GYB1H220MCQ1GS

CONDUCTIVE POLYMER HYBRID ALUMINUM ELECTROLYTIC CAPACITORS CONDUCTIVE POLYMER HYBRID ALUMINUM ELECTROLYTIC CAPACITORS GYB GYB Chip Type, 105°C High Reliability Chip Type, 105°C High Reliability High Reliability, Low ESR,High ripple current. High Reliability, Low ESR,High ripple current. Long life of 10000 hours at 105°C. Long life ofto10000 hoursdirective at 105°C. Compliant the RoHS (2011/65/EU,(EU)2015/863). Compliant the RoHSPlease directive (2011/65/EU,(EU)2015/863). AEC-Q200to compliant. contact us for details. AEC-Q200 compliant. Please contact us for details. Specifications Specifications Item Item Temperature Range Category Performance Characteristics Performance Characteristics – 55 to +105°C Category Temperature Range 25 – 55toto63V +105°C Rated Voltage Range Rated Capacitance Voltage Range Rated Range 25 10 to to 63V 330µF Rated Capacitance Range 10 to 330µF Capacitance Tolerance ± 20% at 120Hz, 20°C Capacitance Tolerance ± 20% at 120Hz, 20°C Capacitance L ±0.5 L ±0.5 C±0.2 C±0.2 H H L ±0.5 Capacitance (φ6.3Lot )【No. Vibration Resistance】 L ±0.5 Capacitance (φ6.3Lot )【No. Vibration Resistance】 Plastic platform Lot No. Lot No. Capacitance Capacitance 0.3 MAX. 0.3 MAX. φD±0.5 φD±0.5 B±0.2 B±0.2 Plastic platform L ±0.5 L ±0.5 C±0.2 C±0.2 H H Series name Type RatedRated capacitance voltage(47µF) (35V) Rated voltage (35V) Series name Type Positive Positive Positive Positive Negative Negative Positive Positive Negative Negative Standard φD×L Standard 6.3 × 5.8 6.3 × 7.7 φD×L A A B B C C E E L L H H 6.37.3 × 5.8 6.37.3 × 7.7 7.3 7.3 6.6 6.6 6.6 6.6 6.6 2.2 2.2 5.8 Vibration Resistance (mm) φD×L Vibration 6.3 ×Resistance 7.7 8 × 10 10(mm) × 10 (mm) 10 ×(mm) 10 1011.0 × 10 11.0 10.3 8 × 10 89.0 × 10 9.0 8.3 6.6 2.2 2.2 7.7 8.3 8.3 3.1 10.3 10.3 4.5 φD×L A A B B C Voltage Voltage V 25 35 50 63 Negative Negative C E E L 3.1 4.5 10.3 10.3 V 25 E 35 V 50 H 63 J 0.55.8 to 0.8 0.57.7 to 0.8 0.810.3 to 1.1 0.810.3 to 1.1 Code 0.5 to 0.8 0.5 to 0.8 0.8 to 1.1 0.8 to 1.1 Code E V H J L H H 6.37.3 × 7.7 7.3 6.6 89.0 × 10 9.0 8.3 1011.0 × 10 11.0 10.3 6.6 6.6 2.2 8.3 8.3 3.1 10.3 10.3 4.5 2.2 3.1 4.5 7.7 10.5 10.5 0.57.7 to 0.8 1.110.5 to 1.5 1.110.5 to 1.5 0.5 to 0.8 1.1 to 1.5 1.1 to 1.5 Positive Positive (φ8, φ10 )【Vibration Resistance】 (φ8, φ10 )【Vibration Resistance 】 platform Plastic Voltage (H:50V) Voltage (H:50V) Trade mark Series Series Plastic platform Trade mark E E Series Series n2n2 68V 68V GYB GYB Voltage (V:35V) Voltage (V:35V) H H Negative Negative Size code Configuration Configuration Size Code Size Code Standard Q Standard Q Vibration Resistance W Vibration Resistance W Lot No. Lot No. Capacitance Capacitance 0.3 MAX. 0.3 MAX. 10.5 ±0.5 10.5 ±0.5 C±0.2 C±0.2 H H A±0.2 A±0.2 Capacitance 0.3 MAX. C±0.2 C±0.2 Negative Negative Capacitance tolerance (±20%) Capacitance tolerance (±20%) Rated capacitance (47µF) 0.50.5 MAX. MAX. Lot No. Lot No. φD±0.5 φD±0.5φD±0.5 φD±0.5 A1A1 A1A1 56J 56J 56J 56J GYB GYB GYB GYB Trade mark 0.3 MAX. Plastic platform Plastic platform 0.3 MAX. Taping code Taping Size code E E Series Series 1 2 3 4 5 6 7 8 9 10 11 12 13 14 G Y B 1 V 4 7 0 MCQ 1 GS GY B 1 V 4 7 0 MCQ 1 GS B±0.2 B±0.2 Plastic