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UP050SL180J-NAC

UP050SL180J-NAC

  • 厂商:

    TAIYO-YUDEN(太诱)

  • 封装:

    轴向

  • 描述:

    贴片电容(MLCC) Axial 18pF ±5% 50V SL

  • 详情介绍
  • 数据手册
  • 价格&库存
UP050SL180J-NAC 数据手册
アキシャルリード形セラミックコンデンサ AXIAL LEADED CERAMIC CAPACITORS OPERATING TEMP. −25∼+85℃ 特長 FEATURES ・汎用型セラミックコンデンサで、単層形と積層形合わせて1pF∼10μFと 広い容量範囲で部品の標準化が可能 ・ラジアルに比べ自挿コストが安く、部品高さ低減、実装密度アップ、在 庫スペースも減少 ・実装ピッチ5mmから26mmまでジャンパー線機能と兼用可能 ・This widely used ceramic capacitor includes both monolithic and multilayer types to provide a wide capacitance range of 1pF through 10μF in one standard size and shape. ・Automatic insertion related costs are lower than with radial type capacitors. ・Mounting pitch can be between 5mm to 26mm which could be used as a jumper. 用途 APPLICATIONS ・Class1品は回路の温度特性補正及び周波数特性の安定化。B、F特はバイ パスコンデンサに最適 ・The class 1 temperature compensating (NPO) products can be used in circuits to stabilize frequency and temperature characteristics. ・The B, and F dielectrics are optimum for bypass capacitors. 形名表記法 ORDERING CODE 1 3 5 6 8 定格電圧〔VDC〕 形状寸法 (L×φd) 〔mm〕 公称静電容量〔pF〕 容量許容差 梱包 L E T G U 10 16 25 35 50 4.2×3.2 (積層形) 3.5×1.9 (単層形) 075 050 025 3.2×2.2 (積層形) 2.3×2.0 (積層形) 015 3.0×2.5 (積層形) 例 010 1R2 103 ※R=小数点 D− J− K− M− Z− 1 1.2 10000 ±0.5pF ±15% ±10% ±20% 80 ± %   20 つづら折り 袋づめ B C 2 4 7 9 形式 温度特性 リード形状〔mm〕 当社管理記号 P アキシャルリードコンデンサ CK CH RH UJ SL △B △F −750±1250(ppm /℃) −750±160(ppm /℃) −220±160(ppm /℃) −750±120(ppm /℃) +350∼−1000(ppm /℃) ±10% + 30   % − 85 △=スペース A− B− KF KE NA 26mmテープ幅テーピング 52mmテープ幅テーピング 5.0ピッチフォーミング 7.5ピッチフォーミング 単品ストレートリード △△ △Z △J 単層標準品 積層標準品 積層品(低電圧タイプ) △=スペース U P 0 5 0 C H 1 0 0 J _ A _ B ○○ 6 5 4 7 9 8 1 3 5 6 8 Rated voltage 〔VDC〕 Outside Dimensions(L×φd) 〔mm〕 Nominal Capacitance 〔pF〕 Capacitance Tolerances Packaging L E T G U 10 16 25 35 50 4.2×3.2 (multilayer type) 3.5×1.9 (monolithic type) 050 3.2×2.2 (multilayer type) 025 2.3×2.0 (multilayer type) 015 3.0×2.5 (multilayer type) 075 example 010 1R2 103 D− J− K− M− Z− 1 1.2 10000 ※R=decimal point ±0.5pF ±15% ±10% ±20% 80 ± %   20 B C Ammo Bulk 2 4 7 9 Type   Temperature haracteristics Lead Configuration Internal code P 120 3 2 1 Axial leaded capacitors CK CH RH UJ SL △B △F −750±1250(ppm /℃) −750±160(ppm /℃) −220±160(ppm /℃) −750±120(ppm /℃) +350∼−1000(ppm /℃) ±10% + 30   % − 85 △=Blank space A− B− KF KE NA 8 26mm lead space, ammo pack 52mm lead space, ammo pack 5.0mm pitch formed lead bulk 7.5mm pitch formed lead bulk Axial lead, bulk △△ △Z △J Monolithic type Standard products Multilayer type Standard products Multilayer type (Low voltage products) △=Blank space 外形寸法 EXTERNAL DIMENSIONS テーピング品 Taped product Dimensions  TYPE L φD φd 単品 Bulk Product ストレート Straight ストレート Straight フォーミング Formed 単層形050 3.5max 1.9max 0.45±0.05 (Monolithic Type) (0.138max)(0.075max)(0.018±0.002) 0.55±0.05 4.2max 3.2max 積層形075 (Multilayer Type)(0.165max)(0.126max)(0.022±0.002) 積層形050 3.2max 2.2max (Multilayer Type)(0.126max)(0.087max) 0.45±0.05 積層形025 2.3max 2.0max (Multilayer Type) (0.09max) (0.079max)(0.018±0.002) 積層形015 3.0max 2.5max (Multilayer Type)(0.118max)(0.098max) Pitch:7.5mm (0.295) 4 概略バリエーション AVAILABLE CAPACITANCE RANGE 単層タイプ (Monolithic type) Class 1 (Temperature compensating) WV 50V(UP) Temp.char. CH RH UJ Type cap. 025 050 050 050 [pF] [pF:3digits] 010 1 1R2 1.2 1.5 1R5 1.8 1R8 2.2 2R2 2.7 2R7 3.3 3R3 3.9 3R9 4.7 4R7 5.6 5R6 6.8 6R8 8.2 8R2 10 100 11 110 12 120 13 130 15 150 16 160 18 180 20 200 22 220 24 240 27 270 30 300 33 330 36 360 39 390 43 430 47 470 51 510 56 560 62 620 68 680 100 101 150 151 220 221 330 331 470 471 680 681 1000 102 積層タイプ (Multilayer type) Class 2 (High dielectric constant) SL 025 050 CAPACITORS Unit : mm(inch) WV 50V(UP) 35V(GP) 25V(TP) 16V(EP) 10V(LP) Temp.char. B F B F B F B F F Type cap. 025 050 075 015 025 050 075 075 015 075 025 050 015 025 050 015 050 050 [pF] [pF:3digits] 75 750 82 820 91 910 100 101 120 121 150 151 180 181 220 221 270 271 330 331 390 391 470 471 560 561 680 681 820 821 1000 102 1200 122 1500 152 1800 182 2200 222 2700 272 3300 332 3900 392 4700 472 5600 562 6800 682 8200 822 10000 103 15000 153 22000 223 33000 333 47000 473 68000 683 100000 104 220000 224 470000 474 1000000 105 2200000 225 4700000 475 10000000 106 ※単層タイプの製品につきましては、生産終息予定ですので詳細につきましては最寄の弊社営業窓口までお問い合わせ下さい。 ※Since the production of monolithic layer products is scheduled to be discontinued, please contact your nearest sales office if you require any detailed information. 温度特性 Temperature char. 静電容量変化率 Capacitance change CH 0±160ppm/℃ RH UJ SL −220±160ppm/℃ −750±120ppm/℃ +350∼−1000ppm/℃ △B 容量許容差 Capacitance Tolerance 種類 Class Q又はtanδ Q or tanδ D(±0.5pF) M(±20%) K(±10%) J(±5%) 1 アイテム一覧参照 eng・Refer to the Part munber K(±10%) ±10% 2   △F Z(± %) 80 20 30 ±85 % ※20℃における静電容量を基準。   ※Capacitance characteristics measured at 20℃ セレクションガイド Selection Guide P.10 etc アイテム一覧 Part Numbers P.122 特性図 Electrical Characteristics P.128 梱包 Packaging 信頼性 Reliability Data P.129 8 P.130 使用上の注意 Precautions P.142 121 アイテム一覧 PART NUMBERS [単層タイプ Monolithic type] Class 1 ※単層タイプの製品につきましては、生産終息予定ですので詳細につきましては最寄の弊社営業窓口までお問い合わせ下さい。 ※Since the production of monolithic layer products is scheduled to be discontinued, please contact your nearest sales office if you require any detailed information. 定 格 電 圧 RatedVoltage (DC) 50V 形  名 Ordering code UP 0 5 0 △ 0 1 0M−○ UP 0 5 0 △ 1 R 2M−○ UP 0 5 0 △ 1 R 5M−○ UP 0 5 0 △ 1 R 8M−○ U P 0 5 0 △ 2 R 2 K− ○ U P 0 5 0 △ 2 R 7 K− ○ U P 0 5 0 △ 3 R 3 K− ○ U P 0 5 0 △ 3 R 9 K− ○ U P 0 5 0 △ 4 R 7 K− ○ U P 0 5 0 △ 5 R 6 K− ○ U P 0 5 0 △ 6 R 8 K− ○ U P 0 5 0 △ 8 R 2 K− ○ UP 0 5 0 △ 1 0 0 J − ○ UP 0 5 0 △ 1 1 0 J − ○ UP 0 5 0 △ 1 2 0 J − ○ UP 0 5 0 △ 1 3 0 J − ○ UP 0 5 0 △ 1 5 0 J − ○ UP 0 5 0 △ 1 6 0 J − ○ UP 0 5 0 △ 1 8 0 J − ○ UP 0 5 0 △ 2 0 0 J − ○ UP 0 5 0 △ 2 2 0 J − ○ UP 0 5 0 △ 2 4 0 J − ○ UP 0 5 0 △ 2 7 0 J − ○ UP 0 5 0 △ 3 0 0 J − ○ UP 0 5 0 S L 3 3 0 J − ○ UP 0 5 0 S L 3 6 0 J − ○ UP 0 5 0 S L 3 9 0 J − ○ UP 0 5 0 S L 4 3 0 J − ○ UP 0 5 0 S L 4 7 0 J − ○ UP 0 5 0 S L 5 1 0 J − ○ UP 0 5 0 S L 5 6 0 J − ○ UP 0 5 0 S L 6 2 0 J − ○ UP 0 5 0 S L 6 8 0 J − ○ EHS (Environmental Hazardous Substances) RoHS RoHS RoHS RoHS RoHS RoHS RoHS RoHS RoHS RoHS RoHS RoHS RoHS RoHS RoHS RoHS RoHS RoHS RoHS RoHS RoHS RoHS RoHS RoHS RoHS RoHS RoHS RoHS RoHS RoHS RoHS RoHS RoHS 公  称 容  量 静電容量 許 容 差 Capacitance Capacitance 〔pF〕 tolerance 温度特性 Temperature characteristics CH RH SL CH RH UJ SL CH、UJ、SL UJ SL SL 1.0 1.2 1.5 1.8 2.2 2.7 3.3 3.9 4.7 5.6 6.8 8.2 10 11 12 13 15 16 18 20 22 24 27 30 33 36 39 43 47 51 56 62 68 Insulation resistance ±20% ±10% Q≧400+20C (C:公称静電容量 capacitance[pF]) ただしRHは 16pF以上は Q≧500 but Q≧500 at 16pF or over of characteristic RH ±5% Q≧500 形名の△には温度特性、○にはリード形状分類記号が入ります。  △Please specify the temperature characteristics code and ○ lead configuration code. 122 絶縁抵抗 Q or tanδ 8 10000MΩmin アイテム一覧 PART NUMBERS [積層025タイプ Multilayer 025 Type] Class 1 定 格 形  名 電 圧 RatedVoltage (DC) UP025△010D−○ Z UP025△1R2D−○ Z UP025△1R5D−○ Z UP025△1R8D−○ Z UP025△2R2D−○ Z UP025△2R7D−○ Z UP025△3R3D−○ Z UP025△3R9D−○ Z UP025△4R7D−○ Z UP025△5R6K−○ Z UP025△6R8K−○ Z UP025△8R2K−○ Z UP025△100J−○ Z UP025△120J−○ Z UP025△150J−○ Z UP025△180J−○ Z UP025△220J−○ Z UP025△270J−○ Z UP025△330J−○ Z UP025△390J−○ Z UP025△470J−○ Z UP025△560J−○ Z UP025△680J−○ Z UP025△820J−○ Z UP025CH101J−○ Z UP025CH151J−○ Z UP025CH221J−○ Z UP025CH331J−○ Z UP025CH471J−○ Z UP025CH681J−○ Z UP025CH102J−○ Z Hazardous Substances) RoHS RoHS RoHS RoHS RoHS RoHS RoHS RoHS RoHS RoHS RoHS RoHS RoHS RoHS RoHS RoHS RoHS RoHS RoHS RoHS RoHS RoHS RoHS RoHS RoHS RoHS RoHS RoHS RoHS RoHS RoHS 公  称 容  量 静電容量 許 容 差 Capacitance Capacitance 〔pF〕 1.0 1.2 1.5 1.8 2.2 2.7 3.3 3.9 4.7 5.6 6.8 8.2 10 12 15 18 22 27 33 39 47 56 68 82 100 150 220 330 470 680 1000 tolerance 温度特性 Temperature characteristics CH SL CH 絶縁抵抗 Q or tanδ Insulation resistance 4 CAPACITORS 50V Ordering code EHS (Environmental ±0.5pF Q≧400+20C ±10% 10000MΩmin ±5% Q≧1000 形名の△には温度特性、○にはリード形状分類記号が入ります。 △Please specify the temperature characteristics code and ○ lead configuration code. 8 123 アイテム一覧 PART NUMBERS [積層015タイプ Multilayer 015type] Class 2 定 格 電 圧 RatedVoltage 形  名 Odering Code EHS (Environmental Hazardous Substances) (DC) 25V TP015 B103K−○ Z RoHS 16V EP015 B104K−○ Z RoHS 50V UP015 F103Z−○ Z RoHS 16V EP015 F104Z−○ Z RoHS 温度特性 Temperature characteristics 公  称 静電容量 Capacitance [pF] 10000 B 100000 10000 F 100000 容  量 許容差 Capacitance 絶縁抵抗 Q or tanδ resistance tolerance ±10% +80 % ー20 Insulation tanδ≦3.5% 5000MΩmin tanδ≦5.0% 1000MΩmin tanδ≦7.5% tanδ≦10.0% 1000MΩmin 形名の△には温度特性、○にはリード形状分類記号が入ります。 △Please specify the temperature characteristics code and ○ lead configuration code. [積層025タイプ Multilayer 025 Type] Class 2 定 格 電 圧 RatedVoltage (DC) 50V 50V 16V 25V 形  名 Ordering code UP025 B101K −○ Z UP025 B121K −○ Z UP025 B151K −○ Z UP025 B181K −○ Z UP025 B221K −○ Z UP025 B271K −○ Z UP025 B331K −○ Z UP025 B391K −○ Z UP025 B471K −○ Z UP025 B561K −○ Z UP025 B681K −○ Z UP025 B821K −○ Z UP025 B102K −○ Z UP025 B122K −○ Z UP025 B152K −○ Z UP025 B222K −○ Z UP025 B332K −○ Z UP025 B472K −○ Z UP025 B682K −○ Z UP025 B103K −○ Z UP025 B153K −○ Z UP025 B223K −○ Z UP025 B333K −○ Z UP025 B473K −○ Z UP025 B683K −○ Z UP025 B104K −○ Z UP025 F103Z −○ Z UP025 F223Z −○ Z UP025 F473Z −○ Z UP025 F104Z −○ Z EP025 B122M −○ J EP025 B152M −○ J EP025 B182M −○ J EP025 B222M −○ J EP025 B272M −○ J EP025 B332M −○ J EP025 B392M −○ J EP025 B472M −○ J EP025 B562M −○ J EP025 B682M −○ J EP025 B822M −○ J EP025 B103M −○ J EP025 B123M −○ J EP025 B153M −○ J EP025 B183M −○ J EP025 B223M −○ J TP025 F103Z −○ J TP025 F223Z −○ J TP025 F473Z −○ J EHS (Environmental Hazardous Substances) RoHS RoHS RoHS RoHS RoHS RoHS RoHS RoHS RoHS RoHS RoHS RoHS RoHS RoHS RoHS RoHS RoHS RoHS RoHS RoHS RoHS RoHS RoHS RoHS RoHS RoHS RoHS RoHS RoHS RoHS RoHS RoHS RoHS RoHS RoHS RoHS RoHS RoHS RoHS RoHS RoHS RoHS RoHS RoHS RoHS RoHS RoHS RoHS RoHS 公  称 容  量 静電容量 許 容 差 Capacitance Capacitance 〔pF〕 tolerance 温度特性 Temperature characteristics B F B F 100 120 150 180 220 270 330 390 470 560 680 820 1000 1200 1500 2200 3300 4700 6800 10000 15000 22000 33000 47000 68000 100000 10000 22000 47000 100000 1200 1500 1800 2200 2700 3300 3900 4700 5600 6800 8200 10000 12000 15000 18000 22000 10000 22000 47000 形名の△には温度特性、○にはリード形状分類記号が入ります。 △Please specify the temperature characteristics code and ○ lead configuration code. 124 8 絶縁抵抗 Q or tanδ Insulation resistance tanδ≦3.5% 5000MΩmin tanδ≦5.0% 1000MΩmin +80% ー20 tanδ≦7.5% 1000MΩmin ±20% tanδ≦3.5% 5000MΩmin +80% ー20 tanδ≦7.5% 1000MΩmin ±10% アイテム一覧 PART NUMBERS [積層タイプ Multilayer type] Class 1 定 格 形  名 電 圧 RatedVoltage (DC) Hazardous Substances) 公  称 容  量 静電容量 許 容 差 Capacitance Capacitance 〔pF〕 tolerance 温度特性 Temperature characteristics UP 0 5 0 CH2 2 0 J − ○ Z RoHS 22 ★ UP 0 5 0 CH2 4 0 J − ○ Z RoHS 24 UP 0 5 0 CH2 7 0 J − ○ Z RoHS 27 ★ UP 0 5 0 CH3 0 0 J − ○ Z RoHS 30 UP 0 5 0 CH3 3 0 J − ○ Z RoHS 33 ★ UP 0 5 0 CH3 6 0 J − ○ Z RoHS 36 UP 0 5 0 CH3 9 0 J − ○ Z RoHS 39 ★ UP 0 5 0 CH4 3 0 J − ○ Z RoHS 43 UP 0 5 0 CH4 7 0 J − ○ Z RoHS 47 ★ UP 0 5 0 CH5 1 0 J − ○ Z RoHS 51 UP 0 5 0 CH5 6 0 J − ○ Z RoHS 56 ★ UP 0 5 0 CH6 2 0 J − ○ Z RoHS 62 UP 0 5 0 CH6 8 0 J − ○ Z RoHS 68 ★ UP 0 5 0 CH7 5 0 J − ○ Z RoHS 75 ★ UP 0 5 0 CH8 2 0 J − ○ Z RoHS 82 ★ UP 0 5 0 CH9 1 0 J − ○ Z RoHS 91 UP 0 5 0 CH1 0 1 J − ○ Z RoHS 100 ★ UP 0 5 0 CH1 1 1 J − ○ Z RoHS 110 ★ UP 0 5 0 CH1 2 1 J − ○ Z RoHS 120 ★ UP 0 5 0 CH1 3 1 J − ○ Z RoHS 130 UP 0 5 0 CH1 5 1 J − ○ Z RoHS ★ UP 0 5 0 CH1 6 1 J − ○ Z RoHS CH 150 絶縁抵抗 Q or tanδ Insulation resistance 4 Q≧400+20C ±15% Q≧1000 CAPACITORS 50V Ordering code EHS (Environmental 10000MΩmin 160 ★ UP 0 5 0 CH1 8 1 J − ○ Z RoHS 180 ★ UP 0 5 0 CH2 0 1 J − ○ Z RoHS 200 UP 0 5 0 CH2 2 1 J − ○ Z RoHS 220 ★ UP 0 5 0 CH2 4 1 J − ○ Z RoHS 240 ★ UP 0 5 0 CH2 7 1 J − ○ Z RoHS 270 ★ UP 0 5 0 CH3 0 1 J − ○ Z RoHS 300 UP 0 5 0 CH3 3 1 J − ○ Z RoHS 330 ★ UP 0 5 0 CH3 6 1 J − ○ Z RoHS 360 ★ UP 0 5 0 CH3 9 1 J − ○ Z RoHS 390 ★ UP 0 5 0 CH4 3 1 J − ○ Z RoHS 430 UP 0 5 0 CH4 7 1 J − ○ Z RoHS 470 ★ UP 0 5 0 CH5 1 1 J − ○ Z RoHS 510 ★ UP 0 5 0 CH5 6 1 J − ○ Z RoHS 560 ★ UP 0 5 0 CH6 2 1 J − ○ Z RoHS 620 UP 0 5 0 CH6 8 1 J − ○ Z RoHS 680 ★ UP 0 5 0 CH7 5 1 J − ○ Z RoHS 750 ★ UP 0 5 0 CH8 2 1 J − ○ Z RoHS 820 ★ UP 0 5 0 CH9 1 1 J − ○ Z RoHS 910 UP 0 5 0 CH1 0 2 J − ○ Z RoHS 1000 形名の△には温度特性、○にはリード形状分類記号が入ります。 ★:オプション対応 △Please specify the temperature characteristics code and ○ lead configuration code. ★ : Option 8 125 アイテム一覧 PART NUMBERS [単層タイプ Monolithic type] Class 2 ※単層タイプの製品につきましては、生産終息予定ですので詳細につきましては最寄の弊社営業窓口までお問い合わせ下さい。 ※Since the production of monolithic layer products is scheduled to be discontinued, please contact your nearest sales office if you require any detailed information. 定 格 電 圧 RatedVoltage (DC) 50V 25V 形  名 Ordering code EHS (Environmental Hazardous Substances) 温度特性 Temperature characteristics 公  称 容  量 静電容量 許 容 差 Capacitance Capacitance 〔pF〕 tolerance U P 0 5 0 B 7 5 0 K− ○ RoHS 75 U P 0 5 0 B 8 2 0 K− ○ RoHS 82 U P 0 5 0 B 9 1 0 K− ○ RoHS 91 U P 0 5 0 B 1 0 1 K− ○ RoHS 100 U P 0 5 0 B 1 2 1 K− ○ RoHS 120 U P 0 5 0 B 1 5 1 K− ○ RoHS 150 U P 0 5 0 B 1 8 1 K− ○ RoHS 180 U P 0 5 0 B 2 2 1 K− ○ RoHS 220 U P 0 5 0 B 2 7 1 K− ○ RoHS B RoHS 330 U P 0 5 0 B 3 9 1 K− ○ RoHS 390 U P 0 5 0 B 4 7 1 K− ○ RoHS 470 U P 0 5 0 B 5 6 1 K− ○ RoHS 560 U P 0 5 0 B 6 8 1 K− ○ RoHS 680 U P 0 5 0 B 8 2 1 K− ○ RoHS 820 U P 0 5 0 B 1 0 2 K− ○ RoHS 1000 T P 0 5 0 F 1 0 3 Z− ○ RoHS 10000 T P 0 5 0 F 2 2 3 Z− ○ RoHS F resistance 10000MΩmin ±10% tanδ≦2.5% 1000MΩmin ± 80 20 % 22000 形名の□には容量許容差、○にはリード形状分類記号が入ります。 □Please specify the capacitance tolerance code and ○ lead configuration code. 126 Insulation tanδ≦1.5% 270 U P 0 5 0 B 3 3 1 K− ○ 絶縁抵抗 Q or tanδ 8 tanδ≦7.5% アイテム一覧 PART NUMBERS [積層タイプ Multilayer type] Class 2 定 格 形  名 電 圧 RatedVoltage (DC) Ordering code ★ UP 0 5 0 B 1 2 2 K−○ Z UP 0 5 0 B 1 5 2 K−○ Z 16V 50V 16V 10V 50V 35V 25V 35V Hazardous Substances) RoHS 温度特性 Temperature characteristics 公  称 容  量 静電容量 許 容 差 Capacitance Capacitance 〔pF〕 1200 tolerance RoHS 絶縁抵抗 Q or tanδ Insulation resistance 4 1500 ★ UP 0 5 0 B 1 8 2 K−○ Z RoHS 1800 UP 0 5 0 B 2 2 2 K−○ Z RoHS 2200 ★ UP 0 5 0 B 2 7 2 K−○ Z RoHS 2700 UP 0 5 0 B 3 3 2 K−○ Z RoHS 3300 ★ UP 0 5 0 B 3 9 2 K−○ Z RoHS 3900 UP 0 5 0 B 4 7 2 K−○ Z RoHS 4700 ★ UP 0 5 0 B 5 6 2 K−○ Z RoHS 5600 UP 0 5 0 B 6 8 2 K−○ Z ★ UP 0 5 0 B 8 2 2 K−○ Z RoHS 6800 RoHS 8200 UP 0 5 0 B 1 0 3 K−○ Z ★ UP 0 5 0 B 1 2 3 K−○ Z RoHS 10000 RoHS 12000 UP 0 5 0 B 1 5 3 K−○ Z RoHS 15000 CAPACITORS 50V EHS (Environmental tanδ≦3.5% 5000MΩmin ★ UP 0 5 0 B 1 8 3 K−○ Z RoHS UP 0 5 0 B 2 2 3 K−○ Z ★ UP 0 5 0 B 2 7 3 K−○ Z RoHS RoHS 27000 UP 0 5 0 B 3 3 3 K−○ Z RoHS 33000 ★ UP 0 5 0 B 3 9 3 K−○ Z RoHS 39000 UP 0 5 0 B 4 7 3 K−○ Z RoHS 47000 ★ UP 0 5 0 B 5 6 3 K−○ Z RoHS 56000 UP 0 5 0 B 6 8 3 K−○ Z ★ UP 0 5 0 B 8 2 3 K−○ Z RoHS 68000 RoHS 82000 UP 0 5 0 B 1 0 4 K−○ Z RoHS 100000 UP 0 5 0 B 2 2 4 K−○ Z RoHS 220000 500MΩmin UP 0 5 0 B 4 7 4 K−○ Z RoHS 470000 200MΩmin 100MΩmin B 18000 E P 0 5 0 B 1 0 5 K−○ Z RoHS 1000000 E P 0 5 0 B 2 2 5 K−○ Z RoHS 2200000 E P 0 5 0 B 4 7 5 K−○ Z RoHS 4700000 E P 0 5 0 B 1 0 6 K−○ Z RoHS 10000000 UP 0 5 0 F 1 0 3 Z−○ Z RoHS 10000 UP 0 5 0 F 2 2 3 Z−○ Z RoHS 22000 UP 0 5 0 F 4 7 3 Z−○ Z RoHS 47000 UP 0 5 0 F 1 0 4 Z−○ Z RoHS UP 0 5 0 F 2 2 4 Z−○ Z RoHS UP 0 5 0 F 4 7 4 Z−○ Z RoHS 220000 470000 RoHS 1000000 E P 0 5 0 F 2 2 5 Z−○ Z RoHS 2200000 L P 0 5 0 F 4 7 5 Z−○ Z RoHS 4700000 L P 0 5 0 F 1 0 6 Z−○ Z RoHS 10000000 UP 0 7 5 B 1 0 5 K−○ RoHS 1000000 GP 0 7 5 B 2 2 5 K−○ RoHS 2200000 GP 0 7 5 B 4 7 5K− ○ RoHS T P 0 7 5 B 1 0 6 K−○ RoHS RoHS 1000MΩmin tanδ≦5.0% tanδ≦7.5% tanδ≦12.5% 50MΩmin 20MΩmin tanδ≦7.5% 1000MΩmin tanδ≦10.0% 500MΩmin 100000 F UP 0 5 0 F 1 0 5 Z−○ Z GP 0 7 5 F 1 0 6 Z−○ ±10% 22000 B 4700000 +80 −20 %    tanδ≦15% tanδ≦17.5% tanδ≦5.0% ±10% 10000000 F 10000000 tanδ≦7.5% tanδ≦12.5% +80 % −20 tanδ≦17.5% 250MΩmin 125MΩmin 50MΩmin 25MΩmin 100MΩmin 50MΩmin 20MΩmin 25MΩmin 形名の△には温度特性、○にはリード形状分類記号が入ります。 ★:オプション対応 △Please specify the temperature characteristics code and ○ lead configuration code. ★ : Option 8 127 特性図 ELECTRICAL CHARACTERISTICS  ・静電容量−温度特性 Capacitance -vs- Temperature Characteristics Class2 Temp.char. F UP050 F104Z TP050 F223Z -20 10 Class2 Temp.char. B UP050B102K UP050B101K 5 0 -5 UP050B104K UP050B103K -10 128 -20 0 20 40 60 80 8 0 20 40 60 80 梱包 PACKAGING ①最小受注単位数 Minimum Quantity ③テーピング寸法 Taping Dimensions 最小受注単位数 (PCS) Minimum Quantity リード形状記号 Lead configuration code 形式 Type 袋づめ Bulk ̶̶ 積層形 B−(52mm幅)2.047 inches wide Multilayer type (075, 050, 025,015) NA ̶̶ テーピング Taping ̶̶ 1000 3000, KE(075type) 4000 KF(015,025,050type) (015,025 type) 単層形 Monolithic type (050) 4 2000 (075type) 3000 (050type) 5000 (015,025type) 2000 (075type) 3000 (050type) 5000 (015,025type) CAPACITORS A−(26mm幅)1.024 inch wide A−(a:26mm幅) 形状(a:1.024 inch wide) configuration ̶̶ A−(26mm幅)1.024 inch wide ̶̶ 4000 B−(52mm幅)2.047 inches wide ̶̶ 4000 NA 1000 ̶̶ KF 3000 ̶̶ 形 式 Type ②製品単品形状 Dimensions of Bulk Products 寸  法 Dimensions φD L a b |L1−L2| 積層形 015 2.5max 3.0max Multilayer type (0.098max)(0.118max) ・NA形状 NA configuration 寸  法 Dimensions(mm) 形 式 Type φD 積層形 015 Multilayer type 2.5max (0.098) 3.0max 0.45±0.05 20.0min (0.118) (0.018±0.002) (0.787) 積層形 025 Multilayer type 2.0max (0.079) 2.3max (0.09) 積層形 050 Multilayer type 2.2max (0.087) 3.2max 0.45±0.05 20.0min (0.126) (0.018±0.002) (0.787) 積層形 075 Multilayer type 3.2max (0.126) 4.2max 0.55±0.05 20.0min (0.165) (0.022±0.002) (0.787) 単層形050 Monolithic type 1.9max (0.075) 3.5max 0.45±0.05 20.0min (0.138) (0.018±0.002) (0.787) φd L ℓ 0.45±0.05 20.0min (0.018±0.002) (0.787) φd 最小挿入 ピッチ Minimum insertion pitch 0.45±0.05 (0.018±0.002) 積層形 025 2.0max 2.3max Multilayer type (0.079max)(0.09max) 26+0.5 −0 0.8以下 0.5max 積層形 050 2.2max 3.2max +0.020 Multilayer type (0.087max)(0.126max)(1.024    −0 ) (0.031 or less) (0.020max.) 0.45±0.05 5.0 (0.018±0.002)(0.197) 積層形 075 3.2max 4.2max Multilayer type (0.126max)(0.165max) 0.55±0.05 7.5 (0.022±0.002)(0.295) 単層形050 1.9max 3.5max Monolithic type (0.075max)(0.138max) 0.45±0.05 5.0 (0.018±0.002)(0.197) 0.45±0.05 (0.018±0.002) Unit:mm (inch) B−(a:52mm幅) 形状(a:2.047 inches wide) configuration Unit:mm(inch) ・KF/KE形状 KF/KE configuration 形 式 Type 積層形 015 Multilayer type リード形状記号 Lead configuration code KF 積層形 025 Multilayer type KF 積層形 050 Multilayer type KF 積層形 075 Multilayer type KE 単層形050 Monolithic type KF 寸  法 Dimensions (mm) φD L 2.5max 3.0max W φd ℓ 5.0±0.5 0.45±0.05 6.5±0.5 (0.098max)(0.118max)(0.197±0.020)(0.018±0.002)(0.256±0.020) 2.0max 2.3max 5.0±0.5 0.45±0.05 6.5±0.5 (0.079max)(0.09max)(0.197±0.020)(0.018±0.002)(0.256±0.020) 2.2max 3.2max 5.0±0.5 0.45±0.05 6.5±0.5 (0.087max)(0.126max)(0.197±0.020)(0.018±0.002)(0.256±0.020) 3.2max 4.2max 7.5±0.5 0.55±0.05 6.5±0.5 (0.126max)(0.165max)(0.295±0.020)(0.022±0.002)(0.256±0.020) 1.9max 3.5max 5.0±0.5 0.45±0.05 6.5±0.5 (0.075max)(0.138max)(0.197±0.020)(0.018±0.002)(0.256±0.020) 形 式 Type 寸  法 Dimensions φD L 積層形 015 2.5max 3.0max Multilayer type (0.098max)(0.118max) a b |L1−L2| φd 最小挿入 ピッチ Minimum insertion pitch 0.45±0.05 (0.018±0.002) 0.45±0.05 5.0 積層形 025 2.0max 2.3max Multilayer type (0.079max)(0.09max) 52+2 (0.018±0.002)(0.197) −1 1.2以下 1.0max 0.45±0.05 積層形 050 2.2max 3.2max +0.079 Multilayer type (0.087max)(0.126max)(2.047     −0.039 ) (0.047 or less) (0.039max.) (0.018±0.002) 0.55±0.05 7.5 積層形 075 3.2max 4.2max Multilayer type (0.126max)(0.165max) (0.022±0.002)(0.295) 単層形050 1.9max 3.5max Monolithic type (0.075max)(0.138max) Unit:mm (inch) 0.45±0.05 5.0 (0.018±0.002)(0.197) Unit:mm (inch) ※075Typeはラジアルテーピングもオプション対応可能。 8 129 1/6 RELIABILITY DATA AXIAL LEADED CERAMIC CAPACITORS Specified Value Temterature Compensating(Class1) Item 1. Operating Temperature Range 2. Storage Temperature Range 3. Rated Voltage 4. Withstanding Voltage Multilayer type −25∼+85℃ High Permittivity (Class2) Test Methods and Remarks Multilayer type (Characteristics:B) Multilayer type (Characteristics:F) −25∼+85℃ 50VDC Between No abnorminality terminals 16VDC、25VDC、35VDC、50VDC 10VDC、16VDC、25VDC、35VDC、50VDC Between No abnorminality terminals and body 5. Insulation Resistance 10000MΩmin. Metal globule method Applied voltage: Rated Voltage×2.5 Duration: 1 to 5 sec. Charge/Discharge current : 50mA max. Rated Ivoltage:16VDC B: 100000pF :1000MΩmin 1000000pF :100MΩ min 2200000pF :50MΩ min 4700000pF∼10000000pF :20MΩ min 1200pF∼22000pF(Item:△J):5000MΩmin Rated Ivoltage:10VDC F: 4700000pF :50MΩ min 10000000pF   :25MΩ min 4 CAPACITORS Applied voltage: Rated Voltage×3 (Class 1) Rated Voltage×2.5 (Class 2) Duration: 1 to 5 sec. Charge/discharge current: 50mA max.