New and Original XCKU15P-2FFVA1156E IC Integrated Circuit FPGA Field Programmable Gate Arra
XCKU15P-2FFVA1156E | ||
Digi-Key Part Number | XCKU15P-2FFVA1156E-ND | |
Manufacturer | AMD Xilinx | |
Manufacturer Product Number | XCKU15P-2FFVA1156E | |
Description | IC FPGA 516 I/O 1156FCBGA | |
Manufacturer Standard Lead Time | 52 Weeks | |
Detailed Description | Kintex® UltraScale+™ Field Programmable Gate Array (FPGA) IC 516 82329600 1143450 1156-BBGA, FCBGA | |
Customer Reference | ||
Datasheet | Datasheet |
Product Attributes
TYPE | DESCRIPTION |
Category | Integrated Circuits (ICs) |
Mfr | AMD Xilinx |
Series | Kintex® UltraScale+™ |
Package | Tray |
Product Status | Active |
Number of LABs/CLBs | 65340 |
Number of Logic Elements/Cells | 1143450 |
Total RAM Bits | 82329600 |
Number of I/O | 516 |
Voltage – Supply | 0.825V ~ 0.876V |
Mounting Type | Surface Mount |
Operating Temperature | 0°C ~ 100°C (TJ) |
Package / Case | 1156-BBGA, FCBGA |
Supplier Device Package | 1156-FCBGA (35×35) |
Base Product Number | XCKU15 |
Standard Package |
Environmental & Export Classifications
ATTRIBUTE | DESCRIPTION |
RoHS Status | ROHS3 Compliant |
Moisture Sensitivity Level (MSL) | 4 (72 Hours) |
ECCN | 3A991D |
HTSUS | 8542.39.0001 |
The full name of FPGA is Field-Programmable Gate Array. FPGA is the product of further development on the basis of PAL, GAL, CPLD and other programmable devices. As a semi-customized circuit in the field of ASIC, FPGA not only solves the shortage of customized circuit, but also overcomes the shortcoming of the limited number of the original programmable device gate circuit. In short, an FPGA is a chip that can be programmed to change its internal structure.
Over the past few years, the role of FPGA in the development of networking and telecommunications systems has greatly expanded beyond just being used to bridge logic between different components on an integrated circuit board. FPGA-based solutions offer the functionality, performance, and flexibility of dedicated chip solutions while reducing development costs. With the decreasing cost of FPGA devices and increasing density/performance, today’s FPGAs can cover everything from the lowest end DSLAM and Ethernet switches to the highest end core routers and WDM devices.
The emergence of FPGA to automotive products and automotive electronics technology has brought revolutionary changes, the world’s automotive industry FPGA consumption surge, from the former monolithic FPGA processor developed into a multi-FPGA processor, or FPGA array of high-speed processors. Automotive electronic products based on FPGA can meet the needs of future automotive development, and in the era of multiple models coexist, the general hardware platform built with FPGA as the core can achieve the compatibility through different ways of software loading. With the continuous development of automotive electronic technology in the future, the speed of FPGA will continue to improve.
As for the industrial market, it has become a slightly flat but steadily growing market for the semiconductor industry. Compared with the thrill of consumer products, the industrial market seems more reliable, especially in a tough market like the current one, which gives the semiconductor industry some warmth. For such special powerful devices as FPGA, the stable development of the industrial market has brought it a huge development opportunity.