonic SC-59SC-59ATO-236 Mini Type similarly (3-pin) 3 N-ch Junction FET for video camera 1st stage amp.Discontinued. 4T DB3S308F Panasonic SC-89 SSMini3-F3-B 3 Schottky barrier diode for high speed switching. 4T1 TCR3UF41B TOSHIBA SC-74ASOT-25 SMV(2.9 x 2.8)(Weight 16mg(typ.)) 5 CMOS LDO(Low Dropout Regulator) TCR3UF series 300mA current 4.1V output. 4T2 TCR3UF42B TOSHIBA SC-74ASOT-25 SMV(2.9 x 2.8)(Weight 16mg(typ.)) 5 CMOS LDO(Low Dropout Regulator) TCR3UF series 300mA current 4.2V output. 4T5 TCR3UF45B TOSHIBA SC-74ASOT-25 SMV(2.9 x 2.8)(Weight 16mg(typ.)) 5 CMOS LDO(Low Dropout Regulator) TCR3UF series 300mA current 4.5V output. 4U DZ2J047Grade M (Vz=4.59~4.83) Panasonic - SMini2-F5-B 2 Zener diode series for constant voltage.waveform clipper and surge absorption.Low noise type. 4U MA21D382G Panasonic - SMini2-F2 2 Schottky barrier diode for high frequency rectifyingDiscontinued.Alternative the DB21320. 4U 2SC6036 Panasonic - SSSMini3-F1 3 NPN transistor for general purpose amp.DiscontinuedComplementary to 2SA2162. 4U 2SC6036G Panasonic - SSSMini3-F2 3 NPN transistor for general purpose amp.DiscontinuedComplementary to 2SA2162G. 4U 2SC6037G Panasonic SC-89 SSMini3-F3 3 NPN transistor for general purpose amp.DiscontinuedComplementary to 2SA2161G. 4U 2SC6037J Panasonic SC-89SOT-490 SSMini3-F1 3 NPN transistor for general purpose amp.DiscontinuedComplementary to 2SA2161J. 4V 2SK1228 Panasonic SC-59SOT-346 Mini3-G1 3 N-ch MOSFET for switching.Discontinued. 4V 2SK1374 Panasonic SC-70 SMini3-G1 3 N-ch MOSFET for switching.Discontinued. 4V 2SK1374G Panasonic - SMini3-F2 3 N-ch MOSFET for switching.Discontinued. 4V DB3S406F Panasonic SC-89 SSMini3-F3-B 3 Schottky barrier diode for high speed switching. 4V MA21D34 Panasonic - SMini2-F2 2 Schottky barrier diode for rectifyingDiscontinued.Alternative the DB21302. 4V MA21D340G Panasonic - SMini2-F2 2 Schottky barrier diode for rectifyingDiscontinued.Alternative the DB21302. 4V0 TAR5S40 TOSHIBA SC-74ASOT-25 SMV(2.9 x 2.8)(SSOP5-P-0.95) 5 Bipolar low dropout regulator(point regulator) 4V0 TAR5S40U TOSHIBA - (SON5-P-0202-0.65) 5 Bipolar low dropout regulator(point regulator). 4V1 TAR5S41 TOSHIBA SC-74ASOT-25 SMV(2.9 x 2.8)(SSOP5-P-0.95) 5 Bipolar low dropout regulator(point regulator) 4V1 TAR5S41U TOSHIBA - (SON5-P-0202-0.65) 5 Bipolar low dropout regulator(point regulator). 4V2 TAR5S42 TOSHIBA SC-74ASOT-25 SMV(2.9 x 2.8)(SSOP5-P-0.95) 5 Bipolar low dropout regulator(point regulator) 4V2 TAR5S42U TOSHIBA - (SON5-P-0202-0.65) 5 Bipolar low dropout regulator(point regulator). 4V3 TAR5S43 TOSHIBA SC-74ASOT-25 SMV(2.9 x 2.8)(SSOP5-P-0.95) 5 Bipolar low dropout regulator(point regulator) 4V3 TAR5S43U TOSHIBA - (SON5-P-0202-0.65) 5 Bipolar low dropout regulator(point regulator). 4V3 PZM4.3NGrade B NXP SC-59TO-236 SOT346 3 Voltage regulator diode PZM-N series. 4V4 TAR5S44 TOSHIBA SC-74ASOT-25 SMV(2.9 x 2.8)(SSOP5-P-0.95) 5 Bipolar low dropout regulator(point regulator) 4V4 TAR5S44U TOSHIBA - (SON5-P-0202-0.65) 5 Bipolar low dropout regulator(point regulator). 4V5 TAR5S45 TOSHIBA SC-74ASOT-25 SMV(2.9 x 2.8)(SSOP5-P-0.95) 5 Bipolar low dropout regulator(point regulator) 4V5 TAR5S45U TOSHIBA - (SON5-P-0202-0.65) 5 Bipolar low dropout regulator(point regulator). 4V6 TAR5S46 TOSHIBA SC-74ASOT-25 SMV(2.9 x 2.8)(SSOP5-P-0.95) 5 Bipolar low dropout regulator(point regulator) 4V6 TAR5S46U TOSHIBA - (SON5-P-0202-0.65) 5 Bipolar low dropout regulator(point regulator). 4V7 PZM4.7NGrade B NXP SC-59TO-236 SOT346 3 Voltage regulator diode PZM-N series. 4V7 TAR5S47 TOSHIBA SC-74ASOT-25 SMV(2.9 x 2.8)(SSOP5-P-0.95) 5 Bipolar low dropout regulator(point regulator) 4V7 TAR5S47U TOSHIBA - (SON5-P-0202-0.65) 5 Bipolar low dropout regulator(point regulator). 4V8 TAR5S48 TOSHIBA SC-74ASOT-25 SMV(2.9 x 2.8)(SSOP5-P-0.95) 5 Bipolar low dropout regulator(point regulator) 4V8 TAR5S48U TOSHIBA - (SON5-P-0202-0.65) 5 Bipolar low dropout regulator(point regulator). 4V9 TAR5S49 TOSHIBA SC-74ASOT-25 SMV(2.9 x 2.8)(SSOP5-P-0.95) 5 Bipolar low dropout regulator(point regulator) 4V9 TAR5S49U TOSHIBA - (SON5-P-0202-0.65) 5 Bipolar low dropout regulator(point regulator). 4W DB24417 Panasonic - TMiniP2-F2-B 2 Schottky barrier diode for rectification. 4W MA21D35 Panasonic - SMini2-F2 2 Schottky barrier diode for rectifyingDiscontinued.Alternative the DB21303. 4W MA21D350G Panasonic - SMini2-F2 2 Schottky barrier diode for rectifyingDiscontinued.Alternative the DB21303. 4X 2SC4515 Panasonic - Mini Type(4-pin) 4 NPN transistor for TV Intermediate frequency(IF) band amp.Discontinued. 4X 2SK3948Grade (180~450) Panasonic - TSSSMini3-F1 3 N-ch Junction FET for low frequency impedance converter.DiscontinuedAlternative the DSKTJ06. 4X 2SK3948GGrade (180~450) Panasonic - TSSSMini3-F2 3 N-ch Junction FET for low frequency impedance converter.DiscontinuedAlternative the DSKTJ06. 4X DB3J314K Panasonic - SMini3-F2-B 3 Schottky barrier diode for high speed switching. 4X DB3S314K Panasonic SC-89 SSMini3-F3-B 3 Schottky barrier diode for high speed switching. 4X DB3X314K Panasonic SC-59SOT-346 Mini3-G3-B 3 Schottky barrier diode for high speed switching. 4X DB4J314K Panasonic - SMini4-F3-B 4 Schottky barrier diode for high speed switching. 4X DB4X314K Panasonic - Mini4-G4-B 4 Schottky barrier diode for high speed switching. 4X DB6X314K Panasonic - Mini6-G4-B 6 Schottky barrier diode for high speed switching. 4x3 015Z4.3Grade -X TOSHIBA - (0.8 x 2.1)(1-1F1A) 2 Zener diode for Constant-Voltage Regulation.Discontinued. 4x7 015Z4.7Grade -X TOSHIBA - (0.8 x 2.1)(1-1F1A) 2 Zener diode for Constant-Voltage Regulation.Discontinued. 4XT 2SK3948Grade T (180~320) Panasonic - TSSSMini3-F1 3 N-ch Junction FET for low frequency impedance converter.DiscontinuedAlternative the DSKTJ06. 4XT 2SK3948GGrade T (180~320) Panasonic - TSSSMini3-F2 3 N-ch Junction FET for low frequency impedance converter.DiscontinuedAlternative the DSKTJ06. 4XU 2SK3948Grade U (280~450) Panasonic - TSSSMini3-F1 3 N-ch Junction FET for low frequency impedance converter.DiscontinuedAlternative the DSKTJ06. 4XU 2SK3948GGrade U (280~450) Panasonic - TSSSMini3-F2 3 N-ch Junction FET for low frequency impedance converter.DiscontinuedAlternative the DSKTJ06. 4Y 2SC4516 Panasonic - Mini Type(4-pin) 4 NPN transistor for UHF band low noise amp.Discontinued. 4Y DB3J314J Panasonic - SMini3-F2-B 3 Schottky barrier diode for high speed switching. 4Y DB3S314J Panasonic SC-89 SSMini3-F3-B 3 Schottky barrier diode for high speed switching. 4Y DB3X314J Panasonic SC-59SOT-346 Mini3-G3-B 3 Schottky barrier diode for high speed switching. 4y3 015Z4.3Grade -Y TOSHIBA - (0.8 x 2.1)(1-1F1A) 2 Zener diode for Constant-Voltage Regulation.Discontinued. 4y7 015Z4.7Grade -Y TOSHIBA - (0.8 x 2.1)(1-1F1A) 2 Zener diode for Constant-Voltage Regulation.Discontinued. 4z3 015Z4.3Grade -Z TOSHIBA - (0.8 x 2.1)(1-1F1A) 2 Zener diode for Constant-Voltage Regulation.Discontinued. 4z7 015Z4.7Grade -Z TOSHIBA - (0.8 x 2.1)(1-1F1A) 2 Zener diode for Constant-Voltage Regulation.Discontinued. 4のリスト説明ページへ (MARKING CODE 「4」 TOP MENU) 前のリスト4(1)へ (BACKWARD) リンク MARKING CODE一覧
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■PlayStation2 Top | 目錄 | あ行 | か行 | さ行 | た行 | な行 | は行 | ま行 | や行 | ら行 | わ行 ■大神 ■「裏技・攻略」情報 ●隱藏映像 當全部關卡都以神評價完成時,就可以欣賞社内講解用映像。 ●妖怪牙 在讀取(Loading)的時候,如果從足跡的第一歩開始就按照足跡的表示依節奏按○掣,就可以得到妖怪牙。 Top | 目錄 | あ行 | か行 | さ行 | た行 | な行 | は行 | ま行 | や行 | ら行 | わ行 ■PlayStation2
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mp4形式への変換方法です。 Any Video Converter Free ダウンロードページへ 使用方法 1.Any Video Converter Freeを起動する。 2.左上の動画を追加をクリックし、変換したいファイルを選択する。 3.右上の出力形式から、mp4動画を選択する 4.上にある変換ボタンを押し、変換を開始する。
https://w.atwiki.jp/cowandbow/pages/2.html
