Spice park 2005 autumn (PPT Version)
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【スパイス・パーク】 商品説明会
All Rights Reserved Copyright (C) Bee Technologies Inc.
株式会社ビー・テクノロジー
http://www.bee-tech.com/
2005 年 11 月 11 日
説明会の流れ
All Rights Reserved Copyright (C) Bee Technologies Inc.
13:00-14:301 .「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
14:30-15:007 .質疑応答
All Rights Reserved Copyright (C) Bee Technologies Inc.
EDA ツール
シミュレーション技術 デバイスモデル
回路設計者
個々の電子部品のデバイスモデル
が必要不可欠である
【回路解析シミュレーションの導入に必要な環境因子】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.
回路解析シミュレーション導入前の姿
1 .「スパイス・パーク」のコンセプト及び概要
回路図作成
基板に実装
回路動作の検証回路図変更
All Rights Reserved Copyright (C) Bee Technologies Inc.
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。
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.
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。
ここでの EDA ツールは、 PSpice を想定しております。
1 .「スパイス・パーク」のコンセプト及び概要
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
All Rights Reserved Copyright (C) Bee Technologies Inc.
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。
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.
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】
+
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.
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
1 .「スパイス・パーク」のコンセプト及び概要
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.
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.
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.
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.
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.
【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。
1 .「スパイス・パーク」のコンセプト及び概要
2005 年 11 月 11 日現在、 2090 個
All Rights Reserved Copyright (C) Bee Technologies Inc.
1 .「スパイス・パーク」のコンセプト及び概要
No Semiconductor Pcs
S01 Diode/General Purpose Rectifier 210S02 Diode/Schottky Rectifier 322S03 Diode/Zener Diode 10S04 Laser Diode 17S05 Light-Emitting Diode (LED) 58S06 Junction FET 14S07 MOSFET 69S08 Bipolar Junction Transistor 37S09 Darlington Transistor 8S10 IGBT 14S11 Voltage Reference 3S12 Voltage Regulator 64S13 Shunt Regulator 6S14 OPAMP 292S15 Comparator 57S16 Sidac 42S17 Photocupler 25S18 Opto Device 2S19 Varistor 3S20 Surge Absorber (ZNR) 152S21 Thermistor 6S22 Thyristor 123S23 PWM IC 2S24 Analog IC 6S25 Digital Transistor 95S26 BRT 21S27 Digital IC 98S28 PUT 6S29 Crystal Oscillator 1S30 Photo Diode 1
半導体部品 (1,764 個 )
All Rights Reserved Copyright (C) Bee Technologies Inc.
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 96P02 Capacitor/Electrolytic 17P03 Capacitor/Film 5P04 Choke Coil 28P05 Common Mode Choke Coil 1P06 Transformer 2P07 Inductor 4P08 Magnetic Core 74P09 Crystal 2
Battery pcs
B01 Alkaline Cell 10B02 Lithium Cell 5B03 Lithium-Ion Cell 23B04 Nickel Manganese Cell 10B05 Nickel Metal-Hydride Cell (Ni-MH) 9B06 Oxyride Cell 8
バッテリー (65 個 )
All Rights Reserved Copyright (C) Bee Technologies Inc.
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 )
ランプ (21 個 )
DC Motor pcs
M01 DC Motor 11
Lamp pcs
L01 Filament Lamp 18L02 Halogen Lamp 3
All Rights Reserved Copyright (C) Bee Technologies Inc.
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.
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.
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
COMPONENTS:DIODE/ GENERAL PURPOSE RECTIFIERPART NUMBER: 1SR139-400MANUFACTURER: ROHM
*$* PART NUMBER: 1SR139-400* MANUFACTURER: ROHM* VRM=400,Io=1.0A=IFSM=40A* All Rights Reserved Copyright (C) Bee Technologies Inc. 2004.MODEL 1SR139-400 D+ IS=11.797E-12+ N=1.3533+ RS=52.928E-3+ IKF=.20632+ ISR=0+ CJO=22.539E-12+ M=.36819+ VJ=.46505+ BV=400+ IBV=10.000E-6+ TT=7.6751E-6.ENDS*$
*$* PART NUMBER: 1SR139-400* MANUFACTURER: ROHM* VRM=400,Io=1.0A=IFSM=40A* All Rights Reserved Copyright (C) Bee Technologies Inc. 2004.SUBCKT D1SR139-400 A KR_R2 5 6 3500 R_R1 3 4 1 C_C1 5 6 100p E_E1 5 K 3 4 1S_S1 6 K 4 K _S1RS_S1 4 K 1G.MODEL _S1 VSWITCH Roff=50MEG Ron=1m Voff=90mV Von=100mVG_G1 K A VALUE { V(3,4)-V(5,6) }D_D1 2 K D1SR139-400D_D2 4 K D1SR139-400F_F1 K 3 VF_F1 1VF_F1 A 2 0V.MODEL D1SR139-400 D+ IS=11.801E-12+ N=1.3533+ RS=52.928E-3+ IKF=.20632+ ISR=0+ CJO=22.539E-12+ M=.36819+ VJ=.46505+ BV=400+ IBV=10.000E-6+ TT=3.8551E-6.ENDS*$
ビヘイビア・モデル =等価回路モデル
All Rights Reserved Copyright (C) Bee Technologies Inc.
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.
2 .半導体のスパイスモデルについて
Diode/General Purpose Rectifier S01 FAIRCHILDRURD460S (TC=80C/ Professional)RURD460S (TC=80C/ Standard)RURD460S (TC=110C/ Professional)RURD460S (TC=110C / Standard)RURD460S (TC=150C / Professional)RURD460S (TC=150C/ Standard)RURD460S (Professional)RURD460S (Standard)RURD660S (TC=80C/ Professional)RURD660S (TC=80C / Standard)RURD660S (TC=110C / Professional)RURD660S (TC=110C / Standard)RURD660S (TC=150C / Professional)RURD660S (TC=150C / Standard) RURD660S (Professional) RURD660S (Standard) RURG3060 (TC=80C/ Professional) RURG3060 (TC=80C / Standard)RURG3060 (TC=110C / Professional)RURG3060 (TC=110C / Standard) RURG3060 (TC=150C / Professional) RURG3060 (TC=150C / Standard) RURG3060 (Professional)RURG3060 (Standard)
FUJIYG963S6R (Professional)YG963S6R (Standard)
International RectifierHFA08TB60 (TC=80C/ Professional)HFA08TB60 (TC=80C/ Standard)HFA08TB60 (Professional)HFA08TB60 (Standard)
Micro Commercial ComponentMB252W (Professional)MB252W (Standard)
PHILIPSBYW29E (Professional)BYW29E (Standard)
SANKENFML-G14S (Professional)FML-G14S (Standard)
SHINDENGEND1NL20U (Professional)D1NL20U (Standard)D3SB80 (Professional)D5LC20U (Professional)D5LC20U (Standard)D25XB80 (Professional)SF3L60U (Professional)SF3L60U (Standard)SF20LC30 (Professional)SF20LC30 (Standard)
WISHAYUF5401 (Professional)UF5401 (Standard)UF5402 (Professional)UF5402 (Standard)UF5404 (Professional)UF5404 (Standard)UF5406 (Professional)UF5406 (Standard)UF5408 (Professional)UF5408 (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.
2 .半導体のスパイスモデルについて
Diode/General Purpose Rectifier S01
INTERSILRHRG7560 (TC=80C/ Professional)RHRG7560 (TC=80C/ Standard)RHRG7560 (TC=110C/ Professional)RHRG7560 (TC=110C/ Standard)RHRG7560 (Professional)RHRG7560 (Standard)RHRG50120 (TC=80C/ Professional)RHRG50120 (TC=80C/ Standard)RHRG50120 (TC=110C/ Professional)RHRG50120 (TC=110/ Standard)RHRG50120 (TC=150C/ Professional) RHRG50120 (TC=150C/ Standard)RHRG50120 (Professional)RHRG50120 (Standard)RHRG75120 (TC=80C/ Professional)RHRG75120 (TC=80C/ Standard)RHRG75120 (TC=110C/ Professional)RHRG75120 (TC=110C/ Standard)RHRG75120 (Professional)RHRG75120 (Standard)RHRP30120 (TC=80C/ Professional)RHRP30120 (TC=80C/ Standard)RHRP30120 (TC=110C/ Professional)RHRP30120 (TC=110C/ Standard)RHRP30120 (TC=150C/ Professional)RHRP30120 (TC=150C/ Standard)
INTERSILRHRP30120 (Professional)RHRP30120 (Standard)RURG5060 (TC=80C/ Professional)RURG5060 (TC=80C/ Standard)RURG5060 (TC=110C/ Professional) RURG5060 (TC=110C/ Standard)RURG5060 (TC=150C/ Professional)RURG5060 (TC=150C/ Standard)RURG5060 (Professional)RURG5060 (Standard)RURG8060 (TC=80C/ Professional)RURG8060 (TC=80C/ Standard)RURG8060 (TC=110C/ Professional)RURG8060 (TC=110C/ Standard)RURG8060 (TC=150C/ Professional)RURG8060 (TC=150/ Standard)RURG8060 (Professional)RURG8060 (Standard)RURP15120 (TC=80C/ Professional)RURP15120 (TC=80C/ Standard)RURP15120 (TC=110C/ Professional)RURP15120 (TC=110C/ Standard)RURP15120 (TC=150C/ Professional)RURP15120 (TC=150C/Standard)RURP15120 (Professional)RURP15120 (Standard)
ROHM1SR139-400 (TC80C/ Professional)1SR139-400 (TC=80C/ Standard)1SR139-400 (TC=110C/ Professional)1SR139-400 (TC=110C/ Standard)1SR139-400 (TC=150C/ Professional)1SR139-400 (TC=150C/ Standard)1SR139-400 (Professional)1SR139-400 (Standard)1SR139-600 (TC=80C/ Professional)1SR139-600 (TC=80C/ Standard)1SR139-600 (TC=110C/ Professional)1SR139-600 (TC=110C/ Standard)1SR139-600 (TC=150C/ Professional)1SR139-600 (TC=150C/ Standard)1SR139-600 (Professional)1SR139-600 (Standard)1SR153-400 (TC=80C/ Professional)1SR153-400 (Tc=80C/ Standard)1SR153-400 (TC=110C/ Professional)1SR153-400 (TC=110C/ Standard)1SR153-400 (TC=150C/ Professional)1SR153-400 (TC=150C/ Standard)1SR153-400 (Professional)1SR153-400 (Standard)1SR154-400 (TC=80C/ Professional)1SR154-400 (TC=80C/ Standard)
All Rights Reserved Copyright (C) Bee Technologies Inc.
