The NCB1806E800TR040F is a common mode choke manufactured by NIC Components Corp. This component is designed to suppress common-mode noise in various electronic devices and systems. It is particularly useful in applications where electromagnetic interference (EMI) needs to be reduced to meet regulatory requirements and improve signal integrity.

Applications

• Power Supplies: Used to suppress common-mode noise in AC-DC and DC-DC power supplies.
• Data Lines: Employed in USB, HDMI, and Ethernet lines to reduce EMI and improve data transmission quality.
• Audio Equipment: Used to minimize noise in audio signal paths.
• Industrial Equipment: Applied in control systems and other industrial electronics to reduce interference.
• Automotive Electronics: Used in various automotive systems to comply with EMI standards.

Features

• Common Mode Choke: Designed to attenuate common-mode noise while allowing differential signals to pass through.
• Compact Size: Small form factor suitable for space-constrained applications.
• High Impedance: Provides high impedance to common-mode currents.
• Surface Mount Technology (SMT): Simplifies assembly and allows for automated manufacturing.
• Wide Frequency Range: Effective over a broad frequency range for versatile noise suppression.

Benefits

• Noise Reduction: Effectively suppresses common-mode noise, improving signal integrity and system performance.
• EMI Compliance: Helps electronic devices meet regulatory EMI standards.
• Reliable Performance: NIC Components' quality manufacturing ensures consistent and dependable performance.
• Simplified Assembly: SMT design enables easy and cost-effective manufacturing.
• Space Saving: Compact size allows for use in small and densely packed circuit boards.

Technical Specifications

The NCB1806E800TR040F has a specific impedance at a given frequency, typically around 80 Ohms at 100 MHz. It is designed for surface mount assembly using standard SMT processes. The component is RoHS compliant. The operating temperature range is generally -40°C to +85°C. The current rating and DC resistance will vary depending on the specific model and should be verified using the manufacturer's datasheet.