Manufacturer Part Number
ADF4118BRUZ-RL7
Manufacturer
Analog Devices
Introduction
High-performance frequency synthesizer for RF applications
Product Features and Performance
RF Clock/Frequency Synthesizer
Integrated Phase-Locked Loop (PLL)
Supports CMOS and TTL inputs
Clock output signal available
Single circuit integration
Input to Output ratio of 2:1
Selectable differential input/output
Up to 3GHz maximum operating frequency
Optional divider/multiplier function
Wide voltage supply range from 2.7V to 5.5V
Designed for surface mount technology
Compatible with 16-TSSOP packaging
Product Advantages
High-frequency operation for RF systems
Flexible input signal compatibility
Stable output clock signal generation
Scalable input-to-output ratio
Support for different signaling standards
Low voltage supply operation for varied designs
Robust temperature range for diverse environments
Key Technical Parameters
3GHz maximum frequency
7V to 5.5V supply voltage
-40°C to 85°C operating temperature
16-TSSOP package
Quality and Safety Features
Manufactured by a reputable company
Ensures signal integrity for RF applications
Reliable performance across temperature ranges
Compliance with industry-standard packaging
Compatibility
Supports CMOS and TTL level inputs
Usable with various electronic components supporting 16-TSSOP
Application Areas
Wireless infrastructure
Telecommunications
Satellite communications
Test equipment
Data acquisition systems
Product Lifecycle
Active product status
Not indicated as nearing discontinuation
Options for replacements or upgrades possibly available as Analog Devices provides a broad range of similar products
Key Reasons to Choose This Product
High integration suitable for advanced RF systems
Ensures precision in clock generation for critical applications
Flexible for both high and low voltage systems
Resilient across a wide range of operating conditions
Wide applicability across different technology sectors
Consistent product availability, backed by Analog Devices’ reputation
Potential for long-term support and product stability