2 .半導体のスパイスモデルについて
Diode/General Purpose Rectifier S01 ROHM
1SR154-400 (TC=110C/ Professional)1SR154-400 (TC=110C/ Standard)1SR154-400 (TC=150C/ Professional)1SR154-400 (TC=150C/ Standard)1SR154-400 (Professional)1SR154-400 (Standard)1SR154-600 (TC=80C/ Professional)1SR154-600 (TC=80C/ Standard)1SR154-600 (TC=110C/ Professional)1SR154-600 (TC=110C/ Standard)1SR154-600 (TC=150C/ Professional)1SR154-600 (TC=150C/ Standard)1SR154-600 (Professional)1SR154-600 (Standard)1SR156-400 (TC=80C/ Professional)1SR156-400 (TC=80C/ Standard)1SR156-400 (TC=110C/ Professional)1SR156-400 (TC=110C/ Standard)1SR156-400 (TC=150C/ Professional)1SR156-400 (TC=150C/ Standard)1SR156-400 (Professional)1SR156-400 (Standard)1SR159-200 (TC=80C/ Professional)1SR159-200 (TC=80C/ Standard)1SR159-200 (TC=110C/ Professional)1SR159-200 (TC=110C/ Standard)
ROHM1SR159-200 (TC=150C/ Professional)1SR159-200 (TC=150C/ Standard)1SR159-200 (Professional)1SR159-200 (Standard)
TOSHIBA1R5GZ41 (Professional)1R5GZ41 (Standard)1S1834 (Professional)1S1834 (Standard)1S1887 (Professional)1S1887 (Standard)1S1887A (Professional)1S1887A (Standard)5GL247A (TC=80C/ Professional)5GL247A (TC=80C/ Standard)5GL247A (TC=110C/ Professional)5GL247A (110C / Standard)5GL247A (150C/ Professional)5GL247A (150C/ Standard)5GL247A (Professional)5GL247A (Standard)20GL2C41A (TC=80C/ Professional)20GL2C41A (TC=80C / Standard)20GL2C41A (TC=110C/ Professional020GL2C41A (TC=110C/ Standard)
TOSHIBA20GL2C41A (TC=150C/ Professional)20GL2C41A (TC=150C/ Standard)20GL2C41A (Professional)20GL2C41A (Standard)CRG02 (Professional)CRG02 (Standard)S5277G (Professional)S5277G (Standard)S5295G (Professional)S5295G (Standard)S5566G (Professional)S5566G (Standard)S5688G (Professional)S5688G (Standard)TVR1G (Professional)TVR1G (Standard)TVR2G (Professional)TVR2G (Standard)TVR5G (Professional)TVR5G (Standard)U1GC44 (Professional)U1GC44 (Standard)U2GC44 (Professional)U2GC44 (Standard)U05GH44 (Professional)U05GH44 (Standard)
210pcs
All Rights Reserved Copyright (C) Bee Technologies Inc.
2 .半導体のスパイスモデルについて
Diode/Schottky Rectifier S02 General Semiconductor
SB350 (Professional)SB350 (Standard)
HITACHIHRU0203A (Professional)HRU0203A (Standard)HRW0702A (Professional) HRW0702A (Standard)
International Rectifier6CWQ04FN (Professional0 6CWQ04FN (Standard)6CWQ06FN (Professional) 6CWQ06FN (Standard)30WQ04FN (Professional)30WQ04FN (Standard)30WQ06FN (Professional) 30WQ06FN (Standard)30WQ10FN (Professional) 30WQ10FN (Standard)50WQ04FN (Professional) 50WQ04FN (Standard)
NIEC11DQ03L (Standard)11DQ04 (Standard) 11DQ06 (Standard) 11DQ09 (Standard) 11DQ10 (Standard) 11EQ04 (Standard) 11EQ06 (Standard) 11EQ09 (Standard) 11EQ10 (Standard) 11EQS03L (Standard) 11EQS04 (Standard) 11EQS06 (Standard) 11EQS09 (Standard) 11EQS10 (Standard) 21DQ03L (Standard) 21DQ04 (Standard) 21DQ06 (Standard) 21DQ09 (Standard) 21DQ10 (Standard) 31DQ03L (Standard) 31DQ04 (Standard) 31DQ06 (Standard) 31DQ09 (Standard) 31DQ10 (Standard) EA20QS04 (Standard) EA20QS04-F (Standard) EA20QS06 (Standard) EA20QS06-F (Standard)
NIECEA20QS09 (Standard)EA20QS09-F (Standard)EA20QS10 (Standard)EA20QS10-F (Standard)EA30QS03L (Standard)EA30QS03L-F (Standard)EA30QS04 (Standard)EA30QS04-F (Standard)EA30QS06 (Standard)EA30QS06-F (Standard)EA30QS09 (Standard)EA30QS09-F (Standard)EA30QS10 (Standard)EA30QS10-F (Standard)EC10LA03 (Standard)EC10QS04 (Standard)EC10QS06 (Standard)EC10QS09 (Standard)EC10QS10 (Standard)EC21QS03L (Standard)EC21QS06 (Standard)EC21QS09 (Standard)EC21QS10 (Standard)EC30LA02 (Standard)EC31QS03L (Standard)EC31QS04 (Standard)EC31QS06 (Standard0EC31QS09 (Standard
NIECEC31QS10 (Standard)ECL06B03 (Standard)EP05Q03L (Standard)EP05Q04 (Standard)EP05Q06 (Standard)EP10LA03 (Standard)EP10QY03 (Standard)ESL30B03-F (Standard)FSL05A015 (Standard)FSQ05A03L (Standard)FSQ05A04 (Standard)FSQ05A04B (Standard)FSQ05A06 (Standard)FSQ05A06B (Standard)FSQ10A04 (Standard)FSQ10A04B (Standard)FSQ10A06 (Standard)FSQ10A06B (Standard)GSQ05A03L (Standard)GSQ05A04B (Standard)GSQ05A06 (Standard) GSQ10A04 (Standard) GSQ10A04B (Standard)GSQ10A06 (Standard)GSQ10A06B (Standard)KSL60A01B (Standard)KSQ15A04 (Standard)KSQ15A04B (Standard)
All Rights Reserved Copyright (C) Bee Technologies Inc.
2 .半導体のスパイスモデルについて
Diode/Schottky Rectifier S02 NIEC
KSQ15A06 (Standard)KSQ15A06B (Standard)KSQ30A04 (Standard)KSQ30A04B (Standard)KSQ30A06 (Standard)KSQ30A06B (Standard)KSQ60A03LB (Standard)KSQ60A03LE (Standard)KSQ60A04B (Standard)KSQ60A04E (Standard)KSQ60A06B (Standard)KSQ60A06E (Standard)NSQ03A03L (Standard)NSQ03A04 (Standard)NSQ03A06 (Standard)
ON Semiconductor 1N5818 (Professional)1N5818 (Standard)1N5819 (Professional)1N5819 (Standard)1N5820 (Professional )1N5820 (Standard)1N5822 (Professional) 1N5822 (Standard)
Philips PBYR10100 (Professional)PBYR10100 (Standard)
RENESASHRC0502A (Standard)HRC0201A (Standard)HRC0203C (Standard)HRU0302A (Standard)HRW0203A (Standard)HRW0502A (Standard)HRW0703A (Standard)HSC278 (Standard)HSD226 (Standard)HSL226 (Standard)HSU226 (Standard)
ROHMRB051L-40 (Professional) RB051L-40 (Standard)RB060L-40 (Professional)RB060L-40 (Standard)RB160L-40 (Professional) RB160L-40 (Standard)
SANKENEK13 (Professional)EK13 (Standard)RK39 (Professional) RK39 (Standard)
ShindengenD1FH3 (Standard)D1FM3 (Standard)D1FP3 (Standard)D1FS4 (Standard)D1FS4A (Standard)D1FS6 (Standard)D1NS4 (Standard)D1NS6 (Standard)D2FS4 (Standard)D2FS6 (Standard)D2FS6M (Standard)D3FP3 (Standard)D3FS4A (Standard)D3FS6 (Standard)D3S6M (Standard)D4SC6M (Standard)D5S4M (Standard)D5S6M (Standard)D5S9M (Standard)D5SC4M (Standard)D10SC4M (Standard)D30SC4M (Standard)DE3S6M (Standard)DE5PC3 (Standard)DE5S4M (Standard)DE5S6M (Standard)DE5SC3ML (Standard)DE5SC4M (Standard)DE5SC6M (Standard)
ShindengenDE5SC6M (Standard)DE10P3 (Standard)DE10PC3 (Standard)DE10S3L (Standard)DE10SC3L (Standard)DE10SC4 (Standard)DF10SC4M (Standard)DF10SC6 (Standard)DF10SC9 (Standard)DF15JC10 (Standard)DF15SC4M (Standard)DF20JC10 (Standard)DF20PC3M (Standard)DF20SC4M (Standard)DF20SC9M (Standard)DF25SC6M (Standard)DF30JC6 (Standard)DF30JC10 (Standard)DF30PC3M (Standard)DF30SC3ML (Standard)DF30SC4M (Standard)DF40PC3 (Standard)DF40SC3L (Standard)DF40SC4 (Standard)DG1H3 (Standard)DG1M3 (Standard)DG1M3A (Standard)M1FH3 (Standard)M1FM3 (Standard)
All Rights Reserved Copyright (C) Bee Technologies Inc.