メニュー まもなくこのwikiはblogへ移行します。 トップページ Q&A gigabeat Vシリーズについて アクセサリ・オプション アルバムアート 音楽 ワンセグ 動画 動画変換 簡単・速く変換 TMPGEnc Movie Style体験版のご紹介 ZUNE動画変換体験版のご紹介 ffmpeg(携帯動画変換君) 簡単に変換 SUPER(C) 高速に変換 Avivo Video Converter A s Video Converter 正攻法 Windows Media エンコーダー AviUtl+各種プラグイン 詳細不明 Xilisoft (ImTOO) Zune Video Converter? Windows 2000/Meで使う MacOSXで使う(α) マスストレージとして使う(β) 資料 関連ソフトウェア(ツール) 困ったときは 検索 @ウィキ ガイド @wiki 便利ツール @wiki filelist uploader メニューの編集 合計: - 今日: - 昨日: -
https://w.atwiki.jp/controller/pages/35.html
ホリワイヤレスアナ振2 ワイヤレスアナ振2 TURBO ロジクールコードレスコントローラ コンパクトコードレスコントローラ フジワークアナログ連射ワイヤレスコントローラ「極2 ワイヤレス」 Surf Wave ゲームテックワイヤレスアナログ連射コントローラ AirStyle ワイヤレスDUOSHOCK2 JOYTECHワイヤレスパッド ホリ ワイヤレスアナ振2 連射 ホールド スロー 振動制御 周波数帯 電池 × × × ○ 300MHz 単三 3個 SONY公式ライセンス商品 若干重い。 ボタンに関しては無難。 スイッチの切り忘れに注意。 若干誤動作が多い。(アクションには不向きらしい) 電波は弱いが、AirStyleよりはよい。 環境により、瞬断が発生する場合があり。 カラーはブラック、ブルー、クリアブラック、クリアブルー レシーバーはブラックのみ。 L1 L2 R1 R2ボタンが経年劣化により、 埋まったままになっている個体を多数見かけます。 レシーバーは付属じゃ無いものと入れ替えても動作します。 ワイヤレスアナ振2 TURBO 連射 ホールド スロー 振動制御 周波数帯 電池 ○ ○ ○ ○ 2.4GHz 単三 2個 SONY公式ライセンス商品 レビューはこちらへ→■ コントローラーのボタンを押してもペアリングが完了しない場合、 レシーバーの故障です。 突然死の多いパーツです。 コントローラー本体側は故障ではないので、 他のアナ振2レシーバーがあれば使えます。 ブラック・レッド・ブルーが黒色レシーバー。 シルバーはシルバー色レシーバー。 プラチナホワイトはプラチナホワイト色レシーバー。 ブラック、レッド、ブルーのアナ振2は ボディにラバー加工がされていますが、 発売から15年以上の時が経ち、 コーティング劣化(加水分解)によるベタつきが発生しています。 ワイヤレスアナ振2のレシーバーは、 ブラック、パールホワイト、シルバーを入れ替えても動作します。 ロジクール コードレスコントローラ 連射 ホールド スロー 振動制御 周波数帯 電池 × × × × 2.4GHz 単三 4個 SONY公式ライセンス商品 ロジの旧ワイヤレスコン 十字キーが壊滅的 重くデカイ 質感はいい感じ 振動と電波はかなり強い コンパクトコードレスコントローラ 連射 ホールド スロー 振動制御 周波数帯 電池 × × × ○ 2.4GHz 単三 2個 SONY公式ライセンス商品 ロジの新ワイヤレスコン アナログのキャリブレート→■ 十字キーは無いものと思う事 十字キーの改善方法→■ 比較的小さい 電波はかなり強い 若干、電池が切れやすい? PS2をリセットすると認識不能になるので、いちいち電源を切りなおすのが面倒くさい。 レシーバーは付属のものではなくても、 入れ替えても動作します。 【コンパクトコードレスコントローラのキャリブレーション方法】 1.Playstation 2の電源を切る 2.コントローラの電池を1本抜く 3.L1とL2の両方のボタンを押したまま、先程抜いた電池を差し込む。 4.電池挿入後、2秒ほどでキャリブレーションが完了する。 注意:作業中はアナログスティックに触らないように、 中心にあることを確認した状態で行ってください 【コントローラーに触ってなくてもレシーバーの緑ランプがついてる】 ロジコンパクトは ボタン or アナログスティック の入力中に緑ランプが点灯します。 何も入力がない=ランプが消灯なのですが、 常に緑ランプが付くのはアナログスティック軸の劣化や緩みによって、若干の入力が起こっているためです。 (ゲーム内のキャラクターやカーソルが動くほどではなくても) アナログスティックに指を置き、数ミリ動かすとランプが消えると思われます。 【アナログスティック故障】 軸のそばが割れやすい部品です 初期のデュアルショック1と同じような細い針金軸なので、 太いプラスチック軸のデュアルショック2からの移植はできません。 発売時期によって針金軸の長さが8mmのものと12mmのものがあります。 互換性がなく、逆に取り付けてもグラグラor奥まで入りません。 外から見分ける方法がないので、運試しです。 【十字キーの改善方法】 方向キーは裏からネジ止めされているのでこれを外し このネジが刺さっていた部分を2㎜位ちょん切って短く固定すれば ストロークが小さくなってパコパコ感が薄れる フジワーク アナログ連射ワイヤレスコントローラ「極2 ワイヤレス」 連射 ホールド スロー 振動制御 周波数帯 電池 ○ ○ × ○ 2.4GHz 単三 2個 SONY公式ライセンス商品 公称連続稼働時間300時間 手を添える持ち手が細く、LR1とLR2の間に段差がある。 手が大きい人は持ちにくいかもしれない。手が小さければ逆に持ちやすい? アナログスティックは純正に近い感じで使いやすい。 振動はワイヤレスアナ振2に比べて強め。 軽量なのは○ 十時キーはかなり斜めに入りやすい。 十字キーの内部のゴムがかなり弱いかも。二個買って両方とも半年程度でゴムの間接?(角になっている部分)が切れて使い物にならなくなりました。それほど酷使するゲームはプレイしてません。 チャンネル設定ができないので二名でゲームする場合等不都合が生じる場合が多い。 電波がかなり弱いようで体をレシーバーに対して横向きにしたり太股等を間に挟むだけで通信が切れる。 全体的にはアナ振2の方が上?ただ、アナログは極2の方が使いやすい。 ワイヤード版もアリ Surf Wave 連射 ホールド スロー 振動制御 周波数帯 電池 ○ × ○ ○ 2.4GHz 単三 2個 SONY公式ライセンス商品。SEGA製 初期不良で絶賛好評回収中。 論外 ゲームテック ワイヤレスアナログ連射コントローラ 連射 ホールド スロー 振動制御 周波数帯 電池 ○ × ○ ○ 2.4GHz 単三 2個 連続稼動時間は100時間。(振動無し、アルカリ電池使用) 最高30発/秒の連射設定可能。(十字キーは設定不可) 値段相応に安っぽい。 良くも無いが悪くも無い。 スリープからの復帰が面倒。(ボタン2秒押し) 電源入れなおした方が早い。 ホリと比べると、若干操作性が落ちるかも。 でもボタンを押した感じはしっかりしてる。(重い感じ) 生産終了商品。 AirStyle 連射 ホールド スロー 振動制御 周波数帯 電池 × × × ○ 900MHz 単三 2個 海外の輸入物(カオス館等で入手可) 大きさとボタンは純正に近い。 表面の質感はいい。 十字キーは使いやすい。 電波が弱いので、環境によって相性がモロに出やすい。 電波の指向性が強く、障害物や横を向いての使用は不向き。 ワイヤレスDUOSHOCK2 連射 ホールド スロー 振動制御 周波数帯 電池 ? ? ? ? 2.4GHz 充電池内蔵 強く押さないとボタンが反応しない(感圧が使いづらい) 電波は強く切れにくい グリップが握りやすい おまけ程度のプログラム機能付き 国内で売っていないので、手に入りにくいのが欠点 注:付属のACアダプターは海外向けのため、決して使用しないで下さい。 JOYTECHワイヤレスパッド 連射 ホールド スロー 振動制御 周波数帯 電池 ? ? ? ? 2.4GHz 単四 3個 電波はかなり良好 十字キー、ボタン、質感は平均レベル チャンネル(1~8)手動設定 アナログスティックは柔らかめ レシーバーがかなり大きい 国内で売っていないので、手に入りにくいのが欠点
https://w.atwiki.jp/usbmemory/
はじめに USBメモリに関する情報をまとめているWikiです。 初めての方は オススメのUSBメモリ FAQ メーカーごとのUSBメモリを見たい場合は メーカー別USBメモリ からどうぞ。 関連リンク 現行スレ USBメモリ 43本目 過去スレ USBメモリ 42本目 USBメモリ 41本目 autorunウイルスが最近流行ってるようなのでご注意をば。
https://w.atwiki.jp/coinwiki/pages/53.html
This is a multi-threaded multi-pool FPGA and ASIC miner for bitcoin. This code is provided entirely free of charge by the programmer in his spare time so donations would be greatly appreciated. Please consider donating to the address below. Con Kolivas kernel@kolivas.org 15qSxP1SQcUX3o4nhkfdbgyoWEFMomJ4rZ DOWNLOADS http //ck.kolivas.org/apps/cgminer GIT TREE https //github.com/ckolivas/cgminer Support thread http //bitcointalk.org/index.php?topic=28402.0 IRC Channel irc //irc.freenode.net/cgminer License GPLv3. See COPYING for details. SEE ALSO API-README, ASIC-README and FGPA-README FOR MORE INFORMATION ON EACH. EXECUTIVE SUMMARY ON USAGE Single pool cgminer -o http //pool port -u username -p password Multiple pools cgminer -o http //pool1 port -u pool1username -p pool1password -o http //pool2 port -u pool2usernmae -p pool2password Single pool with a standard http proxy cgminer -o "http proxy port|http //pool port" -u username -p password Single pool with a socks5 proxy cgminer -o "socks5 proxy port|http //pool port" -u username -p password Single pool with stratum protocol support cgminer -o stratum+tcp //pool port -u username -p password The list of proxy types are http standard http 1.1 proxy http0 http 1.0 proxy socks4 socks4 proxy socks5 socks5 proxy socks4a socks4a proxy socks5h socks5 proxy using a hostname If you compile cgminer with a version of CURL before 7.19.4 then some of the above will not be available. All are available since CURL version 7.19.4 If you specify the --socks-proxy option to cgminer, it will only be applied to all pools that don t specify their own proxy setting like above After saving configuration from the menu, you do not need to give cgminer any arguments and it will load your configuration. Any configuration file may also contain a single "include" "filename" to recursively include another configuration file. Writing the configuration will save all settings from all files in the output. BUILDING CGMINER FOR YOURSELF DEPENDENCIES Mandatory pkg-confighttp //www.freedesktop.org/wiki/Software/pkg-config libtoolhttp //www.gnu.org/software/libtool/ Optional curl dev library http //curl.haxx.se/libcurl/ (libcurl4-openssl-dev - Must tell configure --disable-libcurl otherwise it will attempt to compile it in) curses dev library (libncurses5-dev or libpdcurses on WIN32 for text user interface) libudev dev library (libudev-dev) (This is only required for USB device support and is linux only) If building from git autoconf automake If building on Red Hat sudo yum install autoconf automake autoreconf libtool openssl-compat-bitcoin-devel.x86_64 \ curl libcurl libcurl-devel openssh CGMiner specific configuration options --enable-avalon Compile support for Avalon (default disabled) --enable-bflsc Compile support for BFL ASICs (default disabled) --enable-bitforce Compile support for BitForce FPGAs (default disabled) --enable-bitfury Compile support for BitFury ASICs (default disabled) --enable-hashfast Compile support for Hashfast (default disabled) --enable-icarus Compile support for Icarus (default disabled) --enable-knc Compile support for KnC miners (default disabled) --enable-bab Compile support for BlackArrow Bitfury (default disabled) --enable-klondike Compile support for Klondike (default disabled) --enable-modminer Compile support for ModMiner FPGAs(default disabled) --without-curses Compile support for curses TUI (default enabled) --with-system-libusb Compile against dynamic system libusb (default use included static libusb) Basic *nix build instructions To actually build ./autogen.sh# only needed if building from git repo CFLAGS="-O2 -Wall -march=native" ./configure options make No installation is necessary. You may run cgminer from the build directory directly, but you may do make install if you wish to install cgminer to a system location or location you specified. Native WIN32 build instructions see windows-build.txt Usage instructions Run "cgminer --help" to see options Usage cgminer [-DdElmpPQqUsTouOchnV] Options for both config file and command line api-allow Allow API access (if enabled) only to the given list of [W ]IP[/Prefix] address[/subnets] This overrides --api-network and you must specify 127.0.0.1 if it is required W in front of the IP address gives that address privileged access to all api commands api-description Description placed in the API status header (default cgminer version) api-groups API one letter groups G cmd cmd[,P cmd *...] See API-README for usage api-listen Listen for API requests (default disabled) By default any command that does not just display data returns access denied See --api-allow to overcome this api-network Allow API (if enabled) to listen on/for any address (default only 127.0.0.1) api-mcast Enable API Multicast listener, (default disabled) The listener will only run if the API is also enabled api-mcast-addr arg API Multicast listen address, (default 224.0.0.75) api-mcast-code arg Code expected in the API Multicast message, don t use - (default "FTW") api-mcast-port arg API Multicast listen port, (default 4028) api-port Port number of miner API (default 4028) balance Change multipool strategy from failover to even share balance benchmark Run cgminer in benchmark mode - produces no shares compact Use compact display without per device statistics debug|-D Enable debug output device|-d arg Select device to use, one value, range and/or comma separated (e.g. 0-2,4) default all disable-rejecting Automatically disable pools that continually reject shares expiry|-E arg Upper bound on how many seconds after getting work we consider a share from it stale (default 120) failover-only Don t leak work to backup pools when primary pool is lagging fix-protocol Do not redirect to a different getwork protocol (eg. stratum) hotplug arg Set hotplug check time to arg seconds (0=never default 5) - only with libusb kernel-path|-K arg Specify a path to where bitstream files are (default "/usr/local/bin") load-balance Change multipool strategy from failover to quota based balance log|-l arg Interval in seconds between log output (default 5) lowmem Minimise caching of shares for low memory applications monitor|-m arg Use custom pipe cmd for output messages net-delay Impose small delays in networking to not overload slow routers no-submit-stale Don t submit shares if they are detected as stale pass|-p arg Password for bitcoin JSON-RPC server per-device-stats Force verbose mode and output per-device statistics protocol-dump|-P Verbose dump of protocol-level activities queue|-Q arg Minimum number of work items to have queued (0 - 10) (default 1) quiet|-q Disable logging output, display status and errors real-quiet Disable all output remove-disabled Remove disabled devices entirely, as if they didn t exist rotate arg Change multipool strategy from failover to regularly rotate at N minutes (default 0) round-robin Change multipool strategy from failover to round robin on failure scan-time|-s arg Upper bound on time spent scanning current work, in seconds (default 60) sched-start arg Set a time of day in HH MM to start mining (a once off without a stop time) sched-stop arg Set a time of day in HH MM to stop mining (will quit without a start time) sharelog arg Append share log to file shares arg Quit after mining N shares (default unlimited) socks-proxy arg Set socks4 proxy (host port) for all pools without a proxy specified syslog Use system log for output messages (default standard error) temp-cutoff arg Temperature where a device will be automatically disabled, one value or comma separated list (default 95) text-only|-T Disable ncurses formatted screen output url|-o arg URL for bitcoin JSON-RPC server user|-u arg Username for bitcoin JSON-RPC server verbose Log verbose output to stderr as well as status output userpass|-O arg Username Password pair for bitcoin JSON-RPC server Options for command line only config|-c arg Load a JSON-format configuration file See example.conf for an example configuration. help|-h Print this message version|-V Display version and exit USB device (ASIC and FPGA) options icarus-options arg Set specific FPGA board configurations - one set of values for all or comma separated icarus-timing arg Set how the Icarus timing is calculated - one setting/value for all or comma separated usb arg USB device selection (See below) usb-dump (See FPGA-README) See FGPA-README or ASIC-README for more information regarding these. ASIC only options avalon-auto Adjust avalon overclock frequency dynamically for best hashrate avalon-fan arg Set fanspeed percentage for avalon, single value or range (default 20-100) avalon-freq arg Set frequency range for avalon-auto, single value or range avalon-cutoff arg Set avalon overheat cut off temperature (default 60) avalon-options arg Set avalon options baud miners asic timeout freq avalon-temp arg Set avalon target temperature (default 50) bflsc-overheat arg Set overheat temperature where BFLSC devices throttle, 0 to disable (default 90) bitburner-fury-options arg Override avalon-options for BitBurner Fury boards baud miners asic timeout freq bitburner-fury-voltage arg Set BitBurner Fury core voltage, in millivolts bitburner-voltage arg Set BitBurner (Avalon) core voltage, in millivolts klondike-options arg Set klondike options clock temptarget See ASIC-README for more information regarding these. FPGA only options bfl-range Use nonce range on bitforce devices if supported See FGPA-README for more information regarding this. Cgminer should automatically find all of your Avalon ASIC, BFL ASIC, BitForce FPGAs, Icarus bitstream FPGAs, Klondike ASIC, ASICMINER usb block erupters, KnC ASICs, BaB ASICs, Hashfast ASICs, ModMiner FPGAs, BPMC/BGMC BF1 USB ASICs and Bi*fury USB ASICs. SETTING UP USB DEVICES WINDOWS On windows, the direct USB support requires the installation of a WinUSB driver (NOT the ftdi_sio driver), and attach it to the chosen USB device. When configuring your device, plug it in and wait for windows to attempt to install a driver on its own. It may think it has succeeded or failed but wait for it to finish regardless. This is NOT the driver you want installed. At this point you need to associate your device with the WinUSB driver. The easiest way to do this is to use the zadig utility which you must right click on and run as administrator. Then once you plug in your device you can choose the "list all devices" from the "option" menu and you should be able to see the device as something like "BitFORCE SHA256 SC". Choose the install or replace driver option and select WinUSB. You can either google for zadig or download it from the cgminer directory in the DOWNLOADS link above. When you first switch a device over to WinUSB with zadig and it shows that correctly on the left of the zadig window, but it still gives permission errors, you may need to unplug the USB miner and then plug it back in. Some users may need to reboot at this point. LINUX On linux, the direct USB support requires no drivers at all. However due to permissions issues, you may not be able to mine directly on the devices as a regular user without giving the user access to the device or by mining as root (administrator). In order to give your regular user access, you can make him a member of the plugdev group with the following commands sudo usermod -G plugdev -a `whoami` If your distribution does not have the plugdev group you can create it with sudo groupadd plugdev In order for the BFL devices to instantly be owned by the plugdev group and accessible by anyone from the plugdev group you can copy the file "01-cgminer.rules" from the cgminer archive into the /etc/udev/rules.d directory with the following command sudo cp 01-cgminer.rules /etc/udev/rules.d/ After this you can either manually restart udev and re-login, or more easily just reboot. OSX On OSX, like Linux, no drivers need to be installed. However some devices like the bitfury USB sticks automatically load a driver thinking they re a modem and the