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Spice park 2005 autumn pdf version

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Spice park 2005 autumn pdf version

Spice park 2005 autumn pdf version

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  • 1. 【スパイス・パーク】 商品説明会 2005年11月11日 http://www.bee-tech.com/ 株式会社ビー・テクノロジー All Rights Reserved Copyright (C) Bee Technologies Inc.
  • 2. 説明会の流れ 13:00-14:30 1.「スパイス・パーク」のコンセプト及び概要 2.半導体のスパイスモデルについて 3.受動部品のスパイスモデルについて 4.バッテリーのスパイスモデルについて 5.DCモーターのスパイスモデルについて 6.ランプのスパイスモデルについて 14:30-15:00 7.質疑応答 All Rights Reserved Copyright (C) Bee Technologies Inc.
  • 3. 1.「スパイス・パーク」のコンセプト及び概要 【回路解析シミュレーションの導入に必要な環境因子】 EDA ツール 回路設計者 シミュレーション 個々の電子部品の 技術 デバイスモデル デバイスモデル が必要不可欠である All Rights Reserved Copyright (C) Bee Technologies Inc.
  • 4. 1.「スパイス・パーク」のコンセプト及び概要回路解析シミュレーション導入前の姿 基板に実装 回路図作成 回路図変更 回路動作の検証 All Rights Reserved Copyright (C) Bee Technologies Inc.
  • 5. 1.「スパイス・パーク」のコンセプト及び概要回路解析シミュレーション導入後の姿 回路解析シミュレーションを活用し、検証してから、実機を製作 を行う。試作回数を削減する。 All Rights Reserved Copyright (C) Bee Technologies Inc.
  • 6. 1.「スパイス・パーク」のコンセプト及び概要 回路解析シミュレーションを行う場合には、EDAツールが先ず必要です。 その次に、自分が回路設計を行う際に採用したいデバイスモデルを準備 しなくてはなりません。 つまり、材料表ベースでの部品(デバイス)のデバイスモデルを入手する 必要があります。 回路解析シミュレーションの解析精度は、デバイスモデルの精度に起因 する為、デバイスモデルを先ず、整備する必要があります。 半導体部品の場合、モデルの解析精度:%Error 5%以内 受動部品の場合、モデルの解析精度:%Error 10%以内 ここでのEDAツールは、PSpiceを想定しております。 All Rights Reserved Copyright (C) Bee Technologies Inc.
  • 7. 1.「スパイス・パーク」のコンセプト及び概要回路開発実験室と同じ環境をコンピュータ上に創る 自分が良く採用するデバイスのデバイスモデル(SPICE MODEL)を 最初から準備し、整備していく。 【株式会社ビー・テクノロジーの調査結果】 回路設計者が頻繁に取り扱うデバイスの平均は19.5個である。 All Rights Reserved Copyright (C) Bee Technologies Inc.
  • 8. 1.「スパイス・パーク」のコンセプト及び概要整備するべきデバイスモデルデバイスモデルのデータだけではなく、そのデバイスモデルのバックグランドのデータが必要になる。採用するデバイスモデルがどの程度の解析精度なのかを事前に知る必要があります。実際のデバイスとどのくらいの整合性・再現性をもっているかを把握しなければなりません。 デバイスモデル + バックグランドのデータ 【デバイスモデリングレポート】 All Rights Reserved Copyright (C) Bee Technologies Inc.
  • 9. 1.「スパイス・パーク」のコンセプト及び概要サプライヤ企業のWEBサイトからデバイスモデルを入手する場合 CREEからSiC Schottky Diodeのデバイスモデルをダウンロード SiC:Silicon Carbide All Rights Reserved Copyright (C) Bee Technologies Inc.
  • 10. 1.「スパイス・パーク」のコンセプト及び概要 All Rights Reserved Copyright (C) Bee Technologies Inc.
  • 11. 1.「スパイス・パーク」のコンセプト及び概要 All Rights Reserved Copyright (C) Bee Technologies Inc.
  • 12. 1.「スパイス・パーク」のコンセプト及び概要 入手したモデルは パラメータ・モデル モデルの解析精度 はシミュレーションの 解析精度の起因する 為、モデルの検証が 必要になる。このモデル の検証に時間を有する All Rights Reserved Copyright (C) Bee Technologies Inc.
  • 13. 1.「スパイス・パーク」のコンセプト及び概要SiC Schottky Diode Reverse Characteristic Bee Technologies model Cree’s model All Rights Reserved Copyright (C) Bee Technologies Inc.
  • 14. 1.「スパイス・パーク」のコンセプト及び概要 【スパイス・パーク】とは、PSpice用の「スパイス・モデル」を合計2090個 格納したラ イブラリです。内容は主に日本のサプライヤー品を主体として、 半導体、受動部品、バッテリー、DCモーター、ランプにカテゴリー分けを 行いライブラリー化しています。 今までお客様からいただいたご要望の声 ①日本国内のスパイスモデルの入手が困難である ②解析精度のいいスパイス・モデルを整備したい を具現化致しました。 「スパイス・パーク」はモデル、シンボル、デバイスモデリング・レポートで 構成されております。スパイスモデルは順次更新されていきます。 また、お客様の必要なデバイス20個のデバイスモデリングサービスも 含まれております。 2005年11月11日現在、2090個 All Rights Reserved Copyright (C) Bee Technologies Inc.
  • 15. 1.「スパイス・パーク」のコンセプト及び概要半導体部品(1,764個) No Semiconductor Pcs S01 Diode/General Purpose Rectifier 210 S02 Diode/Schottky Rectifier 322 S03 Diode/Zener Diode 10 S04 Laser Diode 17 S05 Light-Emitting Diode (LED) 58 S06 Junction FET 14 S07 MOSFET 69 S08 Bipolar Junction Transistor 37 S09 Darlington Transistor 8 S10 IGBT 14 S11 Voltage Reference 3 S12 Voltage Regulator 64 S13 Shunt Regulator 6 S14 OPAMP 292 S15 Comparator 57 S16 Sidac 42 S17 Photocupler 25 S18 Opto Device 2 S19 Varistor 3 S20 Surge Absorber (ZNR) 152 S21 Thermistor 6 S22 Thyristor 123 S23 PWM IC 2 S24 Analog IC 6 S25 Digital Transistor 95 S26 BRT 21 S27 Digital IC 98 S28 PUT 6 S29 Crystal Oscillator 1 S30 Photo Diode 1 All Rights Reserved Copyright (C) Bee Technologies Inc.
  • 16. 1.「スパイス・パーク」のコンセプト及び概要受動部品(229個) Passive Parts pcs P01 Capacitor/Ceramic 96 P02 Capacitor/Electrolytic 17 P03 Capacitor/Film 5 P04 Choke Coil 28 P05 Common Mode Choke Coil 1 P06 Transformer 2 P07 Inductor 4 P08 Magnetic Core 74 P09 Crystal 2 バッテリー(65個) Battery pcs B01 Alkaline Cell 10 B02 Lithium Cell 5 B03 Lithium-Ion Cell 23 B04 Nickel Manganese Cell 10 B05 Nickel Metal-Hydride Cell (Ni-MH) 9 B06 Oxyride Cell 8 All Rights Reserved Copyright (C) Bee Technologies Inc.
  • 17. 1.「スパイス・パーク」のコンセプト及び概要DCモーター(11個) DC Motor pcs M01 DC Motor 11 ランプ(21個) Lamp pcs L01 Filament Lamp 18 L02 Halogen Lamp 3 All Rights Reserved Copyright (C) Bee Technologies Inc.
  • 18. 2.半導体のスパイスモデルについてデバイスモデルの種別について大きく分類すると、2つに区分出来ます。①パラメータ・モデル⇒デバイスモデル記述をパラメータのみで、表現します。単体のダイオード、ショットキ・バリア・ダイオードMOSFET、トランジスタ、Junction FETなどのデバイスがモデルパラメータで表現されています。但し、上記デバイスの場合でも、特定の電気的特性を持たせる為に、パラメータ・モデルをメインとして、周辺に、等価回路を組み込み、ビヘイビアモデルとして、表現する場合もあります。②ビヘイビア・モデル=等価回路モデル=マクロモデル⇒デバイスの電気的表現を、ビヘイビア素子などを活用し、等価回路でデバイスを表現しているモデルです。上記以外(大部分)のデバイスモデルは、ビヘイビア・モデルで表現されています。 All Rights Reserved Copyright (C) Bee Technologies Inc.
  • 19. 2.半導体のスパイスモデルについてパラメータ・モデルの事例(一般ダイオード) *$ *Part number:SF20LC30 *Manufacturer:SHINDENGEN *All Rights Reserved Copyright (C) Bee Technologies Inc. .MODEL SF20LC30 D + IS=85.678E-6 + N=3.1502 + RS=6.8466E-3 + IKF=1.0882 + CJO=309.32E-12 + M=.41724 + VJ=.53477 + ISR=0 + BV=300 + IBV=250.00E-9 + TT=11.542E-9 *$ All Rights Reserved Copyright (C) Bee Technologies Inc.
  • 20. 2.半導体のスパイスモデルについてビヘイビア・モデルの事例(一般ダイオード:逆回復特性trj,trbを考慮したモデル) パラメータ・モデル ビヘイビア・モデル=等価回路モデル *$ * PART NUMBER: 1SR139-400 *$ * MANUFACTURER: ROHM * PART NUMBER: 1SR139-400 * VRM=400,Io=1.0A=IFSM=40A * MANUFACTURER: ROHM * All Rights Reserved Copyright (C) Bee Technologies Inc. 2004 .SUBCKT D1SR139-400 A K * VRM=400,Io=1.0A=IFSM=40A R_R2 5 6 3500 * All Rights Reserved Copyright (C) Bee Technologies Inc. 2004 R_R1 3 4 1 .MODEL 1SR139-400 D C_C1 5 6 100p + IS=11.797E-12 E_E1 5 K 3 4 1 S_S1 6 K 4 K _S1 + N=1.3533 RS_S1 4 K 1G + RS=52.928E-3 .MODEL _S1 VSWITCH Roff=50MEG Ron=1m Voff=90mV Von=100mV + IKF=.20632 G_G1 K A VALUE { V(3,4)-V(5,6) } + ISR=0 D_D1 2 K D1SR139-400 + CJO=22.539E-12 D_D2 4 K D1SR139-400 F_F1 K 3 VF_F1 1 + M=.36819 VF_F1 A 2 0V + VJ=.46505 .MODEL D1SR139-400 D + BV=400 + IS=11.801E-12 + N=1.3533 + IBV=10.000E-6 + RS=52.928E-3 + TT=7.6751E-6 + IKF=.20632 .ENDS + ISR=0 *$ + CJO=22.539E-12 + M=.36819 + VJ=.46505 + BV=400COMPONENTS: + IBV=10.000E-6 + TT=3.8551E-6DIODE/ GENERAL PURPOSE RECTIFIER .ENDSPART NUMBER: 1SR139-400 *$MANUFACTURER: ROHM All Rights Reserved Copyright (C) Bee Technologies Inc.
  • 21. 2.半導体のスパイスモデルについてビヘイビア・モデルの事例(一般ダイオード:逆回復特性trj,trbを考慮したモデル) パラメータ・モデル ビヘイビア・モデル=等価回路モデル Measurement Measurement All Rights Reserved Copyright (C) Bee Technologies Inc.