platform Plastic platform 0.3 MAX. (φ8, φ10 )【Standard】 Trade mark (φ8, φ10 )【Standard】 Series Series H H Type numbering system (Example : 35V 47µF) Type numbering system (Example : 35V 47µF) 1 2 3 4 5 6 7 8 9 10 11 12 13 14 φD±0.5 φD±0.5 (φ8, φ10 )【Standard】 (φ8, φ10 )【Standard】 Voltage (J:63V) Voltagemark (J:63V) Trade H H L ±0.3 L ±0.3 Capacitance Voltage (J:63V) Voltagemark (J:63V) Trade C±0.2 C±0.2 Positive Positive n2n2 68H 68H GYB GYB Capacitance L ±0.3 L ±0.3 C±0.2 C±0.2 A±0.2 A±0.2 A±0.2 A±0.2 Lot No. Lot No. Capacitance B ±0.2 B ±0.2 B ±0.2 B ±0.2 Capacitance 0.3 MAX. B±0.2 B±0.2 B±0.2 B±0.2 Lot No. Lot No. φD±0.5 φD±0.5φD±0.5 φD±0.5 Series Series A1A1 A1A1 47V 47V 47V 47V GYB GYB GYB GYB Voltage (V:35V) Voltage (V:35V) 0.3 MAX. Plastic platform Plastic platform 0.3 MAX. A±0.2 A±0.2 A±0.2 A±0.2 Plastic platform 0.3 MAX. E E 0.50.5 MAX. MAX. 0.50.5 MAX. MAX. Series Dimensions Series Dimensions Voltage (V:35V) Voltage (V:35V) (φ6.3 )【Standard】 (φ6.3 )【Standard】 E E Resistance to Resistance to Soldering Heat Soldering Heat Marking (φ6.3 )【Standard】 Marking (φ6.3 )【Standard】 E E 0.50.5 MAX. MAX. 0.50.5 MAX. MAX. Damp Heat Damp Heat (Steady State) (Steady State) E E Shelf Life Shelf Life A±0.2 A±0.2 Endurance Endurance 120Hz 20°C 25 35 50 63 120Hz 20°C 25 35 50 63 0.14 0.12 0.10 0.08 0.14 0.12 0.10 0.08 Less than or equal to the specified value at 100kHz, 20°C Less or equal to the specified at 100kHz, Afterthan 2 minutes' application of ratedvalue voltage at 20°C,20°C leakage current is not more than 0.01CV(µA). 2 minutes' of rated voltage at 20°C, leakage current is not more than 0.01CV(µA). ZAfter – 25°C / Z+20°Capplication 2 Z – 55°C 25°C // Z+20°C Z+20°C 2 Z– 2.5　(100kHz) Z– 55°C / Z+20°C 2.5　(100kHz) Capacitance change Within ± 30% of initial capacitance value The specifications listed at right shall be met when the Capacitance change Within or ± 30% of the initial capacitance 200% less of initial specified value value tan δ The specifications listedtoat20°C right after shall D.C. be met when capacitors are restored bias plusthe rated tan δ ESR capacitors areisrestored after D.C. plusthe rated 200% or less of the initial specified value ripple current applied to for20°C 10000 hours atbias 105°C, peak ESR 200%than or less of theto initial specified value value ripple current is applied at 105°C, the peak Leakage current voltage shall not exceedfor the10000 rated hours voltage. Less or equal the initial specified Leakage current voltage shall not exceed the rated voltage. Less than or equal to the initial specified value After storing the capacitors under no load at 105°C for 1000 hours and then performing voltage treatment based on JIS C 5101-4 After storing capacitors under load at 105°C for 1000 hours and thencharacteristics performing voltage treatment based on JIS C 5101-4 clause 4.1 atthe 20°C, they shall meetnothe specified values for the endurance listed above. clause 4.1 at 20°C, they shall meet the specified values for the endurance characteristics listed above. Capacitance change Within±30% of the initial capacitance value The specifications listed at right shall be met when the Capacitance change Within±30% value 