driver needs to be unloaded for cgminer to work sudo kextunload -b com.apple.driver.AppleUSBCDC sudo kextunload -b com.apple.driver.AppleUSBCDCACMData Advanced USB options The --usb option can restrict how many Avalon, BFL ASIC, BitForce FPGAs, Klondike ASIC, ModMiner FPGAs or Icarus bitstream FPGAs it finds --usb 1 2,1 3,1 4,1 * or --usb BAS 1,BFL 1,MMQ 0,ICA 0,KLN 0 or --usb 10 You can only use one of the above 3 The first version --usb 1 2,1 3,1 4,1 * allows you to select which devices to mine on with a list of USB bus_number device_address All other USB devices will be ignored Hotplug will also only look at the devices matching the list specified and find nothing new if they are all in use You can specify just the USB bus_number to find all devices like 1 * which means any devices on USB bus_number 1 This is useful if you unplug a device then plug it back in the same port, it usually reappears with the same bus_number but a different device_address You can see the list of all USB devices on linux with sudo lsusb Cgminer will list the recognised USB devices with the -n option or the --usb-dump 0 option The --usb-dump N option with a value of N greater than 0 will dump a lot of details about each recognised USB device If you wish to see all USB devices, include the --usb-list-all option The second version --usb BAS 1,BFL 1,MMQ 0,ICA 0,KLN 0 allows you to specify how many devices to choose based on each device driver cgminer has - there are currently 5 USB drivers BAS, BFL, MMQ. ICA KLN N.B. you can only specify which device driver to limit, not the type of each device, e.g. with BAS n you can limit how many BFL ASIC devices will be checked, but you cannot limit the number of each type of BFL ASIC Also note that the MMQ count is the number of MMQ backplanes you have not the number of MMQ FPGAs The third version --usb 10 means only use a maximum of 10 devices of any supported USB devices Once cgminer has 10 devices it will not configure any more and hotplug will not scan for any more If one of the 10 devices stops working, hotplug - if enabled, as is default will scan normally again until it has 10 devices --usb 0 will disable all USB I/O other than to initialise libusb NOTE The --device option will limit which devices are in use based on their numbering order of the total devices, so if you hotplug USB devices regularly, it will not reliably be the same devices. WHILE RUNNING The following options are available while running with a single keypress [P]ool management [S]ettings [D]isplay options [Q]uit P gives you Current pool management strategy Failover [F]ailover only disabled [A]dd pool [R]emove pool [D]isable pool [E]nable pool [C]hange management strategy [S]witch pool [I]nformation S gives you [Q]ueue 1 [S]cantime 60 [E]xpiry 120 [W]rite config file [C]gminer restart D gives you [N]ormal [C]lear [S]ilent mode (disable all output) [D]ebug off [P]er-device off [Q]uiet off [V]erbose off [R]PC debug off [W]orkTime details off co[M]pact off [L]og interval 5 Q quits the application. The running log shows output like this [2013-11-09 11 04 41] Accepted 01b3bde7 Diff 150/128 AVA 1 pool 0 [2013-11-09 11 04 49] Accepted 015df995 Diff 187/128 AVA 1 pool 0 [2013-11-09 11 04 50] Accepted 01163b68 Diff 236/128 AVA 1 pool 0 [2013-11-09 11 04 53] Accepted 9f745840 Diff 411/128 BAS 1 pool 0 The 8 byte hex value are the 1st nonzero bytes of the share being submitted to the pool. The 2 diff values are the actual difficulty target that share reached followed by the difficulty target the pool is currently asking for. Also many issues and FAQs are covered in the forum thread dedicated to this program, http //forum.bitcoin.org/index.php?topic=28402.0 The output line shows the following (5s) 1713.6 (avg) 1707.8 Mh/s | A 729 R 8 HW 0 WU 22.53/m Each column is as follows 5s A 5 second exponentially decaying average hash rate avg An all time average hash rate A The total difficulty of Accepted shares R The total difficulty of Rejected shares HW The number of HardWare errors WU The Work Utility defined as the number of diff1 shares work / minute (accepted or rejected). BAS 1 max 67C 3.27V | 62.29G/62.19Gh/s | A 140813 R 256 HW 2860 WU 852.0/m Each column is as follows Temperature (if supported) Fanspeed (if supported) A 5 second exponentially decaying average hash rate An all time average hash rate The total difficulty of accepted shares The total difficulty of rejected shares The number of hardware erorrs The work utility defined as the number of diff1 shares work / minute The cgminer status line shows ST 1 SS 0 NB 1 LW 8 GF 1 RF 1 ST is STaged work items (ready to use). SS is Stale Shares discarded (detected and not submitted so don t count as rejects) NB is New Blocks detected on the network LW is Locally generated Work items GF is Getwork Fail Occasions (server slow to provide work) RF is Remote Fail occasions (server slow to accept work) The block display shows Block 0074c5e482e34a506d2a051a... Started [17 17 22] Best share 2.71K This shows a short stretch of the current block, when the new block started, and the all time best difficulty share you ve found since starting cgminer this time. MULTIPOOL FAILOVER STRATEGIES WITH MULTIPOOL A number of different strategies for dealing with multipool setups are available. Each has their advantages and disadvantages so multiple strategies are available by user choice, as per the following list FAILOVER The default strategy is failover. This means that if you input a number of pools, it will try to use them as a priority list, moving away from the 1st to the 2nd, 2nd to 3rd and so on. If any of the earlier pools recover, it will move back to the higher priority ones. ROUND ROBIN This strategy only moves from one pool to the next when the current one falls idle and makes no attempt to move otherwise. ROTATE This strategy moves at user-defined intervals from one active pool to the next, skipping pools that are idle. LOAD BALANCE This strategy sends work to all the pools on a quota basis. By default, all pools are allocated equal quotas unless specified with --quota. This apportioning of work is based on work handed out, not shares returned so is independent of difficulty targets or rejected shares. While a pool is disabled or dead, its quota is dropped until it is re-enabled. Quotas are forward looking, so if the quota is changed on the fly, it only affects future work. If all pools are set to zero quota or all pools with quota are dead, it will fall back to a failover mode. See quota below for more information. The failover-only flag has special meaning in combination with load-balance mode and it will distribute quota back to priority pool 0 from any pools that are unable to provide work for any reason so as to maintain quota ratios between the rest of the pools. BALANCE This strategy monitors the amount of difficulty 1 shares solved for each pool and uses it to try to end up doing the same amount of work for all pools. QUOTAS The load-balance multipool strategy works off a quota based scheduler. The quotas handed out by default are equal, but the user is allowed to specify any arbitrary ratio of quotas. For example, if all the quota values add up to 100, each quota value will be a percentage, but if 2 pools are specified and pool0 is given a quota of 1 and pool1 is given a quota of 9, pool0 will get 10% of the work and pool1 will get 90%. Quotas can be changed on the fly by the API, and do not act retrospectively. Setting a quota to zero will effectively disable that pool unless all other pools are disabled or dead. In that scenario, load-balance falls back to regular failover priority-based strategy. While a pool is dead, it loses its quota and no attempt is made to catch up when it comes back to life. To specify quotas on the command line, pools should be specified with a semicolon separated --quota(or -U) entry instead of --url. Pools specified with url are given a nominal quota value of 1 and entries can be mixed. For example url poola porta -u usernamea -p passa --quota "2;poolb portb" -u usernameb -p passb Will give poola 1/3 of the work and poolb 2/3 of the work. Writing configuration files with quotas is likewise supported. To use the above quotas in a configuration file they would be specified thus "pools" [ { "url" "poola porta", "user" "usernamea", "pass" "passa" }, { "quota" "2;poolb portb", "user" "usernameb", "pass" "passb" } ] LOGGING cgminer will log to stderr if it detects stderr is being redirected to a file. To enable logging simply add 2 logfile.txt to your command line and logfile.txt will contain the logged output at the log level you specify (normal, verbose, debug etc.) In other words if you would normally use ./cgminer -o xxx -u yyy -p zzz if you use ./cgminer -o xxx -u yyy -p zzz 2 logfile.txt it will log to a file called logfile.txt and otherwise work the same. There is also the -m option on linux which will spawn a command of your choice and pipe the output directly to that command. The WorkTime details debug option adds details on the end of each line displayed for Accepted or Rejected work done. An example would be -00000059.ed4834a3 M X D 1.0 G 17 02 38 0.405 C 1.855 (2.995) W 3.440 (0.000) S 0.461 R 17 02 47 The first 2 hex codes are the previous block hash, the rest are reported in seconds unless stated otherwise The previous hash is followed by the getwork mode used M X where X is one of P Pool, T Test Pool, L LP or B Benchmark, then D d.ddd is the difficulty required to get a share from the work, then G hh mm ss n.nnn, which is when the getwork or LP was sent to the pool and the n.nnn is how long it took to reply, followed by O on it s own if it is an original getwork, or C n.nnn if it was a clone with n.nnn stating how long after the work was recieved that it was cloned, (m.mmm) is how long from when the original work was received until work started, W n.nnn is how long the work took to process until it was ready to submit, (m.mmm) is how long from ready to submit to actually doing the submit, this is usually 0.000 unless there was a problem with submitting the work, S n.nnn is how long it took to submit the completed work and await the reply, R hh mm ss is the actual time the work submit reply was received If you start cgminer with the --sharelog option, you can get detailed information for each share found. The argument to the option may be "-" for standard output (not advisable with the ncurses UI), any valid positive number for that file descriptor, or a filename. To log share data to a file named "share.log", you can use either ./cgminer --sharelog 50 -o xxx -u yyy -p zzz 50 share.log ./cgminer --sharelog share.log -o xxx -u yyy -p zzz For every share found, data will be logged in a CSV (Comma Separated Value) format timestamp,disposition,target,pool,dev,thr,sharehash,sharedata For example (this is wrapped, but it s all on one line for real) 1335313090,reject, ffffffffffffffffffffffffffffffffffffffffffffffffffffffff00000000, http //localhost 8337,GPU0,0, 6f983c918f3299b58febf95ec4d0c7094ed634bc13754553ec34fc3800000000, 00000001a0980aff4ce4a96d53f4b89a2d5f0e765c978640fe24372a000001c5 000000004a4366808f81d44f26df3d69d7dc4b3473385930462d9ab707b50498 f681634a4f1f63d01a0cd43fb338000000000080000000000000000000000000 0000000000000000000000000000000000000000000000000000000080020000 RPC API For RPC API details see the API-README file FAQ Q Can I mine on servers from different networks (eg xxxcoin and bitcoin) at the same time? A No, cgminer keeps a database of the block it s working on to ensure it does not work on stale blocks, and having different blocks from two networks would make it invalidate the work from each other. Q Can I configure cgminer to mine with different login credentials or pools for each separate device? A No. Q Can I put multiple pools in the config file? A Yes, check the example.conf file. Alternatively, set up everything either on the command line or via the menu after startup and choose settings- write config file and the file will be loaded one each startup. Q The build fails with gcc is unable to build a binary. A Remove the "-march=native" component of your CFLAGS as your version of gcc does not support it. Q Can you implement feature X? A I can, but time is limited, and people who donate are more likely to get their feature requests implemented. Q Work keeps going to my backup pool even though my primary pool hasn t failed? A Cgminer checks for conditions where the primary pool is lagging and will pass some work to the backup servers under those conditions. The reason for doing this is to try its absolute best to keep the devices working on something useful and not risk idle periods. You can disable this behaviour with the option --failover-only. Q Is this a virus? A Cgminer is being packaged with other trojan scripts and some antivirus software is falsely accusing cgminer.exe as being the actual virus, rather than whatever it is being packaged with. If you installed cgminer yourself, then you do not have a virus on your computer. Complain to your antivirus software company. They seem to be flagging even source code now from cgminer as viruses, even though text source files can t do anything by themself. Q Can you modify the display to include more of one thing in the output and less of another, or can you change the quiet mode or can you add yet another output mode? A Everyone will always have their own view of what s important to monitor. The defaults are very sane and I have very little interest in changing this any further. Q What are the best parameters to pass for X pool/hardware/device. A Virtually always, the DEFAULT parameters give the best results. Most user defined settings lead to worse performance. Q What happened to CPU and GPU mining? A Their efficiency makes them irrelevant in the bitcoin mining world today and the author has no interest in supporting alternative coins that are better mined by these devices. Q GUI version? A No. The RPC interface makes it possible for someone else to write one though. Q I m having an issue. What debugging information should I provide? A Start cgminer with your regular commands and add -D -T --verbose and provide the full startup output and a summary of your hardware and operating system. Q Why don t you provide win64 builds? A Win32 builds work everywhere and there is precisely zero advantage to a 64 bit build on windows. Q Is it faster to mine on windows or linux? A It makes no difference in terms of performance. It comes down to choice of operating system for their various features and your comfort level. However linux is the primary development platform and is virtually guaranteed to be more stable. Q My network gets slower and slower and then dies for a minute? A; Try the --net-delay option if you are on a getwork or GBT server. Q How do I tune for p2pool? A It is also recommended to use --failover-only since the work is effectively like a different block chain, and not enabling --no-submit-stale. If mining with a BFL (fpga) minirig, it is worth adding the --bfl-range option. Q I run PHP on windows to access the API with the example miner.php. Why does it fail when php is installed properly but I only get errors about Sockets not working in the logs? A http //us.php.net/manual/en/sockets.installation.php Q What is a PGA? A At the moment, cgminer supports 3 FPGAs BitForce, Icarus and ModMiner. They are Field-Programmable Gate Arrays that have been programmed to do Bitcoin mining. Since the acronym needs to be only 3 characters, the "Field-" part has been skipped. Q What is an ASIC? A They are Application Specify Integrated Circuit devices and provide the highest performance per unit power due to