(Class 1,2) Applied voltage: Rated voltage Duration : 60±5 sec. Rated Ivoltage:16VDC F: 100000pF :1000MΩmin 2200000pF :125MΩ min Rated Ivoltage:25VDC B: 10000pF :5000MΩmin Rated voltage:25VDC 10000000pF :20MΩ min F: 10000pF∼47000pF(Item△J):1000MΩmin Rated Ivoltage:35VDC Rated voltage:35VDC B: 2200000pF :50MΩ min F: :25MΩ min 4700000pF :20MΩ min 10000000pF   Rated Ivoltage:50VDC B: 100pF∼39000pF 47000pF∼100000pF 220000pF 470000pF 1000000pF 6. Capacitance : ±0.5pF ± 5% ± 10% Rated voltage:50VDC F: :5000MΩ min 10000pF∼100000pF :1000MΩ min 220000pF∼470000pF :500MΩ min :1000MΩ min :250MΩ min :500MΩ min 1000000pF :200MΩ min :100MΩ min Rated Ivoltage:16VDC B: ±10%,±20%(Item△J) Rated Ivoltage:25VDC B: ±10% Rated Ivoltage:35VDC B: ±10% Rated Ivoltage:50VDC B: ±10% 7. Q or Tangent of Loss Angle 30pF or under : Q≧400+20C 33pF or over : Q≧1000 C:Nominal Capacitance :[pF] Rated Ivoltage:16VDC B: 1200pF∼22000pF(Item△J):3.5%max 100000pF :5.0%max 1000000pF :5.0% max 2200000pF∼4700000pF :7.5% max 10000000pF :12.5% max Rated Ivoltage:25VDC B: 10000pF 10000000pF :3.5%max :12.5% max Rated Ivoltage:35VDC B: 2200000pF∼4700000pF :7.5% max Rated Ivoltage:10VDC F: +80 %   ー20 Rated Ivoltage:16VDC F: +80 %   ー20 Rated Ivoltage:25VDC F: +80 %   ー20 Rated Ivoltage:35VDC F: +80 %   ー20 Rated Ivoltage:50VDC F: +80 %   ー20 Rated Ivoltage:10VDC F: 4700000pF∼10000000pF :17.5% max Rated Ivoltage:16VDC F: 100000pF 2200000pF Rated Ivoltage:35VDC F: 10000000pF Rated Ivoltage:50VDC F: 10000pF∼100000pF :3.5% max :5.0% max 220000pF∼470000pF 1000000pF Rated Ivoltage:16VDC Rated Ivoltage:10VDC F: +30 B: ±10% %   ー85 Rated Ivoltage:25VDC B: ±10% Rated Ivoltage:35VDC B: ±10% Rated Ivoltage:50VDC B: ±10% :10.0% max :15.0% max Rated Ivoltage:25VDC F: 10000pF∼47000pF(Item△J) :7.5% max Rated Ivoltage:50VDC B: 100pF∼39000pF 47000pF ∼1000000pF CH : 0±60 8. Capacitance : (When SL : ー350∼+1000 Change due to voltage Temperature or is not       [ppm/℃] Rate of Capaci- applied) tance Change Measuring frequency  1MHz±10% (Class 1: C≦1000pF) 1kHz±10% (Class 1: C>1000pF) 1kHz±10% (Class 2) Measuring voltage 1.0±0.5Vrms(Class 1: C≦1000pF) 1.0±0.2Vrms(Class 1: C>1000pF) 1.0±0.2Vrms(Class 2) Measuring temperature: 20℃ Bias application: None Rated Ivoltage:16VDC F: +30 %   ー85 Rated Ivoltage:25VDC F: +30 %   ー85 Rated Ivoltage:35VDC F: +30 %   ー85 Rated Ivoltage:50VDC F: +30 %   ー85 :17.5% max :7.5% max :10.0% max :15.0% max Measurement of capacitance at 20℃ and 85℃, −25℃ shall be made to calculate temperature characteristic by the following equation.(Class 1) (C85−C20)    (ppm/℃) ̶̶̶̶̶ ×10 6 C20×△T Change of maximum capacitance deviation in step 1 to 5(Class 2) Temperature at step 1: 20℃ Temperature at step 4: 85℃ Temperature at step 2: ー25℃ Temperature at step 5: 20℃ Temperature at step 3: 20℃(Reference temperature) Withstanding voltage is also referred to as "voltage proof" under IEC specifications. 8 131 2/6 RELIABILITY DATA AXIAL LEADED CERAMIC CAPACITORS Specified Value Item 9. Terminal Tensile Strength High Permittivity (Class2) Test Methods and Remarks Multilayer type Multilayer type (Characteristics:B) Multilayer type (Characteristics:F) No abnomalities, such as cuts or looseness of terminals. Apply the stated tensile force progressively in the direction to draw terminal. No abnomalities, such as cuts or looseness of terminals. Nominal wire diameter Tensile force Duratio [mm] [N] [s] 0.45 19.6 5 Suspend a mass at the end the terminal, incline the body through angle of 90˚ and return it to initial position. This operation is done over a period of 5 sec. Then second bend in the opposite direction shall be made. 4 CAPACITORS Torsional Temterature Compensating(Class1) Number of bends : 2 times Nominal wire diameter Bending force 10.Resistance to Vaibration Appearance : No significant abnomality Withstanding Voltage : No abnomality Capacitance : Within ±5% 4.7pF or under :Within ±0.5pF 5.6pF∼8.2pF :Within ±10% 10pF or over :Within ±5% Q: 30pF or under : Q≧400+20C 33pF or over : Q≧1000 Insulation resistance :  10000MΩ min. C:Nominal Capacitance :[pF] Mass weight [mm] [N] [kg] 0.45 2.45 0.25 Appearance : No significant abnomality Appearance : No significant abnomality Withstanding Voltage : No abnomality Withstanding Voltage : No abnomality According to JIS C 5102 clause 8.2 Rated Voltage:16VDC B Capacitance 1200pF∼22000pF(Item△J) 100000pF∼10000000pF tanδ:  1200pF∼22000pF(Item△J) 100000pF 1000000pF 2200000pF∼4700000pF 10000000pF Insulation Resistance: 1200pF∼22000pF(Item△J) 100000pF 1000000pF 2200000pF 4700000pF∼10000000pF Directions: 2 hrs each in X, Y and Z directions Rated Voltage:25VDC B Capacitance tanδ:  10000pF 10000000pF Insulation Resistance: 10000pF 10000000pF Rated Voltage:35VDC B Capacitance tanδ: 2200000pF∼4700000pF Insulation Resistance: 2200000pF 4700000pF Rated Voltage:50VDC B Capacitance tanδ:  100pF∼39000pF 47000pF∼1000000pF Insulation Resistance: 100pF∼39000pF 47000pF∼100000pF 220000pF 470000pF 1000000pF Rated Voltage:10VDC F : Within ±10% Capacitance:Within+80 −20 % :Within ±20% :Within ±10% tanδ:  4700000pF∼10000000pF : 17.5% max :3.5%max Insulation Resistance: :50MΩ min :5.0%max 4700000pF :25MΩ min :5.0% max 10000000pF :7.5% max :12.5% max Rated Voltage:16VDC F :5000MΩmin Capacitance:Within+80 −20 % :1000MΩmin :100MΩmin tanδ:  :10.0%max :50MΩmin 100000pF :15.0% max :20MΩmin 2200000pF Insulation Resistance: 100000pF :1000MΩmin 2200000pF :125MΩmin : Within ±10% Rated Voltage:25VDC :3.5%max F :12.5%max Capacitance:Within+80 % −20 Vibration type: A Total: 6 hrs Frequency range: 10 to 55 to 10Hz(1min) Amplitude: 1.5 mm Mounting method: Soldering onto the PC board :5000MΩmin tanδ: 10000pF∼47000pF(Item△J) :7.5%max :20MΩmin Insulation Resistance: 10000pF∼47000pF(Item△J) :1000MΩmin : Within ±10% Rated Voltage:35VDC F :7.5%max Capacitance:Within+80 % −20 :50MΩmin tanδ:  :20MΩmin 10000000pF Insulation Resistance: 10000000pF :17.5%max :25MΩmin : Within ±10% Rated Voltage:50VDC F :3.5% max Capacitance:Within+80 % −20 :5.0% max tanδ:  :7.5%max :5000MΩ min 10000pF∼100000pF :10.0%max :1000MΩ min 220000pF∼470000pF 1000000pF :15.0%max :500MΩ min :200MΩ min Insulation Resistance: :1000MΩmin :100MΩ min 10000pF∼100000pF 220000pF∼470000pF :500MΩmin :250MΩmin 1000000pF Withstanding voltage is also referred to as "voltage proof" under IEC specifications. 8 133 3/6 RELIABILITY DATA AXIAL LEADED CERAMIC CAPACITORS Specified Value Item 11. Free Fall Temterature Compensating(Class1) Multilayer type Appearance : No significant abnomality Withstanding Voltage : No abnomality Capacitance : 4.7pF or under :Within ±0.5pF :Within ±10% 5.6pF∼8.2pF :Within ±5% 10pF or over C:Nominal Capacitance :[pF] Rated Voltage:16VDC B Capacitance : 1200pF∼22000pF(Item△J):Within±20% 100000pF∼10000000pF :Within±10% tanδ:  1200pF∼22000pF(Item△J) :3.5% max 100000pF :5.0%max :5.0% max 1000000pF :7.5% max 2200000pF∼4700000pF :12.5% max 10000000pF Insulation Resistance: 1200pF∼22000pF(Item△J):5000MΩ min :1000MΩ min 100000pF 1000000pF :100MΩ min :50MΩ min 2200000pF 4700000pF∼10000000pF :20MΩ min Rated Voltage:25VDC B Capacitance tanδ:  10000pF 10000000pF Insulation Resistance: 10000pF 10000000pF Rated Voltage:35VDC B Capacitance tanδ: 2200000pF∼4700000pF Insulation Resistance: 2200000pF 4700000pF Rated Voltage:50VDC B Capacitance tanδ:  100pF∼39000pF 47000pF∼1000000pF Insulation Resistance: 100pF∼39000pF 47000pF∼100000pF 220000pF 470000pF 1000000pF 12. Body Strength Test Methods and Remarks Rated Voltage:10VDC F Capacitance:Within+80 % −20 tanδ: 4700000pF∼10000000pF : Insulation Resistance: 4700000pF 10000000pF Height: 1 m Total number of drops: 5 times 17.5% max :50MΩ min :25MΩ min Rated Voltage:16VDC F Capacitance:Within+80 % −20 tanδ: 100000pF 2200000pF Insulation Resistance: 100000pF : Within ±10% 2200000pF 4 CAPACITORS Q: 30pF or under : Q≧400+20C 33pF or over : Q≧1000 Insulation resistance : 10000MΩ min. High Permittivity (Class2) Multilayer type (Characteristics:B) Multilayer type (Characteristics:F) Appearance : No significant abnomality Appearance : No significant abnomality Drop Test: Free fall Withstanding Voltage : No abnomality Withstanding Voltage : No abnomality Impact material: Floor :10.0% max :15.0% max :1000MΩ min :125MΩ min :3.5%max Rated Voltage:25VDC :12.5%max F Capacitance:Within+80 % −20 :5000MΩ min :20MΩ min tanδ: 10000pF∼47000pF(Item△J) :7.5%max Insulation Resistance: 10000pF∼47000pF(Item△J) :1000MΩ min : Within ±10% Rated Voltage:35VDC F Capacitance:Within+80 % −20 :50MΩ min tanδ: :20MΩ min 10000000pF Insulation Resistance: 10000000pF :7.5%max : Within ±10% :3.5%max :5.0%max :5000MΩ min :1000MΩ min :500MΩ min :200MΩ min :100MΩ min :17.5% max :25MΩ min Rated Voltage:50VDC F Capacitance:Within+80 % −20 tanδ: 10000pF∼100000pF 220000pF∼470000pF 1000000pF Insulation Resistance: 10000pF∼100000pF 220000pF∼470000pF 1000000pF No abnomality such as damage. :7.5% max :10.0% max :15.0% max :1000MΩ min :500MΩ min :250MΩ min Applied force: 19.6N Duration: 5 sec. Speed: Shall attain to specified force in 2 sec. 1.5mm(025type) 13. Solderability At least 75% of lead surface is covered with new solder. Solder temperature: 230±5℃ Duration: 2±0.5 sec. (This test may be applicable after 6 months storage.) Withstanding voltage is also referred to as "voltage proof" under IEC specifications. 8 135 4/6 RELIABILITY DATA AXIAL LEADED CERAMIC CAPACITORS Specified Value Item 14. Soldering Temterature Compensating(Class1) High Permittivity (Class2) Test Methods and Remarks Multilayer type Multilayer type (Characteristics:B) Multilayer type (Characteristics:F) Appearance : No significant abnomality Appearance : No significant abnomality Appearance : No significant abnomality Solder temperature: 270±5℃ Withstanding Voltage : No abnomality Withstanding Voltage : No abnomality Withstanding Voltage : No abnomality Duration: 5±0.5 sec. C:Nominal Capacitance :[pF] Rated Voltage:16VDC B Capacitance change : 1200pF∼22000pF(Item△J) : Within ±7.5% : Within ±10.0% 100000pF 1000000pF∼10000000pF : Within ±10.0% tanδ: 1200pF∼22000pF(Item△J) :3.5% max :5.0%max 100000pF 1000000pF :5.0% max 2200000pF∼4700000pF :7.5% max 10000000pF :12.5% max Insulation Resistance: 1200pF∼22000pF(Item△J) :5000MΩ min 100000pF :1000MΩ min 1000000pF :100MΩ min 2200000pF :50MΩ min 4700000pF∼10000000pF :20MΩ min Rated Voltage:25VDC B Capacitance change : 10000pF 10000000pF tanδ: 10000pF 10000000pF Insulation Resistance: 10000pF 10000000pF Rated Voltage:35VDC B Capacitance change tanδ: 2200000pF∼4700000pF Insulation Resistance: 2200000pF 4700000pF Rated Voltage:50VDC B Capacitance change : 100pF∼39000pF 47000pF∼1000000pF tanδ: 100pF∼39000pF 47000pF∼1000000pF Insulation Resistance: 100pF∼39000pF 47000pF∼100000pF 220000pF 470000pF 1000000pF Rated Voltage:10VDC F Capacitance change tanδ: 4700000pF∼10000000pF Insulation Resistance: 4700000pF 10000000pF Rated Voltage:16VDC F Capacitance change tanδ: 100000pF 2200000pF Insulation Resistance: 100000pF 2200000pF : Within ±20.0% :17.5% max C:Nominal Capacitance[pF] Rated Voltage:16VDC B Capacitance change : 1200pF∼22000pF(Item△J) 100000pF 1000000pF∼10000000pF tanδ:  1200pF∼22000pF(Item△J) 100000pF 1000000pF 2200000pF∼4700000pF 10000000pF Insulation Resistance: 1200pF∼22000pF(Item△J) 100000pF 1000000pF 2200000pF 4700000pF∼10000000pF Rated Voltage:25VDC B Capacitance change : 10000pF 10000000pF tanδ:  10000pF 10000000pF Insulation Resistance: 10000pF 10000000pF Rated Voltage:35VDC B Capacitance change tanδ:  2200000pF∼4700000pF Insulation Resistance: 2200000pF 4700000pF Rated Voltage:50VDC B Capacitance change : 100pF∼39000pF 47000pF∼1000000pF tanδ:  100pF∼39000pF 47000pF∼1000000pF Insulation Resistance: 100pF∼39000pF 47000pF∼100000pF 220000pF 470000pF 1000000pF followed by 48±4 hrs of recovery under the standard condition. Recovery: Recovery for the following period under the : Within ±20.0% standard condition after the test. 24±2 hrs(Class 1) :10.0% max :15.0% max 48±4 hrs(Class 2) :1000MΩ min :125MΩ min Rated Voltage:25VDC F Capacitance change : Within ±20.0% : Within ±7.5% tanδ: : Within ±10.0% 10000pF∼47000pF(Item△J) :7.5% max Insulation Resistance: :3.5%max 10000pF∼47000pF(Item△J) :1000MΩmin :12.5%max Rated Voltage:35VDC :5000MΩ min F :20MΩ min Capacitance change : Within ±20.0% tanδ: 10000000pF :17.5% max Insulation Resistance: : Within ±10.0% 10000000pF :25MΩ min :7.5% max Rated Voltage:50VDC F :50MΩ min Capacitance change : :20MΩ min 10000pF∼1000000pF tanδ: 10000pF∼100000pF 220000pF∼470000pF 1000000pF :Within ±7.5% Insulation Resistance: :Within ±10.0% 10000pF∼100000pF 220000pF∼470000pF :3.5% max 1000000pF :5.0% max 4 :Within ±20.0% :7.5% max :10.0% max :15.0% max :1000MΩ min :500MΩ min :250MΩ min :5000MΩ min :1000MΩ min :500MΩ min :200MΩ min :100MΩ min According to JIS C 5102 clause 8.7.4. Type of test: Method 1 Solvent temperature: 20 to 25℃ Duration: 30±5 sec. Solvent Type: A in Table 23, Isopropyl alcohol Appearance : No significant abnomality Appearance : No significant abnomality Appearance : No significant abnomality Withstanding Voltage : No abnomality Withstanding Voltage : No abnomality Withstanding Voltage : No abnomality Capacitance change : 8.2pF or under :Within ±0.5pF :Within ±5.0% 10pF or over Q: :8.2pF or under  Q≧200+10C :10pF∼30pF  Q≧275+2.5C 33pF or over: Q≧350 Insulation resistance:   1000MΩ min. (with t=1.6mm, hole=1.0mm diameter) Preconditioning: 1 hr of preconditioning at 150+0 −10 ℃ :50MΩ min :25MΩ min 15. Resistance to Solvent No significant abnormality in appearance and legible marking. 16.Thermal Shock Immersed conditions: Inserted into the PC board CAPACITORS Capacitance change : 8.2pF or under :Within ±0.25pF :Within ±2.5% 10pF or over Q: 30pF or under: Q≧400+20C 33pF or over: Q≧1000 Insulation resistance: 10000MΩ min. : Within ±12.5% : Within ±15.0% : Within ±15.0% Rated Voltage:10VDC F Capacitance change tanδ:  4700000pF∼10000000pF Insulation Resistance: 4700000pF 10000000pF min : 5.0% max : 7.5% max : 7.5% max : 10.0% max Rated Voltage:16VDC : 15.0% max F Capacitance change : 1000MΩ min tanδ:  :500MΩmin 100000pF : 50MΩ min 2200000pF : 25MΩ min Insulation Resistance: : 5MΩ min 100000pF 2200000pF Temperature [℃] Room temperature 0 −25± 3 Duration[min] Within 3 Within 3 4 Room temperature 3 +85± 0 5 Room temperature Within 3 Step 1 : Within ±30.0% 2 :20.0% max 3 :10MΩ min :5MΩ 30±3 30±3 : Within ±30.0% : 15.0% max : 17.5% max : 500MΩ min : 25MΩ min Rated Voltage:25VDC F : Within ±30.0% : Within ±12.5% Capacitance change : Within ±15.0% tanδ: 10000pF∼47000pF(Item△J) : 12.5%max :5.0% max Insulation Resistance: :15.0% max 10000pF∼47000pF(Item△J) : 500MΩmin :1000MΩmin Rated Voltage:35VDC :5MΩ min F Capacitance change tanδ:  10000000pF : Within ±15.0% Insulation Resistance: 10000000pF :10.0% max Rated Voltage:50VDC :25MΩ min F :5MΩ min Capacitance change : 10000pF∼1000000pF tanδ:  10000pF∼100000pF 220000pF∼470000pF :Within ±12.5% 1000000pF :Within ±15.0% Insulation Resistance: 10000pF∼100000pF :5.0% max 220000pF∼470000pF :7.5% max 1000000pF Conditions for 1 cycle : Within ±30.0% Number of cycles: 5 +0 Preconditioning: 1 hr of preconditioning at 150 −10 ℃ followed by 48±4 hrs of recovery under the standard condition. Recovery: Recovery for the following period under the standard condition after the removal from test chamber. 