  • 22. 2.半導体のスパイスモデルについてDiode/General Purpose Rectifier S01FAIRCHILD FUJI SHINDENGENRURD460S (TC=80C/ Professional) YG963S6R (Professional) D1NL20U (Professional)RURD460S (TC=80C/ Standard) YG963S6R (Standard) D1NL20U (Standard)RURD460S (TC=110C/ Professional) D3SB80 (Professional)RURD460S (TC=110C / Standard) D5LC20U (Professional)RURD460S (TC=150C / Professional) International Rectifier D5LC20U (Standard)RURD460S (TC=150C/ Standard) HFA08TB60 (TC=80C/ Professional) D25XB80 (Professional)RURD460S (Professional) HFA08TB60 (TC=80C/ Standard) SF3L60U (Professional)RURD460S (Standard) HFA08TB60 (Professional) SF3L60U (Standard)RURD660S (TC=80C/ Professional) HFA08TB60 (Standard) SF20LC30 (Professional)RURD660S (TC=80C / Standard) SF20LC30 (Standard)RURD660S (TC=110C / Professional) Micro Commercial ComponentRURD660S (TC=110C / Standard) MB252W (Professional) WISHAYRURD660S (TC=150C / Professional) MB252W (Standard) UF5401 (Professional)RURD660S (TC=150C / Standard) UF5401 (Standard)RURD660S (Professional) PHILIPS UF5402 (Professional)RURD660S (Standard) BYW29E (Professional) UF5402 (Standard)RURG3060 (TC=80C/ Professional) BYW29E (Standard) UF5404 (Professional)RURG3060 (TC=80C / Standard) UF5404 (Standard)RURG3060 (TC=110C / Professional) SANKEN UF5406 (Professional)RURG3060 (TC=110C / Standard) FML-G14S (Professional) UF5406 (Standard)RURG3060 (TC=150C / Professional) FML-G14S (Standard) UF5408 (Professional)RURG3060 (TC=150C / Standard) UF5408 (Standard)RURG3060 (Professional)RURG3060 (Standard)Standard:モデルパラメータ記述Professional:等価回路モデル(逆回復時間考慮) All Rights Reserved Copyright (C) Bee Technologies Inc.
  • 23. 2.半導体のスパイスモデルについてDiode/General Purpose Rectifier S01 INTERSIL INTERSIL ROHM RHRG7560 (TC=80C/ Professional) RHRP30120 (Professional) 1SR139-400 (TC80C/ Professional) RHRG7560 (TC=80C/ Standard) RHRP30120 (Standard) 1SR139-400 (TC=80C/ Standard) RHRG7560 (TC=110C/ Professional) RURG5060 (TC=80C/ Professional) 1SR139-400 (TC=110C/ Professional) RHRG7560 (TC=110C/ Standard) RURG5060 (TC=80C/ Standard) 1SR139-400 (TC=110C/ Standard) RHRG7560 (Professional) RURG5060 (TC=110C/ Professional) 1SR139-400 (TC=150C/ Professional) RHRG7560 (Standard) RURG5060 (TC=110C/ Standard) 1SR139-400 (TC=150C/ Standard) RHRG50120 (TC=80C/ Professional) RURG5060 (TC=150C/ Professional) 1SR139-400 (Professional) RHRG50120 (TC=80C/ Standard) RURG5060 (TC=150C/ Standard) 1SR139-400 (Standard) RHRG50120 (TC=110C/ Professional) RURG5060 (Professional) 1SR139-600 (TC=80C/ Professional) RHRG50120 (TC=110/ Standard) RURG5060 (Standard) 1SR139-600 (TC=80C/ Standard) RHRG50120 (TC=150C/ Professional) RURG8060 (TC=80C/ Professional) 1SR139-600 (TC=110C/ Professional) RHRG50120 (TC=150C/ Standard) RURG8060 (TC=80C/ Standard) 1SR139-600 (TC=110C/ Standard) RHRG50120 (Professional) RURG8060 (TC=110C/ Professional) 1SR139-600 (TC=150C/ Professional) RHRG50120 (Standard) RURG8060 (TC=110C/ Standard) 1SR139-600 (TC=150C/ Standard) RHRG75120 (TC=80C/ Professional) RURG8060 (TC=150C/ Professional) 1SR139-600 (Professional) RHRG75120 (TC=80C/ Standard) RURG8060 (TC=150/ Standard) 1SR139-600 (Standard) RHRG75120 (TC=110C/ Professional) RURG8060 (Professional) 1SR153-400 (TC=80C/ Professional) RHRG75120 (TC=110C/ Standard) RURG8060 (Standard) 1SR153-400 (Tc=80C/ Standard) RHRG75120 (Professional) RURP15120 (TC=80C/ Professional) 1SR153-400 (TC=110C/ Professional) RHRG75120 (Standard) RURP15120 (TC=80C/ Standard) 1SR153-400 (TC=110C/ Standard) RHRP30120 (TC=80C/ Professional) RURP15120 (TC=110C/ Professional) 1SR153-400 (TC=150C/ Professional) RHRP30120 (TC=80C/ Standard) RURP15120 (TC=110C/ Standard) 1SR153-400 (TC=150C/ Standard) RHRP30120 (TC=110C/ Professional) RURP15120 (TC=150C/ Professional) 1SR153-400 (Professional) RHRP30120 (TC=110C/ Standard) RURP15120 (TC=150C/Standard) 1SR153-400 (Standard) RHRP30120 (TC=150C/ Professional) RURP15120 (Professional) 1SR154-400 (TC=80C/ Professional) RHRP30120 (TC=150C/ Standard) RURP15120 (Standard) 1SR154-400 (TC=80C/ Standard) All Rights Reserved Copyright (C) Bee Technologies Inc.
  • 24. 2.半導体のスパイスモデルについてDiode/General Purpose Rectifier S01 ROHM ROHM TOSHIBA 1SR154-400 (TC=110C/ Professional) 1SR159-200 (TC=150C/ Professional) 20GL2C41A (TC=150C/ Professional) 1SR154-400 (TC=110C/ Standard) 1SR159-200 (TC=150C/ Standard) 20GL2C41A (TC=150C/ Standard) 1SR154-400 (TC=150C/ Professional) 1SR159-200 (Professional) 20GL2C41A (Professional) 1SR154-400 (TC=150C/ Standard) 1SR159-200 (Standard) 20GL2C41A (Standard) 1SR154-400 (Professional) CRG02 (Professional) 1SR154-400 (Standard) TOSHIBA CRG02 (Standard) 1SR154-600 (TC=80C/ Professional) 1R5GZ41 (Professional) S5277G (Professional) 1SR154-600 (TC=80C/ Standard) 1R5GZ41 (Standard) S5277G (Standard) 1SR154-600 (TC=110C/ Professional) 1S1834 (Professional) S5295G (Professional) 1SR154-600 (TC=110C/ Standard) 1S1834 (Standard) S5295G (Standard) 1SR154-600 (TC=150C/ Professional) 1S1887 (Professional) S5566G (Professional) 1SR154-600 (TC=150C/ Standard) 1S1887 (Standard) S5566G (Standard) 1SR154-600 (Professional) 1S1887A (Professional) S5688G (Professional) 1SR154-600 (Standard) 1S1887A (Standard) S5688G (Standard) 1SR156-400 (TC=80C/ Professional) 5GL247A (TC=80C/ Professional) TVR1G (Professional) 1SR156-400 (TC=80C/ Standard) 5GL247A (TC=80C/ Standard) TVR1G (Standard) 1SR156-400 (TC=110C/ Professional) 5GL247A (TC=110C/ Professional) TVR2G (Professional) 1SR156-400 (TC=110C/ Standard) 5GL247A (110C / Standard) TVR2G (Standard) 1SR156-400 (TC=150C/ Professional) 5GL247A (150C/ Professional) TVR5G (Professional) 1SR156-400 (TC=150C/ Standard) 5GL247A (150C/ Standard) TVR5G (Standard) 1SR156-400 (Professional) 5GL247A (Professional) U1GC44 (Professional) 1SR156-400 (Standard) 5GL247A (Standard) U1GC44 (Standard) 1SR159-200 (TC=80C/ Professional) 20GL2C41A (TC=80C/ Professional) U2GC44 (Professional) 1SR159-200 (TC=80C/ Standard) 20GL2C41A (TC=80C / Standard) U2GC44 (Standard) 1SR159-200 (TC=110C/ Professional) 20GL2C41A (TC=110C/ Professional0 U05GH44 (Professional) 1SR159-200 (TC=110C/ Standard) 20GL2C41A (TC=110C/ Standard) U05GH44 (Standard) All Rights Reserved Copyright (C) Bee Technologies Inc. 210pcs
  • 25. 2.半導体のスパイスモデルについてDiode/Schottky Rectifier S02 General Semiconductor NIEC NIEC NIEC SB350 (Professional) 11DQ03L (Standard) EA20QS09 (Standard) EC31QS10 (Standard) SB350 (Standard) 11DQ04 (Standard) EA20QS09-F (Standard) ECL06B03 (Standard) 11DQ06 (Standard) EA20QS10 (Standard) EP05Q03L (Standard) HITACHI 11DQ09 (Standard) EA20QS10-F (Standard) EP05Q04 (Standard) HRU0203A (Professional) 11DQ10 (Standard) EA30QS03L (Standard) EP05Q06 (Standard) HRU0203A (Standard) 11EQ04 (Standard) EA30QS03L-F (Standard) EP10LA03 (Standard) HRW0702A (Professional) 11EQ06 (Standard) EA30QS04 (Standard) EP10QY03 (Standard) HRW0702A (Standard) 11EQ09 (Standard) EA30QS04-F (Standard) ESL30B03-F (Standard) 11EQ10 (Standard) EA30QS06 (Standard) FSL05A015 (Standard) International Rectifier 11EQS03L (Standard) EA30QS06-F (Standard) FSQ05A03L (Standard) 6CWQ04FN (Professional0 11EQS04 (Standard) EA30QS09 (Standard) FSQ05A04 (Standard) 6CWQ04FN (Standard) 11EQS06 (Standard) EA30QS09-F (Standard) FSQ05A04B (Standard) 6CWQ06FN (Professional) 11EQS09 (Standard) EA30QS10 (Standard) FSQ05A06 (Standard) 6CWQ06FN (Standard) 11EQS10 (Standard) EA30QS10-F (Standard) FSQ05A06B (Standard) 30WQ04FN (Professional) 21DQ03L (Standard) EC10LA03 (Standard) FSQ10A04 (Standard) 30WQ04FN (Standard) 21DQ04 (Standard) EC10QS04 (Standard) FSQ10A04B (Standard) 30WQ06FN (Professional) 21DQ06 (Standard) EC10QS06 (Standard) FSQ10A06 (Standard) 30WQ06FN (Standard) 21DQ09 (Standard) EC10QS09 (Standard) FSQ10A06B (Standard) 30WQ10FN (Professional) 21DQ10 (Standard) EC10QS10 (Standard) GSQ05A03L (Standard) 30WQ10FN (Standard) 31DQ03L (Standard) EC21QS03L (Standard) GSQ05A04B (Standard) 50WQ04FN (Professional) 31DQ04 (Standard) EC21QS06 (Standard) GSQ05A06 (Standard) 50WQ04FN (Standard) 31DQ06 (Standard) EC21QS09 (Standard) GSQ10A04 (Standard) 31DQ09 (Standard) EC21QS10 (Standard) GSQ10A04B (Standard) 31DQ10 (Standard) EC30LA02 (Standard) GSQ10A06 (Standard) EA20QS04 (Standard) EC31QS03L (Standard) GSQ10A06B (Standard) EA20QS04-F (Standard) EC31QS04 (Standard) KSL60A01B (Standard) EA20QS06 (Standard) EC31QS06 (Standard0 KSQ15A04 (Standard) EA20QS06-F (Standard) EC31QS09 (Standard KSQ15A04B (Standard) All Rights Reserved Copyright (C) Bee Technologies Inc.
