LTC6957HMS-4#PBF - Analog Devices Inc.

Manufacturer Part Number

LTC6957HMS-4#PBF

Manufacturer

analog-devices

Introduction

The LTC6957HMS-4#PBF is a clock buffer designed to distribute clock signals with high precision and low jitter.

Product Features and Performance

Fanout Buffer (Distribution) type

Handles one circuit with a 1:2 input to output ratio

Supports differential and single-ended signals

Compatible with multiple input types: CML, CMOS, LVDS, LVPECL

Provides CMOS output

Delivers frequencies up to 300 MHz

Operates with a power supply voltage between 3.15V and 3.45V

Operates efficiently in a wide temperature range from -40°C to 125°C

Surface mount technology for easy PCB integration

Packaged in a compact 12-TSSOP format

Product Advantages

Flexible input signal compatibility improves system integration

High maximum frequency support accommodates a broad range of applications

Low voltage operation for energy-efficient designs

Wide operating temperature range ensures reliability under extreme conditions

Compact form factor for space-sensitive applications

Key Technical Parameters

Number of Circuits: 1

Ratio Input:Output: 1:2

Differential Input:Output: Yes/No

Input Types: CML, CMOS, LVDS, LVPECL

Output Type: CMOS

Frequency Max: 300 MHz

Voltage Supply: 3.15V ~ 3.45V

Operating Temperature: -40°C ~ 125°C

Mounting Type: Surface Mount

Package / Case: 12-TSSOP

Quality and Safety Features

Constructed to meet high-quality standards for reliability

Rigorous testing ensures performance across specified temperature ranges

Compatibility

Supports a variety of input signal standards for flexible design options

Compatible with systems requiring low-voltage clock signal distribution

Application Areas

Telecommunications

Networking equipment

Data processing systems

Industrial control systems

Product Lifecycle

Status: Last Time Buy

Indication of nearing end-of-life with recommendations for replacements or upgrades available upon request

Several Key Reasons to Choose This Product

High precision and low jitter improve system performance

Broad compatibility with various input signals simplifies system design

Energy-efficient operation lowers overall system power consumption

Robust performance in extreme temperature conditions ensures reliability

Compact package enables design flexibility in space-constrained applications

End-of-life status accompanied by support for transition to next-generation solutions