Manufacturer Part Number
CDCVF111FN
Manufacturer
Texas Instruments
Introduction
High-speed LVPECL fanout buffer designed for clock signal distribution
Product Features and Performance
Fanout Buffer (Distribution) type
1 to 9 signal distribution ratio
Supports differential LVPECL input/output
Maximum operating frequency of 650 MHz
Compatible with 3V to 3.6V power supply
Suitable for operating temperatures from -40°C to 85°C
Surface mount 28-LCC (J-Lead) package
High signal integrity and low jitter
Product Advantages
Provides clean signal distribution for high-speed applications
Robust temperature performance for industrial environments
Minimizes skew and phase jitter, enhancing system reliability
Key Technical Parameters
Number of Circuits: 1
Ratio - Input:Output: 1:9
Differential - Input:Output: Yes/Yes
Input: LVPECL
Output: LVPECL
Frequency - Max: 650 MHz
Voltage - Supply: 3V ~ 3.6V
Operating Temperature: -40°C ~ 85°C
Mounting Type: Surface Mount
Package / Case: 28-LCC (J-Lead)
Quality and Safety Features
Designed to stringent industry standards for signal integrity
Built with Texas Instruments' proven manufacturing quality
Compatibility
Compatible with systems requiring LVPECL level clock signals
Application Areas
Telecommunications
Data processing
Networking equipment
Servers and storage systems
Industrial electronics
Product Lifecycle
Active status, not nearing discontinuation
Replacements or upgrades may be available as newer models are developed
Several Key Reasons to Choose This Product
High-frequency operation up to 650 MHz allows for versatile use in various applications
1:9 fanout capability enables distribution of one clock input to multiple destinations without signal degradation
Reliable performance across commercial and industrial temperature ranges ensures versatility in deployment
Manufactured by Texas Instruments, a leader in semiconductor solutions, ensuring product reliability and availability
The 28-PLCC package is compatible with standard surface mount technology, simplifying PCB design and assembly processes