The ERA6AEB821V is a surface mount chip resistor manufactured by Panasonic, known for its reliability and precision. As part of the ERA series, it offers stable resistance for a wide range of electronic applications. Designed for automated assembly, this resistor provides consistent performance and is commonly used in various circuit designs.

Applications:

• Current limiting in LED driver circuits
• Voltage dividers in analog signal processing
• Feedback resistors in amplifier stages
• Pull-up and pull-down resistors in digital logic circuits
• Termination resistors in communication interfaces

Features:

• Surface Mount Technology (SMT)
• High reliability and stability
• Compact size (typically 0805 or 1206, verify with datasheet)
• RoHS compliant
• Resistance value: 820 Ω (821 = 82 x 10^1)

Benefits:

• Reduces manufacturing costs through automated assembly
• Ensures stable performance under varying operating conditions
• Conserves board space in high-density electronic assemblies
• Environmentally friendly due to RoHS compliance
• Offers accurate resistance for precision circuit applications

Additional Details:

The ERA6AEB821V has a resistance value of 820 Ω (ohms). The marking '821' on the resistor indicates the resistance: 82 x 10^1 ohms. It generally features a power rating of 0.125W or 0.25W, contingent on the dimensions and series. The tolerance is typically ±5%, verify with the component's datasheet. It is engineered for performance within a defined temperature range, generally -55°C to +155°C. Temperature Coefficient of Resistance (TCR) is an attribute reflecting resistance variance with temperature, typically ±100 ppm/°C or ±200 ppm/°C. Packaging is usually tape and reel for pick-and-place assembly.

Ensure proper soldering techniques as detailed in the datasheet for reliable assembly, and proper reflow soldering profiles for the SMT component. This resistor is versatile for a broad range of general purpose electronics uses, providing stable and reliable resistance. Storage should be controlled to prevent moisture absorption, as this can impact long-term stability.