Manufacturer Part Number
EPM240T100A5N
Manufacturer
Intel
Introduction
The EPM240T100A5N is a member of the MAX® II family of Embedded CPLDs, providing a low-power, nonvolatile programmable logic solution.
Product Features and Performance
In System Programmable
240 Logic Elements/Blocks
192 Macrocells
80 Input/Output pins
Supports 2.5V and 3.3V internal voltage supply
Low power consumption
High-density programmable logic
Maximum 4.7 ns propagation delay time
Product Advantages
Flexible logic utilization
Fine-grained I/O banking
Fast performance suitable for high-speed interfaces
Nonvolatile memory cells with instant-on capabilities
Ease of integration due to surface mount packaging
Key Technical Parameters
Programmable Type: In System Programmable
Delay Time tpd(1) Max: 4.7 ns
Voltage Supply - Internal: 2.5V, 3.3V
Number of Logic Elements/Blocks: 240
Number of Macrocells: 192
Number of I/O: 80
Operating Temperature: -40°C ~ 125°C (TJ)
Mounting Type: Surface Mount
Package / Case: 100-TQFP
Supplier Device Package: 100-TQFP (14x14)
Quality and Safety Features
Extended temperature range support
Reliable performance in extreme conditions
Compliance with industry safety and quality standards
Compatibility
Compatible with multiple I/O standards
Interoperable with existing systems and various peripherals due to its 100-TQFP packaging format
Application Areas
Automotive systems
Industrial control
Consumer electronics
Telecommunications
Data communications
Medical devices
Product Lifecycle
Active product with ongoing manufacturer support
Availability of replacements or upgrades has not been announced
Several Key Reasons to Choose This Product
Low-power, high-performance CPLD
Robust I/O capabilities to handle complex tasks
Instant-on feature for quick deployment in critical applications
Wide operating temperature range suitable for various environments
Intel is a reputable manufacturer known for quality and longevity in the semiconductor industry
Suited for multi-voltage systems simplifying board design
Ease of programmability and integration into existing designs