Aluminum Electrolytic Capacitors - KM Series
The KM Series Aluminum Electrolytic Capacitors are designed for high-temperature applications with a maximum operating temperature of +105 and a lifespan of 1000-2000 hours. These standard capacitors offer a wide range of capacitance from 0.1F to 33000F and voltage ratings from 6.3V to 500V, making them suitable for various electronic circuits. They are manufactured by Dongguan Shi Cheng Xing Electronics Co., Ltd. in China.
Product Attributes
- Brand: Cheng Xing
- Series: KM Series
- Origin: Dongguan, China
- Material: Aluminum Electrolytic
- Certifications: None explicitly mentioned
Technical Specifications
| Item | Performance Characteristics | Details |
| Operating Temperature Range | -40 ~ +105 | -25 ~ +105 |
| Rated Working Voltage Range | 6.3 ~ 250V | 350~ 450V |
| Nominal Capacitance Range | 0.1 ~ 33000F | |
| Capacitance Tolerance | 20% (120Hz, +20) | |
| Leakage Current | L0.01CV or 3(A), l0.03cv+40(A) (Whichever is greater, measured after 2 minutes at rated voltage, +20) | |
| tan (max) (120Hz, +20) | 0.26 (6.3V) to 0.08 (100V) | 0.20 (160V-250V) to 0.24 (350V-450V) |
| Low Temperature Characteristics (120Hz) | Z-25/Z+20: 5 (6.3V) to 2 (100V) | Z-40/Z+20: 10 (6.3V) to 3 (100V) |
| Load Life | 1000Hrs (D6.3), 2000Hrs (D8) at 105 | |
| Shelf Life | 1000 Hrs at 105 (No Load) | |
| Ripple Current & Frequency Multipliers | Refer to detailed chart for various voltages, frequencies, and capacitance values. | |
| Standards | JIS- C-5101-4 (IEC 60384) | |
Standard Ratings (DxL(mm); Ripple Current: mA/rms at 120Hz, 105)
| Voltage(Code) | Cap.(F) | DxL | R.C | DxL | R.C | DxL | R.C | DxL | R.C | |||
| 6.3V | 4.7 | 5*11 | 26 | 5*11 | 35 | 5*11 | 38 | 5*11 | 44 | |||
| 10 | 5*11 | 59 | 5*11 | 54 | 5*11 | 57 | ||||||
| 10V | 4.7 | 5*11 | 26 | 5*11 | 35 | 5*11 | 38 | 5*11 | 44 | |||
| 10 | 5*11 | 59 | 5*11 | 54 | 5*11 | 57 | ||||||
| 16V | 4.7 | 5*11 | 26 | 5*11 | 35 | 5*11 | 38 | 5*11 | 44 | |||
| 10 | 5*11 | 59 | 5*11 | 54 | 5*11 | 57 | ||||||
| 25V | 4.7 | 5*11 | 26 | 5*11 | 35 | 5*11 | 38 | 5*11 | 44 | |||
| 10 | 5*11 | 59 | 5*11 | 54 | 5*11 | 57 | ||||||
| 35V | 0.47 | 6.3*12 | 8 | 1 | 6.3*12 | 17 | 2.2 | 6.3*12 | 27 | 3.3 | 6.3*12 | 30 |
| 4.7 | 6.3*12 | 41 | 6.3*12 | 40 | 8*12 | 40 | 8*12 | 45 | ||||
| 50V | 0.47 | 6.3*12 | 8 | 1 | 6.3*12 | 17 | 2.2 | 6.3*12 | 27 | 3.3 | 6.3*12 | 30 |
| 4.7 | 6.3*12 | 41 | 6.3*12 | 40 | 8*12 | 40 | 8*12 | 45 | ||||
| 63V | 0.47 | 6.3*12 | 8 | 1 | 6.3*12 | 17 | 2.2 | 6.3*12 | 27 | 3.3 | 6.3*12 | 30 |
| 4.7 | 6.3*12 | 41 | 6.3*12 | 40 | 8*12 | 40 | 8*12 | 45 | ||||
| 100V | 0.47 | 6.3*12 | 8 | 1 | 6.3*12 | 17 | 2.2 | 6.3*12 | 27 | 3.3 | 6.3*12 | 30 |
| 4.7 | 6.3*12 | 41 | 6.3*12 | 40 | 8*12 | 40 | 8*12 | 45 | ||||
| 160V | 0.47 | 6.3*12 | 8 | 1 | 6.3*12 | 17 | 2.2 | 6.3*12 | 27 | 3.3 | 6.3*12 | 30 |
| 4.7 | 6.3*12 | 41 | 6.3*12 | 40 | 8*12 | 40 | 8*12 | 45 | ||||
| 200V | 0.47 | 6.3*12 | 8 | 1 | 6.3*12 | 17 | 2.2 | 6.3*12 | 27 | 3.3 | 6.3*12 | 30 |