being dedicated to only one purpose. Q Can I mine scrypt with FPGAs or ASICs? A No. Q What is stratum and how do I use it? A Stratum is a protocol designed for pooled mining in such a way as to minimise the amount of network communications, yet scale to hardware of any speed. With versions of cgminer 2.8.0+, if a pool has stratum support, cgminer will automatically detect it and switch to the support as advertised if it can. If you input the stratum port directly into your configuration, or use the special prefix "stratum+tcp //" instead of "http //", cgminer will ONLY try to use stratum protocol mining. The advantages of stratum to the miner are no delays in getting more work for the miner, less rejects across block changes, and far less network communications for the same amount of mining hashrate. If you do NOT wish cgminer to automatically switch to stratum protocol even if it is detected, add the --fix-protocol option. Q Why don t the statistics add up Accepted, Rejected, Stale, Hardware Errors, Diff1 Work, etc. when mining greater than 1 difficulty shares? A As an example, if you look at Difficulty Accepted in the RPC API, the number of difficulty shares accepted does not usually exactly equal the amount of work done to find them. If you are mining at 8 difficulty, then you would expect on average to find one 8 difficulty share, per 8 single difficulty shares found. However, the number is actually random and converges over time, it is an average, not an exact value, thus you may find more or less than the expected average. Q My keyboard input momentarily pauses or repeats keys every so often on windows while mining? A The USB implementation on windows can be very flaky on some hardware and every time cgminer looks for new hardware to hotplug it it can cause these sorts of problems. You can disable hotplug with hotplug 0 Q What should my Work Utility (WU) be? A Work utility is the product of hashrate * luck and only stabilises over a very long period of time. Assuming all your work is valid work, bitcoin mining should produce a work utility of approximately 1 per 71.6MH. This means at 5GH you should have a WU of 5000 / 71.6 or ~ 69. You cannot make your machine do "better WU" than this - it is luck related. However you can make it much worse if your machine produces a lot of hardware errors producing invalid work. This code is provided entirely free of charge by the programmer in his spare time so donations would be greatly appreciated. Please consider donating to the address below. Con Kolivas kernel@kolivas.org 15qSxP1SQcUX3o4nhkfdbgyoWEFMomJ4rZ
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A Bigger Bang North American Tour 2005 05/10/2005 Julliard School Of Music, New York City 08/10/2005 Phoenix Concert Theatre - Toronto, ON 08/21/2005 Fenway Park - Boston, MA 08/23/2005 Fenway Park - Boston, MA 08/26/2005 Rentschler Field - Hartford, CT 08/28/2005 Frank Clair Stadium at Lansdowne Park - Ottawa, ON 08/31/2005 Comerica Park - Detroit, MI 09/03/2005 Magnetic Hill Concert Site - Moncton, NB 09/06/2005 Xcel Energy Center - St. Paul, MN 09/08/2005 Bradley Center - Milwaukee, WI 09/10/2005 Soldier Field - Chicago, IL 09/13/2005 Madison Square Garden - New York, NY 09/15/2005 Giants Stadium - East Rutherford, NJ 09/17/2005 Pepsi Arena - Albany, NY 09/24/2005 Nationwide Arena - Columbus, OH 09/26/2005 Rogers Centre - Toronto, ON 09/28/2005 PNC Park - Pittsburgh, PA 10/01/2005 Hersheypark Stadium - Hershey, PA 10/03/2005 MCI Center - Washington, DC 10/06/2005 Scott Stadium - Charlottesville, VA 10/08/2005 Wallace Wade Stadium - Durham, NC 10/10/2005 Wachovia Center - Philadelphia, PA 10/12/2005 Wachovia Center - Philadelphia, PA 10/15/2005 Philips Arena - Atlanta, GA 10/17/2005 AmericanAirlines Arena - Miami, FL 10/19/2005 St. Pete Times Forum - Tampa, FL 10/21/2005 Charlotte Bobcats Arena - Charlotte, North Carolina 10/28/2005 Pengrowth Saddledome - Calgary, AB 10/30/2005 KeyArena - Seattle, WA 11/01/2005 Rose Garden - Portland, OR 11/04/2005 Angel Stadium of Anaheim - Anaheim, CA 11/06/2005 Hollywood Bowl - Hollywood, CA 11/08/2005 Hollywood Bowl - Hollywood, CA 11/11/2005 PETCO Park - San Diego, CA 11/13/2005 SBC Park - San Francisco, CA 11/15/2005 SBC Park - San Francisco, CA 11/18/2005 MGM Grand Garden Arena - Las Vegas, NV 11/20/2005 Save Mart Center - Fresno, CA 11/22/2005 Delta Center - Salt Lake City, UT 11/24/2005 Pepsi Center - Denver, CO 11/27/2005 Glendale Arena - Glendale, AZ 11/29/2005 American Airlines Center - Dallas, TX 12/01/2005 Toyota Center - Houston, TX 12/03/2005 FedExForum - Memphis, TN BACK / NEXT
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The story below is originally published on Mainichi Daily News by Mainichi Shinbun (http //mdn.mainichi.jp). They admitted inventing its kinky features, or rather deliberately mistranslating them from the original gossip magazine. In fact, this is far from the general Japanese behavior or sense of worth. このページは、毎日新聞事件の検証のための配信記事対訳ページです。直接ジャンプして来られた方は、必ずFAQをお読みください。 ※ この和訳はあくまでもボランティアの方々による一例であり、翻訳の正確さについては各自判断してください。もし誤訳(の疑い)を発見した場合には、直接ページを編集して訂正するか翻訳者連絡掲示板に報告してください。 Beware of the hot dogs at Japan's convenience stores日本のコンビニエンスストアのホットドッグに気をつけろ 拡散状況 関連ページ Beware of the hot dogs at Japan s convenience stores 日本のコンビニエンスストアのホットドッグに気をつけろ 0 Beware of the hot dogs at Japan s convenience stores 2006,03,30 Spa! (4/4) By Ryann Connell 日本のコンビニエンスストアのホットドッグ(*1)に気をつけろ 2006,03,30 SPA! (4/4) ライアン・コネル記 1 Convenience store owner Tomonori Hashimoto thought something was a little weird about the elementary school kid who had been squatting down for quite some time reading a magazine from one of the store s racks. コンビニエンスストア店長・橋本智則は、店の棚の一つから雑誌を取り出してかなりの時間しゃがみ読みをしていた小学生の男の子について、何かが少し奇妙だと思った。 2 But the store boss was shocked, Spa! (4/4) says, when he looked over the little boy s shoulders to see he was not only reading a filthy, erotic manga, but rubbing his grimy fingers up and down on the breasts of one of the characters depicted in it. しかし、SPA!(4/4)によると、少年がいやらしいエロ漫画を読んでいただけでなく、それに描かれていた登場人物の一人の胸の部分を垢じみた指でこすっているのを、少年の肩越しに見たとき、店長は驚いた。 3 "Oi, that s an adult s book!" Hashimoto recalls screaming at the boy, prompting him to go into hysterics as he realized he d been nabbed red-handed. The screaming child raced out of the store. 「おい、それは大人向けの本だ!」と橋本は少年に叫んだことを思い出す。少年は現行犯で捕まえられたことに気がついてすぐにヒステリックになった。 叫びながら少年は店の外へ駆け出した。 4 "I hope he gets a move on and grows up so he can fondle some real ones," the storeowner tells Spa! "I was right behind him." 「彼が急いで成長して本物のおっぱいを愛撫できるようになることを、私は望みます」と店長はSPA!に語る。 「私は彼を本当に応援しました」 5 Japan s convenience stores, the men s weekly says, have gone well past the time when they were mere retail outlets catering to local residents needs. Indeed, conbini, as the local parlance refers to them, have become vital contributor to society as a whole thanks to their open-all-hours, sell-anything stance. And, like any dearly beloved friend, the more people accept conbini and the capers that go on there, the more they like them, warts and all. SPA!がいうには、日本のコンビニエンスストアは、地域住民の必需品を提供する小売店に過ぎなかった頃から、ずいぶん遅い時刻まで開店していた。 実際、コンビニ(コンビニエンスストアをあらわす日本の言葉遣い)は、概して24時間営業でどんなものでも売るという姿勢のおかげで、 社会への不可欠な貢献者となった。 6 Yuka Sugawara, a 24-year-old conbini employee, may not have exactly got the warts part, but she did experience a conbini caper that gave her the willies -- literally. 24歳のコンビニ従業員菅原由佳はいやなやつの味方には必ずしもならないかもしれないが、彼女は、彼女を怖がらせた -- 文字通りの意味では、彼女にちんちんをだした -- コンビニ犯罪に遭遇してしまった。 7 Sugawara was stuck doing a graveyard shift when a co-worker failed to turn up. After a while, a guy of about 25 came into the store. He was wearing sunglasses even though it was pitch black outside. He loitered around inside the store for about 10 minutes before finally picking up a dirty magazine. 菅原は、深夜勤務をしていたときに同僚が出勤できなくて帰れなかった。 しばらくして、25歳くらいの男が店にやってきた。 彼は外が真っ暗だというのにサングラスをかけていた。 