200% or less of of the the initial initial capacitance specified value tan δ The specifications listedtoat20°C right after shall the be met the is capacitors are restored ratedwhen voltage 200%than or less of theto initial specified value value tan δ Leakage current capacitors restored to85°C, 20°C after applied for are 2000 hours at 85% the RH.rated voltage is Less or equal the initial specified Leakage current applied for 2000 hours at 85°C, 85% RH. Less than or equal to the initial specified value The capacitors are kept on a hot plate for 30 seconds, Within±10% of the initial capacitance value Capacitance change which is maintained at 250°C. The capacitors shall meet The capacitors are kept on a hot plate for 30 seconds, Within±10% the initial valuevalue Capacitance change Less than or of equal to thecapacitance initial specified tan δ the characteristic requirements listed at right when which is maintained at 250°C. The capacitors shall they meetare tan δ Leakage current Less than or equal to the initial specified value removed from therequirements plate and restored the characteristic listed to at 20°C. right when they are Leakage current Less than or equal to the initial specified value removed the case plate top. and restored to 20°C. Black printfrom on the Positive Black print onplatform the case top. Positive Plastic Rated voltage (V) Rated tan voltage δ (MAX.)(V) tan δ (MAX.) 0.50.5 MAX. MAX. Tangent of loss angle (tan δ) Tangent of loss angle (tan δ) ESR ESR Leakage Current Leakage Current Temperature Characteristics Temperature Characteristics (Max.Impedance Ratio) (Max.Impedance Ratio) Negative Negative Aid electrode Aid electrode Frequency coefficient of rated ripple current Frequency coefficient current 0 Frequency0/ 120Hz of rated 1kHz ripple 10kHz 100kHz or more Dimension table in next page. Dimension table in next page. 0 Coefficient Frequency0/ Coefficient 120Hz 0.15 0.15 1kHz 0.40 0.40 10kHz 0.75 0.75 100kHz or more 1.00 1.00 CAT.8100K CONDUCTIVE POLYMER HYBRID ALUMINUM ELECTROLYTIC CAPACITORS GYB Dimensions Rated Voltage （V） （code） 25 （1E） 35 （1V） 50 （1H） 63 （1J） Rated Capacitance （µF） Case Size φD×L（mm） 56 6.3×5.8 tan δ 0.14 Leakage Current （µA） at 20℃ after 2 minutes （ ） 14 ESR（mΩ）MAX. （20℃/100kHz） Rated Ripple （mArms） （105℃/100kHz） Part Number 50 1300 GYB1E560MCQ1GS 100 6.3×7.7 0.14 25 30 2000 GYB1E101MC□1GS 220 8×10 0.14 55 27 2300 GYB1E221MC□1GS 330 10×10 0.14 82.5 20 2500 GYB1E331MC□1GS 47 6.3×5.8 0.12 16.45 60 1300 GYB1V470MCQ1GS 68 6.3×7.7 0.12 23.8 35 2000 GYB1V680MC□1GS 150 8× 10 0.12 52.5 27 2300 GYB1V151MC□1GS 270 10× 10 0.12 94.5 20 2500 GYB1V271MC□1GS 22 6.3×5.8 0.10 11 80 1100 GYB1H220MCQ1GS 33 6.3×7.7 0.10 16.5 40 1600 GYB1H330MC□1GS 68 8×10 0.10 34 30 1800 GYB1H680MC□1GS 100 10× 10 0.10 50 28 2000 GYB1H101MC□1GS 10 6.3×5.8 0.08 6.3 120 1000 GYB1J100MCQ1GS 22 6.3×7.7 0.08 13.86 80 1500 GYB1J220MC□1GS 33 8×10 0.08 20.79 40 1600 GYB1J330MC□1GS 56 10× 10 0.08 35.28 30 1800 GYB1J560MC□1GS □ : Enter the appropriate configuration code. For taping specifications, recommended land size/soldering by reflow and minimum order quantity, please refer to the Guidelines for Aluminum Electrolytic Capacitors. CAT.8100K