The XC4085XLA-09BGG432I is a high-capacity Field Programmable Gate Array (FPGA) from the legendary Xilinx XC4000XLA family, now under AMD’s Adaptive and Embedded Computing Group. Featuring 85,000 gates, a 432-pin BGA package, and industrial-grade temperature ratings, this device remains a trusted solution for engineers working on legacy system maintenance, ASIC prototyping, industrial control, and embedded logic applications. If you are searching for a reliable, reprogrammable Xilinx FPGA with proven performance at 227 MHz, the XC4085XLA-09BGG432I delivers where it counts.
What Is the XC4085XLA-09BGG432I?
The XC4085XLA-09BGG432I is a member of the XC4000XLA series — Xilinx’s high-performance, high-capacity FPGA family built on a refined 0.35 µm CMOS process. The “XLA” designation indicates the enhanced low-power XLA sub-family, which improves upon earlier XC4000XL variants by offering lower power consumption, enhanced routing efficiency, and better signal integrity at 3.3V core voltage.
The part number breaks down as follows:
| Field |
Value |
Meaning |
| XC4085 |
Device Family |
XC4000 series, 85K gate density |
| XLA |
Sub-Family |
Extended Low-power Architecture |
| 09 |
Speed Grade |
–9 ns system clock-to-out |
| BGG432 |
Package |
Ball Grid Array, 432 pins |
| I |
Temperature |
Industrial grade (–40°C to +100°C) |
XC4085XLA-09BGG432I Key Specifications
Electrical and Logic Specifications
| Parameter |
Value |
| FPGA Family |
XC4000XLA |
| Total Gate Count |
85,000 |
| Logic Cells (CLBs) |
7,448 |
| Maximum Frequency |
227 MHz |
| Process Technology |
0.35 µm CMOS |
| Core Supply Voltage |
3.3V |
| I/O Standards Supported |
5V TTL, 3.3V LVTTL, PCI |
Package and Physical Specifications
| Parameter |
Value |
| Package Type |
BGG (Ball Grid Array) |
| Pin Count |
432 |
| Temperature Range |
–40°C to +100°C (Industrial) |
| Mounting Style |
Surface Mount (SMT) |
| RoHS Compliance |
Yes (Lead-Free) |
Configuration and Programming
| Parameter |
Value |
| Configuration Interface |
JTAG, Master/Slave Serial |
| Recommended Tool |
Xilinx ISE WebPACK / Foundation |
| Bitstream Storage |
External PROM (in-field reprogrammable) |
| RAM Type |
SRAM-based (volatile) |
XC4085XLA-09BGG432I Part Number Decoder
Understanding the part number is essential when sourcing or substituting this component:
| Segment |
Meaning |
| XC |
Xilinx FPGA product line |
| 4085 |
85K equivalent gate count in the XC4000 series |
| XLA |
XLA sub-family (enhanced low voltage architecture) |
| -09 |
Speed grade: –9 (faster than –10, slower than –08) |
| BGG |
Package code: Ball Grid Array (fine-pitch) |
| 432 |
Pin count: 432 balls |
| I |
Temperature grade: Industrial (–40°C to +100°C) |
XC4085XLA-09BGG432I vs. Similar Variants
Engineers often compare the 432-pin BGG variant against other package options in the XC4085XLA lineup. The table below clarifies the key differences:
| Part Number |
Package |
Pin Count |
Speed Grade |
Temp Grade |
| XC4085XLA-09BGG432I |
BGG (BGA) |
432 |
–9 |
Industrial |
| XC4085XLA-09BG352I |
BG (BGA) |
352 |
–9 |
Industrial |
| XC4085XLA-09BG560C |
BG (BGA) |
560 |
–9 |
Commercial |
| XC4085XLA-08HQ304I |
HQ (QFP) |
304 |
–8 |
Industrial |
| XC4085XLA-09BG432C |
BG (BGA) |
432 |
–9 |
Commercial |
The -09BGG432I variant is the industrial-grade version of the popular 432-pin BGA form factor, making it the preferred choice for harsh-environment and mission-critical applications.