2 .半導体のスパイスモデルについて
Diode/Schottky Rectifier S02 Shindengen
M1FP3 (Standard)M1FS4 (Standard)M1FS6 (Standard)M2FM3 (Standard)S2S6M (Standard)S5S4M (Standard)S10SC4M (Standard)S15SC4M (Standard)S15SCA4M (Standard)S20SC4M (Standard)S25SC6M (Standard)S40HC3 (Standard)S60HC3 (Standard)S60SC6M (Standard)SF5S4 (Standard)SF5S6 (Standard)SF5SC3L (Standard)SF10SC6 (Standard)SF15JC6 (Standard)SF15SC6 (Standard)SF20H1R5 (Standard)SF20JC6 (Standard)SF20SC3L (Standard)SF30H1R5 (Standard)SF30JC6 (Standard)SF30SC6 (Standard)
TOSHIBA1FWJ43L (Standard)1FWJ43N (Standard)1GWJ42 (Standard)1SS271 (Standard)1SS293 (Standard)1SS294 (Standard)1SS319 (Standard)1SS322 (Standard)1SS348 (Standard)1SS349 (Standard)1SS349 (Standard)1SS357 (Standard)1SS367 (Professional)1SS372 (Standard)1SS374 (Standard)1SS377 (Standard)1SS378 (Standard)1SS383 (Standard)1SS385F (Standard)1SS388 (Standard)1SS391 (Standard)1SS393 (Standard)1SS394 (Standard)1SS395 (Standard)1SS396 (Standard)1SS402 (Standard)1SS404 (Standard)1SS405 (Standard)
TOSHIBA1SS405 (Standard)2FWJ42M (Standard)2FWJ42N (Standard)2GWJ42 (Standard)2GWJ42C (Standard)5FWJ2C48M (Standard)5FWJ2CZ47M (Standard)5GWJ2C48C (Standard)5GWJ2CZ47C (Standard)5GWJZ47 (Standard)10FWJ2C48M (Standard)10FWJ2CZ47M (Standard)10GWJ2CZ47C (Standard)20FWJ2C48M (Standard)30GWJ2C42C (Standard)30GWJ2C48C (Standard)30GWJ2CZ47C (Standard)30QWK2CZ47 (Standard)CMS01 (Standard)CMS02 (Standard)CMS04 (Standard)CMS05 (Standard)CMS06 (Standard)CMS07 (Standard)CMS08 (Standard)CMS09 (Standard)CMS11 (Standard)CMS14 (Standard)
TOSHIBACMS15 (Standard)CMS16 (Standard)CRS01 (Standard)CRS02 (Standard)CRS03 (Standard)CRS04 (Standard)CRS08 (Standard)CRS09 (Standard)CRS12 (Standard)CUS02 (Standard)HN2S01F (Standard)HN2S01FU (Standard)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) U5GWJ2C42C (Standard)
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2 .半導体のスパイスモデルについて
Diode/Schottky Rectifier S02 TOSHIBA
CMS15 (Standard)CMS16 (Standard)CRS01 (Standard)CRS02 (Standard)CRS03 (Standard)CRS04 (Standard)CRS08 (Standard)CRS09 (Standard)CRS12 (Standard)CUS02 (Standard)HN2S01F (Standard)HN2S01FU (Standard)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) U5GWJ2C42C (Standard)
TOSHIBAU10FWJ2C48M (Standard0U10GWJ2C48C (Standard)U30FWJ2C48M (Standard)U30FWJ2C53M (Standard)U30GWJ2C48C (Standard)U30GWJ2C53C (Standard)U30QWK2C53 (Standard)
322Pcs
Standard: モデルパラメータ記述Professional:等価回路モデル (逆特性考慮 )
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2 .半導体のスパイスモデルについて
Diode/Schottky Rectifier S02 COMPONENTS:DIODE/ SCHOTTKY RECTIFIER/PROFESSIONALPART NUMBER: RB160L-40MANUFACTURER: ROHM
Reverse Characteristic
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2 .半導体のスパイスモデルについて
Zener Diode S03
10pcs
TOSHIBA02CZ2_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)
Standard: 単純な等価回路Professional:Voltage Reference の等価回路を使用
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2 .半導体のスパイスモデルについて
Laser Diode S04
17pcs
MITSUBISHIML120G14ML120G18ML120G20ML776H10ML976H10ML7924
NICHIAUltra Violet NDHU110APAE2Violet NDHV310ACAViolet NDHV310APC
SANYODL-3147-060DL-3148-025DL-7240-201P
SONYSLD301VSLD302VSLD1121VSSLD1133VSSLD1137VS
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2 .半導体のスパイスモデルについて
Light-Emitting Diode (LED) S05
58pcs
Opto SupplyOSWT5111A (Ta=0C/ Professional)OSWT5111A (Ta=0C/ Standard)OSWT5111A (Ta=25C/ Professional)OSWT5111A (Ta=25C/ Standard)OSWT5111A (Ta=40C/ Professional)OSWT5111A (Ta=40C/ Standard)OSWT5111A (Ta=60C/ Professional)OSWT5111A (Ta=60C/ Standard)OSWT5111A (Ta=-20C/ Professional)OSWT5111A (Ta=-20C/ Standard)OSWT5111A (Ta=-40C/ Professional)OSWT5111A (Ta=-40C/ Standard)OSWT5161A (Ta=0C/ Professional)OSWT5161A (Ta=0C/ Standard)OSWT5161A (Ta=25C/ Professional)OSWT5161A (Ta=25C/ Standard)OSWT5161A (Ta=40C/ Professional)OSWT5161A (Ta=40C/ Standard)OSWT5161A (Ta=60C/ Professional)OSWT5161A (Ta=60C/ Standard)OSWT5161A (Ta=-20C/ Professional)OSWT5161A (Ta=-20C/ Standard)OSWT5161A (Ta=-40C/ Professional)OSWT5161A (Ta=-40C/ Standard)
PARA LightEP204K-35G1R1B1-CA (Blue/ Professional)EP204K-35G1R1B1-CA (Blue/ Standard)EP204K-35G1R1B1-CA (Green/ Professional)EP204K-35G1R1B1-CA (Green/ Standard)EP204K-35G1R1B1-CA (Red/ Professional)EP204K-35G1R1B1-CA (Red/ Standard)
TOYODA GOSEIE1J5-CY1A
SANYOSLP-0H118A-51SLP-WB89A-51 (Ta=0C/ Professional)SLP-WB89A-51 (Ta=0C/ Standard)SLP-WB89A-51 (Ta=25C/ Professional)SLP-WB89A-51 (Ta=25C/ Standard)SLP-WB89A-51 (Ta=40C/ Professional)SLP-WB89A-51 (Ta=40C/ Standard)SLP-WB89A-51 (Ta=60C/ Professional)SLP-WB89A-51 (Ta=60C/ Standard)SLP-WB89A-51 (Ta=20C/ Professional)SLP-WB89A-51 (Ta=-20C/ Standard)SLP-WB89A-51 (Ta=-40C/ Professional)SLP-WB89A-51 (Ta=-40C/ Standard)
StanleyEFR53655 (Professional)EFR53655 (Standard)FY3863X (Professional)FY3863X (Standard)
TOSHIBATLWH1100 (TA=25C/ Professional)TLWH1100 (Ta=25C/ Standard)TLWH1100 (Ta=40C/ Professional)TLWH1100 (TA=40C/ Standard)TLWH1100 (Ta=60C/ Professional)TLWH1100 (Ta=60C/ Standard)TLWH1100 (Ta=-20C/ Professional)TLWH1100 (Ta=-20C/ Standard)TLWH1100 (Ta=-40C/ Professional)TLWH1100 (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
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2 .半導体のスパイスモデルについて
Junction FET S06
14pcs
Vishay Siliconix2N38192N44162N4416A2N54842N54852N5486J270J271SST270SST271SST4416SST5484SST5485SST5486
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2 .半導体のスパイスモデルについて
MOSFET S07
International RectifierIRFB9N30A (Ta=25C/ Standard)IRFB9N30A (Ta=25C/ Professional/ Standard body diode)IRFB9N30A (Ta=25C/ Professional/ Professional body diode)IRFB9N60A (Ta=25C/ Standard)IRFB9N60A (Ta=25C/ Professional/ Standard body diode)IRFB9N60A (Ta=25C/ Professional/ Professional body diode)IRFB9N65A (Ta=25C/ Standard)IRFB9N65A (Ta=25C/ Professional/ Standard body diode)IRFB9N65A (Ta=25C/ Professional/ Professional body diode)IRFIB7N50A (Ta=25C/ Standard)IRFIB7N50A (Ta=25C/ Professional/ Standard body diode)IRFIB7N50A (Ta=25C/ Professional/ Professional body diode)
SHIDENGEN2SK2563 (Ta=25C/ Standard)2SK2563 (Ta=25C/ Professional/ Standard body diode)2SK2563 (Ta=25C/ Professional/ Professional body diode)
ROHM2SK2740 (Ta=25C/ Standard)
Fuji Electric2SK3603-01MR (Ta=25C/ Standard)2SK3611-01MR (Ta=25C/ Standard)2SK3644-01 (Ta=25C/ Standard)2SK3677-01MR (Ta=25C/ Standard)2SK3681-01 (Ta=25C/ Standard)2SK3728-01MR (Ta=25C/ Standard)2SK3770-01MR (Ta=25C/ Standard)2SK3770-01MR (Ta=25C/ Professional/ Standard body diode)2SK3770-01MR (Ta=25C/ Professional/ Professional body diode)2SK3872-01L (Ta=25C/ Standard)2SK3872-01L (Ta=25C/ Professional/ Standard body diode)2SK3872-01L (Ta=25C/ Professional/ Professional body diode)2SK3872-01S (Ta=25C/ Standard)2SK3872-01S (Ta=25C/ Professional/ Standard body diode)2SK3872-01S (Ta=25C/ Professional/ Professional body diode)2SK3872-01SJ (Ta=25C/ Standard)2SK3872-01SJ (Ta=25C/ Professional/ Standard body diode)2SK3872-01SJ (Ta=25C/ Professional/ Professional body diode)
All Rights Reserved Copyright (C) Bee Technologies Inc.
