XC5VFX70T-1FF665I datasheet
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XC5VFX70T-1FF665I Xilinx
Xilinx
Xilinx stands as a preeminent purveyor of All Programmable Field-Programmable Gate Arrays (FPGAs), System on Chips (SoCs), Multiprocessor System on Chips (MPSoCs), and Three-Dimensional Integrated Circuits (3D ICs). AMD stands in a distinctive position, facilitating applications that embody a dual nature of software-defined sophistication and hardware-honed optimization. This empowering of industries finds its zenith in the realms of Cloud Computing, 5G Wireless Connectivity, Embedded Vision, and the sprawling domain of Industrial Internet of Things (IIoT).
View All Product from XilinxThe Xilinx® Virtex® UltraScale+™ FPGAs are available in -3, -2, -1 speed grades, with -3E devices having the highest performance. The -2LE devices can operate at a VCCINT voltage at 0.85V or 0.72V and provide lower maximum static power. When operated at VCCINT = 0.85V, using -2LE devices, the speed specification for the L devices is the same as the -2I speed grade. When operated at VCCINT = 0.72V, the -2LE performance and static and dynamic power is reduced.
DC and AC characteristics are specified in extended (E), industrial (I), and military (M) temperature ranges. Except the operating temperature range or unless otherwise noted, all the DC and AC electrical parameters are the same for a particular speed grade (that is, the timing characteristics of a -1 speed grade extended device are the same as for a -1 speed grade industrial device). However, only selected speed grades and/or devices are available in each temperature range.
Absolute Maximum Ratings
Recommended Operating Conditions
DC Characteristics Over Recommended Operating Conditions
Quiescent Supply Current
The recommended power-on sequence is VCCINT, VCCINT_IO/VCCBRAM, VCCAUX/VCCAUX_IO, and VCCO to achieve minimum current draw and ensure that the I/Os are 3-stated at power-on. The recommended power-off sequence is the reverse of the power-on sequence. If VCCINT and VCCINT_IO/VCCBRAM have the same recommended voltage levels, they can be powered by the same supply and ramped simultaneously. VCCINT_IO must be connected to VCCBRAM. If VCCAUX/VCCAUX_IO and VCCO have the same recommended voltage levels, they can be powered by the same supply and ramped simultaneously. VCCAUX and VCCAUX_IO must be connected together. VCCADC and VREF can be powered at any time and have no power-up sequencing requirements.
For devices with HBM, the HBM power supplies can be powered on/off after or in-parallel with the core power supplies. The required power-on sequence is VCCAUX_HBM and VCCINT_IO followed by VCC_HBM/VCC_IO_HBM. VCC_IO_HBM must be connected to VCC_HBM. VCCAUX_HBM must be equal to or higher than VCC_HBM at all times.
The recommended power-off sequence is the reverse of the power-on sequence. The recommended power-on sequence to achieve minimum current draw for the GTY or GTM transceivers is VCCINT, VCCINT_GT, VMGTAVCC, VMGTAVTT OR VMGTAVCC, VCCINT, VCCINT_GT, VMGTAVTT. There is no recommended sequencing for VMGTVCCAUX. Both VMGTAVCC and VCCINT can be ramped simultaneously. When VCCINT and VCCINT_GT have the same recommended operating conditions, VCCINT and VCCINT_GT can be connected to the same power regulation circuit. When VCCINT and VCCINT_GT are connected to separate regulation circuits, VCCINT_GT must be within the recommended operating condition before device configuration.The recommended power-off sequence is the reverse of the power-on sequence to achieve minimum current draw. If these recommended sequences are not met, current drawn from VMGTAVTT can be higher than specifications during power-up and power-down.
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Mfr Part # | Price ($) | Quantity Available | |
---|---|---|---|
XC5VFX70T-1FF1136CIC FPGA 640 I/O 1136FCBGA | 303.16 |
2646
Marketplace | |
XC5VFX30T-1FF665CESIC FPGA 360 I/O 665FCBGA | 220.48 |
2091
Marketplace | |
XC5VFX30T-2FF665IIC FPGA 360 I/O 665FCBGA | 46.85 |
187
Marketplace | |
XC5VFX70T-1FF665CIC FPGA 360 I/O 665FCBGA | 316.94 |
3403
Marketplace |
TYPE | DESCRIPTION | Select all |
---|---|---|
Series | Virtex®-5 FXT | |
Package | Tray | |
Product Status | Active | |
Programmable | Not Verified | |
Number of LABs/CLBs | 5600 | |
Number of Logic Elements/Cells | 71680 | |
Total RAM Bits | 5455872 | |
Number of I/O | 360 | |
Voltage - Supply | 0.95V ~ 1.05V | |
Mounting Type | Surface Mount | |
Operating Temperature | -40°C ~ 100°C (TJ) | |
Package / Case | 665-BBGA, FCBGA | |
Supplier Device Package | 665-FCBGA (27x27) |
Xilinx
Xilinx stands as a preeminent purveyor of All Programmable Field-Programmable Gate Arrays (FPGAs), System on Chips (SoCs), Multiprocessor System on Chips (MPSoCs), and Three-Dimensional Integrated Circuits (3D ICs). AMD stands in a distinctive position, facilitating applications that embody a dual nature of software-defined sophistication and hardware-honed optimization. This empowering of industries finds its zenith in the realms of Cloud Computing, 5G Wireless Connectivity, Embedded Vision, and the sprawling domain of Industrial Internet of Things (IIoT).
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