EP4CE55F23I7N
| Manufacturer | Altera |
| Description | IC FPGA 324 I/O 484FBGA |
| Category | Integrated Circuit |
| Package | BGA-484 |
| Status | New & original |
| Ship From | HK/SHENZHEN |
| Stocks | 10,000 |
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Description
The EP4CE55F23I7N is a specific model of FPGA (Field-Programmable Gate Array) from the Cyclone IV E family, manufactured by Intel (formerly Altera). This FPGA offers 54,880 logic elements and 484 user I/O pins, similar to the EP4CE55F23C8N model. However, the “I7N” in the part number indicates a different package type or speed grade.
As for the application of the EP4CE55F23I7N FPGA, it can be used in various domains where FPGAs are commonly employed. Some of these applications include:
1. Embedded Systems: FPGAs are widely used in embedded systems for tasks such as system control, data processing, and interfacing with peripherals. They offer flexibility in implementing custom logic and can be tailored to meet the specific requirements of the embedded application.
2. Digital Signal Processing (DSP): FPGAs find application in DSP systems for tasks such as filtering, image and audio processing, and real-time data analysis. They provide high computational power, parallelism, and flexibility, making them suitable for demanding DSP algorithms.
3. Wireless Communication: FPGAs are commonly used in wireless communication systems for tasks such as baseband processing, modulation/demodulation, and channel coding/decoding. They offer the ability to implement custom algorithms and protocols, enabling efficient and flexible wireless communication solutions.
4. Test and Measurement Equipment: FPGAs find application in test and measurement equipment for tasks such as signal generation, signal analysis, and protocol testing. They provide the necessary performance, reconfigurability, and real-time capabilities required in test and measurement applications.
5. Robotics and Automation: FPGAs are extensively used in robotics and automation systems for tasks such as motor control, sensor interfacing, and real-time control. They offer precise control, high-speed processing, and the ability to interface with various sensors and actuators, enabling advanced robotics and automation functionalities.
6. Data Center Acceleration: FPGAs are increasingly used in data centers for tasks such as data compression, encryption, and machine learning acceleration. They offer high performance, energy efficiency, and the ability to offload specific computational tasks from general-purpose processors.
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