2 .半導体のスパイスモデルについて
MOSFET S07
69pcs
Infineon TechnologiesSPA11N60C3 (Ta=25C/ Professional/ Special body diode)SPB02N60C3 (Ta=25C/ Professional/ Special body diode)SPB11N60C3 (Ta=25C/ Professional/ Special body diode)SPD02N60C3 (Ta=25C/ Professional/ Special body diode)SPPI11N60C3 (Ta=25C/ Professional/ Special body diode)SPP02N60C3 (Ta=25C/ Professional/ Special body diode)SPP11N60C3 (Ta=25C/ Professional/ Special body diode)SPU02N60C3 (Ta=25C/ Professional/ Special body diode)SPW47N60C3 (Ta=25C/ Professional/ Special body diode)
TOSHIBA2SK2661 (Ta=25C/ Standard)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)
TOSHIBASSM3J13T (Ta=25C/ Standard)SSM3J13T (Ta=25C/ Professional/ Standard body diode)SSM3J13T (Ta=25C/ Professional/ Professional body diode)SSM6J51TU (Ta=25C/ Standard)SSM6J51TU (Ta=25C/ Professional/ Standard body diode)SSM6J51TU (Ta=25C/ Professional/ Professional body diode)SSM5H05TU (Ta=25C/ Standard)SSM5H05TU (Ta=25C/ Professional/ Standard body diode)SSM5H05TU (Ta=25C/ Professional/ Professional body diode)SSM5H08TU (Ta=25C/ Standard)SSM5H08TU (Ta=25C/ Professional/ Standard body diode)SSM5H08TU (Ta=25C/ Professional/ Professional body diode)
All Rights Reserved Copyright (C) Bee Technologies Inc.
2 .半導体のスパイスモデルについて
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 )
MOSFET S07
All Rights Reserved Copyright (C) Bee Technologies Inc.
2 .半導体のスパイスモデルについて
MOSFET S07
COMPONENTS: Power MOSFET (Professional)PART NUMBER: SPD02N60C3MANUFACTURER: Infineon technologies REMARK: Body Diode (Special)
Gate Charge Characteristic
Time*10ms
0 2n 4n 6n 8n 10n 12n 14nV(W1:3)
0V
2V
4V
6V
8V
10V
12V
14V
16V
D1
Dbreak
I21.8Adc
V1520Vdc
U2SPD02N60C3P_DSP
0
I1
TD = 0
TF = 10nPW = 600uPER = 1000u
I1 = 0
I2 = 10m
TR = 10n
V2
0Vdc
-+
W1
ION = 0uAIOFF = 1mAW
Cool MOS
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2 .半導体のスパイスモデルについて
MOSFET S07
COMPONENTS: Power MOSFET (Professional)PART NUMBER: SPD02N60C3MANUFACTURER: Infineon technologies REMARK: Body Diode (Special)
Switching Time Characteristic
Time
5.00us 5.05us 5.10us 5.15usV(2) V(3)/35
0V
4V
8V
12V
V D D3 5 0
3
0
V 1
TD = 5 u
TF = 7 nP W = 1 0 uP E R = 1 0 0 u
V 1 = 0
TR = 6 n
V 2 = 1 0
V 30 V d c
0
R L
1 9 2
0
U 2S P D 0 2 N 6 0 C 3 P _ D S P
L 1
0 . 0 5 u H
R G
5 0
2L 2
0 . 0 3 u H
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2 .半導体のスパイスモデルについて
MOSFET S07
COMPONENTS: Power MOSFET (Professional)PART NUMBER: SPD02N60C3MANUFACTURER: Infineon technologies REMARK: Body Diode (Special)
Body Diode Reverse Recovery Characteristic
Time
10.0us 10.1us 10.2us 10.3us 10.4us 10.5usI(R1)
0A
-10A
10A
V 1
TD = 0
TF = {2 0 * X}P W = 1 uP E R = 1 0 u
V 1 = -4 2 0
TR = 2 0 n
V 2 = 9 0
U 1
D 0 2 N 6 0 C 3 _ S P
0
P A R A M E T E R S :X = 2 5 . 5 n
1
0
R 1
1 0
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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.
2 .半導体のスパイスモデルについて
BJT S08
37pcs
RENESAS2SC29792SC2547
SANYO 2SC31502SC31532SC3467D (TC=25C)2SC3467D (TC=80C)2SC3467D (TC=110C)2SC3467D (TC=150C)
STMicroelectronicsBUL381DBUL4162N3055 MJ2955
SHINDENGEN 2SC4054 NEC 2SC945
ROHM 2SC1740S 2SC3359S 2SC3415S 2SC4015 2SD1782K
TOSHIBA2SA950(Y)2SA10152SA1020(Y)2SA1162(Y)2SA1202(Y)2SA1586(Y)2SB9062SC732TM2SC18152SC19592SC22402SC24822SC28782SC31122SC32652SC33292SC51722SD2012
Gummel-Poon モデルを採用
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2 .半導体のスパイスモデルについて
Darlington Transistor S09
8pcs
NEC2SD5602SD9852SD9862SD1164-Z
SANYO2SD18272SD18302SD20482SD2049
IGBT S10
14 pcs.
International RectifierIRG4BC20SDIRG4IBC20KDIRG4PC50KDIRG4PF50WIRG4PH50KD
TOSHIBAGT8J101GT8J102(SM)GT8Q101GT10J321GT15J101GT15J102GT15J103(SM)GT15Q101GT25Q101
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2 .半導体のスパイスモデルについて
Voltage Reference S11
3pcs
NECRD5_6FRD6.2FRD6.8F
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2 .半導体のスパイスモデルについて
Voltage Regulator S12
64pcs
NECuPC24A05HFuPC24A12HFuPC24A15HFuPC24M05AuPC24M06AuPC24M07AuPC24M08AuPC24M09AuPC24M10AuPC24M12AuPC24M15AuPC24M18AuPC78L05JuPC78L05TuPC78L06JuPC78L06TuPC78L07JuPC78L07TuPC78L08JuPC78L08TuPC78L10JuPC78L10TuPC78L12JuPC78L12TuPC78L15JuPC78L15TuPC78M05AuPC78M06AuPC78M07AuPC78M08A
NECuPC78M09AuPC78M10AuPC78M12AuPC78M15AuPC78M18AuPC78M24AuPC78N05HuPC78N08HuPC78N10HuPC78N12HuPC78N15HuPC78N18HuPC78N24HuPC317uPC2405AuPC2406AuPC2407AuPC2408AuPC2409AuPC2410AuPC2412AuPC2415AuPC2418AuPC3018uPC3025uPC3504uPC3533uPC7805AuPC7808AuPC7812A
NECuPC7815AuPC7818AuPC7824AuPC7893A
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2 .半導体のスパイスモデルについて
Shunt Regulator S13
PanasonicAN1431TAN1432NT
JRCNJM431
NECUPC1093
TOSHIBATA76L431STA76432F
6 pcs
All Rights Reserved Copyright (C) Bee Technologies Inc.
2 .半導体のスパイスモデルについて
Operational Amplifier S14
NEW JAPAN RADIONJM022NJM022DNJM022LNJM022MNJM022VNJM022BNJM022BDNJM022BLNJM022BMNJM022BVNJM062NJM062DNJM062LNJM062MNJM062VNJM064NJM064DNJM064MNJM064VNJM072NJM072BNJM072BDNJM072BLNJM072BMNJM072BVNJM072DNJM072L
NEW JAPAN RADIONJM072MNJM074NJM082NJM082BNJM082BDNJM082BLNJM082BMNJM082BVNJM082DNJM082LNJM082MNJM084NJM353DNJM353MNJM1458DNJM1458MNJM2041DNJM2041MNJM2041LNJM2058DNJM2058MNJM2058VNJM2059DNJM2059MNJM2059VNJM2060DNJM2060M
NEW JAPAN RADIONJM2060VNJM2068DNJM2068LNJM2068MNJM2068VNJM2107FNJM2107F3NJM2112NJM2115NJM2119NJM2120NJM2121NJM2130FNJM2130F3NJM2132DNJM2132LNJM2132MNJM2132VNJM2141NJM2147DNJM2147MNJM2162DNJM2162LNJM2162MNJM2162VNJM2164DNJM2164M
NEW JAPAN RADIONJM2164VNJM2730NJM2732NJM2742DNJM2742MNJM2742RB1NJM2742VNJM2746NJM2902NNJM2902MNJM2902VNJM2904DNJM2904LNJM2904MNJM2904VNJM3403ADNJM3403AMNJM3403AVNJM3404ADNJM3404ALNJM3404AMNJM3404AVNJM3414ANJM4556ADNJM4556ALNJM4556AMNJM4556AV
All Rights Reserved Copyright (C) Bee Technologies Inc.
2 .半導体のスパイスモデルについて
Operational Amplifier S14
NEW JAPAN RADIONJM4558DNJM4558LNJM4558MNJM4558VNJM4559DNJM4559LNJM4559MNJM4559VNJM4560DNJM4560LNJM4560MNJM4562DNJM4562LNJM4562MNJM4565DNJM4565LNJM4565MNJM4565VNJM4580DNJM4580ENJM4580LNJM4580MNJM4580VNJM4741DNJM4741MNJM5532DNJM5532L
NEW JAPAN RADIONJM5532MNJM5534DNJM5534MNJM12902D1NJM12902ENJM12902MNJM12902VNJM12904DNJM12904ENJM12904LNJM12904MNJM12904RNJM12904VNJM13403D1NJM13403ENJM13403MNJM13403VNJM13404DNJM13404ENJM13404LNJM13404MNJM13404RNJM13404VNJM14558DNJM14558ENJM14558LNJM14558M
NEW JAPAN RADIONJM14558RNJM14558VNJMOP-07DNJMOP-07MNJU7001DNJU7001MNJU7001VNJU7002DNJU7002MNJU7004DNJU7004MNJU7004VNJU7007NJU7008NJU7011NJU7012NJU7013NJU7014NJU7015NJU7016NJU7019NJU7021DNJU7021MNJU7021VNJU7022DNJU7022MNJU7024D
NEW JAPAN RADIONJU7024MNJU7024VNJU7031DNJU7031MNJU7031VNJU7032DNJU7032MNJU7034DNJU7034MNJU7034VNJU7042NJU7043NJU7051DNJU7051MNJU7051VNJU7052DNJU7052MNJU7054DNJU7054MNJU7054VNJU7061DNJU7061MNJU7061VNJU7062DNJU7062MNJU7064DNJU7064M
All Rights Reserved Copyright (C) Bee Technologies Inc.
