Manufacturer Part Number
9FG108EGILF
Manufacturer
Renesas Electronics America
Introduction
The 9FG108EGILF is a high precision, application-specific clock timing generator designed for Intel CPU server, PCIe, and SATA applications.
Product Features and Performance
Precision clock timing solution
Incorporates a Phase-Locked Loop (PLL) technology
Supports Intel CPU Server, PCI Express (PCIe), SATA applications
Accepts clock and crystal inputs
Provides HCSL output
Single integrated circuit solution
Ratio of Input to Output is 1:9
Does not support differential input, but supports differential output
Product Advantages
Enhances system performance with high frequency precision
Improves signal integrity for high-speed data transfer
Facilitates design with its small 48-TFSOP footprint
Reliable operation in extended temperatures ranging from -40°C to 85°C
Key Technical Parameters
Frequency range up to 400MHz
Voltage supply between 3.135V and 3.465V
Surface mount 48-TFSOP packaging
Active product status indicated
Quality and Safety Features
Operates reliably in extreme temperatures
Manufactured by a reputable semiconductor company
Compliance with industry standards for electronic components
Compatibility
Designed specifically for Intel CPU servers, PCIe, and SATA interfaces
Surface mount compatible for PCB integration
Application Areas
Server motherboards
Data center infrastructure
High-speed networking equipment
Storage systems using SATA interface
Product Lifecycle
Product status is active
No indication of nearing discontinuation
Potential availability of replacements or upgrades not specified
Several Key Reasons to Choose This Product
Optimized for high-speed Intel CPU servers and PCIe applications
High maximum frequency support of up to 400MHz for performance-critical tasks
Robust temperature range ensuring reliability in various environments
9:1 input to output ratio for high throughput applications
Produced by Renesas, a leader in the semiconductor industry
Easy integration with surface mount technology
Supports differential output for improved signal quality