24±2 hrs(Class 1) 48±4 hrs(Class 2) :20.0% max :5MΩ min :Within ±30% :12.5% max :15.0% max :17.5% max :500MΩ min :250MΩ min :50MΩ min :1000MΩ min :500MΩ min :250MΩ min :100MΩ min :50MΩ min Withstanding voltage is also referred to as "voltage proof" under IEC specifications. Thermal Shock is also referred to as "rapid change of temperature" under IEC specifications. 8 137 5/6 RELIABILITY DATA AXIAL LEADED CERAMIC CAPACITORS Specified Value Item 17. Damp Heat (steady state) High Permittivity (Class2) Test Methods and Remarks Multilayer type (Characteristics:B) Multilayer type (Characteristics:F) Appearance : No significant abnomality Appearance : No significant abnomality emperature: 40±2℃ Withstanding Voltage : No abnomality Withstanding Voltage : No abnomality Humidity: 90 to 95 % RH Rated Voltage:16VDC Rated Voltage:10VDC Capacitance change : +24 B Duration: 500 −0 hrs F 8.2pF or under :Within ±0.5pF Capacitance change : Capacitance change: Within ±30.0% +0 ℃ Preconditioning: 1 hr of preconditioning at 150−10 :Within ±5.0% 1200pF∼22000pF(Item△J) : Within ±12.5% tanδ:  10pF or over 100000pF : Within ±15.0% 4700000pF∼10000000pF Q: :20.0% max followed by 48±4 hrs of recovery un1000000pF∼10000000pF : Within ±15.0% Insulation Resistance: :8.2pF or under  tanδ:  der the standard condition. :10MΩ min Q≧200+10C 1200pF∼22000pF(Item△J) : 5.0% max 4700000pF :5MΩ min 10000000pF 100000pF :7.5% max :10pF∼30pF  Recovery: 24±2 hrs of recovery under the standard : 7.5% max 1000000pF Q≧275+2.5C 2200000pF∼4700000pF : 10.0% max Rated Voltage:16VDC condition after the removal from test cham33pF or over: 10000000pF : 15.0% max F Q≧350 ber.(Class 1) Capacitance change: Within ±30.0% Insulation Resistance: 1200pF∼22000pF(Item△J) : 1000MΩ min tanδ:  Insulation resistance: : 1 hr of preconditioning at 150 +10 100000pF :500MΩ min 100000pF : max 15.0% −0 ℃ fol  1000MΩ min. 1000000pF : 50MΩ min 2200000pF : 17.5% max lowed by 48±4 hrs of recovery under the : 25MΩ min Insulation Resistance: 2200000pF C:Nominal Capacitance[pF] 4700000pF∼10000000pF : 5MΩ min 100000pF : 500MΩ min standard condition after the removal from 2200000pF : 25MΩ min Rated Voltage:25VDC chamber.(Class 2) B Rated Voltage:25VDC Capacitance change: 10000pF : Within ±12.5% F 10000000pF : Within ±15.0% Capacitance change: Within ±30.0% tanδ: tanδ:  : 12.5%max 10000pF :5.0% max 10000pF∼47000pF(Item△J) 10000000pF :15.0% max Insulation Resistance: Insulation Resistance: 10000pF∼47000pF(Item△J) : 500MΩmin 10000pF :1000MΩ min 10000000pF :5MΩ min Rated Voltage:35VDC F Rated Voltage:35VDC Capacitance change: Within ±30.0% B tanδ:  Capacitance change : Within ±15.0% 10000000pF :20.0% max tanδ:  :10.0% max Insulation Resistance: 2200000pF∼4700000pF 10000000pF :5MΩ min Insulation Resistance: 2200000pF :25MΩ min Voltage:50VDC Rated 4700000pF :5MΩ min F Capacitance change : Rated Voltage:50VDC B 10000pF∼1000000pF :Within ±30% Capacitance change : tanδ:  100pF∼39000pF :Within ±12.5% 10000pF∼100000pF :12.5% max 47000pF∼1000000pF :Within ±15.0% 220000pF∼470000pF :15.0% max tanδ:  :17.5% max 1000000pF 100pF∼39000pF :5.0% max Insulation Resistance: 47000pF∼1000000pF :7.5% max 10000pF∼100000pF :500MΩ min Insulation Resistance: :250MΩ min 100pF∼39000pF :1000MΩ min 220000pF∼470000pF :50MΩ min 47000pF∼100000pF :500MΩ min 1000000pF :250MΩ min 220000pF 470000pF :100MΩ min 1000000pF :50MΩ min Appearance : No significant abnomality Appearance : No significant abnomality Appearance : No significant abnomality Temperature: 40±2℃ Withstanding Voltage : No abnomality Withstanding Voltage : No abnomality Withstanding Voltage : No abnomality Humidity: 90 to 95 % RH Rated Voltage:16VDC Capacitance change : Rated Voltage:10VDC B Duration: 500 +24 hrs −0 8.2pF or under :Within ±0.75pF Capacitance change : F Applied voltage: Rated voltage 10pF or over :Within ±7.5% 1200pF∼22000pF(Item△J) : Within ±12.5% Capacitance change: Within ±30.0% 100000pF : Within ±15.0% Q: Preconditioning: 1 hr of preconditioning at 150 +10 1000000pF∼2200000pF : Within ±15.0% tanδ:  −0 ℃ 30pF or under: :20.0% max 4700000pF∼10000000pF : Within ±22.5% 4700000pF∼10000000pF followed by 48±4 hrs of recovery Q≧100+10/3*C tanδ:  Insulation Resistance: 1200pF∼22000pF(Item△J) : 5.0% max 4700000pF 33pF or over: under the standard condition. :5MΩ min 100000pF : 7.5% max Q≧200 :2.5MΩ min Recovery: 24±2 hrs of recovery under the standard 1000000pF : 7.5% max 10000000pF Insulation resistance: 2200000pF∼4700000pF : 10.0% max 500MΩ min. condition after the removal from test cham10000000pF : 22.5% max Rated Voltage:16VDC Insulation Resistance: F ber.(Class 1) 1200pF∼22000pF(Item△J) : 500MΩ min C:Nominal Capacitance [pF] : 250MΩ min Capacitance change: Within ±30.0% 100000pF : 1 hr of preconditioning at 150 +10 1000000pF :12.5MΩ min tanδ:  −0 ℃ fol2200000pF :5MΩ min 100000pF :15.0% max lowed by 48±4 hrs of recovery under the 4700000pF∼10000000pF :2.5MΩ min 2200000pF :17.5% max standard condition after the removal from Insulation Resistance: Rated Voltage:25VDC B 100000pF :250MΩ min chamber.(Class 2) Capacitance change : 2200000pF :12.5MΩ min 10000pF : Within ±12.5% 10000000pF : Within ±22.5.0% Rated Voltage:25VDC tanδ:  10000pF :5.0% max F 10000000pF :22.5% max Capacitance change: Within ±30.0% Insulation Resistance: 10000pF :500MΩmin tanδ: : 12.5% max 10000000pF :2.5MΩmin 10000pF∼47000pF(Item△J) Insulation Resistance: Rated Voltage:35VDC 10000pF∼47000pF(Item△J) :250MΩmin B Capacitance change : 2200000pF :Within ±15.0% Rated Voltage:35VDC 4700000pF :Within ±22.5% F tanδ:  2200000pF∼4700000pF :10.0% max Capacitance change: Within ±30.0% tanδ: Insulation Resistance: 2200000pF :5MΩ min 10000000pF :20.0% max 4700000pF :2.5MΩ min Insulation Resistance: 10000000pF :25MΩ min Rated Voltage:50VDC B Capacitance change : Rated Voltage:50VDC 100pF∼39000pF :Within ±12.5% F 47000pF∼1000000pF :Within ±15.0% Capacitance change : tanδ:  :Within ±30.0% 100pF∼39000pF : 5.0% max 10000pF∼1000000pF 47000pF∼1000000pF : 7.5% max tanδ: Insulation Resistance: 10000pF∼100000pF :12.5% max 100pF∼39000pF :500MΩ min :15.0% max 47000pF∼100000pF :250MΩ min 220000pF∼470000pF :17.5% max 220000pF :125MΩ min 1000000pF 470000pF :25MΩ min Insulation Resistance: 1000000pF :12.5MΩ min 10000pF∼100000pF :250MΩ min 220000pF∼470000pF :125MΩ min 1000000pF :25MΩ min Multilayer type Appearance : No significant abnomality Withstanding Voltage : No abnomality 4 CAPACITORS 18. Loading under Damp Heat Temterature Compensating(Class1) Withstanding voltage is also referred to as "voltage proof" under IEC specifications. 