ILHB1206ER601V - Vishay Dale

Manufacturer Part Number

ILHB1206ER601V

Manufacturer

Vishay-Dale

Introduction

The ILHB1206ER601V is a component from Vishay-Dale’s ILHB series designed for filtering applications in circuits, specifically targeting issues with electromagnetic interference.

Product Features and Performance

Surface Mount Ferrite Bead

Designed to reduce electromagnetic interference (EMI) in a circuit

Operates effectively within a broad temperature range (-55°C to 125°C)

Impedance of 600 Ohms at 100 MHz ensures effective performance at high frequency

Maximum current rating of 2.5A to support robust electrical applications

Low DC resistance, 100 mOhm maximum, which minimizes power loss

Product Advantages

High impedance at relevant frequencies to reduce noise effectively

Capable of handling significant current rates, beneficial for diverse applications

Low DC resistance helps in enhancing energy efficiency

Built to withstand extreme temperature conditions

Key Technical Parameters

Impedance: 600 Ohms @ 100 MHz

Current Rating (Max): 2.5A

DC Resistance (DCR) (Max): 100 mOhm

Operating Temperature: -55°C to +125°C

Size: 0.126" L x 0.063" W (3.20mm x 1.60mm)

Mounting Type: Surface Mount

Height (Max): 0.051" (1.30mm)

Quality and Safety Features

Constructed to operate reliably within specified extreme temperatures

Manufactured by Vishay-Dale, known for high-quality components

Compatibility

Designed for universal usage in circuits needing EMI filtering, it’s appropriate for all standard PCBs with a surface mount setup.

Application Areas

Electronics circuitry in automotive

Industrial machinery

Communication devices, including smartphones and network devices

Consumer electronics

Product Lifecycle

Currently active with no imminent discontinuation noted

Ongoing support and availability of parts are assured

Several Key Reasons to Choose This Product

High performance in filtering EMI at significant frequencies

Robust design capable of supporting higher electrical currents

Efficient in power usage due to low DC resistance

Reliable over a wide range of operational temperatures

Easily integrated into various PCB designs due to surface mount form factor