Manufacturer Part Number
9ZXL0831AKLF
Manufacturer
Renesas Electronics America
Introduction
The 9ZXL0831AKLF is a specialized clock timing device designed specifically for applications requiring high-performance clock signal distribution and frequency translation, such as Intel QPI and PCIe interfaces.
Product Features and Performance
Equipped with a Phase-Locked Loop (PLL) for stable frequency synchronization
Supports high-speed Intel QPI and PCI Express (PCIe) applications
Provides a single clock input and eight HCSL outputs
Designed for differential input and output signaling
Supports maximum frequency operation up to 147MHz
Surface mount package for easy PCB integration
Product Advantages
High integration with 1:8 input to output ratio enhances system simplification
Compact 48-VFQFN exposed pad package reduces PCB space requirements
Differential signaling capability for improved noise immunity and reliable high-speed data transmission
Key Technical Parameters
Number of Circuits: 1
Ratio Input:Output: 1:8
Differential Input:Output: Yes/Yes
Frequency Max: 147MHz
Voltage Supply: 3.135V ~ 3.465V
Operating Temperature: 0°C ~ 70°C
Quality and Safety Features
Operates within a standard voltage supply range ensuring stable performance
Built to function reliably within a standard operating temperature range
Compatibility
Specifically designed for use with Intel QPI and PCI Express (PCIe) standards
Application Areas
High-performance computing systems
Data centers
Networking and communications infrastructure
Product Lifecycle
Status: Active
This product is currently active with no immediate plans for discontinuation, and ongoing support is available for upgrades and replacements.
Several Key Reasons to Choose This Product
Precision-designed for demanding high-speed applications
Offers significant space savings with a compact package
High-output capability simplifies system design
Engineered by Renesas, a leader in semiconductor solutions
Robust operational temperature and voltage ranges ensure reliability in a variety of environments.