2 .半導体のスパイスモデルについて
Operational Amplifier S14
292pcs
NEW JAPAN RADIONJU7064VNJU7071DNJU7071MNJU7071VNJU7072DNJU7072MNJU7074DNJU7074MNJU7074VNJU7091ANJU7092ANJU7093ANJU7094NJU7095NJU7096
NEC ELECTRONICSuPC324CuPC324G2uPC358CuPC358G2uPC741CuPC741G2uPC1458CuPC1458G2uPC3403CuPC3403G2
NEW JAPAN RADIOuPC4061CuPC4061G2uPC4062CuPC4062G2uPC4064CuPC4064G2uPC4091CuPC4091G2uPC4092CuPC4092G2uPC4093CuPC4093G2uPC4250CuPC4250G2uPC4556CuPC4556G2uPC4558CuPC4558G2uPC4560CuPC4560G2
RENESASHA17358A
SANYOLA6082DLA6082M
SANYOLA6083DLA6458M
STMicroelectronicsMC3303MC33078MC33171
BURR BROWNOPA2652OPA685
TOSHIBATA75S01FTA75W01FUTA75S558FTC75S51FTC75S51FUTC75S51FETC75S54FTC75S54FUTC75S54FETC75S55FTC75S55FUTC75S55FETC75S60FTC75S60FU
TOSHIBATC75W51FKTC75W51FUTC75W54FKTC75W54FUTC75W60FKTC75W60FU
SEIKO INSTRUMENTS-89110A
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2 .半導体のスパイスモデルについて
Comparator S15
57pcs
NECuPC311C (Bipolar)uPC311G2 (Bipolar)uPC339C (Bipolar)uPC339G2 (Bipolar)uPC393C (Bipolar)uPC393G2 (Bipolar)uPC393HA (Bipolar)
NEW JAPAN RADIONJM319D (Bipolar)NJM319M (Bipolar)NJM319V (Bipolar)NJM311D (Bipolar)NJM311M (Bipolar)NJM2403 (Bipolar)NJM2901 (Bipolar)NJM2903 (Bipolar)NJU7108 (Bipolar)NJU7109 (Bipolar)
TOSHIBATC75S56F (CMOS)TC75S56FE (CMOS)TC75S56FU (CMOS)TC75S58F (CMOS)TC75S58FE (CMOS)TC75S58FU (CMOS)
TOSHIBATC75S59F (CMOS)TC75S59FE (CMOS)TC75S59FU (CMOS)TC75W59FU (CMOS)TC75W59FK (CMOS)
NATIONALLM111H (Bipolar)LM111H/883 (Bipolar)LM111J-8 (Bipolar)LM111J-8/833 (Bipolar)LM111J/883 (Bipolar)LM119H (Bipolar)LM119H/883 (Bipolar)LM119J (Bipolar)LM119J/883 (Bipolar)LM119W/883 (Bipolar)LM119WG/883 (Bipolar)LM211H (Bipolar)LM211J-8 (Bipolar)LM211M (Bipolar)LM219J (Bipolar)LM311H (Bipolar)LM311M (Bipolar)LM311N (Bipolar)LM311N-14 (Bipolar)
NATIONALLM319AH (Bipolar)LM319AJ (Bipolar)LM319AM (Bipolar)LM319AN (Bipolar)LM319H (Bipolar)LM319J (Bipolar)LM319M (Bipolar)LM319N (Bipolar)LMC6762 (CMOS)
RENESASHA1631S04CM (CMOS)
All Rights Reserved Copyright (C) Bee Technologies Inc.
2 .半導体のスパイスモデルについて
Sidac S16
42pcs
MOTOROLA MKP1V120MKP1V130MKP3V110MKP3V120MKP3V130
ON SemiconductorMKP1V120MKP1V130MKP1V160MKP1V240MKP3V120MKP3V240
SHINDENGENK1V18K1V22(W)K1V22K1V24K1V24WK1V26(W)K1V26K1V33(W)K1V34(W)K1V36(W)K1V38(W)K1V(A)10K1V(A)11K1V(A)12K1V(A)14K1V(A)16G1V(A)8CG1V(A)10CG1V(A)14CG1V(A)15CG1V(A)20CG1V(B)8CG1V(B)22CK1V5K1V6
SHINDENGENK1V8K1V10K1V11K1V12K1V14K1V16
All Rights Reserved Copyright (C) Bee Technologies Inc.
2 .半導体のスパイスモデルについて
Sidac S16 COMPONENTS:SIDACPART NUMBER:K1V10MANUFACTURER:SHINDENGEN MFG.CO.,LTD.
I-V Characteristic
All Rights Reserved Copyright (C) Bee Technologies Inc.
2 .半導体のスパイスモデルについて
Photocoupler S17SHARPPC123PC356NTPC357NTPC817X
TOSHIBATLP421_ATLP421_BTLP521-1_ATLP521-1_BTLP521-2_ATLP521-2_BTLP521-4_ATLP521-4_BTLP621_ATLP621_BTLP624TLP628_ATLP628_BTLP629TPS852
NECPS2501-1PS2501-2PS2501-4PS2501L-1PS2501L-2PS2501L-4
25 pcs
Opto Device S18
TOSHIBATORX179TOTX179
2pcs
Varistor S19
3pcs
SHINDENGENVR60B(A)VR60BP(A)VR61B(A)
All Rights Reserved Copyright (C) Bee Technologies Inc.
2 .半導体のスパイスモデルについて
Surege Absorber (ZNR) S20
PanasonicERZV10D121ERZV10D751ERZV14D431ERZV10D151ERZV10D820ERZV14D470ERZV10D180ERZV10D821ERZV14D471ERZV10D201ERZV10D911ERZV14D511ERZV10D220ERZV14D101ERZV14D560ERZV10D221ERZV14D102ERZV14D621ERZV10D241ERZV14D112ERZV14D680ERZV10D270ERZV14D121ERZV14D681ERZV10D271
ERZV07D391ERZV09D391ERZV05D361ERZV07D431ERZV09D431ERZV05D390ERZV07D470ERZV09D470ERZV05D391ERZV07D471ERZV09D471ERZV05D431ERZV07D511ERZV09D511ERZV05D470ERZV07D560ERZV09D560ERZV05D471ERZV07D680ERZV09D680ERZV05D560ERZV07D820ERZV09D820ERZV05D680ERZV09D101 152pcs
ERZV14D151ERZV14D751ERZV10D330ERZV14D180ERZV14D820ERZV10D331ERZV14D182CSERZV14D821ERZV10D361ERZV14D201ERZV14D911ERZV10D390ERZV14D220ERZV20D101ERZV10D391ERZV14D221ERZV20D102ERZV10D431ERZV14D241ERZV20D112ERZV10D470ERZV14D270ERZV20D121ERZV10D471ERZV14D271
ERZV20D151ERZV10D511ERZV14D330ERZV20D180ERZV10D560ERZV14D331ERZV20D182ERZV10D621ERZV14D361ERZV20D201ERZV10D680ERZV14D390ERZV20D220ERZV10D681ERZV14D391ERZV20D221 ERZV05D101ERZV07D151ERZV09D18ERZV05D121ERZV07D180ERZV09D201ERZV05D151ERZV07D201ERZV09D220
ERZV05D180ERZV07D221ERZV09D221ERZV05D201ERZV07D241ERZV09D241ERZV05D220ERZV07D270ERZV09D270ERZV05D221ERZV07D271ERZV09D271ERZV05D241ERZV07D330ERZV09D330ERZV05D270ERZV07D331ERZV09D331ERZV05D271ERZV07D361ERZV09D361ERZV05D330ERZV07D390ERZV09D390ERZV05D331
ERZV10D101ERZV05D820ERZV09D121ERZV10D102ERZV07D121ERZV09D151ERZV10D112ERZV20D241ERZV20D270ERZV20D271ERZV20D330ERZV20D331ERZV20D361ERZV20D390ERZV20D391ERZV20D431ERZV20D470ERZV20D471ERZV20D511ERZV20D560ERZV20D621ERZV20D680ERZV20D681ERZV20D751ERZV20D820
ERZV20D821ERZV20D911
All Rights Reserved Copyright (C) Bee Technologies Inc.
2 .半導体のスパイスモデルについて
Thermistor S21
SEMITEC3D-224D-225D-116D-228D-1316D-13 6pcs
All Rights Reserved Copyright (C) Bee Technologies Inc.
2 .半導体のスパイスモデルについて
Thysistor S22 MOTOROLAMCR12DSMMCR12DSNMCR22-2MCR22-3MCR22-4MCR22-6MCR22-8MCR72-2MCR72-3MCR72-4MCR72-6MCR72-8MCR72-10MCR218-2FPMCR218-4FPMCR218-6FPMCR218-8FPMCR218-10FPMCR225-2FPMCR225-4FPMCR225-6FPMCR225-8FPMCR225-10FPMCR264-4MCR264-6MCR264-8MCR264-10MCR265-2MCR265-4MCR265-6
MOTOROLAMCR265-8MCR265-10MCR310-2MCR310-3MCR310-4MCR310-6MCR310-8MCR310-10
TOSHIBASF3G48SF5G49SF5J49SF10GZ47SF10JZ47USF5G49USF5J49
ON SEMICONDUCTOR2N50602N50612N50622N50642N63942N63952N63972N63992N64002N64012N64022N64032N64042N64052N65042N65052N65072N65082N6509MCR8DSMMCR8DSNMCR12DSMMCR12DSNMCR68-2MCR69-2MCR69-3MCR72-3MCR72-6MCR703A
ON SEMICONDUCTORMCR704AMCR706AMCR708AMCR716MCR718MCR72-8
PHILIPS SEMICONDUCTORBT145-500RBT145-600RBT145-800RBT151U-500CBT151U-650CBT151U-800CBT151X-500BT151X-650BT151X-800BT152-400RBT152-600RBT152-800RBT152B-400RBT152B-600RBT152B-800RBT300S-500RBT300S-600RBT300S-800RBTH151S-650RC106DMCR106-6
NEC2P4M2P5M2P6M2S2M2S4M03P2J03P2M03P4J3P4J3P4J-Z03P4M03P4MF03P4MG3P4MH03P5J03P6MG3P6MH5P4SMA5P6SMA8P2M8P4J8P4M
123pcs
All Rights Reserved Copyright (C) Bee Technologies Inc.
