XC4003E-4PG120C Overview
In the package 120-BCPGA, this product is provided. An FPGA of this type is made up of FIELD PROGRAMMABLE GATE ARRAY gates. Its 80 I/Os help it transfer data more efficiently. In order to construct a fundamental building block, 238 logic elements/cells are required. Power is provided by a 5V-volt supply. The Field Programmable Gate Arrays family of FPGAs includes this part. An attachment Through Hole allows the FPGA module to be attached to the development board. This device is powered by a 4.75V~5.25V battery. This is a type of FPGA that is part of the XC4000E/X series of FPGAs. While operating, the operating temperature should be kept within a range of 0°C~85°C TJ. With this device, you will be able to make use of 80 outputs. In order to save space, this FPGA model has been contained in Tray. Fpga chips is designed wFpga chipsh 120 terminations. This device is equipped with 3200 RAM bits in terms of its RAM si3200e. You can find related parts by using the part number XC4003E, which is its base part number. It is crucial that the RAM si400Be of this FPGA module reaches 400B so that the program can run normally. In this case, there are 120 pins on the board. The FPGA is built as an array of 100 latches or CLBs. Fpga electronics is possible for this FPGA to perform as per fpga electronics s specifications as long as fpga electronics is mounted in Through Hole direction. Fpga electronics operates from a 5V power supply. There are 3000 gates that make up its basic building block. With a total of 120 pins, it is equipped with a high level of security. Fpga semiconductor typically uses a crystal oscillating at 111MHz. Its architecture is based on 100 CLBs. For the building block, it incorporates 100 logic cells that are used to make it work. The FPGA implements the design by using 2000 equivalent gates in order to achieve the desired result.
XC4003E-4PG120C Features
80 I/Os
Up to 3200 RAM bits
120 LABs/CLBs
XC4003E-4PG120C Applications
There are a lot of Xilinx Inc. XC4003E-4PG120C FPGAs applications.
- Secure Communication
- Artificial intelligence (AI)
- Medical ultrasounds
- OpenCL
- Radar and Sensors
- Software-defined radio
- Camera time adjustments
- Medical Applications
- Data center hardware accelerators
- Medical imaging
