Product Overview

This specification applies to polar Aluminum electrolytic capacitors (foil type) designed for use in electronic equipment. These capacitors meet IEC60384 standards and are constructed with a single-ended type, featuring terminals fixed to anode and cathode foil, wound together with paper, impregnated with electrolyte, and enclosed in an aluminum case. The unit is sealed with end seal rubber and finished with a vinyl sleeve. They are suitable for general electronic equipment applications.

Product Attributes

• Brand: SAMXON
• Series: GF Series
• Construction Type: Single ended, foil type
• Case Material: Aluminum
• Sleeve Material: PET
• Sealing Material: Rubber
• Lead Wire Material: Tinned CP wire (Pb Free)
• Terminal Material: Aluminum wire
• Separator Material: Electrolyte paper
• Standard Compliance: IEC60384

Technical Specifications

General Characteristics

Environment-related Substances

Refer to the latest document of Environment-related Substances standard (WI-HSPM-QA-072) for controlled substances including Heavy metals, Chlorinated organic compounds, Brominated organic compounds, etc.

Application Guidelines

Circuit Design: Electrical parameters vary with temperature and frequency. Consider effects on leakage current, capacitance, and ESR. Avoid reverse voltage, over voltage, and exceeding ripple current limits. Use DC bipolar capacitors for changing polarity. For charge/discharge applications, consult manufacturer. When using capacitors in series or parallel, consider voltage and current imbalances and use shunt resistors if necessary.

Capacitor Mounting: Ensure proper clearance for pressure relief vents. Avoid circuit board runs under the capacitor. Match circuit board hole spacing to capacitor lead spacing. For screw terminal capacitors, do not orient with the terminal side facing downwards. Ensure electrical isolation between cathode/case and anode terminal/other paths.

Capacitor Handling: Capacitors have a finite life; do not reuse from used equipment. Discharge transient recovery voltage with a resistor. Gradually apply rated voltage with a current-limiting resistor for capacitors with increased leakage current after long storage. Avoid using dropped, dented, or crushed capacitors. Verify capacitance, voltage, and polarity before insertion. Avoid stressing leads during insertion or auto insertion equipment clinching. Follow soldering temperature and time specifications. Avoid touching the capacitor body with a soldering iron. Do not immerse the capacitor body into the solder bath during flow soldering. Avoid rapid temperature rises during preheat and resin bonding. Avoid movement of the capacitor after soldering. Do not use the capacitor as a handle. Avoid striking the capacitor after assembly.

Circuit Board Cleaning: Use suitable cleaning solvents and temperatures, rinse and dry thoroughly. Avoid halogenated, alkali, petroleum-based solvents, Xylene, Acetone, and 1-1-1 trichloroethane unless specified. Monitor contamination levels of cleaning solvents. Dry thoroughly after cleaning to prevent residual solvents.

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 outside rated temperature ranges, in contact with water/salt water/oil, high humidity, toxic gases, ozone, radiation, UV rays, or exceeding vibration/shock requirements. Avoid touching terminals or shorting terminals with conductive materials. In case of pressure relief vent operation, immediately turn off equipment. Avoid contact with escaping electrolyte gas. Flush eyes, gargle mouth, or wash skin if contact occurs.

Long Term Storage: Leakage current increases with storage. Recondition capacitors stored for over one year by applying rated voltage in series with a 1000 resistor for 30 minutes. Return products with date codes over eighteen months for confirmation.

Capacitor Disposal: Incinerate after crushing or puncturing the can wall to prevent explosion. Incinerate at high temperatures to prevent release of toxic gases. Dispose of as solid waste, following local laws.