2 .半導体のスパイスモデルについて
PWM IC S23
2pcs
Fuji ElectronicsFA3511BP
FUJITSUMB3800
All Rights Reserved Copyright (C) Bee Technologies Inc.
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: FA5311BPMANUFACTURER: Fuji Electronics
0
5
C 66 8 0 0 p
U 1 2
TC L O S E = 0
1 2
U 1 9
N O R 3
012
3123
6
U 1
D Z F A 5 3 1 X
01
12
0
Q 1Q N
U C O M P
P W M C O M P A R A TO R
0
1
2
3
4
1
2
3
4
5
R 1 1
0 . 0 0 1
Q 3Q N
Q 4Q P
U 1 4
C O M P 2
0
121
23
0
U V L O
C T3 6 0 pI C = 0
7
R 9
2 2 0
V 12 . 8 V d c
V 4
F R E Q = 5 0 KV A M P L = 0 . 2 5V O F F = 0
U 1 5
R S F F L O P
0
12
6
82
+
-
+
-
S 1
S
V O N = 1 . 0 VV O F F = 0 . 0 V
1
0
CS pin voltage
I 1
1 0 u A d c
3
U 1 1
O S CF R E Q = 1 3 5 K
0
1
1
7
R c s p
1 G
0
V D T2 . 2 V d c
E 2
I F ( V (U V L O ) >0 . 8 , 9 . 2 , 1 5 . 5 )E V A L U E
O U T+O U T-
I N +I N -
0
00
0
R 2 1
1 k
V 3 TD = 2 0 U
TF = 1 0 NP W = 2 0 0 UP E R = 5 0 0 U
V 1 = 5
TR = 1 0 U
V 2 = 2
0
8
V 7
0 . 2 4 V d c
R T
5 . 1 k
O S C C L K
Q 2Q N
DT voltage
0
U 1 7
I N V
0112
6
0
0
0
V 82 V
V 2
TD = 0
TF = 1 0 NP W = 2 0 0 UP E R = 5 0 0 U
V 1 = 0
TR = 5 0 U
V 2 = 3 . 6
V c c
1 8 V d c
2
p wm o u t
o v e rc u rre n t
U 1 6
C O M P 2
0
121
23
C 3
C O M P 2
0
121
23
U 1 3
C O M P 2
0
12
1
23
PWM IC の等価回路図
All Rights Reserved Copyright (C) Bee Technologies Inc.
2 .半導体のスパイスモデルについて
PWM IC S23
U1
D2SBA60
1 2 3 4
D4
SF6L20U
Q1Q2SA1150
+
U8
C23
U7
L21
U11
5D-11
CT
1500pIC = 0
C32200p
C4
47uIC = 22.75
s ec
R2
4.7k
U2MTZJ 24B
0
RT
5.6k
R7
220
V
U9PC817
0
U3
FA5311BPFOSC = 30K
1 2 3 45678
C2
3300p
R40.22
18kR15
R load
48
U10TL431
VS2
TD = 10m
TF = 3.44msPW = 2.8mPER = 20ms
V1 = 0
TR = 3.76ms
V2 = 144
C1
220u
R8
0.001
R10
2.2k
+
U5
C21
C7
0.047u
UT22SK1006-01MR
R6
220
D3
ERA91-02
C8
0.22u
R13
680
VDT10Vdc
R16
910
V
D1
D1NS4
2.2kR17
R5
100
+U6
C22
R12
2.2kUT1
2SK1006-01MR
C56800p
VS4TD = 13.76m
TF = 0.48msPW = 1nPER = 20ms
V1 = 0
TR = 2.32ms
V2 = 6
R3
4.7k
R14
330k
0
R9
2.2
R1
22k
VS1TD = 0
TF = 3.44msPW = 2.8mPER = 20ms
V1 = 0
TR = 3.76ms
V2 = 144
out
VS3TD = 3.76m
TF = 0.48msPW = 1nPER = 20ms
V1 = 0
TR = 2.32ms
V2 = 6
CS
0.22uIC = 0.89
D2
S2L60
0
U4
T1
5
3
6_7
8_9
2
1
V
R112.2k
All Rights Reserved Copyright (C) Bee Technologies Inc.
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.
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.
2 .半導体のスパイスモデルについて
Analog IC S24
6pcs
New Japan RadioNJM78LR05NJM2887NJM2172
TOSHIBATAH8N401KTAH6N201U
RohmBA00ASFP
All Rights Reserved Copyright (C) Bee Technologies Inc.
2 .半導体のスパイスモデルについて
Digital Transistor S25
95pcs
ROHMDTA123EEDTA123EKADTA123ESADTA123EUADTA143EEDTA143EKADTA143EMDTA143ESADTA143EUADTA143XEDTA143XKADTA143XMDTA143XSADTA143XUADTA143ZMDTA143ZEDTA143ZUADTA143ZKA
DTA143ZSADTC113ZUADTC113ZKADTC113ZSADTC114EMDTC114EEDTC114EUADTC114EKADTC114ECADTC114ESADTC114YEDTC114YMDTC114YUADTC114YKADTC114YSADTC123EEDTC123EUADTC123EKA
DTC123ESADTC123EMDTC123JEDTC123JKADTC123JMDTC123JSADTC123JUADTC123YEDTC123YUADTC123YKADTC123YSADTC124EMDTC124EEDTC124EUADTC124EKADTC124ESADTC124XEDTC124XM
DTC124XUADTC124XKADTC124XSADTC143EEDTC143EMDTC143EUADTC143EKADTC143ESADTC143XEDTC143XKADTC143XMDTC143XSADTC143XUADTC143ZMDTC143ZEDTC143ZUADTC143ZKADTC143ZSA
DTC144EEDTC144EUADTC144EKADTC144ESADTC144WEDTC144WKADTC144WSADTC144WUADTC363EKDTC363ESDTC363EUDTD113EKDTD113ESDTD113ZKDTD113ZUDTD113ZSDTD114EKDTD114ES
DTD123YKDTD123YSDTD143ECDTD143EKDTD143ES
All Rights Reserved Copyright (C) Bee Technologies Inc.
2 .半導体のスパイスモデルについて
BRT S26
21pcs
TOSHIBARN1101FVRN1102FVRN1103FVRN1104FVRN1105FVRN1106FVRN1314RN1315RN1316RN1317RN1107FSRN1108FSRN1109FSRN1101FTRN1102FTRN1103FTRN1104FTRN1105FTRN1106FTRN1414RN1415
All Rights Reserved Copyright (C) Bee Technologies Inc.
2 .半導体のスパイスモデルについてDIGITAL IC S27
98pcs
TOSHIBATC7S00FTC7S00FUTC7SET00FTC7SET00FUTC7SH00FTC7SH00FETC7SH00FSTC7SH00FUTC7W00FTC7W00FKTC7W00FUTC7WH00FKTC7WH00FUTC74AC00FTC74AC00FNTC74AC00FTTC74AC00PTC74ACT00FTC74ACT00FNTC74ACT00FTTC74ACT00PTC74HC00AFTC74HC00AFNTC74HC00APTC74HCT00AFTC74HCT00AFNTC74HCT00APTC74VHC00FTC74VHC00FNTC74VHC00FT
TOSHIBATC74VHCT00AFTC74VHCT00AFNTC74VHCT00AFTTC7S02FTC7S02FUTC7SET02FTC7SET02FUTC7SH02FTC7SH02FETC7SH02FSTC7SH02FUTC7W02FTC7W02FKTC7W02FUTC7WH02FKTC7WH02FUTC74AC02FTC74AC02FNTC74AC02FTTC74AC02PTC74ACT02FTC74ACT02FNTC74ACT02FTTC74ACT02PTC74HC02AFTC74HC02AFNTC74HC02APTC74HCT02AFTC74HCT02AFNTC74HCT02AP
TOSHIBATC74VHC02FTC74VHC02FNTC74VHC02FTTC7S04FTC7S04FUTC7SET04FTC7SET04FUTC7SH04FTC7SH04FETC7SH04FSTC7SH04FUTC7W04FTC7W04FKTC7W04FUTC7WH04FKTC7WH04FUTC74AC04FTC74AC04FNTC74AC04FTTC74AC04PTC74ACT04FTC74ACT04FTTC74ACT04PTC74HC04AFTC74HC04AFNTC74HC04APTC74HCT04AFTC74HCT04AFNTC74HCT04APTC74HCU04AF
TOSHIBATC74HCU04AFNTC74HCU04APTC74VHC04FTC74VHC04FNTC74VHC04FTTC74VHCT04AFTC74VHCT04AFNTC74VHCT04AFT
All Rights Reserved Copyright (C) Bee Technologies Inc.
2 .半導体のスパイスモデルについて
Programmable Unijunction Transistor (PUT) S28
6pcs
TOSHIBATN41ATN41B
NECNT13T1NT13T2U71U72
Crystal Oscillator S29
Daishinku Corp.DOC-49S3/C1.308MHz 1pcs
Photo Diode S30
SEIMENSSFH205FA 1pcs
All Rights Reserved Copyright (C) Bee Technologies Inc.