彼は10分ほど店内をぶらぶら歩き回ったが、とうとういやらしい雑誌を手に取った。 8 "When guys buy those magazines, they always put them face down on the counter. But this guy openly flaunted the magazine he was buying. I was just thinking that he was a dirty old man when he flopped this big red thing down as well," Sugawara tells Spa! 「男の人たちはこういった雑誌を買うとき、いつも表紙を下にしてカウンターに置きます。 しかしこの男は自分が買う雑誌をおおっぴらに見せびらかしました。 彼が大きくて赤いモノも一緒にどすんと置いたとき、私はまさに彼は変態男だと考えていました」と菅原はSPA!に語る。 9 The "big red thing" was, in fact, an organ, though the type more commonly railed against in church as opposed to played. The man s face remained impassive as he jingled and jangled the object around in his hands. 「大きくて赤いモノ」とは、一般にこのてのものは祈祷中に演奏されないように柵で覆われているにもかかわらず、実際には、男性器(オルガン)(*2)だった。 男の顔は、彼がモノを手の中で性的に興奮させてジャラジャラさせながら、無表情のままだった。 10 "I figure that if you react to those types, it only makes them more excited. I certainly didn t want to touch him, so I left his change on the counter, then turned around and started stacking cigarettes on shelves again," Sugawara says. "I couldn t just leave him alone...he was a customer after all." (By Ryann Connell) 「この手の人に反応しても、相手をもっと興奮させるだけだ、と私は思いました。 もちろん彼に触りたくなかったので、私はお釣りをカウンターの上に置いたままにして、振り向いて棚の上のタバコを積みかせねることを再開しました」と菅原は言う。 「私は彼を一人きりにはできませんでした…なんといっても彼はお客様なのですから」(ライアン・コネル記) 11 (Mainichi Japan) March 30, 2006 (毎日 日本) 2006年3月30日 拡散状況 英語サイト http //ege-sushi.com/discuss/viewtopic.php?t=61 http //www.jucee.org/China/The-screaming-child-raced-out-of-the-store.html http //newsgroups.derkeiler.com/Archive/Soc/soc.culture.china/2006-04/msg00133.html http //www.thetechzone.com/forums/showthread.php?threadid=82798 関連ページ WaiWaiの記事を転載した英語サイト:E WaiWaiの記事を転載した英語サイト:J WaiWaiの記事を転載した英語サイト:N WaiWaiの記事を転載した英語サイト:T 毎日新聞英語版から配信された記事2006年
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this_page プラグインエラー エラー this_page プラグインエラー エラーのマーキングコード一覧です。 マーキングコードは同じでも製品型番が異なるものもありますので外形、特性などをデータシートで比べることをおすすめします。 「*」,「**」,「***」,「****」にはロットNo.やデートコード,「#」,「_」などにはhFE、特性種別などにより各々の文字が入ります。詳しくは各データシートを参照してください。 注意事項はTOSHIBAを参照して下さい。 マーキングコードリスト LIST TOSHIBA(1) LIST TOSHIBA(2) LIST TOSHIBA(3) LIST TOSHIBA(4) TOSHIBAのリスト説明ページ(TOSHIBA TOP MENU) 前のリスト TOSHIBA(2)へ(BACKWARD) 次のリスト TOSHIBA(4)へ(FORWARD) MARKING CODE LIST TOSHIBA(3) * , ** , *** , ****,_=date code,Lot No. etc. #=hfe rank. MARKINGCODE PART No.Grade etc. MAKER PACKAGENAME MAKERPACKAGE NAME PINCOUNT etc. S 015DZ4.3 TOSHIBA - fSC(0.6 x 1.0)(1-1L1A) 2 Zener diode for Constant-Voltage Regulation.Discontinued. S0 CMS10 TOSHIBA - M-FLAT(2.4 x 4.7)(3-4E1A) 2 Schottky barrier diode for switching mode power supply/Portable equipment battery. S01 CLS01 TOSHIBA - L-FLAT(4.0 x 3.2) 2 Schottky barrier diode for switching mode power supply/DC-DC converter/Portable equipment battery. S02 CLS02 TOSHIBA - L-FLAT(4.0 x 3.2) 2 Schottky barrier diode for switching mode power supply/DC-DC converter/Portable equipment battery. S03 CLS03 TOSHIBA - L-FLAT(4.0 x 3.2) 2 Schottky barrier diode for switching mode power supply/DC-DC converter. S1 CMS01 TOSHIBA - M-FLAT(2.4 x 4.7)(3-4E1A) 2 Schottky barrier diode for switching mode power supply/Portable equipment battery. S1 CRS01 TOSHIBA - S-FLAT(1.6 x 3.5)(3-2A1A) 2 Schottky barrier diode for high speed switching/DC/DC converter/switching mode power supply/Portable equipment battery. S2 CMS02 TOSHIBA - M-FLAT(2.4 x 4.7)(3-4E1A) 2 Schottky barrier diode for switching mode power supply/Portable equipment battery. S2 CRS02 TOSHIBA - S-FLAT(1.6 x 3.5)(3-2A1A) 2 Schottky barrier diode for high speed switching/DC/DC converter/switching mode power supply/Portable equipment battery. S3 1SS357 TOSHIBA - USC(1.25 x 2.5)1-1E1A) 2 Schottky barrier diode for ultra high speed switching. S3 1SS388 TOSHIBA - ESC(0.8 x 1.6)(1-1G1A) 2 Schottky barrier diode for ultra switching. S3 CMS03 TOSHIBA - M-FLAT(2.4 x 4.7)(3-4E1A) 2 Schottky barrier diode for switching mode power supply/Portable equipment battery. S3 CRS03 TOSHIBA - S-FLAT(1.6 x 3.5)(3-2A1A) 2 Schottky barrier diode for high speed switching/DC/DC converter/switching mode power supply/Portable equipment battery. S4 1SS367 TOSHIBA - USC(1.25 x 2.5)1-1E1A) 2 Schottky barrier diode for high speed switching. S4 1SS389 TOSHIBA - ESC(0.8 x 1.6)(1-1G1A) 2 Schottky barrier diode for high speed switching. S4 CMS04 TOSHIBA - M-FLAT(2.4 x 4.7)(3-4E1A) 2 Schottky barrier diode for switching mode power supply/Portable equipment battery. S4 CRS04 TOSHIBA - S-FLAT(1.6 x 3.5)(3-2A1A) 2 Schottky barrier diode for DC/DC converter/switching mode power supply/Portable equipment battery. S5 1SS404 TOSHIBA - USC(1.25 x 2.5)1-1E1A) 2 Schottky barrier diode for high speed switching. S5 CMS05 TOSHIBA - M-FLAT(2.4 x 4.7)(3-4E1A) 2 Schottky barrier diode for switching mode power supply/Portable equipment battery. S5 CRS05 TOSHIBA - S-FLAT(1.6 x 3.5)(3-2A1A) 2 Schottky barrier diode for DC/DC converter/switching mode power supply/Portable equipment battery. S6 1SS420 TOSHIBA - ESC(0.8 x 1.6)(1-1G1A) 2 Schottky barrier diode for high speed switching. S8 1SS424 TOSHIBA - ESC(0.8 x 1.6)(1-1G1A) 2 Schottky barrier diode for high speed switching. S6 CMS06 TOSHIBA - M-FLAT(2.4 x 4.7)(3-4E1A) 2 Schottky barrier diode for switching mode power supply/Portable equipment battery. S6 CRS06 TOSHIBA - S-FLAT(1.6 x 3.5)(3-2A1A) 2 Schottky barrier diode for switching mode power supply/Portable equipment battery. S7 CMS07 TOSHIBA - M-FLAT(2.4 x 4.7)(3-4E1A) 2 Schottky barrier diode for switching mode power supply/Portable equipment battery. S8 CMS08 TOSHIBA - M-FLAT(2.4 x 4.7)(3-4E1A) 2 Schottky barrier diode for DC/DC converter/switching mode power supply/Portable equipment battery. S8 CRS08 TOSHIBA - S-FLAT(1.6 x 3.5)(3-2A1A) 2 Schottky barrier diode for switching mode power supply/Portable equipment battery. S9 CMS09 TOSHIBA - M-FLAT(2.4 x 4.7)(3-4E1A) 2 Schottky barrier diode for switching mode power supply/Portable equipment battery. S9 CRS09 TOSHIBA - S-FLAT(1.6 x 3.5)(3-2A1A) 2 Schottky barrier diode for switching mode power supply/Portable equipment battery. S9 1SS394 TOSHIBA SC-59TO-236MOD S-Mini(2.9 x 2.5)(1-3G1B) 3 Schottky barrier diode for high speed switching. S9 1SS395 TOSHIBA SC-70SOT-323 USM(2.0 x 2.1)(1-2P1D) 3 Schottky barrier diode for high speed switching. SA CMS11 TOSHIBA - M-FLAT(2.4 x 4.7)(3-4E1A) 2 Schottky barrier diode for switching mode power supply/Portable equipment battery. SA CRS11 TOSHIBA - S-FLAT(1.6 x 3.5)(3-2A1A) 2 Schottky barrier diode for switching mode power supply/Portable equipment battery. SB CRS12 TOSHIBA - S-FLAT(1.6 x 3.5)(3-2A1A) 2 Schottky barrier diode for switching mode power supply/Portable equipment battery. SD CRS14 TOSHIBA - S-FLAT(1.6 x 3.5)(3-2A1A) 2 Schottky barrier diode for switching mode power supply/Portable equipment battery. SD CMS14 TOSHIBA - M-FLAT(2.4 x 4.7)(3-4E1A) 2 Schottky barrier diode for DC/DC converter/switching mode power supply. SE CMS15 TOSHIBA - M-FLAT(2.4 x 4.7)(3-4E1A) 2 Schottky barrier diode for DC/DC converter/switching mode power supply. SF CMS16 TOSHIBA - M-FLAT(2.4 x 4.7)(3-4E1A) 2 Schottky barrier diode for DC/DC converter/switching mode power supply/Portable equipment battery. *SF CRS10I30A TOSHIBA - S-FLAT(1.6 x 3.5)(3-2A1A) 2 Schottky barrier diode for switching mode power supply/Portable equipment battery. SG CMS17 TOSHIBA - M-FLAT(2.4 x 4.7)(3-4E1A) 2 Schottky barrier diode for DC/DC converter/switching mode power supply/Portable equipment battery. SG U1GWJ49 TOSHIBA SC-62SOT-89 PW-Mini(4.6 x 4.2)(3-5E1A) 3(4) Schottky barrier diode for high speed rectification. SG 2SA1162Grade GR(200~400) TOSHIBA SC-59TO-236MOD S-Mini(2.9 x 2.5)(2-3F1A) 3 Bipolar PNP small signal transistor for low frequency amp.Complementary to 2SC2712. *SG CRS15I30A TOSHIBA - S-FLAT(1.6 x 3.5)(3-2A1A) 2 Schottky barrier diode for switching mode power supply/Portable equipment battery. *SH CRS10I30B TOSHIBA - S-FLAT(1.6 x 3.5)(3-2A1A) 2 Schottky barrier diode for switching