Manufacturer Part Number
EPM9400RC240-15
Manufacturer
Intel
Introduction
The EPM9400RC240-15 is a high-performance Embedded CPLD from Intel's MAX® 9000 series, designed for sophisticated programmable logic applications requiring fast operational speeds and high logic capacity.
Product Features and Performance
In System Programmable logic device
Maximum delay time of 15 ns
Supports internal voltage supply between 4.75V to 5.25V
Includes 25 logic elements/blocks
Features 400 macrocells and 8000 gates
Provides 159 input/output ports
Operates within a temperature range of 0°C to 70°C
Utilizes surface mount technology
Enclosed in a 240-BFQFP Exposed Pad package
Product Advantages
High macrocell count increases the flexibility and complexity of logic designs
Large number of I/O options facilitates extensive interfacing with other components
In-system programmability allows for easy updates and modifications
Key Technical Parameters
Delay Time (tpd) Max: 15 ns
Voltage Supply Internal: 4.75V ~ 5.25V
Number of Logic Elements/Blocks: 25
Number of Macrocells: 400
Number of Gates: 8000
Number of I/O: 159
Operating Temperature: 0°C ~ 70°C
Quality and Safety Features
Robust exposed pad packaging enhances thermal dissipation
Built to function within a wide range of environmental conditions
Compatibility
Designed to integrate seamlessly within a variety of electronic assemblies utilizing surface mount technology
Application Areas
Ideal for telecommunication, automotive industries, and consumer electronics where complex logic solutions are required
Product Lifecycle
Status: Obsolete
Note: Potential buyers should consider alternatives due to discontinuation, though replacement and upgrade options might be available under Intel's newer product lines
Several Key Reasons to Choose This Product
High level of integration reduces the need for additional components
Robust operational temperature range ensuring reliability in varying environments
High I/O count makes it adaptable for complex electronic circuits
In-system programmability ensures future-proof designs against changes in logic requirements