The D6NF1G960P1BT-Z is a multilayer ceramic capacitor (MLCC) manufactured by Taiyo Yuden. It is designed for general-purpose applications in electronic circuits, offering stable capacitance over a wide range of temperatures and frequencies.

Applications:

• Bypass capacitors: Used to decouple power supply lines and filter out noise in digital and analog circuits.
• Smoothing capacitors: Reduces voltage ripple in power supplies and DC-DC converters.
• Filtering capacitors: Removes unwanted frequencies in signal processing circuits.
• Timing circuits: Used in RC timing circuits for oscillators and timers.
• General-purpose decoupling: Provides stable power and signal integrity in a variety of electronic devices.

Features:

• High capacitance stability: Offers stable capacitance over a wide range of temperatures and frequencies.
• Low equivalent series resistance (ESR): Minimizes power loss and improves efficiency.
• Small size: Allows for compact circuit designs.
• High reliability: Ensures long-term stable performance.
• RoHS compliant: Meets environmental standards for hazardous substance restrictions.

Benefits:

• Improved circuit performance: Stable capacitance ensures reliable circuit operation.
• Reduced noise: Effective decoupling minimizes noise and interference in electronic circuits.
• Increased efficiency: Low ESR minimizes power loss, improving overall system efficiency.
• Compact design: Small size allows for high-density circuit layouts.
• Long-term reliability: High-quality construction ensures stable performance over time.

Technical Specifications:

The D6NF1G960P1BT-Z is a ceramic capacitor with a capacitance value of 96pF. It has a voltage rating of typically 50V. The operating temperature range is typically -55°C to +125°C. The package size is typically 0603 (1608 metric). It features a X7R dielectric, offering capacitance stability of ±15% over the operating temperature range.

This capacitor is well-suited for a variety of general-purpose applications where stable capacitance and high reliability are required.