  • 26. 2.半導体のスパイスモデルについてDiode/Schottky Rectifier S02 NIEC RENESAS Shindengen Shindengen KSQ15A06 (Standard) HRC0502A (Standard) D1FH3 (Standard) DE5SC6M (Standard) KSQ15A06B (Standard) HRC0201A (Standard) D1FM3 (Standard) DE10P3 (Standard) KSQ30A04 (Standard) HRC0203C (Standard) D1FP3 (Standard) DE10PC3 (Standard) KSQ30A04B (Standard) HRU0302A (Standard) D1FS4 (Standard) DE10S3L (Standard) KSQ30A06 (Standard) HRW0203A (Standard) D1FS4A (Standard) DE10SC3L (Standard) KSQ30A06B (Standard) HRW0502A (Standard) D1FS6 (Standard) DE10SC4 (Standard) KSQ60A03LB (Standard) HRW0703A (Standard) D1NS4 (Standard) DF10SC4M (Standard) KSQ60A03LE (Standard) HSC278 (Standard) D1NS6 (Standard) DF10SC6 (Standard) KSQ60A04B (Standard) HSD226 (Standard) D2FS4 (Standard) DF10SC9 (Standard) KSQ60A04E (Standard) HSL226 (Standard) D2FS6 (Standard) DF15JC10 (Standard) KSQ60A06B (Standard) HSU226 (Standard) D2FS6M (Standard) DF15SC4M (Standard) KSQ60A06E (Standard) D3FP3 (Standard) DF20JC10 (Standard) NSQ03A03L (Standard) ROHM D3FS4A (Standard) DF20PC3M (Standard) NSQ03A04 (Standard) RB051L-40 (Professional) D3FS6 (Standard) DF20SC4M (Standard) NSQ03A06 (Standard) RB051L-40 (Standard) D3S6M (Standard) DF20SC9M (Standard) RB060L-40 (Professional) D4SC6M (Standard) DF25SC6M (Standard) ON Semiconductor RB060L-40 (Standard) D5S4M (Standard) DF30JC6 (Standard) 1N5818 (Professional) RB160L-40 (Professional) D5S6M (Standard) DF30JC10 (Standard) 1N5818 (Standard) RB160L-40 (Standard) D5S9M (Standard) DF30PC3M (Standard) 1N5819 (Professional) D5SC4M (Standard) DF30SC3ML (Standard) 1N5819 (Standard) SANKEN D10SC4M (Standard) DF30SC4M (Standard) 1N5820 (Professional ) EK13 (Professional) D30SC4M (Standard) DF40PC3 (Standard) 1N5820 (Standard) EK13 (Standard) DE3S6M (Standard) DF40SC3L (Standard) 1N5822 (Professional) RK39 (Professional) DE5PC3 (Standard) DF40SC4 (Standard) 1N5822 (Standard) RK39 (Standard) DE5S4M (Standard) DG1H3 (Standard) DE5S6M (Standard) DG1M3 (Standard) Philips DE5SC3ML (Standard) DG1M3A (Standard) PBYR10100 (Professional) DE5SC4M (Standard) M1FH3 (Standard) PBYR10100 (Standard) DE5SC6M (Standard) M1FM3 (Standard) All Rights Reserved Copyright (C) Bee Technologies Inc.
  • 27. 2.半導体のスパイスモデルについてDiode/Schottky Rectifier S02 Shindengen TOSHIBA TOSHIBA TOSHIBA M1FP3 (Standard) 1FWJ43L (Standard) 1SS405 (Standard) CMS15 (Standard) M1FS4 (Standard) 1FWJ43N (Standard) 2FWJ42M (Standard) CMS16 (Standard) M1FS6 (Standard) 1GWJ42 (Standard) 2FWJ42N (Standard) CRS01 (Standard) M2FM3 (Standard) 1SS271 (Standard) 2GWJ42 (Standard) CRS02 (Standard) S2S6M (Standard) 1SS293 (Standard) 2GWJ42C (Standard) CRS03 (Standard) S5S4M (Standard) 1SS294 (Standard) 5FWJ2C48M (Standard) CRS04 (Standard) S10SC4M (Standard) 1SS319 (Standard) 5FWJ2CZ47M (Standard) CRS08 (Standard) S15SC4M (Standard) 1SS322 (Standard) 5GWJ2C48C (Standard) CRS09 (Standard) S15SCA4M (Standard) 1SS348 (Standard) 5GWJ2CZ47C (Standard) CRS12 (Standard) S20SC4M (Standard) 1SS349 (Standard) 5GWJZ47 (Standard) CUS02 (Standard) S25SC6M (Standard) 1SS349 (Standard) 10FWJ2C48M (Standard) HN2S01F (Standard) S40HC3 (Standard) 1SS357 (Standard) 10FWJ2CZ47M (Standard) HN2S01FU (Standard) S60HC3 (Standard) 1SS367 (Professional) 10GWJ2CZ47C (Standard) HN2S02FU (Standard) S60SC6M (Standard) 1SS372 (Standard) 20FWJ2C48M (Standard) HN2S02JE (Standard) SF5S4 (Standard) 1SS374 (Standard) 30GWJ2C42C (Standard) HN2S03FE (Standard) SF5S6 (Standard) 1SS377 (Standard) 30GWJ2C48C (Standard) HN2S03FU (Standard) SF5SC3L (Standard) 1SS378 (Standard) 30GWJ2CZ47C (Standard) JDH3D01S (Standard) SF10SC6 (Standard) 1SS383 (Standard) 30QWK2CZ47 (Standard) TPCF8E02 (Standard) SF15JC6 (Standard) 1SS385F (Standard) CMS01 (Standard) U1FWJ44L (Standard) SF15SC6 (Standard) 1SS388 (Standard) CMS02 (Standard) U1FWJ44M (Standard) SF20H1R5 (Standard) 1SS391 (Standard) CMS04 (Standard) U1FWJ44N (Standard) SF20JC6 (Standard) 1SS393 (Standard) CMS05 (Standard) U1GWJ2C49 (Standard) SF20SC3L (Standard) 1SS394 (Standard) CMS06 (Standard) U1GWJ44 (Standard) SF30H1R5 (Standard) 1SS395 (Standard) CMS07 (Standard) U1GWJ49 (Standard) SF30JC6 (Standard) 1SS396 (Standard) CMS08 (Standard) U2FWJ44N (Standard) SF30SC6 (Standard) 1SS402 (Standard) CMS09 (Standard) U2GWJ44 (Standard) 1SS404 (Standard) CMS11 (Standard) U5GWJ2C48M (Standard) 1SS405 (Standard) CMS14 (Standard) U5GWJ2C42C (Standard) All Rights Reserved Copyright (C) Bee Technologies Inc.
  • 28. 2.半導体のスパイスモデルについてDiode/Schottky Rectifier S02 TOSHIBA TOSHIBA CMS15 (Standard) U10FWJ2C48M (Standard0 CMS16 (Standard) U10GWJ2C48C (Standard) CRS01 (Standard) U30FWJ2C48M (Standard) CRS02 (Standard) U30FWJ2C53M (Standard) CRS03 (Standard) U30GWJ2C48C (Standard) CRS04 (Standard) U30GWJ2C53C (Standard) CRS08 (Standard) U30QWK2C53 (Standard) CRS09 (Standard) CRS12 (Standard) CUS02 (Standard) HN2S01F (Standard) Standard:モデルパラメータ記述 HN2S01FU (Standard) Professional:等価回路モデル(逆特性考慮) HN2S02FU (Standard) HN2S02JE (Standard) HN2S03FE (Standard) HN2S03FU (Standard) JDH3D01S (Standard) TPCF8E02 (Standard) U1FWJ44L (Standard) U1FWJ44M (Standard) U1FWJ44N (Standard) U1GWJ2C49 (Standard) U1GWJ44 (Standard) U1GWJ49 (Standard) U2FWJ44N (Standard) U2GWJ44 (Standard) U5GWJ2C48M (Standard) 322Pcs U5GWJ2C42C (Standard) All Rights Reserved Copyright (C) Bee Technologies Inc.
  • 29. 2.半導体のスパイスモデルについてDiode/Schottky Rectifier S02COMPONENTS:DIODE/ SCHOTTKY RECTIFIER/PROFESSIONALPART NUMBER: RB160L-40MANUFACTURER: ROHMReverse Characteristic All Rights Reserved Copyright (C) Bee Technologies Inc.
  • 30. 2.半導体のスパイスモデルについてZener Diode S03TOSHIBA02CZ2_2-X (Professional)02CZ2_2-X (Standard)02CZ2_7-X (Professional)02CZ2_7-X (Standard)02DZ5_6X (Standard)02DZ5_6Y (Standard)02DZ5_6Z (Standard)02DZ24-X (Standard)02DZ24-Y (Standard)02DZ24-Z (Standard) 10pcsStandard:単純な等価回路Professional:Voltage Referenceの等価回路を使用 All Rights Reserved Copyright (C) Bee Technologies Inc.
  • 31. 2.半導体のスパイスモデルについてLaser Diode S04MITSUBISHIML120G14ML120G18ML120G20ML776H10ML976H10ML7924NICHIAUltra Violet NDHU110APAE2Violet NDHV310ACAViolet NDHV310APCSANYODL-3147-060DL-3148-025DL-7240-201PSONYSLD301VSLD302VSLD1121VSSLD1133VSSLD1137VS 17pcs All Rights Reserved Copyright (C) Bee Technologies Inc.
  • 32. 2.半導体のスパイスモデルについてLight-Emitting Diode (LED) S05Opto Supply PARA Light StanleyOSWT5111A (Ta=0C/ Professional) EP204K-35G1R1B1-CA (Blue/ Professional) EFR53655 (Professional)OSWT5111A (Ta=0C/ Standard) EP204K-35G1R1B1-CA (Blue/ Standard) EFR53655 (Standard)OSWT5111A (Ta=25C/ Professional) EP204K-35G1R1B1-CA (Green/ Professional) FY3863X (Professional)OSWT5111A (Ta=25C/ Standard) EP204K-35G1R1B1-CA (Green/ Standard) FY3863X (Standard)OSWT5111A (Ta=40C/ Professional) EP204K-35G1R1B1-CA (Red/ Professional)OSWT5111A (Ta=40C/ Standard) EP204K-35G1R1B1-CA (Red/ Standard) TOSHIBAOSWT5111A (Ta=60C/ Professional) TLWH1100 (TA=25C/ Professional)OSWT5111A (Ta=60C/ Standard) TOYODA GOSEI TLWH1100 (Ta=25C/ Standard)OSWT5111A (Ta=-20C/ Professional) E1J5-CY1A TLWH1100 (Ta=40C/ Professional)OSWT5111A (Ta=-20C/ Standard) TLWH1100 (TA=40C/ Standard)OSWT5111A (Ta=-40C/ Professional) SANYO TLWH1100 (Ta=60C/ Professional)OSWT5111A (Ta=-40C/ Standard) SLP-0H118A-51 TLWH1100 (Ta=60C/ Standard)OSWT5161A (Ta=0C/ Professional) SLP-WB89A-51 (Ta=0C/ Professional) TLWH1100 (Ta=-20C/ Professional)OSWT5161A (Ta=0C/ Standard) SLP-WB89A-51 (Ta=0C/ Standard) TLWH1100 (Ta=-20C/ Standard)OSWT5161A (Ta=25C/ Professional) SLP-WB89A-51 (Ta=25C/ Professional) TLWH1100 (Ta=-40C/ Professional)OSWT5161A (Ta=25C/ Standard) SLP-WB89A-51 (Ta=25C/ Standard) TLWH1100 (Ta=-40C/ Standard)OSWT5161A (Ta=40C/ Professional) SLP-WB89A-51 (Ta=40C/ Professional)OSWT5161A (Ta=40C/ Standard) SLP-WB89A-51 (Ta=40C/ Standard)OSWT5161A (Ta=60C/ Professional) SLP-WB89A-51 (Ta=60C/ Professional)OSWT5161A (Ta=60C/ Standard) SLP-WB89A-51 (Ta=60C/ Standard)OSWT5161A (Ta=-20C/ Professional) SLP-WB89A-51 (Ta=20C/ Professional)OSWT5161A (Ta=-20C/ Standard) SLP-WB89A-51 (Ta=-20C/ Standard)OSWT5161A (Ta=-40C/ Professional) SLP-WB89A-51 (Ta=-40C/ Professional)OSWT5161A (Ta=-40C/ Standard) SLP-WB89A-51 (Ta=-40C/ Standard)LEDのモデルはケース・バイ・ケースで等価回路を考慮 58pcs All Rights Reserved Copyright (C) Bee Technologies Inc.
  • 33. 2.半導体のスパイスモデルについてJunction FET S06Vishay Siliconix2N38192N44162N4416A2N54842N54852N5486J270J271SST270SST271SST4416SST5484SST5485 14pcsSST5486 All Rights Reserved Copyright (C) Bee Technologies Inc.
