XC7S25-1FTGB196C
Manufacturer: Xilinx
XC7S25-1FTGB196C is an FPGA chip launched by XILINX. It has the characteristics of high speed, low power consumption, and strong flexibility. It is widely used in communication, embedded, automotive electronics, aerospace and other fields.
The main parameters:
- Series: Spartan-7
- Model: XC7S25-1FTGB196C
- Packaging: FBGA-196
- Process: 28nm
- Number of Logical Units: 23,360
- RAM capacity: 1.3 Mb
- Number of PLLs: 4
- Maximum clock frequency: 450 MHz
- Operating voltage: 0.95V - 1.1V
- Operating temperature: -40°C to 100°C
- Features: low power consumption, high speed, high integration, strong programmability, low latency, etc.
The details page of the FPGA chip can be viewed on the official website of XILINX, mainly including product overview, application fields, features, parameters, block diagram, support resources and other information. Among them, support resources include development tools, IP cores, documentation, design routines, etc., which can provide users with comprehensive technical support and a convenient development environment, and help users quickly realize efficient and reliable system design.
Stock:9897
Minimum Order:1
XC7S25-1FTGB196C is an FPGA chip launched by XILINX. It has the characteristics of high speed, low power consumption, and strong flexibility. It is widely used in communication, embedded, automotive electronics, aerospace and other fields.
The main parameters:
- Series: Spartan-7
- Model: XC7S25-1FTGB196C
- Packaging: FBGA-196
- Process: 28nm
- Number of Logical Units: 23,360
- RAM capacity: 1.3 Mb
- Number of PLLs: 4
- Maximum clock frequency: 450 MHz
- Operating voltage: 0.95V - 1.1V
- Operating temperature: -40°C to 100°C
- Features: low power consumption, high speed, high integration, strong programmability, low latency, etc.
The details page of the FPGA chip can be viewed on the official website of XILINX, mainly including product overview, application fields, features, parameters, block diagram, support resources and other information. Among them, support resources include development tools, IP cores, documentation, design routines, etc., which can provide users with comprehensive technical support and a convenient development environment, and help users quickly realize efficient and reliable system design.