mode power supply/Portable equipment battery. *SJ CRS20I30A TOSHIBA - S-FLAT(1.6 x 3.5)(3-2A1A) 2 Schottky barrier diode for switching mode power supply/Portable equipment battery. SO 2SA1162Grade O(70~140) TOSHIBA SC-59TO-236MOD S-Mini(2.9 x 2.5)(2-3F1A) 3 Bipolar PNP small signal transistor for low frequency amp.Complementary to 2SC2712. SY 2SA1162Grade Y (120~240) TOSHIBA SC-59TO-236MOD S-Mini(2.9 x 2.5)(2-3F1A) 3 Bipolar PNP small signal transistor for low frequency amp.Complementary to 2SC2712. S*|Aor(S|A) 2SC2982Grade A(140~240) TOSHIBA SC-62SOT-89 PW-Mini(4.6 x 4.2)(2-5K1A) 3(4) Bipolar NPN transistor for middle power amp/strobe flash.Pb free.Discontinued.Complementary to 2SA1314. S*Aor(SA) 2SC2982Grade A(140~240) TOSHIBA SC-62SOT-89 PW-Mini(4.6 x 4.2)(2-5K1A) 3(4) Bipolar NPN transistor for middle power amp/strobe flash.Discontinued.Complementary to 2SA1314. S*|Bor(S|B) 2SC2982Grade B(200~330) TOSHIBA SC-62SOT-89 PW-Mini(4.6 x 4.2)(2-5K1A) 3(4) Bipolar NPN transistor for middle power amp/strobe flash.Pb free.Discontinued.Complementary to 2SA1314. S*Bor(SB) 2SC2982Grade B(200~330) TOSHIBA SC-62SOT-89 PW-Mini(4.6 x 4.2)(2-5K1A) 3(4) Bipolar NPN transistor for middle power amp/strobe flash.Discontinued.Complementary to 2SA1314. S*|Cor(S|C) 2SC2982Grade C(300~450) TOSHIBA SC-62SOT-89 PW-Mini(4.6 x 4.2)(2-5K1A) 3(4) Bipolar NPN transistor for middle power amp/strobe flash.Pb free.Discontinued.Complementary to 2SA1314. S*Cor(SC) 2SC2982Grade C(300~450) TOSHIBA SC-62SOT-89 PW-Mini(4.6 x 4.2)(2-5K1A) 3(4) Bipolar NPN transistor for middle power amp/strobe flash.Discontinued.Complementary to 2SA1314. S*|Dor(S|D) 2SC2982Grade D(420~600) TOSHIBA SC-62SOT-89 PW-Mini(4.6 x 4.2)(2-5K1A) 3(4) Bipolar NPN transistor for middle power amp/strobe flash.Pb free.Discontinued.Complementary to 2SA1314. S*Dor(SD) 2SC2982Grade D(420~600) TOSHIBA SC-62SOT-89 PW-Mini(4.6 x 4.2)(2-5K1A) 3(4) Bipolar NPN transistor for middle power amp/strobe flash.Discontinued.Complementary to 2SA1314. SP1*** SSM6J501NU TOSHIBA - UDFN6B(2.0 x 2.0)(2-2AA1A) 6(8) P-ch MOS FET for power management application. SP2*** SSM6J502NU TOSHIBA - UDFN6B(2.0 x 2.0)(2-2AA1A) 6(8) P-ch MOS FET for power management application. SP3*** SSM6J503NU TOSHIBA - UDFN6B(2.0 x 2.0)(2-2AA1A) 6(8) P-ch MOS FET for power management application. T5Cathode band Blue(青)Body color Tomato(赤橙)Marking Blue(青) 1S1585 TOSHIBA SC-40 DO-35(1-2A1A) 2 Diode for high speed switching. T6Cathode band Blue(青)Body color Tomato(赤橙)Marking Blue(青) 1S1586 TOSHIBA SC-40 DO-35(1-2A1A) 2 Diode for high speed switching. T7Cathode band Blue(青)Body color Tomato(赤橙)Marking Blue(青) 1S1587 TOSHIBA SC-40 DO-35(1-2A1A) 2 Diode for high speed switching. T9 1SS396 TOSHIBA SC-59TO-236MOD S-Mini(2.9 x 2.5)(1-3G1G) 3 Schottky barrier diode for low voltage high speed switching. TA TA75S393F TOSHIBA SC-74ASOT-25 SMV(SSOP5-P-0.95) 5 SINGLE COMPARATOR TF 1SV270 TOSHIBA - USC(1.25 x 2.5)1-1E1A) 2 PIN diode for VCO UHF band radio. TLC BAV99 TOSHIBA SOT-23 SOT23 3 Doble diode for high speed switching. TPC8402**** TPC8402 TOSHIBA - SOP-8(2-6J1E) 8 N-ch MOS FET for Li-ion secondary battery,Notebook PCs,Portable equipment.Discontinued? TY 1SS381 TOSHIBA - ESC(0.8 x 1.6)(1-1G1A) 2 Diode for VHF tuner band switch. U9 1SS422 TOSHIBA - SSM(1.6 x 1.6)(1-2S1C) 3 Schottky barrier diode for high speed switching. V*|Oor(V|O) 2SC3803Grade O(70~140) TOSHIBA SC-62SOT-89 PW-Mini(4.6 x 4.2)(2-5K1A) 3(4) Bipolar NPN transistor for high speed high frequency switching/amp.Pb free.Discontinued.Complementary to 2SA1483. V*Oor(VO) 2SC3803Grade O(70~140) TOSHIBA SC-62SOT-89 PW-Mini(4.6 x 4.2)(2-5K1A) 3(4) Bipolar NPN transistor for high speed high frequency switching/amp.Discontinued.Complementary to 2SA1483. V*|Ror(V|R) 2SC3803Grade R(40~80) TOSHIBA SC-62SOT-89 PW-Mini(4.6 x 4.2)(2-5K1A) 3(4) Bipolar NPN transistor for high speed high frequency switching/amp.Pb free.Discontinued.Complementary to 2SA1483. V*Ror(VR) 2SC3803Grade R(40~80) TOSHIBA SC-62SOT-89 PW-Mini(4.6 x 4.2)(2-5K1A) 3(4) Bipolar NPN transistor for high speed high frequency switching/amp.Discontinued.Complementary to 2SA1483. V*|Yor(V|Y) 2SC3803Grade Y(120~240) TOSHIBA SC-62SOT-89 PW-Mini(4.6 x 4.2)(2-5K1A) 3(4) Bipolar NPN transistor for high speed high frequency switching/amp.Pb free.Discontinued.Complementary to 2SA1483. V*Yor(VY) 2SC3803Grade Y(120~240) TOSHIBA SC-62SOT-89 PW-Mini(4.6 x 4.2)(2-5K1A) 3(4) Bipolar NPN transistor for high speed high frequency switching/amp.Discontinued.Complementary to 2SA1483. V 1SS427 TOSHIBA - fSC(0.6 x 1.0)(1-1L1A) 2 Diode for high speed switching. V1 1SV160 TOSHIBA SC-59TO-236MOD S-Mini(2.9 x 2.5)(1-3G1A) 3 Variable capacitance diode for FM AFC receiver. V3 1SV225 TOSHIBA SC-59TO-236MOD S-Mini(2.9 x 2.5)(1-3G1F) 3 PIN diode for FM band tuner. V4 1SV228 TOSHIBA SC-59TO-236MOD S-Mini(2.9 x 2.5)(1-3G1F) 3 Variable capacitance diode for FM receiver electronic tuning. W 1SS416 TOSHIBA - fSC(0.6 x 1.0)(1-1L1A) 2 Schottky barrier diode for high speed switching. W 1SS416CT TOSHIBA - CST2(0.6 x 1.0)(1-1P1A) 2 Schottky barrier diode for high speed switching. W 1SS418 TOSHIBA - sESC(0.6 x 1.4)(1-1K1A) 2 Schottky barrier diode for high speed switching. W9 1SS423 TOSHIBA - SSM(1.6 x 1.6)(1-2S1C) 3 Schottky barrier diode for ultra high speed switching. WB125 TC7WB125FK TOSHIBA SSOP-8 SSOP8-P-0.50A 5 DUAL BUS SWITCH. WG 2SC2859Grade GR(200~400) TOSHIBA SC-59TO-236MOD S-Mini(2.9 x 2.5)(2-3F1A) 3 Bipolar NPN small signal transistor for audio frequency low power amp. WO 2SC2859Grade O(70~140) TOSHIBA SC-59TO-236MOD S-Mini(2.9 x 2.5)(2-3F1A) 3 Bipolar NPN small signal transistor for audio frequency low power amp. WY 2SC2859Grade Y(120~240) TOSHIBA SC-59TO-236MOD S-Mini(2.9 x 2.5)(2-3F1A) 3 Bipolar NPN small signal transistor for audio frequency low power amp. X 1SS417 TOSHIBA - fSC(0.6 x 1.0)(1-1L1A) 2 Schottky barrier diode for ultra high speed switching. X 1SS417CT TOSHIBA - CST2(0.6 x 1.0)(1-1P1A) 2 Schottky barrier diode for ultra high speed switching. X 1SS419 TOSHIBA - sESC(0.6 x 1.4)(1-1K1A) 2 Schottky barrier diode for high speed switching. X9 1SS398 TOSHIBA SC-59TO-236MOD S-Mini(2.9 x 2.5)(1-3G1G) 3 Switching diode for high voltage switching. XA RN1501 TOSHIBA SC-74A SMV(2.9 x 2.8)(2-3L1A) 5 Bipolar NPN digital transistor for switching.Complementary to RN2501. XB RN1502 TOSHIBA SC-74A SMV(2.9 x 2.8)(2-3L1A) 5 Bipolar NPN digital transistor for switching.Complementary to RN2502. XC RN1503 TOSHIBA SC-74A SMV(2.9 x 2.8)(2-3L1A) 5 Bipolar NPN digital transistor for switching.Complementary to RN2503. XD RN1504 TOSHIBA SC-74A SMV(2.9 x 2.8)(2-3L1A) 5 Bipolar NPN digital transistor for switching.Complementary to RN2504. XE RN1505 TOSHIBA SC-74A SMV(2.9 x 2.8)(2-3L1A) 5 Bipolar NPN digital transistor for switching.Complementary to RN2505. XF RN1506 TOSHIBA SC-74A SMV(2.9 x 2.8)(2-3L1A) 5 Bipolar NPN digital transistor for switching.Complementary to RN2506. Y 1SS413 TOSHIBA - fSC(0.6 x 1.0)(1-1L1A) 2 Schottky barrier diode for high speed switching. YA RN2501 TOSHIBA SC-74A SMV(2.9 x 2.8)(2-3L1A) 5 Bipolar PNP digital transistor for switching.Complementary to RN1501. YB RN2502 TOSHIBA SC-74A SMV(2.9 x 2.8)(2-3L1A) 5 Bipolar PNP digital transistor for switching.Complementary to RN1502. YC RN2503 TOSHIBA SC-74A SMV(2.9 x 2.8)(2-3L1A) 5 Bipolar PNP digital transistor for switching.Complementary to RN1503. YD RN2504 TOSHIBA SC-74A SMV(2.9 x 2.8)(2-3L1A) 5 Bipolar PNP digital transistor for switching.Complementary to RN1504. YE RN2505 TOSHIBA SC-74A SMV(2.9 x 2.8)(2-3L1A) 5 Bipolar PNP digital transistor for switching.Complementary to RN1505. YF RN2506 TOSHIBA SC-74A SMV(2.9 x 2.8)(2-3L1A) 5 Bipolar PNP digital transistor for switching.Complementary to RN1506. TOSHIBAのリスト説明ページ(TOSHIBA TOP MENU) 前のリスト TOSHIBA(2)へ(BACKWARD) 次のリスト TOSHIBA(4)へ(FORWARD) リンク MARKING CODE一覧