  • 34. 2.半導体のスパイスモデルについてMOSFET S07International Rectifier Fuji ElectricIRFB9N30A (Ta=25C/ Standard) 2SK3603-01MR (Ta=25C/ Standard)IRFB9N30A (Ta=25C/ Professional/ Standard body diode) 2SK3611-01MR (Ta=25C/ Standard)IRFB9N30A (Ta=25C/ Professional/ Professional body diode) 2SK3644-01 (Ta=25C/ Standard)IRFB9N60A (Ta=25C/ Standard) 2SK3677-01MR (Ta=25C/ Standard)IRFB9N60A (Ta=25C/ Professional/ Standard body diode) 2SK3681-01 (Ta=25C/ Standard)IRFB9N60A (Ta=25C/ Professional/ Professional body diode) 2SK3728-01MR (Ta=25C/ Standard)IRFB9N65A (Ta=25C/ Standard) 2SK3770-01MR (Ta=25C/ Standard)IRFB9N65A (Ta=25C/ Professional/ Standard body diode) 2SK3770-01MR (Ta=25C/ Professional/ Standard body diode)IRFB9N65A (Ta=25C/ Professional/ Professional body diode) 2SK3770-01MR (Ta=25C/ Professional/ Professional body diode)IRFIB7N50A (Ta=25C/ Standard) 2SK3872-01L (Ta=25C/ Standard)IRFIB7N50A (Ta=25C/ Professional/ Standard body diode) 2SK3872-01L (Ta=25C/ Professional/ Standard body diode)IRFIB7N50A (Ta=25C/ Professional/ Professional body diode) 2SK3872-01L (Ta=25C/ Professional/ Professional body diode) 2SK3872-01S (Ta=25C/ Standard)SHIDENGEN 2SK3872-01S (Ta=25C/ Professional/ Standard body diode)2SK2563 (Ta=25C/ Standard) 2SK3872-01S (Ta=25C/ Professional/ Professional body diode)2SK2563 (Ta=25C/ Professional/ Standard body diode) 2SK3872-01SJ (Ta=25C/ Standard)2SK2563 (Ta=25C/ Professional/ Professional body diode) 2SK3872-01SJ (Ta=25C/ Professional/ Standard body diode) 2SK3872-01SJ (Ta=25C/ Professional/ Professional body diode)ROHM2SK2740 (Ta=25C/ Standard) All Rights Reserved Copyright (C) Bee Technologies Inc.
  • 35. 2.半導体のスパイスモデルについて MOSFET S07Infineon Technologies TOSHIBASPA11N60C3 (Ta=25C/ Professional/ Special body diode) SSM3J13T (Ta=25C/ Standard)SPB02N60C3 (Ta=25C/ Professional/ Special body diode) SSM3J13T (Ta=25C/ Professional/ Standard body diode)SPB11N60C3 (Ta=25C/ Professional/ Special body diode) SSM3J13T (Ta=25C/ Professional/ Professional body diode)SPD02N60C3 (Ta=25C/ Professional/ Special body diode) SSM6J51TU (Ta=25C/ Standard)SPPI11N60C3 (Ta=25C/ Professional/ Special body diode) SSM6J51TU (Ta=25C/ Professional/ Standard body diode)SPP02N60C3 (Ta=25C/ Professional/ Special body diode) SSM6J51TU (Ta=25C/ Professional/ Professional body diode)SPP11N60C3 (Ta=25C/ Professional/ Special body diode) SSM5H05TU (Ta=25C/ Standard)SPU02N60C3 (Ta=25C/ Professional/ Special body diode) SSM5H05TU (Ta=25C/ Professional/ Standard body diode)SPW47N60C3 (Ta=25C/ Professional/ Special body diode) SSM5H05TU (Ta=25C/ Professional/ Professional body diode) SSM5H08TU (Ta=25C/ Standard)TOSHIBA SSM5H08TU (Ta=25C/ Professional/ Standard body diode)2SK2661 (Ta=25C/ Standard) SSM5H08TU (Ta=25C/ Professional/ Professional body diode)TPCP8402 (Ta=25C/ Professional/ Professional body diode)TPC6003 (Ta=25C/ Professional/ Professional body diode)TPC6005 (Ta=25C/ Standard)TPC6005 (Ta=25C/ Professional/ Standard body diode)TPC6005 (Ta=25C/ Professional/ Professional body diode)TPC6104 (Ta=25C/ Professional/ Professional body diode)TPCF8A01 (Ta=25C/ Standard)TPCF8A01 (Ta=25C/ Professional/ Standard body diode)TPCF8A01 (Ta=25C/ Professional/ Professional body diode)TPCF8302 (Ta=25C/ Professional/ Professional body diode)TPC8114 (Ta=25C/ Standard)TPC8114 (Ta=25C/ Professional/ Standard body diode)TPC8114 (Ta=25C/ Professional/ Professional body diode) 69pcs All Rights Reserved Copyright (C) Bee Technologies Inc.
  • 36. 2.半導体のスパイスモデルについてMOSFET S07 MOSFET本体 Standard:モデルパラメータ記述 Professional:等価回路モデル(ミラー容量考慮) ⇒ゲート・チャージ特性を考慮 ボディ・ダイオード Standard:モデルパラメータ記述 Professional:等価回路モデル(IFIR法による逆回復特性考慮) Special:等価回路モデル(-didt法:電流減少率による逆回復特性考慮) All Rights Reserved Copyright (C) Bee Technologies Inc.
  • 37. 2.半導体のスパイスモデルについてMOSFET S07COMPONENTS: Power MOSFET (Professional) Cool MOSPART NUMBER: SPD02N60C3MANUFACTURER: Infineon technologiesREMARK: Body Diode (Special)Gate Charge Characteristic16V14V V212V 0Vdc10V Dbreak 8V PER = 1000u D1 PW = 600u U2 I2 TF = 10n W1 SPD02N60C3P_DSP 1.8Adc 6V TR = 10n + TD = 0 - I2 = 10m I1 W 4V I1 = 0 IOFF = 1mA V1 ION = 0uA 520Vdc 2V 0 0V 0 2n 4n 6n 8n 10n 12n 14n V(W1:3) Time*10ms All Rights Reserved Copyright (C) Bee Technologies Inc.
  • 38. 2.半導体のスパイスモデルについてMOSFET S07COMPONENTS: Power MOSFET (Professional)PART NUMBER: SPD02N60C3MANUFACTURER: Infineon technologiesREMARK: Body Diode (Special)Switching Time Characteristic 12V L1 RL 3 V3 0.05uH 192 8V 0Vdc VDD 350 L2 RG 2 0.03uH 50 U2 4V V1 = 0 SPD02N60C3P_DSP 0 V1 V2 = 10 TD = 5u TR = 6n TF = 7n PW = 10u PER = 100u 0 0 0V 5.00us 5.05us 5.10us 5.15us V(2) V(3)/35 Time All Rights Reserved Copyright (C) Bee Technologies Inc.
  • 39. 2.半導体のスパイスモデルについてMOSFET S07COMPONENTS: Power MOSFET (Professional)PART NUMBER: SPD02N60C3MANUFACTURER: Infineon technologiesREMARK: Body Diode (Special)Body Diode Reverse Recovery Characteristic 10A R1 1 10 U1 D02N60C3_SP 0A V1 = -420 V2 = 90 V1 TD = 0 TR = 20n TF = {20*X} PW = 1u PER = 10u 0 PARAMETERS: X = 25.5n -10A 0 10.0us 10.1us 10.2us 10.3us 10.4us 10.5us I(R1) Time All Rights Reserved Copyright (C) Bee Technologies Inc.
  • 40. 2.半導体のスパイスモデルについてMOSFET S07電流減少率-didtモデル このモデルは、デバイス自体の特性よりも外部回路による 電流減少率を如何に表現するかがポイントとなる。 電流減少率は、構成される回路定数で決定される為である。 モデルの等価回路において、外部回路により決定される 電流減少率を検出し、それをデバイス自体の振る舞いに 反映させる機能を持たせなければならない。 All Rights Reserved Copyright (C) Bee Technologies Inc.
  • 41. 2.半導体のスパイスモデルについて BJT S08 RENESAS TOSHIBA 2SC2979 2SA950(Y) 2SC2547 2SA1015 2SA1020(Y) SANYO 2SA1162(Y) 2SC3150 2SA1202(Y) 2SC3153 2SA1586(Y) 2SC3467D (TC=25C) 2SB906 2SC3467D (TC=80C) 2SC732TM 2SC3467D (TC=110C) 2SC1815 2SC3467D (TC=150C) 2SC1959 2SC2240 STMicroelectronics 2SC2482 BUL381D 2SC2878 BUL416 2SC3112 2N3055 2SC3265 MJ2955 2SC3329 2SC5172 SHINDENGEN 2SD2012 2SC4054 NEC 2SC945 ROHM 2SC1740S Gummel-Poonモデルを採用 2SC3359S 2SC3415S 2SC4015 37pcs 2SD1782K All Rights Reserved Copyright (C) Bee Technologies Inc.
  • 42. 2.半導体のスパイスモデルについてDarlington Transistor S09 NEC 2SD560 2SD985 2SD986 2SD1164-Z SANYO 2SD1827 2SD1830 2SD2048 8pcs 2SD2049IGBT S10 International Rectifier IRG4BC20SD IRG4IBC20KD IRG4PC50KD IRG4PF50W IRG4PH50KD TOSHIBA GT8J101 GT8J102(SM) GT8Q101 GT10J321 GT15J101 GT15J102 GT15J103(SM) GT15Q101 14 pcs. GT25Q101 All Rights Reserved Copyright (C) Bee Technologies Inc.
  • 43. 2.半導体のスパイスモデルについてVoltage Reference S11NECRD5_6FRD6.2F 3pcsRD6.8F All Rights Reserved Copyright (C) Bee Technologies Inc.
  • 44. 2.半導体のスパイスモデルについてVoltage Regulator S12NEC NEC NECuPC24A05HF uPC78M09A uPC7815AuPC24A12HF uPC78M10A uPC7818AuPC24A15HF uPC78M12A uPC7824AuPC24M05A uPC78M15A uPC7893AuPC24M06A uPC78M18AuPC24M07A uPC78M24AuPC24M08A uPC78N05HuPC24M09A uPC78N08HuPC24M10A uPC78N10HuPC24M12A uPC78N12HuPC24M15A uPC78N15HuPC24M18A uPC78N18HuPC78L05J uPC78N24HuPC78L05T uPC317uPC78L06J uPC2405AuPC78L06T uPC2406AuPC78L07J uPC2407AuPC78L07T uPC2408AuPC78L08J uPC2409AuPC78L08T uPC2410AuPC78L10J uPC2412AuPC78L10T uPC2415AuPC78L12J uPC2418AuPC78L12T uPC3018uPC78L15J uPC3025uPC78L15T uPC3504uPC78M05A uPC3533uPC78M06A uPC7805AuPC78M07A uPC7808AuPC78M08A uPC7812A 64pcs All Rights Reserved Copyright (C) Bee Technologies Inc.
  • 45. 2.半導体のスパイスモデルについてShunt Regulator S13PanasonicAN1431TAN1432NTJRCNJM431NECUPC1093TOSHIBATA76L431STA76432F 6 pcs All Rights Reserved Copyright (C) Bee Technologies Inc.
  • 46. 2.半導体のスパイスモデルについてOperational Amplifier S14 NEW JAPAN RADIO NEW JAPAN RADIO NEW JAPAN RADIO NEW JAPAN RADIO NJM022 NJM072M NJM2060V NJM2164V NJM022D NJM074 NJM2068D NJM2730 NJM022L NJM082 NJM2068L NJM2732 NJM022M NJM082B NJM2068M NJM2742D NJM022V NJM082BD NJM2068V NJM2742M NJM022B NJM082BL NJM2107F NJM2742RB1 NJM022BD NJM082BM NJM2107F3 NJM2742V NJM022BL NJM082BV NJM2112 NJM2746 NJM022BM NJM082D NJM2115 NJM2902N NJM022BV NJM082L NJM2119 NJM2902M NJM062 NJM082M NJM2120 NJM2902V NJM062D NJM084 NJM2121 NJM2904D NJM062L NJM353D NJM2130F NJM2904L NJM062M NJM353M NJM2130F3 NJM2904M NJM062V NJM1458D NJM2132D NJM2904V NJM064 NJM1458M NJM2132L NJM3403AD NJM064D NJM2041D NJM2132M NJM3403AM NJM064M NJM2041M NJM2132V NJM3403AV NJM064V NJM2041L NJM2141 NJM3404AD NJM072 NJM2058D NJM2147D NJM3404AL NJM072B NJM2058M NJM2147M NJM3404AM NJM072BD NJM2058V NJM2162D NJM3404AV NJM072BL NJM2059D NJM2162L NJM3414A NJM072BM NJM2059M NJM2162M NJM4556AD NJM072BV NJM2059V NJM2162V NJM4556AL NJM072D NJM2060D NJM2164D NJM4556AM NJM072L NJM2060M NJM2164M NJM4556AV All Rights Reserved Copyright (C) Bee Technologies Inc.
