XC4006E-2PG156I Overview
Fpga chips is supplied in the 156-BCPGA package. FPGAs of this type consist of FIELD PROGRAMMABLE GATE ARRAY components. The I/Os are designed to facilitate a more coherent transfer of data. There are 608 logic elements/cells to form a fundamental building block. An electrical supply voltage of 5V powers it. Field Programmable Gate Arrays family FPGA part. An attachment Through Hole allows the FPGA module to be attached to the development board. With a supply voltage of 4.5V~5.5V, this device operates with ease. As part of the XC4000E/X series of FPGAs, it is a type of FPGA. The operating temperature should be kept at -40°C~100°C TJ when operating. This device is equipped with 125 separate outputs, which makes it a very versatile device. There is an FPGA model contained in Tray in order to conserve space. Fpga chips is designed wFpga chipsh 156 terminations. The RAM bits that this device offer is 8192. XC4006E is the base part number that can be used to identify related parts. For the program to work properly, the RAM si1kBe of this FPGA module must reach 1kB GB in order to ensure normal operation. This cable has 156 pins and is designed to connect to a computer. 256 LABs/CLBs are configured on this FPGA. Providing that this FPGA is mounted in Surface Mount, it will be able to perform according to its specifications in a flawless manner. There is a 5V power supply that is required to operate it. There are 6000 gates in its basic building block. Fpga semiconductor is equipped wfpga semiconductorh 156 pin count. CLBs are the building blocks of its architecture. In order for the building block to work, fpga semiconductor consists of 608 logic cells.
XC4006E-2PG156I Features
125 I/Os
Up to 8192 RAM bits
156 LABs/CLBs
XC4006E-2PG156I Applications
There are a lot of Xilinx Inc. XC4006E-2PG156I FPGAs applications.
- Industrial IoT
- Medical Electronics
- Industrial,Medical and Scientific Instruments
- ASIC prototyping
- Software-defined radios
- Medical ultrasounds
- Telecommunication
- Data center hardware accelerators
- Filtering and communication encoding
- Digital signal processing
