ON Semiconductor's NUF2015W1T2G is a cutting-edge EMI filter with integrated ESD protection, designed to provide a comprehensive solution for signal integrity and protection in a wide range of applications. This compact component is an essential choice for designers looking to maintain signal integrity while protecting sensitive electronics from electromagnetic interference (EMI) and electrostatic discharge (ESD).

Key Features

• EMI Filtering: The NUF2015W1T2G offers significant EMI filtering capabilities, which are crucial for maintaining the performance of electronic circuits by reducing the high-frequency electromagnetic noise that can cause disruptions.
• ESD Protection: With integrated ESD protection, this device safeguards electronic components against electrostatic discharges, which can cause immediate or latent damage to electronic circuits.
• Low Pass Filter Design: The low pass filter design of the NUF2015W1T2G ensures that unwanted high-frequency signals are attenuated, allowing only signals below a certain frequency to pass, thus improving signal quality.
• Compact Package: The component comes in a small, leadless package that is ideal for space-constrained applications, allowing for high-density board layouts.

Applications

The NUF2015W1T2G is versatile and can be used in a variety of applications, including but not limited to:

• Mobile Devices
• Data Lines for USB Interfaces
• Portable Electronics
• Audio and Video Equipment
• Computer Peripherals

Technical Specifications

• Package: WDFN-6 (1.2x1.2)
• Operating Temperature Range: -40°C to +85°C
• Filter Type: Pi-Filter
• Number of Channels: 5
• ESD Protection Level: ±15kV Air Gap Discharge, ±8kV Contact Discharge

The NUF2015W1T2G from ON Semiconductor is the ideal solution for engineers looking to enhance the reliability and performance of their electronic products. With its integrated ESD protection and EMI filtering capabilities, it ensures that devices are not only shielded from potentially damaging external events but also operate with reduced electromagnetic disturbances.