The ZCAT2132-1130AP is a clip-on EMI (Electromagnetic Interference) suppressor core manufactured by TDK Corporation. It is designed to suppress noise emanating from cables, thereby preventing electromagnetic interference and ensuring compliance with EMC (Electromagnetic Compatibility) standards.

Applications:

• USB cables
• Power cables
• Signal cables
• Data cables
• Audio cables
• Video cables

Features:

• Clip-on design for easy installation
• Wide frequency range suppression
• Durable plastic housing
• Effective noise suppression
• Compact size

Benefits:

• Reduces electromagnetic interference, ensuring compliance with EMC standards.
• Improves signal integrity by suppressing noise on cables.
• Easy to install and remove without cutting or modifying cables.
• Suitable for a wide range of cable types and applications.
• Enhances system reliability by minimizing noise-related issues.

The ZCAT2132-1130AP EMI suppressor core is constructed from a ferrite material specifically formulated for effective noise suppression across a broad frequency spectrum. The clip-on design allows for quick and easy installation without the need to disconnect or modify cables. The durable plastic housing protects the ferrite core from physical damage and ensures reliable performance in various environmental conditions. This EMI suppressor is particularly effective at attenuating common-mode noise, which is a common source of electromagnetic interference in electronic systems.

The core's dimensions are designed to fit a wide range of cable diameters. Its compact size makes it suitable for use in space-constrained applications. The ZCAT2132-1130AP is commonly used in consumer electronics, industrial equipment, and telecommunications devices to ensure electromagnetic compatibility and prevent noise-related issues. By suppressing noise on cables, this EMI suppressor helps to improve signal integrity, reduce data errors, and enhance the overall reliability of electronic systems. This is achieved by increasing the impedance of the cable to common mode currents.