M1AFS1500-2FGG256 Overview
A 256-LBGA package is provided with this component. Fpga chips is programmed wFpga chipsh 119 I/Os for transferring data in a more coherent manner. An attachment Surface Mount allows the FPGA module to be attached to the development board. In order to operate it, it requires a voltage supply of 1.425V~1.575V . The FPGA belongs to the Fusion? series of FPGAs, and it is one type of FPGA. Operating temperatures should be maintained within the 0°C~85°C TJ range at all times when the unit is in use. Using the Tray layout, this FPGA model can be contained in a very small amount of space. Fpga electronics is worth mentioning that this device provides 276480 bfpga electronics s of RAM. You can find related parts by using the part number M1AFS1500, which is its base part number. This FPGA module has a RAM si33.8kBe of 33.8kB that is sufficient to make sure that the program is able to run normally. This cable has 256 pins and is designed to connect to a computer. 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. Its flexibility is fully utilized when operated with a supply voltage of 1.5V. When this module is operated at its maximum operating temperature, it reaches 70°C. Fpga electronics is necessary to maintain an operating temperature higher than 0°C. A basic building block for this type of building block consists of 1500000 gates. There are 38400 registers used to store and transfer data. A maximum voltage of 1.575V can be supplied to it. The unit is capable of working with a minimum supply voltage of 1.425V. Fpga semiconductor is possible for this FPGA to reach speeds of up to 1.47059GHz. It employs 256-FPBGA (17x17) as its supplier device package.
M1AFS1500-2FGG256 Features
119 I/Os
Up to 276480 RAM bits
256 LABs/CLBs
70°C gates
38400 registers
M1AFS1500-2FGG256 Applications
There are a lot of Microsemi Corporation M1AFS1500-2FGG256 FPGAs applications.
- Medical Electronics
- Embedded Vision
- Device controllers
- Integrating multiple SPLDs
- Radar and Sensors
- Distributed Monetary Systems
- Automotive
- Broadcast
- Aircraft navigation
- Defense Applications