3 .受動部品のスパイスモデルについて
Capacitor Ceramic P01
96pcs
MurataTa=25CDE1B3KX101KA5BDE1B3KX151KA5BDE1B3KX221KA5BDE1B3KX331KA5BDE1B3KX471KA5BDE1B3KX681KA5BDE1E3KX102MA5BDE1E3KX152MA5BDE1E3KX222MA5BDE1E3KX332MA5BDE1E3KX392MA5BDE1E3KX472MA5B
MurataTa=40CDE1B3KX101KA5BDE1B3KX151KA5BDE1B3KX221KA5BDE1B3KX331KA5BDE1B3KX471KA5BDE1B3KX681KA5BDE1E3KX102MA5BDE1E3KX152MA5BDE1E3KX222MA5BDE1E3KX332MA5BDE1E3KX392MA5BDE1E3KX472MA5B
MurataTa=60CDE1B3KX101KA5BDE1B3KX151KA5BDE1B3KX221KA5BDE1B3KX331KA5BDE1B3KX471KA5BDE1B3KX681KA5BDE1E3KX102MA5BDE1E3KX152MA5BDE1E3KX222MA5BDE1E3KX332MA5BDE1E3KX392MA5BDE1E3KX472MA5B
MurataTa=80CDE1B3KX101KA5B_80CDE1B3KX151KA5B_80CDE1B3KX221KA5B_80CDE1B3KX331KA5B_80CDE1B3KX471KA5B_80CDE1B3KX681KA5B_80CDE1E3KX102MA5B_80CDE1E3KX152MA5B_80CDE1E3KX222MA5B_80CDE1E3KX332MA5B_80CDE1E3KX392MA5B_80CDE1E3KX472MA5B_80C
PanasonicTa=25CECKATS101MBECKATS102MEECKATS103MEECKATS152MEECKATS221MBECKATS222MEECKATS332MEECKATS471MBECKATS472MEECKTBC102MEECKTBC222MEECKTBC472ME
PanasonicTa=40CECKATS101MBECKATS102MEECKATS103MEECKATS152MEECKATS221MBECKATS222MEECKATS332MEECKATS471MBECKATS472MEECKTBC102MEECKTBC222MEECKTBC472ME
PanasonicTa=60CECKATS101MBECKATS102MEECKATS103MEECKATS152MEECKATS221MBECKATS222MEECKATS332MEECKATS471MBECKATS472MEECKTBC102MEECKTBC222MEECKTBC472ME
PanasonicTa=80CECKATS101MBECKATS102MEECKATS103MEECKATS152MEECKATS221MBECKATS222MEECKATS332MEECKATS471MBECKATS472MEECKTBC102MEECKTBC222MEECKTBC472ME
All Rights Reserved Copyright (C) Bee Technologies Inc.
3 .受動部品のスパイスモデルについて
Capacitor Electrolytic P02
17pcs
ELNA Co.,Ltd.RJJ-35V221MG5-T20RJJ-35V561MI5-T4
Nippon Chemi-con CorporationSMH200VN270-22ATC04RKME25VB-10MF5.0TC04RKME50VB1LXZ25VB220MH12LXZ25VB2200MK35LXZ25VB3300ML30
PanasonicECEAOJKG101ECEAOJKG221ECEAOJKG470
NichiconUUGOJ103MNR1MSUUG1A103MRR1MSUUG1C472MNR1MSUUG1E332MNR1MS
Rubycon200MXP100MK2229
NITAIGPR Series
All Rights Reserved Copyright (C) Bee Technologies Inc.
3 .受動部品のスパイスモデルについて
Capacitor Films P03
5pcs
Matsushita Electric Industrial Co.,Ltd.
ECQ-B1H102JF3ECQ-B1H103JF3ECQV1H104JL3ECQV1H473JL3ECQV1H473JL3
Okaya Electric Industries Co.,Ltd.PA104-C
All Rights Reserved Copyright (C) Bee Technologies Inc.
3 .受動部品のスパイスモデルについて
Capacitor
Impedance vs. Frequency Capacitor model
10-3
100
103
106
109
(Hz)
Impedance vs. Frequency Capacitor model
10-3
100
103
106
109
(Hz)
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.
3 .受動部品のスパイスモデルについて
COMPONENTS: CAPACITOR/CERAMICPART NUMBER: DE1B3KX101KA5BMANUFACTURER: MURATA
Frequency vs. IZI Characteristic
All Rights Reserved Copyright (C) Bee Technologies Inc.
3 .受動部品のスパイスモデルについて
COMPONENTS: CAPACITOR/ELECTROLYTICPART NUMBER: UUG1E332MNR1MSMANUFACTURER: Nichicon
Frequency vs. IZI Characteristic
Frequency
100Hz 1.0KHz 10KHz 100KHz 1.0MHz 10MHz 100MHzV(N00244)/ I(V2)
100m
1.0
10
50
All Rights Reserved Copyright (C) Bee Technologies Inc.
3 .受動部品のスパイスモデルについて
Choke Coil P04
28pcs
TOKO8RHB,4.7uH,3.2A8RHB,10uH,2.3A8RHB,22uH,1.6A8RHB,33uH,1.4A8RHB,47uH,1.2A8RHB,82uH,0.91A8RHB,100uH,0.79A8RHB,100uH,1A8RHB,220uH,0.7A8RHB,220uH,0.51A8RHB,330uH,0.43A8RHB,330uH,0.54A8RHB,470uH,0.36A8RHB,470uH,0.47A
WURTH ELEKTRONIK GmbH & CO.KG214-6215214-6221214-6237214-6243214-6265228-450228-466228-472228-488228-494228-501228-517228-523228-539
Common Mode Choke Coil P05
1pcsKOURINGIKEN CO.,LTD.HR-24-E153
All Rights Reserved Copyright (C) Bee Technologies Inc.
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 )
10-3
100
103
106
109(Hz)
Impedance vs. Frequency Inductor model
R 1L 1
L 1
R 1
R 1L 1C 1
L 1
10-3
100
103
106
109(Hz)
Impedance vs. Frequency Inductor model
R 1L 1 R 1L 1
L 1
R 1
L 1
R 1
R 1L 1C 1
R 1L 1C 1
L 1L 1
All Rights Reserved Copyright (C) Bee Technologies Inc.
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 : TOKO
Frequency vs. IZI Characteristic
All Rights Reserved Copyright (C) Bee Technologies Inc.
3 .受動部品のスパイスモデルについて
Transformer P06
2pcs
AIHARASD-1603
ChatchawanT1
*$*COMPONENTS: TRANSFORMER*PART NUMBER: SD-1603*MANUFACTURER: AIHARA ELECTRIC CO., LTD.* All Rights Reserved Copyright (C) Bee Technologies Inc. 2005.SUBCKT SD-1603_12V 1 2 3 4Kn_K1 L_L2 L_L3 0.99997R_R5 S1 3 3.653 L_L3 S1 4 163.233mH C_C4 S1 4 5.85849nF R_R4 S1 4 2.21424k L_L2 P2 2 8.09H C_C3 P2 2 117.29p R_R3 P2 2 116.087k R_R1 1 P1 160 L_L1 P1 P2 27.2291mH R_R2 P1 P2 124.878k C_C1 P1 P2 153.726p.ENDS*$
All Rights Reserved Copyright (C) Bee Technologies Inc.
3 .受動部品のスパイスモデルについて
Inductor P07
4pcs
TAIYOYUDEN CO.,LTD. FBA04HA600AB-00
Newport Components 22R105 22R225 22R474
All Rights Reserved Copyright (C) Bee Technologies Inc.
3 .受動部品のスパイスモデルについて
Magnetic Core P08
74pcs
FDK2H042H062H072H102H152H15B6H106H206H406H416H427H107H20
TDKDN70H5AH5B2H5C2H5C3HP5HS10HS52HS72PC40PC44PC45PC46PC47PC50
Ferroxcube4E13E53E63E73E83E93E253E263E273E283E552P402P502P652P802P903B13B73C113C303C343C813C90
Ferroxcube3C913C923C933C943C963D33F33F353F43F453F53H33R13S13S33S44A114A154B14C654D24F14S2
All Rights Reserved Copyright (C) Bee Technologies Inc.
3 .受動部品のスパイスモデルについて
COMPONENTS:MAGNETIC COREPART NUMBER:6H10MANUFACTURER:FDK
Hysteresis Curve Characteristics
All Rights Reserved Copyright (C) Bee Technologies Inc.
3 .受動部品のスパイスモデルについて
Crystal P09
KYOCERA KINSEKIHC-49/U-S5.000MHzHC-49/U-S10.000MHz 2 pcs
All Rights Reserved Copyright (C) Bee Technologies Inc.
4 .バッテリーのスパイスモデルについて
Alkaline Cell B01
TOSHIBALR6AG 2.7 ohmLR6AG 10 ohmLR6AG 2.2 ohmLR6AG 3.3 ohmLR6AG 4.7 ohmLR6AG 8.2 ohmLR6AG 22 ohmLR6AG 33 ohmLR6AG 51 ohmLR6AG Variable RL 10pcs
Lithium Cell B02
Fuji FilmsCR123A 2.2 ohmCR123A 4.7 ohmCR123A 10 ohm
PanasonicCR2 2.2 ohmCR2 4.7 ohm
5pcs
All Rights Reserved Copyright (C) Bee Technologies Inc.
4 .バッテリーのスパイスモデルについて
Lithium-Ion Cell B03
NOKIABLB-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 = -20C
SANYOSCP-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 = -20C
PanasonicEB-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.
4 .バッテリーのスパイスモデルについて
Ni-Manganese B04
10cs
SONYZR6DC 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
Nickel Metal -Hydride B05 SanyoHR-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.
4 .バッテリーのスパイスモデルについて
Oxyride B06 PanasonicZR6 2.2 ohmZR6 2.7 ohmZR6 3.3 ohmZR6 4.7 ohmZR6 8.2 ohmZR6 10 ohmZR6 22 ohmZR6 33 ohm
8pcs
All Rights Reserved Copyright (C) Bee Technologies Inc.
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= Variable
Discharge Characteristics
All Rights Reserved Copyright (C) Bee Technologies Inc.
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.