  • 47. 2.半導体のスパイスモデルについてOperational Amplifier S14 NEW JAPAN RADIO NEW JAPAN RADIO NEW JAPAN RADIO NEW JAPAN RADIO NJM4558D NJM5532M NJM14558R NJU7024M NJM4558L NJM5534D NJM14558V NJU7024V NJM4558M NJM5534M NJMOP-07D NJU7031D NJM4558V NJM12902D1 NJMOP-07M NJU7031M NJM4559D NJM12902E NJU7001D NJU7031V NJM4559L NJM12902M NJU7001M NJU7032D NJM4559M NJM12902V NJU7001V NJU7032M NJM4559V NJM12904D NJU7002D NJU7034D NJM4560D NJM12904E NJU7002M NJU7034M NJM4560L NJM12904L NJU7004D NJU7034V NJM4560M NJM12904M NJU7004M NJU7042 NJM4562D NJM12904R NJU7004V NJU7043 NJM4562L NJM12904V NJU7007 NJU7051D NJM4562M NJM13403D1 NJU7008 NJU7051M NJM4565D NJM13403E NJU7011 NJU7051V NJM4565L NJM13403M NJU7012 NJU7052D NJM4565M NJM13403V NJU7013 NJU7052M NJM4565V NJM13404D NJU7014 NJU7054D NJM4580D NJM13404E NJU7015 NJU7054M NJM4580E NJM13404L NJU7016 NJU7054V NJM4580L NJM13404M NJU7019 NJU7061D NJM4580M NJM13404R NJU7021D NJU7061M NJM4580V NJM13404V NJU7021M NJU7061V NJM4741D NJM14558D NJU7021V NJU7062D NJM4741M NJM14558E NJU7022D NJU7062M NJM5532D NJM14558L NJU7022M NJU7064D NJM5532L NJM14558M NJU7024D NJU7064M All Rights Reserved Copyright (C) Bee Technologies Inc.
  • 48. 2.半導体のスパイスモデルについてOperational Amplifier S14 NEW JAPAN RADIO NEW JAPAN RADIO SANYO TOSHIBA NJU7064V uPC4061C LA6083D TC75W51FK NJU7071D uPC4061G2 LA6458M TC75W51FU NJU7071M uPC4062C TC75W54FK NJU7071V uPC4062G2 STMicroelectronics TC75W54FU NJU7072D uPC4064C MC3303 TC75W60FK NJU7072M uPC4064G2 MC33078 TC75W60FU NJU7074D uPC4091C MC33171 NJU7074M uPC4091G2 SEIKO INSTRUMENT NJU7074V uPC4092C BURR BROWN S-89110A NJU7091A uPC4092G2 OPA2652 NJU7092A uPC4093C OPA685 NJU7093A uPC4093G2 NJU7094 uPC4250C TOSHIBA NJU7095 uPC4250G2 TA75S01F NJU7096 uPC4556C TA75W01FU uPC4556G2 TA75S558F NEC ELECTRONICS uPC4558C TC75S51F uPC324C uPC4558G2 TC75S51FU uPC324G2 uPC4560C TC75S51FE uPC358C uPC4560G2 TC75S54F uPC358G2 TC75S54FU uPC741C RENESAS TC75S54FE uPC741G2 HA17358A TC75S55F uPC1458C TC75S55FU uPC1458G2 SANYO TC75S55FE uPC3403C LA6082D TC75S60F uPC3403G2 LA6082M TC75S60FU 292pcs All Rights Reserved Copyright (C) Bee Technologies Inc.
  • 49. 2.半導体のスパイスモデルについてComparator S15NEC TOSHIBA NATIONALuPC311C (Bipolar) TC75S59F (CMOS) LM319AH (Bipolar)uPC311G2 (Bipolar) TC75S59FE (CMOS) LM319AJ (Bipolar)uPC339C (Bipolar) TC75S59FU (CMOS) LM319AM (Bipolar)uPC339G2 (Bipolar) TC75W59FU (CMOS) LM319AN (Bipolar)uPC393C (Bipolar) TC75W59FK (CMOS) LM319H (Bipolar)uPC393G2 (Bipolar) LM319J (Bipolar)uPC393HA (Bipolar) NATIONAL LM319M (Bipolar) LM111H (Bipolar) LM319N (Bipolar)NEW JAPAN RADIO LM111H/883 (Bipolar) LMC6762 (CMOS)NJM319D (Bipolar) LM111J-8 (Bipolar)NJM319M (Bipolar) LM111J-8/833 (Bipolar) RENESASNJM319V (Bipolar) LM111J/883 (Bipolar) HA1631S04CM (CMOS)NJM311D (Bipolar) LM119H (Bipolar)NJM311M (Bipolar) LM119H/883 (Bipolar)NJM2403 (Bipolar) LM119J (Bipolar)NJM2901 (Bipolar) LM119J/883 (Bipolar)NJM2903 (Bipolar) LM119W/883 (Bipolar)NJU7108 (Bipolar) LM119WG/883 (Bipolar)NJU7109 (Bipolar) LM211H (Bipolar) LM211J-8 (Bipolar)TOSHIBA LM211M (Bipolar)TC75S56F (CMOS) LM219J (Bipolar)TC75S56FE (CMOS) LM311H (Bipolar)TC75S56FU (CMOS) LM311M (Bipolar)TC75S58F (CMOS) LM311N (Bipolar)TC75S58FE (CMOS) LM311N-14 (Bipolar) 57pcsTC75S58FU (CMOS) All Rights Reserved Copyright (C) Bee Technologies Inc.
  • 50. 2.半導体のスパイスモデルについてSidac S16MOTOROLA SHINDENGEN SHINDENGENMKP1V120 K1V18 K1V8MKP1V130 K1V22(W) K1V10MKP3V110 K1V22 K1V11MKP3V120 K1V24 K1V12MKP3V130 K1V24W K1V14 K1V26(W) K1V16ON Semiconductor K1V26MKP1V120 K1V33(W)MKP1V130 K1V34(W)MKP1V160 K1V36(W)MKP1V240 K1V38(W)MKP3V120 K1V(A)10MKP3V240 K1V(A)11 K1V(A)12 K1V(A)14 K1V(A)16 G1V(A)8C G1V(A)10C G1V(A)14C G1V(A)15C G1V(A)20C G1V(B)8C G1V(B)22C K1V5 K1V6 42pcs All Rights Reserved Copyright (C) Bee Technologies Inc.
  • 51. 2.半導体のスパイスモデルについてSidac S16COMPONENTS:SIDACPART NUMBER:K1V10MANUFACTURER:SHINDENGEN MFG.CO.,LTD.I-V Characteristic All Rights Reserved Copyright (C) Bee Technologies Inc.
  • 52. 2.半導体のスパイスモデルについてPhotocoupler S17SHARPPC123PC356NT Opto Device S18PC357NTPC817X TOSHIBATOSHIBA TORX179 2pcs TOTX179TLP421_ATLP421_BTLP521-1_ATLP521-1_BTLP521-2_A Varistor S19TLP521-2_BTLP521-4_ATLP521-4_B SHINDENGENTLP621_A VR60B(A) VR60BP(A)TLP621_BTLP624 VR61B(A) 3pcsTLP628_ATLP628_BTLP629TPS852NECPS2501-1PS2501-2PS2501-4PS2501L-1PS2501L-2 25 pcsPS2501L-4 All Rights Reserved Copyright (C) Bee Technologies Inc.
  • 53. 2.半導体のスパイスモデルについてSurege Absorber (ZNR) S20 Panasonic ERZV10D121 ERZV14D151 ERZV20D151 ERZV05D180 ERZV07D391 ERZV10D101 ERZV20D821 ERZV10D751 ERZV14D751 ERZV10D511 ERZV07D221 ERZV09D391 ERZV05D820 ERZV20D911 ERZV14D431 ERZV10D330 ERZV14D330 ERZV09D221 ERZV05D361 ERZV09D121 ERZV10D151 ERZV14D180 ERZV20D180 ERZV05D201 ERZV07D431 ERZV10D102 ERZV10D820 ERZV14D820 ERZV10D560 ERZV07D241 ERZV09D431 ERZV07D121 ERZV14D470 ERZV10D331 ERZV14D331 ERZV09D241 ERZV05D390 ERZV09D151 ERZV10D180 ERZV14D182CS ERZV20D182 ERZV05D220 ERZV07D470 ERZV10D112 ERZV10D821 ERZV14D821 ERZV10D621 ERZV07D270 ERZV09D470 ERZV20D241 ERZV14D471 ERZV10D361 ERZV14D361 ERZV09D270 ERZV05D391 ERZV20D270 ERZV10D201 ERZV14D201 ERZV20D201 ERZV05D221 ERZV07D471 ERZV20D271 ERZV10D911 ERZV14D911 ERZV10D680 ERZV07D271 ERZV09D471 ERZV20D330 ERZV14D511 ERZV10D390 ERZV14D390 ERZV09D271 ERZV05D431 ERZV20D331 ERZV10D220 ERZV14D220 ERZV20D220 ERZV05D241 ERZV07D511 ERZV20D361 ERZV14D101 ERZV20D101 ERZV10D681 ERZV07D330 ERZV09D511 ERZV20D390 ERZV14D560 ERZV10D391 ERZV14D391 ERZV09D330 ERZV05D470 ERZV20D391 ERZV10D221 ERZV14D221 ERZV20D221 ERZV05D270 ERZV07D560 ERZV20D431 ERZV14D102 ERZV20D102 ERZV05D101 ERZV07D331 ERZV09D560 ERZV20D470 ERZV14D621 ERZV10D431 ERZV07D151 ERZV09D331 ERZV05D471 ERZV20D471 ERZV10D241 ERZV14D241 ERZV09D18 ERZV05D271 ERZV07D680 ERZV20D511 ERZV14D112 ERZV20D112 ERZV05D121 ERZV07D361 ERZV09D680 ERZV20D560 ERZV14D680 ERZV10D470 ERZV07D180 ERZV09D361 ERZV05D560 ERZV20D621 ERZV10D270 ERZV14D270 ERZV09D201 ERZV05D330 ERZV07D820 ERZV20D680 ERZV14D121 ERZV20D121 ERZV05D151 ERZV07D390 ERZV09D820 ERZV20D681 ERZV10D471 ERZV07D201E ERZV09D390 ERZV05D680 ERZV20D751 ERZV14D681 ERZV14D271 RZV09D220 ERZV05D331 ERZV09D101 ERZV20D820 152pcs ERZV10D271 All Rights Reserved Copyright (C) Bee Technologies Inc.
  • 54. 2.半導体のスパイスモデルについてThermistor S21 SEMITEC 3D-22 4D-22 5D-11 6D-22 8D-13 16D-13 6pcs All Rights Reserved Copyright (C) Bee Technologies Inc.
