ALUMINUM ELECTROLYTIC CAPACITORS CZ Chip Type, High Reliability. Low temperature ESR specification. series Chip type, high temperature range, for +125°C use. Added ESR specification after the test at -40°C. Applicable to automatic mounting machine fed with carrier tape. Compliant to the RoHS directive (2011/65/EU). CX High Temperature CZ Low ESR Long Life CJ Specifications Item Performance Characteristics Category Temperature Range –40 to +125°C Rated Voltage Range 10 to 100V Rated Capacitance Range 10 to 3300µF Capacitance Tolerance ± 20% at 120Hz, 20°C Leakage Current After 2 minutes' application of rated voltage, leakage current is not more than 0.01CV or 3µA, whichever is greater. Measurement frequency : 120Hz at 20°C Tangent of loss angle (tan δ) Rated voltage (V) tan δ (MAX.) 10 0.30 16 0.23 25 0.18 35 0.16 50 0.16 63 0.12 80 0.12 100 0.10 For capacitance of more than 1000µF, add 0.02 for every increase of 1000µF. Stability at Low Temperature Rated voltage (V) 10 16 25 35 50 63 80 100 Impedance ratio Z–40°C / Z+20°C ZT / Z20 (MAX.) 12 8 6 4 4 3 3 3 Measurement frequency : 120Hz After continuous application of rated voltage at 125°C and then restoring down to 20°C, the readings of measurements shall meet below. Case size Endurance time Capacitance change tan δ Leakage current Endurance φ6.3 × 5.8L 1000hrs. φ6.3 × 7.7L 2000hrs. φ8 to φ12.5 3000hrs. φ16,18 × 16.5L φ16,18 × 21.5L 3500hrs. 4000hrs. Within ±30% of the initial capacitance value 300% or less than the initial specified value Less than or equal to the initial specified value After storing the capacitors under no load at 125°C for 1000 hours and then performing voltage treatment based on JIS C 5101-4 clause 4.1 at 20°C, they shall meet the specified values for the endurance characteristics listed above. 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 Less than or equal to the initial specified value tan δ the characteristic requirements listed at right when they Less than or equal to the initial specified value Leakage current are removed from the plate and restored to 20°C. Shelf Life Resistance to soldering heat Black print on the case top. ‚ φ6.3 × 5.8L : The vibration structure-resistant product can t support. φ6.3 × 7.7L : The vibration structure-resistant product is available. Voltage C±0.2 φ12.5 to φ18 : The vibration structure-resistant product is also available upon request, please ask for details. B±0.2 φ D±0.5 Series L±1.0 H 4 5 6 7 8 0.5MAX. 9 10 11 12 13 14 Package code Rated voltage (35V) Series name Type (φ 8 to φ10) Vibration Resistance A±0.2 A±0.2 Negative Negative Lot No. Plastic platform 0.3 MAX. L±1.0 Capacitance φD×L Code GS MS ZD Code CL CS NQ H Aid electrode (mm) Vibration Resistance (mm) Standard 6.3×5.8 2.4 A 6.6 B 6.6 C 2.2 E 5.8 L H 0.5 to 0.8 C±0.2 E Series B±0.2 0.5MAX. Voltage (V : 35V ) Trade mark Size Package Taping φ4 to 10 φ12.5 to 18 Taping Tray φ12.5 to 18 φd Configuration 6.3 to 10 Standard Vibration Resistance 12.5 or more Standard A±0.2 A±0.2 Rated capacitance (47µF) 0.5 MAX. Capacitance tolerance (±20%) A±0.2 A±0.2 E Plastic platform Lot No. Positive Positive 0.3 MAX. Pressure relief vent Capacitance H 3 Negative E Standard 680 µF CZ 35V H1015 nichicon Trade mark C±0.2 2 Size code A±0.2 A±0.2 φD±0.5 A2 220V CZ (φ12.5 to φ18) Plastic platform 0.3MAX. L±0.5 Capacitance Lot No. H 1 UC Z 1 V 4 7 0 MC L 1 GS Configuration E Series Trade mark B±0.2 φD±0.5 A2 47V CZ (φ 8 to φ10) Standard Voltage (V : 35V ) C±0.2 L± 0.3 Capacitance Lot No. Positive Plastic platform 0.3MAX. Series B±0.2 Voltage (C:35V) 0.5 MAX. (φ 6.3) Standard Type system (Example : 35V: 35V 47µF) Typenumbering numbering system (Example 47µF) φ D±0.5 Chip Type a2 220V CZ Marking 6.3×7.7 8×10 10×10 12.5×13.5 16×16.5 2.9 3.2 2.4 4.8 5.4 8.3 10.3 13.6 17.1 6.6 8.3 10.3 13.6 17.1 6.6 3.1 4.5 4 6.3 2.2 10 10 13.5 16.5 7.7 0.5 to 0.8 0.8 to 1.1 0.8 to 1.1 1.0 to 1.4 1.0 to 1.4 Rated Voltage V 10 16 Code A C 25 E 35 V 50 H 16×21.5 18×16.5 5.4 6.4 17.1 19.1 17.1 19.1 6.3 6.3 21.5 16.5 1.0 to 1.4 1.0 to 1.4 63 J 80 K 18×21.5 6.4 19.1 19.1 6.3 21.5 1.0 to 1.4 100 2A φD×L 8×10 2.9 A 8.3 B 8.3 C 3.1 E 10 L H 1.1 to 1.5 10×10 3.2 10.3 10.3 4.5 10 1.1 to 1.5 CONDUCTIVE POLYMER ALUMINUM SOLID ELECTROLYTIC CAPACITORS CZ series Dimensions Cap. (µF) V 10 16 25 35 50 Code 1A 1C 1E 1V 1H 10 100 6.3 × 5.8 1.60 24 − 69 6.3 × 5.8 2.80 42 − 22 220 6.3 × 5.8 1.60 24 − 69 6.3 × 7.7 0.50 5 40 197 33 330 6.3 × 7.7 0.45 5 40 197 ● 6.3 × 7.7 0.50 5 40 197 ● 6.3 × 7.7 0.45 5 8 × 10 0.20 8 × 10 0.20 8 × 10 10 × 10 6.3 × 5.8 6.3 × 5.8 1.60 24 47 470 68 680 100 101 Recommend 16V 220 221 8 × 10 0.20 3 4.5 270 330 331 390 391 470 471 560 8 × 10 0.20 3 4.5 270 10 × 10 0.15 2 3.5 500 10 × 10 0.15 2 3.5 500 ● − 69 1.60 24 − 69 Recommend 35V ● 6.3 × 7.7 0.45 5 40 197 ● 6.3 × 7.7 0.45 5 40 197 8 × 10 0.20 3 4.5 270 8 × 10 0.20 3 4.5 270 8 × 10 0.20 3 4.5 270 ● 8 × 10 0.20 3 4.5 270 10 × 10 0.15 2 3.5 500 10 × 10 0.15 2 3.5 500 10 × 10 0.15 2 3.5 500 10 × 10 0.15 2 3.5 500 51 0.25 3.5 6 40 197 ● 