Share
In Stock : 0
Please send RFQ , we will respond immediately.
XCR3384XL-12PQG208I Specifications
-
TypeParameter
-
Number of Gates9000
-
Number of Logic Elements/Blocks24
-
Supplier Device Package208-PQFP (28x28)
-
Package / Case208-BFQFP
-
Mounting TypeSurface Mount
-
Operating Temperature-40°C ~ 85°C (TA)
-
Number of I/O172
-
Number of Macrocells384
-
Voltage Supply - Internal2.7V ~ 3.6V
-
Delay Time tpd(1) Max10.8 ns
-
Programmable TypeIn System Programmable (min 1K program/erase cycles)
-
DigiKey ProgrammableNot Verified
-
PackagingTray
-
Product StatusObsolete
-
SeriesCoolRunner XPLA3
The XCR3384XL-12PQG208I is a specific model of integrated circuit (IC) chip manufactured by Xilinx. It belongs to the XCR3000XL family of Field-Programmable Gate Arrays (FPGAs). Here are some advantages and application scenarios of this IC chip:Advantages: 1. High-density and high-performance: The XCR3384XL-12PQG208I offers a large number of logic cells, I/O pins, and memory blocks, allowing for complex digital designs to be implemented efficiently. 2. Flexibility: Being an FPGA, it is programmable and can be reconfigured to perform different functions or adapt to changing requirements without the need for hardware changes. 3. Low power consumption: The XCR3384XL-12PQG208I is designed to be power-efficient, making it suitable for applications where power consumption is a concern. 4. Fast processing: It supports high-speed data processing and can handle complex algorithms and computations.Application scenarios: 1. Digital signal processing: The XCR3384XL-12PQG208I can be used in applications that require real-time processing of digital signals, such as audio and video processing, telecommunications, and radar systems. 2. Embedded systems: It can be utilized in embedded systems where custom logic is required, such as industrial control systems, automotive electronics, and medical devices. 3. Prototyping and development: The XCR3384XL-12PQG208I is often used by engineers and designers for rapid prototyping and development of digital circuits and systems. 4. High-performance computing: It can be employed in high-performance computing applications, including data centers, scientific research, and simulation.It's important to note that the specific advantages and application scenarios may vary depending on the requirements and design considerations of a particular project.