8 139 6/6 RELIABILITY DATA AXIAL LEADED CERAMIC CAPACITORS Specified Value Item 19. High Temperature Lading Test Temterature Compensating(Class1) High Permittivity (Class2) Test Methods and Remarks Multilayer type (Characteristics:B) Multilayer type (Characteristics:F) Appearance : No significant abnomality Appearance : No significant abnomality Temperature: 85± 30 ℃ Withstanding Voltage : No abnomality Withstanding Voltage : No abnomality Duration: 1000± 48 0 hrs Rated Voltage:10VDC Capacitance change : Rated Voltage:16VDC Applied voltage: Rated voltage×2(Class 1) F 8.2pF or under :Within ±0.3pF B Capacitance change : Within ±30.0% (Class 2) 10pF or over :Within ±3.0% Capacitance change : tanδ:  1200pF∼22000pF(Item△J) : Within ±12.5% 4700000pF∼10000000pF Q: :20.0% max Rated voltage×1.5 :8.2pF or under 100000pF : Within ±15.0% Insulation Resistance: 1000000pF∼2200000pF : Within ±15.0% 4700000pF Q≧200+10C :10MΩ min (Class 2: B 220000pF∼10000000pF) 4700000pF∼10000000pF : Within ±22.5% 10000000pF :10pF 30pF :5MΩ min +0 ℃ Preconditioning: 1 hr of preconditioning at 150−10 tanδ:  Q≧275+2.5C 1200pF∼22000pF(Item△J) : 5.0% max Rated Voltage:16VDC 33pF or over: followed by 48±4 hrs of recovery 100000pF : 7.5% max F Q≧350 under the standard condition. 1000000pF : 7.5% max Capacitance change :Within ±30.0% Insulation resistance: tanδ:  2200000pF∼4700000pF : 10.0% max 1000MΩ min. 100000pF :12.5% max Recovery: 24±2hrs of recovery under the standard 10000000pF : 22.5% max 2200000pF :17.5% max condition after the removal from test chamInsulation Resistance: C:Nominal Capacitance [pF] Insulation Resistance: 1200pF∼22000pF(Item△J) : 1000MΩ min 100000pF : 500MΩ min ber.(Class1) 100000pF :500MΩ min 2200000pF :25MΩ min : 1 hr of preconditioning at 150 +10 1000000pF :50MΩ min −0 ℃ fol2200000pF :25MΩ min Rated Voltage:25VDC lowed by 48±4 hrs of recovery under the 4700000pF∼10000000pF :5MΩ min F Capacitance change : Within ±30.0% standard condition after the removal from tanδ: Rated Voltage:25VDC chamber.(Class 2) 10000pF∼47000pF(Item△J) : 10.0% max B Insulation Resistance: Capacitance change : 10000pF∼47000pF(Item△J) : 500MΩmin 10000pF : Within ±12.5% 10000000pF : Within ±22.5% Rated Voltage:35VDC F tanδ:  10000pF :5.0% max Capacitance change : Within ±30.0% 10000000pF :22.5% max tanδ:  10000000pF :20.0% max Insulation Resistance: Insulation Resistance: 10000pF :1000MΩ min 10000000pF :5MΩ min 10000000pF :5MΩ min Rated Voltage:50VDC Rated Voltage:35VDC F Capacitance change : B 10000pF∼1000000pF :Within ±30.0% Capacitance change : 2200000pF :Within ±15.0% tanδ:  10000pF∼100000pF :10.0% max 4700000pF :Within ±22.5% 220000pF∼470000pF :12.5% max tanδ:  1000000pF :17.5% max 2200000pF∼4700000pF :10.0% max Insulation Resistance: Insulation Resistance: 10000pF∼100000pF :500MΩ min 2200000pF :25MΩ min 220000pF∼470000pF :250MΩ min :50MΩ min 4700000pF :5MΩ min 1000000pF Multilayer type Appearance : No significant abnomality Withstanding Voltage : No abnomality CAPACITORS Rated Voltage:50VDC B Capacitance change : 100pF∼39000pF 47000pF∼1000000pF tanδ:  100pF∼39000pF 47000pF∼1000000pF Insulation Resistance: 100pF∼39000pF 47000pF∼100000pF 220000pF 470000pF 1000000pF 4 :Within ±12.5% :Within ±15.0% :5.0% max :7.5% max :1000MΩ min :500MΩ min :250MΩ min :100MΩ min :50MΩ min Note on standard condition: "standard condition" referred to herein is defined as follows: 5 to 35℃ of temperature, 45 to 85% relative humidity, and 86 to 106kPa of air pressure. When there are questions concerning measurement results: In order to provide correlation data, the test shall be conducted under condition of 20±2℃ of temperature, 60 to 70% relative humidity, and 86 to 106kPa of air pressure. Unless otherwise specified, all the tests are conducted under the "standard condition." Withstanding voltage is also referred to as "voltage proof" under IEC specifications. 8 141 1/2 PRECAUTIONS Precautions on the use of Axiel Leaded Ceramic Capacitors Stages 1. Circuit Design Precautions Technical considerations ◆ Verification of operating environment, electrical rating and performance 1. A malfunction in medical equipment, spacecraft, nuclear reactors, etc. may cause serious harm to human life or have 4 severe social ramifications. As such, any capacitors to be used in such equipment may require higher safety and/or CAPACITORS reliability considerations and should be clearly differentiated from components used in general purpose applications. ◆ Verification of Rated voltage (DC rated voltage) 1. The operating voltage for capacitors must always be lower than their rated values. If an AC voltage is loaded on a DC voltage, the sum of the two peak voltages should be lower than the rated value of the capacitor chosen. For a circuit where both an AC and a pulse voltage may be present, the sum of their peak voltages should also be lower than the capacitor's rated voltage. 2. Even if the applied voltage is lower than the rated value, the reliability of capacitors might be reduced if either a high frequency AC voltage or a pulse voltage having rapid rise time is present in the circuit. ◆ Self-generated heat (Verification of Temperature) 1-1. When an AC or a pulse voltage is applied to capacitors specified for DC use, even 1. If the capacitors specified only for DC use are used in AC or if the voltage is less than the rated voltage, the AC current or pulse current running pulse circuits, the AC or a pulse current can generate heat through the capacitor will cause the capacitor to self-generate heat because of the inside the capacitor so the self-generated temperature rise loss characteristics. should be limited to within 20 ℃ . The surface temperature The amount of heat generated depends on the dielectric materials used, capacitance, measured should include this self-temperature rise. There- applied voltage, frequency, voltage waveform, etc. The surface temperature changes fore, it is required to limit capacitor surface temperature due to emitted heat which differs by capacitor shape or mounting method. including self -generated heat should not exceed the maxi- Please contact Taiyo Yuden with any questions regarding emitted heat levels in your mum operating temperature of +85℃ . particular application. It is recommend the temperature rise be measured in the actual circuit to be used. 1-2. For capacitors, the voltage and frequency relationship is generally determined by peak voltage at low frequencies, and by self-generated heat at high frequencies. (Refer to the following curve.) ◆ Operating Environment precautions 1. Capacitors should not be used in the following environments: (1)Environmental conditions to avoid a. exposure to water or salt water. b. exposure to moisture or condensation. c. exposure to corrosive gases (such as hydrogen sulfide, sulfurous acid, chlorine, and ammonia) 2. PCB Design 1. When capacitors are mounted onto a PC board, hole dimensions on the board should match the lead pitch of the component, if not it will cause breakage of the terminals or cracking of terminal roots covered with resin as excess stress travels through the terminal legs. As a result, humidity resistance performance would be lost and may lead to a reduction in insulation resistance and cause a withstand voltage failure. 