Manufacturer Part Number
EPM3128ATC144-10N
Manufacturer
Intel
Introduction
Intel's EPM3128ATC144-10N is a high-performance embedded CPLD from the MAX® 3000A series designed for various digital logic applications.
Product Features and Performance
In-system programmable
Low propagation delay of 10 ns
Internal voltage supply range from 3V to 3.6V
Contains 8 logic elements/blocks
Includes 128 macrocells
Provides up to 2500 logic gates
Offers 96 input/output pins
Operational temperature range from 0°C to 70°C
Surface mount 144-LQFP packaging for efficient PCB space utilization
Product Advantages
High integration facilitates complex logic designs
Quick logic propagation speeds up overall system performance
Flexible in-system programmability aids in rapid prototyping and design iterations
Broad operating temperature range suitable for commercial applications
Key Technical Parameters
Delay Time tpd(1) Max: 10 ns
Voltage Supply Internal: 3V ~ 3.6V
Number of Logic Elements/Blocks: 8
Number of Macrocells: 128
Number of Gates: 2500
Number of I/O: 96
Operating Temperature: 0°C ~ 70°C
Quality and Safety Features
Stringent manufacturing quality controls by Intel
Built with reliable materials for long-term performance
Compliance with relevant industry safety standards
Compatibility
Compatible with a variety of digital logic applications requiring CPLDs
Application Areas
Telecommunications
Automotive systems
Industrial control systems
Consumer electronics
Data processing equipment
Product Lifecycle
Obsolete status indicating discontinuation
Potential unavailability of direct replacements or upgrades
Consideration for last-time buys or alternative component selections
Several Key Reasons to Choose This Product
Built by Intel, a trusted manufacturer with a reputation for quality
High logic capacity and I/O counts enable complex and flexible designs
System level programming capabilities support on-the-fly adjustments and updates
Suitable for a wide range of applications due to its versatility and reliability
The surface mount form factor and efficient power usage for high-density PCB designs