The ERJ14NF6801U is a thick film chip resistor manufactured by Panasonic. This resistor is designed for general-purpose applications, offering reliable performance and stability in a compact surface mount package. It is part of the ERJ series, known for its robust construction and consistent electrical characteristics.

Applications:

• Current limiting in LED circuits
• Voltage dividers in sensor circuits
• Pull-up and pull-down resistors in digital logic
• Termination resistors in signal lines
• Feedback resistors in amplifier circuits

Features:

• Surface Mount Technology (SMT) for automated assembly
• High reliability and stability
• Compact size (typically 1206)
• RoHS compliant
• Resistance value: 6.8 kΩ (6801 = 680 x 10^1)

Benefits:

• Reduced assembly costs due to automated placement
• Consistent performance across a wide range of operating conditions
• Space-saving design for high-density circuit boards
• Environmentally friendly due to RoHS compliance
• Precise resistance value for accurate circuit operation

Additional Details:

The ERJ14NF6801U has a resistance value of 6.8 kΩ (kiloohms). The '6801' marking indicates the resistance value: 680 x 10^1 ohms. The ERJ14NF6801U has a power rating of 0.25W. The tolerance is typically ±1%, and the temperature coefficient of resistance (TCR) is usually ±100 ppm/°C. It is designed to operate within a specified temperature range, generally from -55°C to +155°C. Packaging is generally on tape and reel for automated pick-and-place assembly.

Adhering to proper soldering techniques, as outlined in the manufacturer's datasheet, is crucial for ensuring reliable performance and preventing damage to the resistor during assembly. Storage conditions should also be controlled to prevent moisture absorption, which can affect the resistor's long-term stability. Using the correct reflow soldering profile is critical for surface mount components like this resistor. The resistor is suitable for a broad range of general purpose electronics applications, providing stable and reliable resistance in a small footprint.