|Part Life Cycle Code
|Number of Inputs
|Number of Outputs
|Number of Logic Cells
|Number of Dedicated Inputs
|Number of I/O Lines
|Programmable Logic Type
|4 DEDICATED INPUTS, 148 I/O
|1008 LOGIC ELEMENTS; CONFIGURABLE I/O OPERATION WITH 3.3V OR 5V
|Moisture Sensitivity Level
|Peak Reflow Temperature (Cel)
|Time@Peak Reflow Temperature-Max (s)
|Number of Terminals
|Package Body Material
|Package Equivalence Code
|FLATPACK, FINE PITCH
|Part Package Code
|Reach Compliance Code
EPF81188AQC208-3 Datasheet Download
The chip model EPF81188AQC208-3 is a versatile and powerful tool for developers of modern networks and intelligent systems. It is a field programmable gate array (FPGA) chip, designed to be used in a wide variety of applications, from embedded systems to high-performance network systems. Its features include a high-performance processor, a wide range of memory and I/O ports, and a range of advanced features such as embedded processors, dynamic reconfiguration, and high-speed data transfer.
The EPF81188AQC208-3 can be used in networks and intelligent systems to provide high-performance computing, communications, and data storage solutions. It can be used to build powerful and reliable networks, or to create intelligent systems that can interact with the environment and respond to user input. In particular, its dynamic reconfiguration capability allows it to adapt to changing conditions and optimize performance, making it a great choice for developing intelligent systems.
The EPF81188AQC208-3 is also suitable for the development and popularization of future intelligent robots. It can be used to create robots that can interact with their environment and respond to user input, and can also be used to create robots that are able to learn and adapt to changing conditions. Its high-performance processor and wide range of memory and I/O ports make it ideal for developing robots with sophisticated capabilities.
In order to use the EPF81188AQC208-3 effectively, developers need to have a good understanding of its features and capabilities. They should also be familiar with the product description and specific design requirements of the chip model, as well as with actual case studies and precautions. Furthermore, they should be knowledgeable in the areas of artificial intelligence, robotics, and computer networks, in order to properly utilize the chip model in the development of intelligent systems.
Overall, the EPF81188AQC208-3 is a powerful and versatile chip model that can be used to develop a wide range of networks and intelligent systems. Its dynamic reconfiguration capability and wide range of features make it ideal for creating powerful and reliable networks, as well as intelligent systems that can interact with their environment and respond to user input. With the proper knowledge and expertise, developers can use the EPF81188AQC208-3 to create sophisticated robots that can learn and adapt to changing conditions, paving the way for the development and popularization of future intelligent robots.