XC4010E-4PG191C Overview
This package is included in the QFP package and is available for purchase. In this kind of FPGA, FIELD PROGRAMMABLE GATE ARRAY is used. The I/Os are designed to facilitate a more coherent transfer of data. Logic elements/cells form the fundamental building block of a computer. 5V volts power it. With this device, you will be able to make use of 160 outputs. Using the Bulk layout, this FPGA model can be contained in a very small amount of space. The total number of terminations is 191. During the configuration of this FPGA module, the RAM si1.6kBe reaches 1.6kB to ensure that the program runs normally. The device is designed with 100 pins in total. Fpga electronics is possible for this FPGA to perform as per fpga electronics s specifications as long as fpga electronics is mounted in Surface Mount direction. In the case of 5V supply voltage, designers can take full advantage of its flexibility. It is powered by a 5V battery, which can be purchased separately. In this module, 85°C is the maximum operating temperature at which fpga electronics can operate. Over 0°C, the operating temperature should be higher. Fpga semiconductor is made up of 10000 gates as fpga semiconductors basic building block. The device has a total of 191 pins on fpga semiconductor. In its basic building block, it is composed of 400 logic blocks (LABs), which are called building blocks. A crystal oscillating at 111MHz is one of the most common components of this device. A total of 1120 registers are used for storing and transferring data between them. CLBs are the building blocks of its architecture. It is composed of 400 logic cells which serve as the building blocks of the application. There are 7000 equivalent gates in the FPGA that implement the design.
XC4010E-4PG191C Features
77 I/Os
100 LABs/CLBs
85°C gates
400 logic blocks (LABs)
1120 registers
XC4010E-4PG191C Applications
There are a lot of Xilinx
XC4010E-4PG191C FPGAs applications.
- ASIC prototyping
- Medical imaging
- Computer hardware emulation
- Integrating multiple SPLDs
- Voice recognition
- Cryptography
- Filtering and communication encoding
- Aerospace and Defense
- Medical Electronics
- Audio
