XC7A100T-2FGG484C
Product Specifications
XC7A100T-2FGG484C - AMD Artix-7 FPGA
In Stock - Ready to Ship
The XC7A100T-2FGG484C is a mid-range Artix-7 FPGA from AMD Xilinx, built on 28nm HPL process technology. With 101,440 logic cells, 240 DSP slices, 4.86 Mb block RAM, and 4 GTX transceivers supporting up to 10.3 Gb/s, it delivers excellent fabric density and I/O bandwidth in a compact 484-FCBGA package. The -2 speed grade provides mid-range performance, and the commercial temperature range (0C to +85C) covers most indoor and lab-based applications.
Key Performance Highlights
Technical Specifications
| Manufacturer | AMD / Xilinx |
| Part Number | XC7A100T-2FGG484C |
| Family | Artix-7 |
| Logic Cells | 101,440 |
| DSP Slices | 240 |
| Block RAM | 4,860 Kb |
| Distributed RAM | 1,188 Kb |
| User I/O Pins | 285 (maximum) |
| GTX Transceivers | 4 (up to 10.3 Gb/s each) |
| Serial Bandwidth | 82 Gb/s (full-duplex) |
| PCIe Interface | x4 Gen2 |
| MMCM / PLL | 6 MMCM + PLL clock tiles |
| Speed Grade | -2 (mid-range performance) |
| Process Technology | 28nm HPL (High-Performance, Low-Power) |
| Supply Voltage | 1.0V core (VCCINT) |
| Operating Temperature | 0C to +85C (Commercial Grade) |
| Package / Case | 484-FCBGA |
| Configuration | SPI / BPI / SelectMAP / JTAG |
| Mounting | Surface Mount (SMT) |
| RoHS | RoHS Compliant |
Product Details
Product Description
The XC7A100T-2FGG484C belongs to AMD Xilinx's Artix-7 family, built on 28nm HPL technology delivering the best performance-per-watt in its class. With 101,440 logic cells, it handles substantial logic designs while staying cost-effective.
240 DSP slices provide ample signal processing capability for FIR filters, FFTs, and control loops. The 4 GTX transceivers at up to 10.3 Gb/s enable high-speed serial connectivity including PCIe Gen2, SATA, and custom protocols.
The FGG484 package is footprint-compatible with XC7A200T, allowing seamless migration to double the logic density without PCB redesign. The -2 speed grade provides mid-range fabric performance suited for most commercial applications.
Key Applications
Industrial Control - Multi-axis motor control, real-time EtherCAT/PROFINET, PLCs
Embedded Computing - MicroBlaze soft processors, PCIe co-processing, data acquisition
Software-Defined Radio - DDC/DUC processing, protocol stacks
Machine Vision - Camera interfaces, image pre-processing, video analytics
Test & Measurement - Logic analyzers, pattern generators, custom instrumentation
Communication Systems - Protocol bridging, packet processing, interface conversion
Medical Imaging - Ultrasound beamforming, CT reconstruction, X-ray processing
XC7A100T vs XC7A200T Comparison
| Feature | XC7A100T-2FGG484C | XC7A200T-2FBG484I |
|---|---|---|
| Logic Cells | 101,440 | 215,360 |
| DSP Slices | 240 | 740 |
| Block RAM | 4,860 Kb | 13,140 Kb |
| MMCM / PLL | 6 | 10 |
| GTX Transceivers | 4 (10.3 Gb/s) | 4 (10.3 Gb/s) |
| User I/O | 285 | 285 |
| Package | FGG484 | FBG484 |
| Footprint Compatible | Yes | Yes |
| Temperature | 0C to +85C | -40C to +100C |
Why Source XC7A100T-2FGG484C from Superb Automation?
Frequently Asked Questions
What is the XC7A100T-2FGG484C used for?
The XC7A100T-2FGG484C is a mid-range Artix-7 FPGA for industrial control, embedded computing, SDR, machine vision, and protocol bridging. Its 101K logic cells and 240 DSP slices handle substantial logic plus DSP workloads, while 4 GTX transceivers enable high-speed serial links.
What does -2 speed grade and C suffix mean?
-2 = mid-range fabric performance (faster than -1, lower power than -3). C = commercial temperature grade (0C to +85C junction). Suitable for lab, indoor, and datacenter environments.
Can I upgrade from XC7A100T to XC7A200T later?
Yes. FGG484 and FBG484 packages are footprint-compatible between XC7A100T and XC7A200T per Xilinx 7-series documentation. Board-level migration without PCB redesign is supported - a scalable platform path.
How many transceivers does XC7A100T-2FGG484C have?
4 GTX transceivers at up to 10.3 Gb/s each (82 Gb/s full-duplex). Supports PCIe Gen2, SATA, CPRI, and custom serial protocols.
What is the typical power consumption?
The Artix-7 family on 28nm HPL process achieves the best performance-per-watt in the 7-series. Power depends on design utilization, but typical mid-range designs draw under 10W. Use Xilinx Power Estimator (XPE) for accurate design-specific estimates.