  • 55. 2.半導体のスパイスモデルについてThysistor S22MOTOROLA MOTOROLA ON SEMICONDUCTOR ON SEMICONDUCTORMCR12DSM MCR265-8 2N5060 MCR704A NECMCR12DSN MCR265-10 2N5061 MCR706A 2P4MMCR22-2 MCR310-2 2N5062 MCR708A 2P5MMCR22-3 MCR310-3 2N5064 MCR716 2P6MMCR22-4 MCR310-4 2N6394 MCR718 2S2MMCR22-6 MCR310-6 2N6395 MCR72-8 2S4MMCR22-8 MCR310-8 2N6397 03P2JMCR72-2 MCR310-10 2N6399 PHILIPS SEMICONDUCTOR 03P2MMCR72-3 2N6400 BT145-500R 03P4JMCR72-4 TOSHIBA 2N6401 BT145-600R 3P4JMCR72-6 SF3G48 2N6402 BT145-800R 3P4J-ZMCR72-8 SF5G49 2N6403 BT151U-500C 03P4MMCR72-10 SF5J49 2N6404 BT151U-650C 03P4MFMCR218-2FP SF10GZ47 2N6405 BT151U-800C 03P4MGMCR218-4FP SF10JZ47 2N6504 BT151X-500 3P4MHMCR218-6FP USF5G49 2N6505 BT151X-650 03P5JMCR218-8FP USF5J49 2N6507 BT151X-800 03P6MGMCR218-10FP 2N6508 BT152-400R 3P6MHMCR225-2FP 2N6509 BT152-600R 5P4SMAMCR225-4FP MCR8DSM BT152-800R 5P6SMAMCR225-6FP MCR8DSN BT152B-400R 8P2MMCR225-8FP MCR12DSM BT152B-600R 8P4JMCR225-10FP MCR12DSN BT152B-800R 8P4MMCR264-4 MCR68-2 BT300S-500RMCR264-6 MCR69-2 BT300S-600RMCR264-8 MCR69-3 BT300S-800RMCR264-10 MCR72-3 BTH151S-650R MCR72-6MCR265-2 MCR703A C106D 123pcsMCR265-4 MCR106-6MCR265-6 All Rights Reserved Copyright (C) Bee Technologies Inc.
  • 56. 2.半導体のスパイスモデルについてPWM IC S23 Fuji Electronics FA3511BP FUJITSU 2pcs MB3800 All Rights Reserved Copyright (C) Bee Technologies Inc.
  • 57. 2.半導体のスパイスモデルについて PWM IC S23 COMPONENTS: Pulse Width Modulation IC (PWMIC) PART NUMBER: FA5311BP MANUFACTURER: Fuji Electronics 8 CS pin voltage V1 = 0 V2 V2 = 3.6 TD = 0 TR = 50U 7 1 TF = 10N PW = 200U CT PER = 500U 360p RT IC = 0 5.1k 0 0 I1 TCLOSE = 0 0 1 2 6 1 U12 2.8Vdc U1 10uAdc U16 2 V1 C3 Rcsp 0 1 0 DZFA531X U11 1 2 1 1G E2 3 UVLO 1 2 1 Vcc 7 1 3 OSC IN+ OUT+ 2 0 2 IN- OUT- 1 FREQ = 135K Q1 0 0 EVALUE COMP2 COMP2 S1 QN 18Vdc IF ( V(UVLO) >0.8, 9.2, 15.5 ) U17 0 + + Q2 - - UCOMP 1 0 0 2 QN S 0 0 2 1 VOFF = 0.0V 1 VON = 1.0V 1 U19 2 INV 4 0 R21 0 2 5 1 1 3 3 2 6 5 2 3 1k 3 4 U14 V4 DT voltage pwmout NOR3VOFF = 0 0 PWMCOMPARATOR 1 QPVAMPL = 0.25 2 3 OSCCLKFREQ = 50K V1 = 5 VDT 1 Q4 V2 = 2 2.2Vdc V8 2 V3 TD = 20U 2V COMP2 Q3 TR = 10U U15 QN TF = 10N 0 COMP2 1 PW = 200U 1 8 2 2 2 ov ercurrent PER = 500U 2 0 0 V7 0 3 6 0 1 RSFFLOP 0 U13 0.24Vdc 3 0 R11 R9 0.001 220 C6 0 6800p PWM ICの等価回路図 All Rights Reserved Copyright (C) Bee Technologies Inc.
  • 58. 2.半導体のスパイスモデルについてPWM IC S23 sec U11 D4 U7 out L21 5D-11 SF6L20U U1 U4 + + + C1 R1 U5 U6 R11 U8 5 6_7 D2SBA6 0 2.2k Rload 220u 22k C21 C22 C23 48 1 2 3 4 C2 R9 D3 3 8_9 3300p 2 D1 VDT1 ERA 91-02 0Vdc 2.2 18k R15 D1NS4 D2 R12 1 R16 S2L60 2.2k T1 910 V1 = 0 UT2 UT1 U9 V2 = 6 VS3 2SK1 006-01MR 2SK1 006-01MR C7 PC817 TD = 3 .76m TR = 2.32ms TF = 0.48ms R2 0.047 u R13 C8 PW = 1n C3 0 PER = 20ms 2200p 4.7k 680 0.22u V1 = 0 2.2k V2 = 144 VS1 R3 R14 TD = 0 Q2SA115 0 R10 TR = 3.76ms Q1 C4 330k TF = 3.44ms 4.7k U2 U10 PW = 2.8m MTZJ24B 47u TL431 PER = 20ms IC = 22.7 5 R4 PER = 20ms 0.22 2.2k PW = 2.8m R17 TF = 3.44ms TR = 3.76ms TD = 1 0m V2 = 144 0 V1 = 0 VS2 R5 PER = 20ms PW = 1n 100 TF = 0.48ms TR = 2.32ms 0 TD = 1 3.76m CS CT V2 = 6 VS4 V1 = 0 0.22u 1500p IC = 0.89 IC = 0 U3 V 8 7 6 5 V R6 FA5311BP 220 FOS C = 30K 1 2 3 4 V R8 RT R7 0.001 5.6k 220 C5 6800p 0 All Rights Reserved Copyright (C) Bee Technologies Inc.
  • 59. 2.半導体のスパイスモデルについてPWM IC S23 V output, I output All Rights Reserved Copyright (C) Bee Technologies Inc.
  • 60. 2.半導体のスパイスモデルについてPWM IC S23 PWM IC: OSC, FB, and OUT All Rights Reserved Copyright (C) Bee Technologies Inc.
  • 61. 2.半導体のスパイスモデルについてAnalog IC S24 New Japan Radio NJM78LR05 NJM2887 NJM2172 TOSHIBA TAH8N401K TAH6N201U Rohm BA00ASFP 6pcs All Rights Reserved Copyright (C) Bee Technologies Inc.
  • 62. 2.半導体のスパイスモデルについてDigital Transistor S25 ROHM DTA123EE DTC123ESA DTA143ZSA DTC124XUA DTC144EE DTD123YK DTA123EKA DTC123EM DTC113ZUA DTC124XKA DTC144EUA DTD123YS DTA123ESA DTC123JE DTC113ZKA DTC124XSA DTC144EKA DTD143EC DTA123EUA DTC123JKA DTC113ZSA DTC143EE DTC144ESA DTD143EK DTA143EE DTC123JM DTC114EM DTC143EM DTC144WE DTD143ES DTA143EKA DTC123JSA DTC114EE DTC143EUA DTC144WKA DTA143EM DTC123JUA DTC114EUA DTC143EKA DTC144WSA DTA143ESA DTC123YE DTC114EKA DTC143ESA DTC144WUA DTA143EUA DTC123YUA DTC114ECA DTC143XE DTC363EK DTA143XE DTC123YKA DTC114ESA DTC143XKA DTC363ES DTA143XKA DTC123YSA DTC114YE DTC143XM DTC363EU DTA143XM DTC124EM DTC114YM DTC143XSA DTD113EK DTA143XSA DTC124EE DTC114YUA DTC143XUA DTD113ES DTA143XUA DTC124EUA DTC114YKA DTC143ZM DTD113ZK DTA143ZM DTC124EKA DTC114YSA DTC143ZE DTD113ZU DTA143ZE DTC124ESA DTC123EE DTC143ZUA DTD113ZS DTD114EK DTA143ZUA DTC124XE DTC124XM DTC123EUA DTC123EKA DTC143ZKA DTC143ZSA DTD114ES 95pcs DTA143ZKA All Rights Reserved Copyright (C) Bee Technologies Inc.
  • 63. 2.半導体のスパイスモデルについてBRT S26TOSHIBARN1101FVRN1102FVRN1103FVRN1104FVRN1105FVRN1106FVRN1314RN1315RN1316RN1317RN1107FSRN1108FSRN1109FSRN1101FTRN1102FTRN1103FTRN1104FTRN1105FTRN1106FTRN1414RN1415 21pcs All Rights Reserved Copyright (C) Bee Technologies Inc.
  • 64. 2.半導体のスパイスモデルについて DIGITAL IC S27 TOSHIBA TOSHIBA TOSHIBA TOSHIBA TC7S00F TC74VHCT00AF TC74VHC02F TC74HCU04AFN TC7S00FU TC74VHCT00AFN TC74VHC02FN TC74HCU04AP TC7SET00F TC74VHCT00AFT TC74VHC02FT TC74VHC04F TC7SET00FU TC7S02F TC7S04F TC74VHC04FN TC7SH00F TC7S02FU TC7S04FU TC74VHC04FT TC7SH00FE TC7SET02F TC7SET04F TC74VHCT04AF TC7SH00FS TC7SET02FU TC7SET04FU TC74VHCT04AFN TC7SH00FU TC7SH02F TC7SH04F TC74VHCT04AFT TC7W00F TC7SH02FE TC7SH04FE TC7W00FK TC7SH02FS TC7SH04FS TC7W00FU TC7SH02FU TC7SH04FU TC7WH00FK TC7W02F TC7W04F TC7WH00FU TC7W02FK TC7W04FK TC74AC00F TC7W02FU TC7W04FU TC74AC00FN TC7WH02FK TC7WH04FK TC74AC00FT TC7WH02FU TC7WH04FU TC74AC00P TC74AC02F TC74AC04F TC74ACT00F TC74AC02FN TC74AC04FN TC74ACT00FN TC74AC02FT TC74AC04FT TC74ACT00FT TC74AC02P TC74AC04P TC74ACT00P TC74ACT02F TC74ACT04F TC74HC00AF TC74ACT02FN TC74ACT04FT TC74HC00AFN TC74ACT02FT TC74ACT04P TC74HC00AP TC74ACT02P TC74HC04AF TC74HCT00AF TC74HC02AF TC74HC04AFN TC74HCT00AFN TC74HC02AFN TC74HC04AP TC74HCT00AP TC74HC02AP TC74HCT04AF TC74VHC00F TC74HCT02AF TC74HCT04AFN TC74VHC00FN TC74HCT02AFN TC74HCT04AP 98pcs TC74VHC00FT TC74HCT02AP TC74HCU04AF All Rights Reserved Copyright (C) Bee Technologies Inc.
  • 65. 2.半導体のスパイスモデルについてProgrammable Unijunction Transistor (PUT) S28 TOSHIBA TN41A TN41B NEC NT13T1 NT13T2 U71 U72 6pcs Crystal Oscillator S29 Daishinku Corp. DOC-49S3/C1.308MHz 1pcs Photo Diode S30 SEIMENS SFH205FA 1pcs All Rights Reserved Copyright (C) Bee Technologies Inc.
  • 66. 3.受動部品のスパイスモデルについてCapacitor Ceramic P01Murata Murata Panasonic PanasonicTa=25C Ta=60C Ta=25C Ta=60CDE1B3KX101KA5B DE1B3KX101KA5B ECKATS101MB ECKATS101MBDE1B3KX151KA5B DE1B3KX151KA5B ECKATS102ME ECKATS102MEDE1B3KX221KA5B DE1B3KX221KA5B ECKATS103ME ECKATS103MEDE1B3KX331KA5B DE1B3KX331KA5B ECKATS152ME ECKATS152MEDE1B3KX471KA5B DE1B3KX471KA5B ECKATS221MB ECKATS221MBDE1B3KX681KA5B DE1B3KX681KA5B ECKATS222ME ECKATS222MEDE1E3KX102MA5B DE1E3KX102MA5B ECKATS332ME ECKATS332MEDE1E3KX152MA5B DE1E3KX152MA5B ECKATS471MB ECKATS471MBDE1E3KX222MA5B DE1E3KX222MA5B ECKATS472ME ECKATS472MEDE1E3KX332MA5B DE1E3KX332MA5B ECKTBC102ME ECKTBC102MEDE1E3KX392MA5B DE1E3KX392MA5B ECKTBC222ME ECKTBC222MEDE1E3KX472MA5B DE1E3KX472MA5B ECKTBC472ME ECKTBC472MEMurata Murata Panasonic PanasonicTa=40C Ta=80C Ta=40C Ta=80CDE1B3KX101KA5B DE1B3KX101KA5B_80C ECKATS101MB ECKATS101MBDE1B3KX151KA5B DE1B3KX151KA5B_80C ECKATS102ME ECKATS102MEDE1B3KX221KA5B DE1B3KX221KA5B_80C ECKATS103ME ECKATS103MEDE1B3KX331KA5B DE1B3KX331KA5B_80C ECKATS152ME ECKATS152MEDE1B3KX471KA5B DE1B3KX471KA5B_80C ECKATS221MB ECKATS221MBDE1B3KX681KA5B DE1B3KX681KA5B_80C ECKATS222ME ECKATS222MEDE1E3KX102MA5B DE1E3KX102MA5B_80C ECKATS332ME ECKATS332MEDE1E3KX152MA5B DE1E3KX152MA5B_80C ECKATS471MB ECKATS471MBDE1E3KX222MA5B DE1E3KX222MA5B_80C ECKATS472ME ECKATS472MEDE1E3KX332MA5B DE1E3KX332MA5B_80C ECKTBC102ME ECKTBC102MEDE1E3KX392MA5B DE1E3KX392MA5B_80C ECKTBC222ME ECKTBC222MEDE1E3KX472MA5B DE1E3KX472MA5B_80C ECKTBC472ME ECKTBC472ME 96pcs All Rights Reserved Copyright (C) Bee Technologies Inc.