| 4.7 | 6.3*12 | 41 | 6.3*12 | 40 | 8*12 | 40 | 8*12 | 45 | ||||
| 220V | 0.47 | 6.3*12 | 8 | 1 | 6.3*12 | 17 | 2.2 | 6.3*12 | 27 | 3.3 | 6.3*12 | 30 |
| 4.7 | 6.3*12 | 41 | 6.3*12 | 40 | 8*12 | 40 | 8*12 | 45 | ||||
| 250V | 0.47 | 6.3*12 | 8 | 1 | 6.3*12 | 17 | 2.2 | 6.3*12 | 27 | 3.3 | 6.3*12 | 30 |
| 4.7 | 6.3*12 | 41 | 6.3*12 | 40 | 8*12 | 40 | 8*12 | 45 | ||||
| 350V | 0.47 | 6.3*12 | 8 | 1 | 6.3*12 | 18 | 6.3*12 | 19 | 6.3*12 | 15 | ||
| 2.2 | 6.3*12 | 25 | 8*12 | 30 | 8*12 | 29 | 8*12 | 24 | ||||
| 400V | 0.47 | 6.3*12 | 8 | 1 | 6.3*12 | 18 | 6.3*12 | 19 | 6.3*12 | 15 | ||
| 2.2 | 6.3*12 | 25 | 8*12 | 30 | 8*12 | 29 | 8*12 | 24 | ||||
| 420V | 0.47 | 6.3*12 | 8 | 1 | 6.3*12 | 18 | 6.3*12 | 19 | 6.3*12 | 15 | ||
| 2.2 | 6.3*12 | 25 | 8*12 | 30 | 8*12 | 29 | 8*12 | 24 | ||||
| 450V | 0.47 | 6.3*12 | 8 | 1 | 6.3*12 | 18 | 6.3*12 | 19 | 6.3*12 | 15 | ||
| 2.2 | 6.3*12 | 25 | 8*12 | 30 | 8*12 | 29 | 8*12 | 24 |
Usage Precautions
Circuit Design: Use within rated performance, avoid high temperature, overcurrent, overvoltage, reverse voltage, and rapid charge/discharge. Ensure proper isolation between capacitor terminals and circuit. Select capacitors with a lifespan comparable to the machine's. Consider consulting R&D for special requirements.
Component Installation: Ensure terminals do not short circuit. Avoid contact with water, oil, condensation, harmful gases, direct sunlight, ozone, UV, or radiation. Do not expose to vibration or shock exceeding specifications. Ensure correct polarity and hole spacing. Avoid placing other components above the capacitor's safety vent. Prevent heat-generating components near the capacitor.
Assembly and Use: Do not allow terminals to touch directly. Prevent short circuits. Ensure the installation environment is free from water, oil, condensation, harmful gases, direct sunlight, ozone, UV, or radiation. Avoid vibration and shock exceeding specifications.
Soldering: Prevent solder from adhering to non-terminal areas. Follow specified soldering conditions (temperature, time, number of times). Do not immerse the capacitor body in solder solution. Avoid other products falling and touching the capacitor during soldering.
Storage: Store indoors at 5-30 with humidity below 75%. Avoid environments prohibited during assembly and use.
Disposal: Puncture or crush and incinerate, or hand over to specialized recycling personnel.
Accidental Situations: If the safety vent opens during assembly, cut off the main power. If the vent operates, hot gas may be ejected; keep face away, flush eyes with water if exposed, wash skin with soap if electrolyte contacts it. Do not ingest electrolyte.
Fumigation Treatment: Be cautious with halide fumigation (e.g., potassium bromide) for overseas export, as it may cause corrosion. Ensure fumigant does not directly contact products and allow for thorough drying.
2410121312_Chengx-KM227M010E11RR0VH2FP0_C43321.pdf
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