4 .バッテリーのスパイスモデルについて
等価回路図
製品名称: TAH8N401Kメーカー: TOSHIBA Semiconductor
Q1QN
DRIVE3
E2
IF (V(CT1,GND)>0.8, 0.2,2)EVALUE
OUT+OUT-
IN+IN-
15
VCC
8
GND
F1
F
GAIN = 4
10
QE2QN
CONTROL
9
R310m
V-
V+
-
+
U4
ERR_AMP
VCC
0
2
F2
F
GAIN = 4
3
Q3QN
CT1
11
QE4QN
DRIVE4
R210m
1 4
QE1QN
V-
V+
-
+
U3
ERR_AMP
V-
V+
-
+
U1
ERR_AMP
CT1
VCC
14 F3
FGAIN = 4
6 7
DRIVE1
CT1
R410m
QE3QN
13
Q2QN
R110m
5
+
-
UC
COMPARATOR
VREF = 1.17
12
VCTUVLO
Q4QN
CT1
VREF DRIVE2
V-
V+
-
+
U2
ERR_AMP
16
F4
FGAIN = 4
All Rights Reserved Copyright (C) Bee Technologies Inc.
4 .バッテリーのスパイスモデルについて
1
E2
IF (V(CT1,GND)>0.8, 0.2,2)
EVALUE
OUT+OUT-
IN+IN-
5
R410m
QE4QN
4
Q1QN
F2
F
GAIN = 4
11
3
14-
+
UC
COMPARATORVREF = {limit(1.5305-0.0103*TA,0.5,1.17)}15
Q2QN
16
F4
FGAIN = 4
DRIVE4
R210m
VCC
F3
FGAIN = 4
QE1QN
9
Q3QN
GND
QE2QN
QE3QNV-
V+
-
+
U3
ERR_AMP
DRIVE3
R110m
CT1
V-
V+
-
+
U2
ERR_AMP
F1
F
GAIN = 4CT1
DRIVE2
R310m
CT1
DRIVE1VREF
PARAMETERS:TA = 25
130
2
VCCVCC
VCTUVLO
12
V-
V+
-
+
U1
ERR_AMP
V-
V+
-
+
U4
ERR_AMP
10
7
8
CONTROL
CT1
6
Q4QN
温度モデルの等価回路図
製品名称: TAH8N401Kメーカー: TOSHIBA Semiconductor
All Rights Reserved Copyright (C) Bee Technologies Inc.
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.
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.
5 . DC モーターのスパイスモデルについて
DC MOTOR M01 MABUCI MOTORFA-130RE-140RE-260RE-280RS-380PHRS-540SH
TAMIYA,INC.RT 15133*300
TAMIYA,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
11pcs
All Rights Reserved Copyright (C) Bee Technologies Inc.
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 Noload
Time
-1.0s 0s 1.0s 2.0s 3.0s 4.0s 5.0s 6.0s 7.0s 8.0s1 I(V2) 2 V1(X_U1.E_E_EMF)
-2A
0A
2A
4A
6A
8A
10A
12A
14A1
-20V
-15V
-10V
-5V
0V
5V
10V
15V
20V2
>>
V 1TD = 0
TF = 1 0 n
P W = 1 0
P E R = 1 0 0
V 1 = 0
TR = 6 . 4 m
V 2 = 1 2
V 2
0 V d c
0
R 3
2 . 2
+-
R S -5 4 0 S H
I L = 0 . 8
All Rights Reserved Copyright (C) Bee Technologies Inc.
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
Time
-1.0s 0s 1.0s 2.0s 3.0s 4.0s 5.0s 6.0s 7.0s 8.0s1 I(V2) 2 V1(X_U1.E_E_EMF)
-2A
0A
2A
4A
6A
8A
10A
12A
14A1
-20V
-15V
-10V
-5V
0V
5V
10V
15V
20V2
>>
R 3
2 . 2
V 2
0 V d c
V 1TD = 0
TF = 1 0 n
P W = 1 0
P E R = 1 0 0
V 1 = 0
TR = 6 . 4 m
V 2 = 1 2
0
+-
R S -5 4 0 S H
I L = 3 . 2
All Rights Reserved Copyright (C) Bee Technologies Inc.
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
C2
1nFIC = 0
D3D4001
D2
D1N4148
D6
D4001
D1
D1N4148
0RV1
{vr1}
RV2
{500k-vr1}
D4
D4001
D7
D4001
V30Vdc
0
R3
30k
C3470u
Q2QBC547
OUT
GND
IN
U2
uPC7812A
0
V
0
0
+-
U3
12VDCMOTORLOAD = 0.615
0
1D5
D4001
C1
0.97nFIC = 0
R2
5k
Q1Q2SC1061
R4
10k
V1
FREQ = 50VAMPL = 19.2VVOFF = 0
PARAMETERS:vr1 = 250K
R1
10k
U1
555B1
234
567
8
GND
TRIGGEROUTPUTRESET
CONTROLTHRESHOLDDISCHARGE
VCC
Rectified dc voltage with ripple
All Rights Reserved Copyright (C) Bee Technologies Inc.
5 . DC モーターのスパイスモデルについて
Rectified dc voltage with ripple
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
All Rights Reserved Copyright (C) Bee Technologies Inc.
5 . DC モーターのスパイスモデルについて
U1
555B1
234
567
8
GND
TRIGGEROUTPUTRESET
CONTROLTHRESHOLDDISCHARGE
VCC
RV2
{500k-vr1}
R1
10k
D4
D4001
C3470u
D2
D1N4148
Q2QBC547
0
D6
D4001
D7
D4001
PARAMETERS:vr1 = 250K
0
0 V-
R2
5k
V+
+-
U3
12VDCMOTORLOAD = 0.615
0
1
V30Vdc
OUT
GND
IN
U2
uPC7812A
Q1Q2SC1061
D5
D4001
C2
1nFIC = 0
C1
0.97nFIC = 0
D3D4001
0
R4
10k
D1
D1N4148
V1
FREQ = 50VAMPL = 19.2VVOFF = 0
RV1
{vr1}
R3
30k
0
Transistor Q1: VCE, IC
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
All Rights Reserved Copyright (C) Bee Technologies Inc.
5 . DC モーターのスパイスモデルについて
Transistor Q1: VCE, IC
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
All Rights Reserved Copyright (C) Bee Technologies Inc.
5 . DC モーターのスパイスモデルについて
U1
555B1
234
567
8
GND
TRIGGEROUTPUTRESET
CONTROLTHRESHOLDDISCHARGE
VCC
RV2
{500k-vr1}
R1
10k
D4
D4001
C3470u
D2
D1N4148
Q2QBC547
0
D6
D4001
D7
D4001
PARAMETERS:vr1 = 250K
0
0
V-
R2
5k
V+
+-
U3
12VDCMOTORLOAD = 0.615
0
1
V30Vdc
OUT
GND
IN
U2
uPC7812A
Q1Q2SC1061
D5
D4001
C2
1nFIC = 0
C1
0.97nFIC = 0
D3D4001
0
R4
10k
D1
D1N4148
V1
FREQ = 50VAMPL = 19.2VVOFF = 0
RV1
{vr1}
R3
30k
0
Motor Voltage and Current
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
All Rights Reserved Copyright (C) Bee Technologies Inc.
5 . DC モーターのスパイスモデルについて
Motor Voltage and Current
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
All Rights Reserved Copyright (C) Bee Technologies Inc.
6 .ランプのスパイスモデルについて
Filament Lamp L01
18pcs
OSRAMBELLA K SIL 40BELLA K SIL 60BELLA K SIL 100
PHILIPSCFR25W240VESCFR40W240VESLCL40W240VESLFR40W240VESSLX25W240VESSLX40W240VESSLX60W240VESSLX100W230VESSOF25W230VESSOF40W240VESSOF60W230VESSOF100W230VESSP40W230VESSP60W230VESSP100W230VES
6 .ランプのスパイスモデルについて
COMPONENTS: Filament LampPART NUMBER: SP60W230VESMANUFACTURER: Philips Lighting Poland
Time
0s 20ms 40ms 60ms 80ms 100ms 140ms 180msI(V3)
-2.0A
-1.5A
-1.0A
-0.5A
0A
0.5A
1.0A
1.5A
2.0A
All Rights Reserved Copyright (C) Bee Technologies Inc.
Transient Current Characteristics
V S
F R E Q = 5 0 H zV A M P L = 3 0 9V O F F = 0
U 1S P 6 0 W 2 3 0 V E S
V 3
0 V d c
0
All Rights Reserved Copyright (C) Bee Technologies Inc.
6 .ランプのスパイスモデルについて
3pcs
Halogen Lamp L02
OSRAM64472BTSIL60W64476BTSIL100W64478BTSIL150W
All Rights Reserved Copyright (C) Bee Technologies Inc.
6 .ランプのスパイスモデルについて
COMPONENTS: Halogen LampPART NUMBER: 64476BT SILMANUFACTURER: OSRAM GmbH
Transient Current Characteristics
Time
0s 20ms 40ms 60ms 80ms 100ms 140ms 180msI(V3)
-1.5A
-1.0A
-0.5A
0A
0.5A
1.0A
1.5A
2.0A
2.5A
V 3
0 V d c
0
V S
F R E Q = 5 0 H zV A M P L = 3 0 9V O F F = 0
U 16 4 4 7 6 B T_ S I L
All Rights Reserved Copyright (C) Bee Technologies Inc.
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.
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
デザインキットは、 PSpice で動作致します。
All Rights Reserved Copyright (C) Bee Technologies Inc.
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 昇圧チョッパ 昇降圧チョッパ フォワード フライバック フルブリッジ ハーフブリッジ プッシュプル CUK SEPIC ZETA 絶縁 CUK 電圧共振
電流共振 共振 E級共振 複共振 アクティブクランプ 位相シフト 同期整流 電流モード 力率改善 マルチフェーズ 電流型 三相フルブリッジインバータ
2005 年 11 月 11 日現在
All Rights Reserved Copyright (C) Bee Technologies Inc.
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.
質疑応答
お問合わせ先 )[email protected]
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】Bee Technologies Corporation (アメリカ )Siam Bee Technologies Co.,Ltd. ( タイランド )