  • 67. 3.受動部品のスパイスモデルについてCapacitor Electrolytic P02ELNA Co.,Ltd.RJJ-35V221MG5-T20RJJ-35V561MI5-T4Nippon Chemi-con CorporationSMH200VN270-22ATC04RKME25VB-10MF5.0TC04RKME50VB1LXZ25VB220MH12LXZ25VB2200MK35LXZ25VB3300ML30PanasonicECEAOJKG101ECEAOJKG221ECEAOJKG470NichiconUUGOJ103MNR1MSUUG1A103MRR1MSUUG1C472MNR1MSUUG1E332MNR1MSRubycon200MXP100MK2229NITAIGPR Series 17pcs All Rights Reserved Copyright (C) Bee Technologies Inc.
  • 68. 3.受動部品のスパイスモデルについてCapacitor Films P03Matsushita Electric Industrial Co.,Ltd.ECQ-B1H102JF3ECQ-B1H103JF3ECQV1H104JL3ECQV1H473JL3ECQV1H473JL3Okaya Electric Industries Co.,Ltd.PA104-C 5pcs All Rights Reserved Copyright (C) Bee Technologies Inc.
  • 69. 3.受動部品のスパイスモデルについてCapacitor -3 0 3 6 9 10 10 10 10 10 (Hz) Capacitor model Impedance vs. Frequency コンデンサの種類により、ESR値及びESL値には傾向があります。 その特性も考慮しなければなりません。 All Rights Reserved Copyright (C) Bee Technologies Inc.
  • 70. 3.受動部品のスパイスモデルについてCOMPONENTS: CAPACITOR/CERAMICPART NUMBER: DE1B3KX101KA5BMANUFACTURER: MURATAFrequency vs. IZI Characteristic All Rights Reserved Copyright (C) Bee Technologies Inc.
  • 71. 3.受動部品のスパイスモデルについてCOMPONENTS: CAPACITOR/ELECTROLYTICPART NUMBER: UUG1E332MNR1MSMANUFACTURER: NichiconFrequency vs. IZI Characteristic 50 10 1.0 100m 100Hz 1.0KHz 10KHz 100KHz 1.0MHz 10MHz 100MHz V(N00244)/ I(V2) Frequency All Rights Reserved Copyright (C) Bee Technologies Inc.
  • 72. 3.受動部品のスパイスモデルについてChoke Coil P04 TOKO WURTH ELEKTRONIK GmbH & 8RHB,4.7uH,3.2A CO.KG 8RHB,10uH,2.3A 214-6215 8RHB,22uH,1.6A 214-6221 8RHB,33uH,1.4A 214-6237 8RHB,47uH,1.2A 214-6243 8RHB,82uH,0.91A 214-6265 8RHB,100uH,0.79A 228-450 8RHB,100uH,1A 228-466 8RHB,220uH,0.7A 228-472 8RHB,220uH,0.51A 228-488 8RHB,330uH,0.43A 228-494 8RHB,330uH,0.54A 228-501 8RHB,470uH,0.36A 228-517 8RHB,470uH,0.47A 228-523 28pcs 228-539Common Mode Choke Coil P05 KOURINGIKEN CO.,LTD. HR-24-E153 1pcs All Rights Reserved Copyright (C) Bee Technologies Inc.
  • 73. 3.受動部品のスパイスモデルについてコイルの等価回路の考え方(周波数を考慮する) L1 C1 L1 R1 L1 R1 L1 R1 -3 0 3 6 9 10 10 10 10 10 (Hz) Inductor model Impedance vs. Frequency All Rights Reserved Copyright (C) Bee Technologies Inc.
  • 74. 3.受動部品のスパイスモデルについてCOMPONENTS : CHOKE COILPART NUMBER : 8RHBVALUE : 470 uHCURRENT MAX : 0.36 AMANUFACTURER : TOKOFrequency vs. IZI Characteristic All Rights Reserved Copyright (C) Bee Technologies Inc.
  • 75. 3.受動部品のスパイスモデルについてTransformer P06 AIHARA SD-1603 Chatchawan 2pcs T1 *$ *COMPONENTS: TRANSFORMER *PART NUMBER: SD-1603 *MANUFACTURER: AIHARA ELECTRIC CO., LTD. * All Rights Reserved Copyright (C) Bee Technologies Inc. 2005 .SUBCKT SD-1603_12V 1 2 3 4 Kn_K1 L_L2 L_L3 0.99997 R_R5 S1 3 3.653 L_L3 S1 4 163.233mH C_C4 S1 4 5.85849nF R_R4 S1 4 2.21424k L_L2 P2 2 8.09H C_C3 P2 2 117.29p R_R3 P2 2 116.087k R_R1 1 P1 160 L_L1 P1 P2 27.2291mH R_R2 P1 P2 124.878k C_C1 P1 P2 153.726p .ENDS *$ All Rights Reserved Copyright (C) Bee Technologies Inc.
  • 76. 3.受動部品のスパイスモデルについてInductor P07TAIYOYUDEN CO.,LTD.FBA04HA600AB-00Newport Components22R10522R22522R474 4pcs All Rights Reserved Copyright (C) Bee Technologies Inc.
  • 77. 3.受動部品のスパイスモデルについてMagnetic Core P08 FDK TDK Ferroxcube Ferroxcube 2H04 DN70 4E1 3C91 2H06 H5A 3E5 3C92 2H07 H5B2 3E6 3C93 2H10 H5C2 3E7 3C94 2H15 H5C3 3E8 3C96 2H15B HP5 3E9 3D3 6H10 HS10 3E25 3F3 6H20 HS52 3E26 3F35 6H40 HS72 3E27 3F4 6H41 PC40 3E28 3F45 6H42 PC44 3E55 3F5 7H10 PC45 2P40 3H3 7H20 PC46 2P50 3R1 PC47 2P65 3S1 PC50 2P80 3S3 2P90 3S4 3B1 4A11 3B7 4A15 3C11 4B1 3C30 4C65 3C34 4D2 3C81 4F1 3C90 4S2 74pcs All Rights Reserved Copyright (C) Bee Technologies Inc.
  • 78. 3.受動部品のスパイスモデルについてCOMPONENTS:MAGNETIC COREPART NUMBER:6H10MANUFACTURER:FDKHysteresis Curve Characteristics All Rights Reserved Copyright (C) Bee Technologies Inc.
  • 79. 3.受動部品のスパイスモデルについてCrystal P09KYOCERA KINSEKIHC-49/U-S5.000MHzHC-49/U-S10.000MHz 2 pcs All Rights Reserved Copyright (C) Bee Technologies Inc.
  • 80. 4.バッテリーのスパイスモデルについてAlkaline Cell B01 TOSHIBA LR6AG 2.7 ohm LR6AG 10 ohm LR6AG 2.2 ohm LR6AG 3.3 ohm LR6AG 4.7 ohm LR6AG 8.2 ohm LR6AG 22 ohm LR6AG 33 ohm LR6AG 51 ohm LR6AG Variable RL 10pcsLithium Cell B02 Fuji Films CR123A 2.2 ohm CR123A 4.7 ohm CR123A 10 ohm Panasonic CR2 2.2 ohm 5pcs CR2 4.7 ohm All Rights Reserved Copyright (C) Bee Technologies Inc.
  • 81. 4.バッテリーのスパイスモデルについてLithium-Ion Cell B03NOKIABLB-2 10 ohmBLB-2 22 ohmBLB-2 33 ohmBLB-2 51 ohmBLB-2 Variable RLBLB-2 Variable RL ; Ta = 0CBLB-2 Variable RL ;Ta = 40CBLB-2 Variable RL ;Ta = -20CSANYOSCP-550 10 ohmSCP-550 22 ohmSCP-550 33 ohmSCP-550 51 ohmSCP-550 Variable RLSCP-550 Variable RL ; Ta = 0CSCP-550 Variable RL ; Ta = 40CSCP-550 Variable RL ; Ta = -20CPanasonicEB-BSD55S 10 ohmEB-BSD55S 22 ohmEB-BSD55S 33 ohmEB-BSD55S 51 ohmEB-BSD55S Variable RLEB-BSD55S Variable RL ; Ta = 0CEB-BSD55S Variable RL ;Ta = 40C 23cs All Rights Reserved Copyright (C) Bee Technologies Inc.
  • 82. 4.バッテリーのスパイスモデルについてNi-Manganese B04SONYZR6DC 2.2 ohmZR6DC 2.7 ohmZR6DC 3.3 ohmZR6SC 4.7 ohmZR6DC 8.2 ohmZR6DC 10 ohmZR6DC 22 ohmZR6DC 33 ohmZR6DC 51 ohmZR6DC Variable RL 10csNickel Metal -Hydride B05SanyoHR-3UA 2.2 ohmHR-3UA 2.7 ohmHR-3UA 3.3 ohmHR-3UA 4.7 ohmHR-3UA 8.2 ohmHR-3UA 10 ohmHR-3UA 22 ohmHR-3UA 33 ohmHR-3UA Variable RL 9pcs All Rights Reserved Copyright (C) Bee Technologies Inc.
  • 83. 4.バッテリーのスパイスモデルについてOxyride B06PanasonicZR6 2.2 ohmZR6 2.7 ohmZR6 3.3 ohmZR6 4.7 ohmZR6 8.2 ohmZR6 10 ohmZR6 22 ohm 8pcsZR6 33 ohm All Rights Reserved Copyright (C) Bee Technologies Inc.
  • 84. 4.バッテリーのスパイスモデルについてCOMPONENTS: Li-ion CellPART NUMBER: EB-BSD55SMAKER:PanasonicTa = 25C RL= VariableDischarge Characteristics All Rights Reserved Copyright (C) Bee Technologies Inc.
  • 85. 4.バッテリーのスパイスモデルについてPSpiceによる非昇圧型白色発光ダイオード・ドライバー回路における温度依存の回路解析シミュレーションTAH8N401K(TOSHIBA) POWER SUPPLY CONTROL REF GND All Rights Reserved Copyright (C) Bee Technologies Inc.
  • 86. 4.バッテリーのスパイスモデルについて製品名称:TAH8N401Kメーカー:TOSHIBA Semiconductor VCC CONTROL DRIVE4 DRIVE3 UC VREF = 1.17 + E2 VCTUVLO CT1 IN+ OUT+ - IN- OUT- F4 14 F3 10 EVALUE COMPARATOR Q4 Q3 IF (V(CT1,GND)>0.8, 0.2,2) 15 11 F QN F QN GAIN = 4 GAIN = 4 U4 U3 0 13 9 + V+ 16 QE4 CT1 + V+ 12 QE3 V- QN R4 V- QN R3 - 10m - 10m ERR_AMP ERR_AMP VCC VCC F1 3 F2 Q1 2 6 7 U1 F QN U2 F Q2 CT1 + V+ 1 GAIN = 4 4 CT1 + V+ 5 GAIN = 4 QN V- QN R1 V- QN - QE1 10m - QE2 8 ERR_AMP ERR_AMP R2 10m GND VREF DRIVE1 DRIVE2 等価回路図 All Rights Reserved Copyright (C) Bee Technologies Inc.
