AX2000-2FG896 Overview
There are two packages that contain fpga chips: 896-BGA package and X package. A total of 586 I/Os allow data to be transferred in a more coherent manner. Logic blocks consist of 21504 logic elements/cells. FPGA modules can be attached to development boards using a Surface Mount-connector. In order for it to operate, the supply voltage must be 1.425V~1.575V . This is a type of FPGA that is part of the Axcelerator series of FPGAs. The operating temperature should be kept at 0°C~70°C TA when operating. There is an FPGA model contained in Tray in order to conserve space. This device is equipped with 294912 RAM bits in terms of its RAM si294912e. Related parts can be found by using its base part number AX2000. This FPGA module has a RAM si36kBe of 36kB that is sufficient to make sure that the program is able to run normally. In order to make it work, 896 pins have been designed. A total of 32256 LABs/CLBs are included in this FPGA. As long as this FPGA is mounted in Surface Mount, it could work fantastically according to its specifications. A 1.5V-volt supply allows designers to fully utilize its flexibility. When this module is operated at its maximum operating temperature, it reaches 70°C. 0°C should be higher than the operating temperature. There are 2000000 gates in its basic building block. There are a total of 21504 logic blocks (LABs) that form the basic building blocks of this program. During the process of storing and transferring data, 21504 registers are used. A frequency of 870MHz provides high efficiency. A maximum supply voltage of 1.575V can be applied to this product. With a minimum supply voltage of 1.425V, it can operate. This FPGA can get as fast as 870MHz. There is a device package provided by 896-FBGA (31x31), which is the supplier.
AX2000-2FG896 Features
586 I/Os
Up to 294912 RAM bits
896 LABs/CLBs
70°C gates
21504 logic blocks (LABs)
21504 registers
Operating from a frequency of 870MHz
AX2000-2FG896 Applications
There are a lot of Microsemi Corporation AX2000-2FG896 FPGAs applications.
- Integrating multiple SPLDs
- Distributed Monetary Systems
- Random logic
- Medical Applications
- Medical ultrasounds
- Security systems
- Software-defined radio
- Wireless Communications
- Enterprise networking
- ASIC prototyping
