Manufacturer Part Number
PAL16L8-7PC
Manufacturer
rochester-electronics
Introduction
The PAL16L8-7PC is a high-performance Programmable Array Logic (PAL) device designed for use in a wide range of digital applications. It allows for the implementation of customizable logic functions, offering flexibility and efficiency in system design.
Product Features and Performance
Based on proven PAL architecture for reliable logic functions
High-speed performance with minimal propagation delays
Low power consumption for energy-efficient operation
User-programmable logic device, enabling customization for specific applications
Offers a reconfigurable logic solution, facilitating rapid prototyping and design iterations
Product Advantages
Versatility in application due to programmable nature
Efficient power usage enhances system reliability
Quick response time improves overall system performance
Ease of design modifications without the need for hardware changes
Key Technical Parameters
Logic type: Programmable Array Logic (PAL)
Number of macrocells: 16
Propagation delay time
Operating voltage
I/O pins count
Programmable logic type: Fuse-based
Quality and Safety Features
Rigorous testing protocols to ensure high reliability and performance standards
Compliant with industry safety and quality norms
Compatibility
Compatible with standard programming equipment and software tools
Easily integrates into various digital systems without compatibility issues
Application Areas
Digital signal processing
Custom logic circuits for embedded systems
Control systems in automotive, aviation, and industrial applications
Communication protocols implementation
Consumer electronics for specific function enhancement
Product Lifecycle
Currently in active status with no immediate plans for discontinuation
Ongoing support for replacements and upgrades available
Several Key Reasons to Choose This Product
Customizable logic solutions cater to specific application needs, offering versatility.
High-speed operation ensures efficient system performance.
Low power consumption contributes to system stability and longevity.
Ease of programmability facilitates quick design changes and prototyping.
Continued product lifecycle support ensures long-term applicability and investment protection.