  • 87. 4.バッテリーのスパイスモデルについて製品名称:TAH8N401Kメーカー:TOSHIBA Semiconductor VCC CONTROL DRIVE4 DRIVE3 UC + E2 VCTUVLO CT1 IN+ OUT+ - IN- OUT- F4 14 F3 10 EVALUE COMPARATOR Q4 Q3 VREF = { limit(1.5305- 0.0103*TA,0.5,1.17)} 15 11 F QN F QN IF (V(CT1,GND)>0.8, 0.2,2) GAIN = 4 GAIN = 4 U4 U3 0 13 9 + V+ 16 QE4 CT1 + V+ 12 QE3 V- QN R4 V- QN R3 - 10m - 10m ERR_AMP ERR_AMPPARAMETERS:TA = 25 VCC VCC F1 3 F2 Q1 2 6 7 U1 F QN U2 F Q2 CT1 + V+ 1 GAIN = 4 4 CT1 + V+ 5 GAIN = 4 QN V- QN R1 V- QN - QE1 10m - QE2 8 ERR_AMP ERR_AMP R2 10m GND VREF DRIVE1 DRIVE2 温度モデルの等価回路図 All Rights Reserved Copyright (C) Bee Technologies Inc.
  • 88. 4.バッテリーのスパイスモデルについて All Rights Reserved Copyright (C) Bee Technologies Inc.
  • 89. 4.バッテリーのスパイスモデルについて Ta = 40°C Ta = 25°C Ta = 0°C Ta = -20°C Ta = -40°C All Rights Reserved Copyright (C) Bee Technologies Inc.
  • 90. 5.DCモーターのスパイスモデルについてDC MOTOR M01MABUCI MOTORFA-130RE-140RE-260RE-280RS-380PHRS-540SHTAMIYA,INC.RT 15133*300TAMIYA,INC.MABUCHI RF-270RH /Solar Cell 0.5MABUCHI RF-270RH /Solar Cell 1.5MABUCHI RF-500TB /Solar Cell 0.5MABUCHI RF-500TB Solar Cell 1.5 All Rights Reserved Copyright (C) Bee Technologies Inc. 11pcs
  • 91. 5.DCモーターのスパイスモデルについて COMPONENTS: DC MOTOR PART NUMBER: RS-540SH MANUFACTURER: MABUCHI MOTOR CO.,LTD. DC Motor Voltage and Current Characteristics at Noload 14A 20V1 2 12A 15V 10A 10V V2 V1 = 0 8A 5V 0Vdc V2 = 12 R3 TD = 0 2.2 V1 RS-540SH 6A 0V TR = 6.4m + - TF = 10n IL = 0.8 PW = 10 4A -5V PER = 100 0 2A -10V 0A -15V >> -2A -20V -1.0s 0s 1.0s 2.0s 3.0s 4.0s 5.0s 6.0s 7.0s 8.0s 1 I(V2) 2 V1(X_U1.E_E_EMF) Time All Rights Reserved Copyright (C) Bee Technologies Inc.
  • 92. 5.DCモーターのスパイスモデルについてCOMPONENTS: DC MOTORPART NUMBER: RS-540SHMANUFACTURER: MABUCHI MOTOR CO.,LTD.DC Motor Voltage and Current Characteristics at load 14A 20V1 2 V2 V1 = 0 0Vdc V2 = 12 R3 12A 15V TD = 0 2.2 V1 RS-540SH TR = 6.4m + - TF = 10n IL = 3.2 10A 10V PW = 10 PER = 100 0 8A 5V 6A 0V 4A -5V 2A -10V 0A -15V >> -2A -20V -1.0s 0s 1.0s 2.0s 3.0s 4.0s 5.0s 6.0s 7.0s 8.0s 1 I(V2) 2 V1(X_U1.E_E_EMF) Time All Rights Reserved Copyright (C) Bee Technologies Inc.
  • 93. 5.DCモーターのスパイスモデルについてDCモーター制御回路のシミュレーション負荷有りの回路シミュレーション V3 0Vdc Rectified dc voltage with ripple 0 D4 D7 D3 D4001 U3 + 12VDCMOTOR D4001 D4001 U2 V1 IN OUT - LOAD = 0.615 VOFF = 0 V VAMPL = 19.2V D6 D5 GND 1 FREQ = 50 uPC7 812A D4001 D4001 C3 8 470u U1 R1 VCC 2 R4 10k 4 TRIGGER 3 Q2 5 RES ET OUTPUT 10k QBC547 6 CONTROL D1 7 THRE SHOLD 0 D2 DIS CHARGE GND Q1 D1N4148 D1N4148 555B Q2SC1061 C2 1 R2 R3 1nF 5k 30k IC = 0 0 RV1 RV2 0 {vr1} {500k-vr1} 0 PARAMETERS: C1 vr1 = 2 50K 0.97nF IC = 0 0 All Rights Reserved Copyright (C) Bee Technologies Inc.
  • 94. 5.DCモーターのスパイスモデルについてDCモーター制御回路のシミュレーション負荷有りの回路シミュレーション Rectified dc voltage with ripple All Rights Reserved Copyright (C) Bee Technologies Inc.
  • 95. 5.DCモーターのスパイスモデルについてDCモーター制御回路のシミュレーション負荷有りの回路シミュレーション V3 0Vdc Transistor Q1: VCE, IC 0 D4 D7 D3 D4001 U3 + 12VDCMOTOR D4001 D4001 U2 V1 IN OUT - LOAD = 0.615 VOFF = 0 VAMPL = 19.2V D6 D5 GND 1 FREQ = 50 uPC7 812A D4001 D4001 C3 8 470u U1 R1 VCC 2 R4 10k 4 TRIGGER 3 Q2 5 RES ET OUTPUT 10k QBC547 6 CONTROL D1 7 THRE SHOLD 0 D2 DIS CHARGE GND Q1 555B V+ D1N4148 D1N4148 Q2SC1061 C2 1 R2 R3 1nF 5k 30k IC = 0 0 V- RV1 RV2 0 {vr1} {500k-vr1} 0 PARAMETERS: C1 vr1 = 2 50K 0.97nF IC = 0 0 All Rights Reserved Copyright (C) Bee Technologies Inc.
  • 96. 5.DCモーターのスパイスモデルについてDCモーター制御回路のシミュレーション負荷有りの回路シミュレーション Transistor Q1: VCE, IC All Rights Reserved Copyright (C) Bee Technologies Inc.
  • 97. 5.DCモーターのスパイスモデルについてDCモーター制御回路のシミュレーション負荷有りの回路シミュレーション V3 0Vdc Motor Voltage and Current 0 D4 D7 D3 V+ D4001 U3 + 12VDCMOTOR D4001 D4001 U2 V1 IN OUT - LOAD = 0.615 VOFF = 0 VAMPL = 19.2V D6 D5 GND 1 FREQ = 50 V- uPC7 812A D4001 D4001 C3 8 470u U1 R1 VCC 2 R4 10k 4 TRIGGER 3 Q2 5 RES ET OUTPUT 10k QBC547 6 CONTROL D1 7 THRE SHOLD 0 D2 DIS CHARGE GND Q1 D1N4148 D1N4148 555B Q2SC1061 C2 1 R2 R3 1nF 5k 30k IC = 0 0 RV1 RV2 0 {vr1} {500k-vr1} 0 PARAMETERS: C1 vr1 = 2 50K 0.97nF IC = 0 0 All Rights Reserved Copyright (C) Bee Technologies Inc.
  • 98. 5.DCモーターのスパイスモデルについてDCモーター制御回路のシミュレーション負荷有りの回路シミュレーション Motor Voltage and Current All Rights Reserved Copyright (C) Bee Technologies Inc.
  • 99. 6.ランプのスパイスモデルについてFilament Lamp L01OSRAMBELLA K SIL 40BELLA K SIL 60BELLA K SIL 100PHILIPSCFR25W240VESCFR40W240VESLCL40W240VESLFR40W240VESSLX25W240VESSLX40W240VESSLX60W240VESSLX100W230VESSOF25W230VESSOF40W240VESSOF60W230VESSOF100W230VESSP40W230VESSP60W230VESSP100W230VES 18pcs All Rights Reserved Copyright (C) Bee Technologies Inc.
  • 100. 6.ランプのスパイスモデルについてCOMPONENTS: Filament LampPART NUMBER: SP60W230VESMANUFACTURER: Philips Lighting PolandTransient Current Characteristics 2.0A V3 U1 SP60W230VES 1.5A 0Vdc VS VOFF = 0 VAMPL = 309 FREQ = 50Hz 1.0A 0 0.5A 0A-0.5A-1.0A-1.5A-2.0A 0s 20ms 40ms 60ms 80ms 100ms 140ms 180ms I(V3) Time All Rights Reserved Copyright (C) Bee Technologies Inc.
  • 101. 6.ランプのスパイスモデルについてHalogen Lamp L02 OSRAM 64472BTSIL60W 64476BTSIL100W 64478BTSIL150W All Rights Reserved Copyright (C) Bee Technologies Inc. 3pcs
  • 102. 6.ランプのスパイスモデルについてCOMPONENTS: Halogen LampPART NUMBER: 64476BT SILMANUFACTURER: OSRAM GmbHTransient Current Characteristics 2.5A V3 U1 2.0A 0Vdc 64476BT_SIL VS VOFF = 0 VAMPL = 309 1.5A FREQ = 50Hz 0 1.0A 0.5A 0A -0.5A -1.0A -1.5A 0s 20ms 40ms 60ms 80ms 100ms 140ms 180ms I(V3) Time All Rights Reserved Copyright (C) Bee Technologies Inc.
  • 103. デザインキットについて ゼロから回路解析シミュレーションを行うのは大変です。 回路解析シミュレーションのテンプレート集としてご利用下さい。 現在、ご提供しているデザインキットは4種類です。 Forward Coupling Converter(FCC回路) Ringing Choke Converter(RCC回路) 低損失リニアレギュレータ 高精度リニアレギュレータ 【内容】 デバイスモデル(スパイスモデル) 回路図シンボル デバイスモデリング・レポート 回路解析シミュレーションに必要な全てのファイル 回路解析シミュレーションの解説書(考え方) ご購入のその日から、回路解析シミュレーションを行う事が出来ます。 デザインキットは、PSpiceで動作致します。 All Rights Reserved Copyright (C) Bee Technologies Inc.
  • 104. デザインキットについて Forward Coupling Converter(FCC回路) Ringing Choke Converter(RCC回路) 低損失リニアレギュレータ 高精度リニアレギュレータ All Rights Reserved Copyright (C) Bee Technologies Inc. デザインキットは、PSpiceで動作致します。
  • 105. デザインキットについて現在開発中のデザインキットの回路方式について(25回路方式) 降圧チョッパ 電流共振 昇圧チョッパ 共振 昇降圧チョッパ E級共振 フォワード 複共振 フライバック アクティブクランプ フルブリッジ 位相シフト ハーフブリッジ 同期整流 プッシュプル 電流モード CUK 力率改善 SEPIC マルチフェーズ ZETA 電流型 絶縁CUK 三相フルブリッジインバータ 電圧共振 2005年11月11日現在 All Rights Reserved Copyright (C) Bee Technologies Inc.
  • 106. デバイスモデリング教材について ダイオード・モデル編 ダイオード・モデル+ノイズ・シミュレーション編 逆回復特性(trj+trb=trr)を考慮したダイオード・モデル編 パワーMOSFET・モデル編(Ver.1.3) バイポーラ・ジャンクション・トランジスタ編 白色LED+バックライト制御回路シミュレーション編 【NEW】 IGBT編 (2005年11月28日発売予定) 【NEW】 デバイスモデリングの学習にご活用下さい。 詳細は、株式会社ビー・テクノロジーのWEBサイトをご覧下さい。 http://www.bee-tech.com/ All Rights Reserved Copyright (C) Bee Technologies Inc.
  • 107. 質疑応答Bee Technologies Group【本社】株式会社ビー・テクノロジー〒105-0012 東京都港区芝大門一丁目5番3号大門梅澤ビル3階設立日:2002年9月10日資本金:7,330万円【子会社】 お問合わせ先)Bee Technologies Corporation (アメリカ)Siam Bee Technologies Co.,Ltd. (タイランド) horigome@bee-tech.com All Rights Reserved Copyright (C) Bee Technologies Inc.