Product Overview
The SAMXON GF Series Aluminum Electrolytic Capacitors are polar, foil-type capacitors designed for use in electronic equipment. Meeting IEC60384 standards, these capacitors are constructed with an aluminum case, sealed with end seal rubber, and enclosed in a PET vinyl sleeve. They are suitable for a wide operating temperature range and offer reliable performance in various electronic applications.
Product Attributes
- Brand: SAMXON
- Manufacturer: MAN YUE ELECTRONICS COMPANY LIMITED
- Series: GF Series
- Construction Type: Single ended, foil type
- Sleeve Material: PET
- Sealing Material: Rubber
- Lead Line Material: Tinned CP wire (Pb Free)
- Terminal Material: Aluminum wire
- Case Material: Aluminum case
- Separator Material: Electrolyte paper
Technical Specifications
| SAMXON Part No. | WV (Vdc) | Cap. (F) | Cap tolerance | Temp. range() | tan (120Hz, 20) | Leakage Current (A, 2min) | Max Ripple Current at 105 100kHz (mA rms) | Impedance at 20 100kHz (max) | Load lifetime (Hrs) | Dimension (mm) DL | F | d |
|---|---|---|---|---|---|---|---|---|---|---|---|---|
| EGF158M1CG20RR**P | 16 | 1500 | -20%~+20% | -40~105 | 0.16 | 240 | 1400 | 0.046 | 3000 | 10X20 | 5.0 | 0.6 |
General Characteristics
| Item | Details |
|---|---|
| Rated voltage (WV) | 6.3, 10, 16, 25, 35, 50, 63, 100 V.DC |
| Surge voltage (SV) | 8, 13, 20, 32, 44, 63, 79, 125 V.DC |
| Nominal capacitance (Tolerance) | Measured at 120Hz12Hz, 0.5Vrms, 202. Shall be within specified tolerance. |
| Leakage current | Measured after 2 min with a 1k 10 protective resistor. Refer to Table 1. |
| tan | Measured at 120Hz12Hz, 0.5Vrms, 202. Refer to Table 1. |
| Terminal strength (Tensile) | 0.5mm and less: 5 N (0.51 kgf); Over 0.5mm to 0.8mm: 10 N (1.0 kgf) for 101 seconds. |
| Terminal strength (Bending) | 0.5mm and less: 2.5 N (0.25 kgf); Over 0.5mm to 0.8mm: 5 N (0.51 kgf) for 90 bend. |
| Operating temperature range | -40 to 105 |
Performance Tests
| Test Type | Conditions | Criteria |
|---|---|---|
| Load life test | 105C 2, DC bias voltage + rated ripple current for Table 1, 16 hours recovery. | Leakage current: Satisfied 4.3; Capacitance Change: Within 25%; tan: Not more than 150% of specified value; Appearance: No electrolyte leakage. |
| Shelf life test | 1052 for 1000+48/0 hours, no voltage. 4~8 hours stabilization. Rated DC voltage applied for 30min with 1k100 resistor. | Leakage current: Satisfied 4.3; Capacitance Change: Within 25%; tan: Not more than 150% of specified value; Appearance: No electrolyte leakage. |
| Surge test | 1000 cycles of 305s charge and 5 min 30s discharge with (100 50)/CR (k) resistor. 15~35. | Leakage current: Not more than specified value; Capacitance Change: Within 15%; tan: Not more than specified value; Appearance: No electrolyte leakage. |
| Vibration test | 10Hz ~ 55Hz, 1.5mm peak to peak amplitude, 2 hours in 3 directions. | No intermittent contacts, open or short circuiting. No damage of tab terminals or electrodes. No mechanical damage, electrolyte leakage or swelling. Markings legible. |
| Solderability test | 2453C, 2mm dipping depth, 252.5mm/s dipping speed, 30.5s dipping time. | Minimum 95% of immersed surface coated. |
| Resistance to solder heat test | 2605 for 101s or 40010 for 3+0/-1s, 1.5~2.0mm from body. 1~2 hours at normal temp/humidity. | Leakage current: Not more than specified value; Capacitance Change: Within 10%; tan: Not more than specified value; Appearance: No electrolyte leakage. |
| Change of temperature test | 5 cycles: (1)+20 (3 min), (2)-40/-25 (302 min), (3)+105 (302 min). | Leakage current: Not more than specified value; tan: Not more than specified value; Appearance: No electrolyte leakage. |
| Damp heat test | 90~95% RH at 402 for 5008 hours. | Leakage current: Not more than specified value; Capacitance Change: Within 20%; tan: Not more than 120% of specified value; Appearance: No electrolyte leakage. |
| Vent test (for 6.3 with vent) | DC test with reversed polarity. Current applied as per Table 3. | Vent operates with no dangerous conditions (flames, dispersion). |
Application Guidelines
Circuit Design: Electrical parameters vary with temperature and frequency. Designers should consider effects on leakage current, capacitance, and ESR. Avoid reverse voltage, overvoltage, and exceeding maximum ripple current. For series/parallel capacitor use, ensure proper wiring and consider shunt resistors.
Capacitor Mounting: Avoid wiring patterns under capacitors. Ensure correct hole spacing to prevent lead stress. Provide clearance for pressure relief vents. Avoid locating high voltage/current wiring above vents. Ensure electrical isolation between cathode and case, and anode terminal and other paths.
Capacitor Handling: Do not reuse capacitors from used equipment. Discharge transient recovery voltage if necessary. Gradually apply rated voltage with a current-limiting resistor for capacitors stored long-term. Avoid using dropped, dented, or crushed capacitors. Verify capacitance, voltage, and polarity before insertion. Avoid stress on leads during insertion and soldering. Do not immerse capacitor body in solder bath. Observe soldering temperature and time specifications. Avoid touching capacitor body with soldering iron. Avoid excessive stress on leads after soldering. Do not use capacitor as a handle. Avoid striking capacitors after assembly.
Circuit Board Cleaning: Use suitable cleaning solvents for up to 5 minutes at 60 maximum. Thoroughly rinse and dry. Avoid halogenated, alkali, petroleum-based solvents, xylene, acetone, and 1-1-1 trichloroethane unless specified. Monitor contamination levels. Dry thoroughly after cleaning.
Mounting Adhesives and Coating Agents: Avoid materials containing halogenated solvents or chloroprene-based polymers. Dry thoroughly after application.
Precautions for using capacitors: Do not store or use in extreme temperatures, direct contact with water/oil, high humidity, toxic gases, ozone, radiation, or excessive vibration/shock. Avoid touching terminals due to potential electric shock. Do not short circuit terminals with conductive materials.
Emergency Procedures: If vent operates, immediately turn off equipment. Avoid contact with escaping electrolyte gas. Flush eyes with water if electrolyte enters. Gargle with water if ingested. Wash skin with soap and water if electrolyte contacts skin.
Long Term Storage: Leakage current increases with long storage. Recondition capacitors after one year by applying rated voltage in series with a 1000 resistor for 30 minutes. If date code is over eighteen months, return for confirmation.
Capacitor Disposal: Incinerate after crushing or puncturing to prevent explosion. Incinerate at high temperatures to prevent toxic gas release. Dispose of as solid waste, following local laws.
2411271947_Man-Yue-Tech-EGF158M1CG20RR_C726189.pdf
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