XC2S30-5CSG144I Overview
There are two packages that contain fpga chips: 144-TFBGA, CSPBGA package and X package. There are FIELD PROGRAMMABLE GATE ARRAY transistors in this type of FPGA. Having 92 I/Os makes data transfers more coherent. Logic elements/cells form the fundamental building block of a computer. Fpga chips is powered from a supply voltage of 2.5V. In this case, the FPGA part belongs to the Field Programmable Gate Arrays family. Surface Mount-connectors can be used to attach this FPGA module to the development board. A supply voltage of 2.375V~2.625V is needed in order for fpga chips to operate. As part of the Spartan?-II series of FPGAs, it is a type of FPGA. During the operation of the system, the operating temperature should remain within the range of -40°C~100°C TJ. There are 92 outputs incorporated in this device. As a space-saving measure, this FPGA model is contained within Tray. The total number of terminations is 144. The RAM bits that are offered by this fpga chips are 24576. It is crucial that the RAM si3kBe of this FPGA module reaches 3kB so that the program can run normally. In order to make it work, 144 pins have been designed. A total of 216 LABs/CLBs make up this FPGA array. I think, as long as this FPGA is mounted in Surface Mount, it could perform excellently according to its specifications as long as you mount it in Surface Mount. When operating with the supply voltage of 2.5V, designers can fully make use of its flexibility. Its basic building block contains 30000 gates. There are a total of 144 pins on this device. Most commonly, this device makes use of an oscillating crystal frequency of 263MHz to operate. CLBs are the building blocks of its architecture. It incorporates 972 logic cells used for the building block.
XC2S30-5CSG144I Features
92 I/Os
Up to 24576 RAM bits
144 LABs/CLBs
XC2S30-5CSG144I Applications
There are a lot of Xilinx Inc. XC2S30-5CSG144I FPGAs applications.
- OpenCL
- Telecommunication
- Aerospace and Defense
- Medical Electronics
- Automotive Applications
- High Performance Computing
- Digital signal processing
- Server Applications
- Computer hardware emulation
- Device controllers