6.3 × 7.7 0.50 40 197 3 4.5 270 0.25 3.5 3 4.5 270 0.20 3 4.5 270 0.15 2 3.5 500 8 × 10 8 × 10 10 × 10 5 6 270 270 0.20 2.5 4.5 500 12.5 × 13.5 0.100 0.44 4.0 1300 12.5 × 13.5 0.060 0.40 3.0 1700 16 × 16.5 0.080 0.34 2.6 2000 561 12.5 × 13.5 0.060 0.40 3.0 1700 16 × 16.5 0.080 0.34 2.6 2000 680 681 12.5 × 13.5 0.060 0.40 3.0 1700 18 × 16.5 0.078 0.32 2.6 2100 820 821 12.5 × 13.5 0.060 0.40 3.0 1700 16 × 16.5 0.047 0.28 1.4 2400 18 × 16.5 0.078 0.32 2.6 2100 1000 102 12.5 × 13.5 0.060 0.40 3.0 1700 16 × 16.5 0.047 0.28 1.4 2400 16 × 21.5 0.040 0.22 1.5 2800 1200 122 16 × 16.5 0.047 0.28 1.4 1700 18 × 16.5 0.045 0.28 1.4 2600 18 × 21.5 0.038 0.20 1.5 2900 1400 142 1600 162 16 × 16.5 0.047 0.28 1.4 2400 16 × 21.5 0.034 0.20 0.6 3000 2200 222 18 × 16.5 0.045 0.23 1.3 2600 18 × 21.5 0.032 0.16 0.5 3250 2700 272 16 × 21.5 0.034 0.20 0.6 3000 3300 332 18 × 21.5 0.032 0.16 0.5 3250 Cap. (µF) 10 V 63 80 Code 1J 1K 100 22 220 33 330 47 470 82 820 6.3 × 7.7 2.00 100 − 60 18 × 16.5 0.045 0.28 1.4 2600 Case size φD × L (mm) after Initial Initial endurance 20° C -40°C test Rated -40°C ripple 100 2A 8 × 10 0.75 50 − 70 8 × 10 0.75 50 − 70 ● 8 × 10 0.75 50 − 70 ● 8 × 10 0.75 50 − 70 10 × 10 0.55 35 − 115 10 × 10 0.55 35 − 115 8 × 10 0.70 35 − 100 10 × 10 0.55 35 − 115 ● 8 × 10 0.70 35 − 100 ● 8 × 10 0.75 50 − 10 × 10 0.50 25 − 170 10 × 10 0.55 35 − 115 ● 8 × 10 0.70 35 − 100 10 × 10 0.50 25 − 170 10 × 10 0.55 35 − 115 70 Guaranteed time of ESR after endurance test 12.5×13.5 0.28 1.9 22 700 150 151 12.5 × 13.5 0.20 1.3 14 1000 12.5 × 13.5 0.28 1.9 14 700 16×16.5 0.19 1.4 4.8 1000 Size Guaranteed time 180 181 12.5 × 13.5 0.20 1.3 14 1000 18×16.5 0.17 1.1 3.9 1100 φ6.3 to φ12.5 2000hrs. 220 221 12.5 × 13.5 0.20 1.3 14 1000 16×21.5 0.12 0.8 2.6 1600 φ16,18 × 16.5L 2000hrs. 270 271 φ16,18 × 21.5L 3000hrs. 300 301 330 331 390 391 16 × 16.5 0.13 0.9 4.8 1900 470 471 18 × 16.5 0.11 0.82 3.9 2000 520 521 560 561 16 × 21.5 0.07 0.46 2.0 2500 750 751 18 × 21.5 0.068 0.44 1.8 2600 16 × 16.5 0.19 1.4 4.8 1000 18 × 16.5 0.17 1.1 3.9 1100 16 × 21.5 0.12 0.8 2.6 1600 18 × 21.5 0.11 0.7 2.4 1700 18×21.5 0.11 0.7 2.4 1700 Case size after Initial Initial endurance 20° C -40°C test Rated -40°C ripple φD × L (mm) Frequency coefficient of rated ripple current 0 Frequency0/ Coefficient 50Hz 0.35 120Hz 0.50 300Hz 0.64 1kHz 0.83 ESR 10kHz or more 1.00 ESR Max. ESR (Ω) at 20°C / -40°C 100kHz, Rated ripple Current (mArms) at 125°C 100kHz : In this case, 6 will be put at 12th digit of type numbering system.