3. Considerations for automatic insertion ◆ Adjustment Automatic Insertion machines (leaded components) 1. When inserting capacitors in a PC board by auto-insertion machines the impact load imposed on the capacitors should be minimized to prevent the leads from chucking or clinching. 1. When installing products, care should be taken not to apply distortion stress as it may deform the products. 2. Our company recommends the method to place the lead with fewer loads that join the product. 8 143 2/2 PRECAUTIONS Precautions on the use of Axiel Leaded Ceramic Capacitors Stages 4. Soldering Precautions ◆ Selection of Flux 1. When soldering capacitors on the board, flux should be applied thinly and evenly. 2. Flux used should be with less than or equal to 0.1 wt% (equivalent to Chroline) of halogenated content. Flux having a strong acidity content should not be applied. to properly clean the boards. ◆ Wave Soldering 1.Temperature, time, amount of solder, etc. are specified in  accordance with the following recommended conditions. 2. Do not immerse the entire capacitor in the flux during the soldering operation. Only solder the lead wires on the bottom of the board. 1. Flux is used to increase solderability in wave soldering, but if too much is applied, a large amount of flux gas may be emitted and may detrimentally affect solderability. To minimize the amount of flux applied, it is recommended to use a flux-bubbling system. 2. With too much halogenated substance (Chlorine, etc.) content is used to activate the flux, an excessive amount of residue after soldering may lead to corrosion of the terminal electrodes or degradation of insulation resistance on the surface of the capacitors. 3. Since the residue of water-soluble flux is easily dissolved by water content in the air, the residue on the surface of capacitors in high humidity conditions may cause a degradation of insulation resistance and therefore affect the reliability of the components. The cleaning methods and the capability of the machines used should also be considered carefully when selecting water-soluble flux. 1. If capacitors are used beyond the range of the recommended conditions, heat stresses may cause cracks inside the capacitors, and consequently degrade the reliability of the capacitors. 2. When the capacitors are dipped in solder, some soldered parts of the capacitor may melt due to solder heat and cause short-circuits or cracking of the ceramic material. Deterioration of the resin coating may lower insulation resistance and cause a reduction of withstand voltage. 4 CAPACITORS 3. When using water-soluble flux, special care should be taken Technical considerations ◆ Recommended conditions for using a soldering iron: Put the soldering iron on the land-pattern. Soldering iron's temperature - below 350℃ 1. If products are used beyond the range of the recommended conditions,heat stress may deform the products,and consequently degrade the reliability of the products. Duration - 3 seconds or less Numbers of times - 1 times The soldering iron should not directly touch the capacitor. 5. Cleaning ◆ Board cleaning 1. When cleaning the mounted PC boards, make sure that cleaning conditions are consistent with prescribed usage conditions. 6. Post-cleaning-process ◆ Application of resin molding, etc. to the PCB and components. 1. Please contact your local Taiyo Yuden sales office before performing resin coating or molding on mounted capacitors. Please verify on the actual application that the coating process will not adversely affect the component quality. 7. Handling ◆ Mechanical considerations 1. Be careful not to subject the capacitors to excessive mechanical shocks. Withstanding voltage failure may result. 2. If ceramic capacitors are dropped onto the floor or a hard 1. The resin material used for the outer coating of capacitors is occasionally a wax substance for moisture resistance which can easily be dissolved by some solutions. So before cleaning, special care should be taken to test the component’s vulnerability to the solutions used. When using water-soluble flux please clean the PCB with purified water sufficiently and dry thoroughly at the end of the process. Insufficient washing or drying could lower the reliability of the capacitors. 1-1. The thermal expansion and coefficient of contraction of the molded resin are not necessarily matched with those of the capacitor. The capacitors may be exposed to stresses due to thermal expansion and contraction during and after hardening. This may lower the specified characteristics and insulation resistance or cause reduced withstand voltage by cracking the ceramic or separating the coated resin from the ceramics. 1-2. With some types of mold resins, the resin's decomposition gas or reaction gas may remain inside the resin during the hardening period or while left under normal conditions, causing a deterioration of the capacitor's performance. 1-3. Some mold resins may have poor moisture proofing properties. Please verify the contents of the resins before they are applied. 1-4. Please contact Taiyo Yuden before using if the hardening process temperature of the mold resins is higher than the operating temperature of the capacitors. 1. Because the capacitor is made of ceramic, mechanical shocks applied to the board may damage or crack the capacitors. 2.Ceramic capacitors which are dropped onto the floor or a hard surface may develop defects and have a higher risk of failure over time. surface they should not be used. 8. Storage conditions ◆ Storage 1. To maintain the solderability of terminal electrodes and to keep the packaging material in good condition, care must be taken to 1. Under high temperature/high humidity conditions, the decrease in solderability due to the oxidation of terminal electrodes and deterioration of taping and packaging characteristics may be accelerated. control temperature and humidity in the storage area. Humidity should especially be kept as low as possible. Recommended conditions: Ambient temperature Below 40 ℃ Humidity Below 70% RH. Products should be used within 6 months after delivery. After the above period, the solderability should be checked before using the capacitors. 2. Capacitors should not be kept in an environment filled with decomposition gases such as (sulfurous hydrogen, sulfurous acid, chlorine, ammonia, etc.) 3. Capacitors should not be kept in a location where they may be exposed to moisture, condensation or direct sunlight. 8 145
UP050SL180J-NAC
1. 物料型号:文档列出了多种型号的电容器,包括它们的额定电压、公称静容量、容量容差、温度特性等。 2. 器件简介:介绍了轴向引线陶瓷电容器的特点,例如适用于广泛的容量范围、自动插入成本较低、安装间距可变等。 3. 引脚分配:提供了不同型号电容器的引脚配置信息。 4. 参数特性:详细列出了电容器的各种电气特性,如额定电压、容量容差、温度特性、绝缘电阻等。 5. 功能详解:解释了电容器的不同类别(如Class 1和Class 2)及其适用的应用场景。 6. 应用信息:说明了电容器在电路中的作用,如温度特性补偿、频率特性稳定化、旁路电容器等。 7. 封装信息:提供了电容器的外形尺寸和包装信息。 8. 可靠性数据:包括了电容器在各种测试条件下的性能数据,如耐电压、温度冲击、湿热测试等。
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