The F920J106MAAAST is a surface-mount solid electrolytic capacitor manufactured by Nichicon. It belongs to the F92 series, known for its low ESR (Equivalent Series Resistance) and high ripple current capability. These capacitors are well-suited for applications where stable and efficient performance is required, such as in power supplies and decoupling circuits.

Applications

• Decoupling capacitor for microprocessors and ASICs
• Bypass capacitor in power supplies
• Filtering in DC-DC converters
• Noise reduction in electronic circuits
• Portable electronic devices
• Automotive electronics

Features

• Capacitance: 10 µF (Microfarads)
• Voltage Rating: 6.3 VDC
• Low ESR: Typically in the milliohm range
• High ripple current capability
• Operating Temperature Range: -55°C to +105°C
• Surface Mount Device (SMD)
• RoHS Compliant

Benefits

• Reduces voltage ripple and noise in power supplies.
• Improves the stability and performance of electronic circuits.
• Extends the lifespan of electronic devices due to its robust construction.
• Allows for compact circuit designs due to its small size.
• Suitable for use in high-temperature environments.
• Complies with environmental regulations.

Additional Details

The F920J106MAAAST capacitor is designed for automated assembly processes and is suitable for high-density circuit boards. Its low ESR minimizes heat generation and improves efficiency, making it ideal for applications with high ripple currents. The solid electrolytic construction ensures stable performance over a wide temperature range. Proper soldering techniques are crucial for ensuring reliable connection and optimal performance. Refer to the datasheet for detailed specifications and application notes, including soldering profiles and derating information. Its small size and high capacitance make it a versatile component for modern electronic designs. Take into account the reverse voltage capabilities of the device when implementing in any circuit.

This capacitor is an important element in various electronic circuits, delivering steady and efficient performance. Understanding its properties and adhering to implementation guidelines guarantees optimal function.