Key Features of the XC4085XLA-09BGG432I
High-Density Configurable Logic Blocks (CLBs)
With 7,448 Configurable Logic Blocks (CLBs), the XC4085XLA-09BGG432I offers substantial on-chip logic resources. Each CLB contains look-up tables (LUTs), flip-flops, and carry/control logic, enabling implementation of complex state machines, arithmetic functions, and datapath pipelines without the cost of custom ASICs.
Abundant On-Chip RAM
The XC4000XLA family supports distributed RAM across its CLBs, allowing designers to implement fast on-chip memory buffers, FIFOs, and register files. This eliminates the need for external SRAM in many embedded control and data-buffering applications.
Flexible I/O Architecture
The device supports multiple I/O voltage standards including 5V TTL, 3.3V LVTTL, and PCI-compliant I/O. Programmable slew rate control and drive strength settings allow engineers to optimize signal integrity for their specific PCB layout and bus requirements.
Industrial Temperature Range
The “I” suffix confirms operation across –40°C to +100°C, making the XC4085XLA-09BGG432I suitable for automotive, industrial automation, aerospace, and defense applications where commercial-grade parts would be unreliable.
In-System Reprogrammability
Being SRAM-based, the XC4085XLA-09BGG432I loads its configuration from an external PROM at power-up, and can be reconfigured remotely via JTAG. This enables in-field firmware updates without physical device replacement — a major advantage for deployed systems.
Applications of the XC4085XLA-09BGG432I
Industrial Automation and Control Systems
Industrial PLCs, motor control interfaces, and sensor data acquisition boards benefit from the XC4085XLA’s reprogrammable logic and robust I/O. Its industrial temperature rating ensures reliable operation in factory floor environments.
ASIC Prototyping and VLSI Emulation
The high gate count makes this device ideal for hardware designers who need to emulate ASIC designs before tape-out. Engineers can validate RTL designs, perform timing simulations, and iterate quickly without incurring mask costs.
Digital Signal Processing (DSP)
With up to 227 MHz operation and abundant CLB resources, the XC4085XLA-09BGG432I can implement FIR/IIR filters, FFT engines, and pulse-width modulation logic for signal processing pipelines in communications and imaging systems.
Networking and Data Communication Equipment
The device’s PCI-compatible I/O and high logic density make it well-suited for network interface cards, protocol converters, and custom bus bridge implementations.
Legacy System Maintenance and Board Repair
For engineers maintaining existing designs that originally used the XC4085XLA series, this part provides a reliable drop-in source. Stocking the I-grade (industrial) variant covers both commercial and industrial replacement needs.
XC4085XLA-09BGG432I Programming and Configuration Guide
Step 1 — Connect the JTAG Interface
Connect a Xilinx Platform Cable USB II (or compatible JTAG cable) to the JTAG header on your board. Verify that TCK, TMS, TDI, TDO, and GND are all properly connected. Ensure the board is powered and jumpers are set for JTAG configuration mode.
Step 2 — Design Your Logic with HDL
Use Xilinx ISE WebPACK (the supported tool for the XC4000XLA family) to write your design in VHDL or Verilog. Note that Xilinx Vivado does not support this device — ISE is required.
Step 3 — Synthesize and Implement
Run synthesis, place-and-route, and generate a bitstream in ISE. Target the XC4085XLA device and select the BGG432 package. Use the –9 speed grade for timing analysis to match this specific variant.
Step 4 — Program the Device
Use Xilinx iMPACT to download the bitstream via JTAG. For permanent storage, program an external configuration PROM (e.g., XC18V04 or compatible) using JTAG-based PROM programming mode. The FPGA will auto-configure from the PROM on every power-up cycle.
Ordering and Sourcing Information
| Attribute |
Detail |
| Manufacturer |
AMD Xilinx (formerly Xilinx Inc.) |
| Part Number |
XC4085XLA-09BGG432I |
| Product Status |
Obsolete / Legacy (available via authorized distributors) |
| Package |
432-Pin BGG BGA |
| Packaging Options |
Tray |
| RoHS |
Compliant |
Note: The XC4085XLA-09BGG432I is classified as an obsolete part. Buyers are strongly advised to source from authorized and reputable distributors to avoid counterfeit components. Always request full traceability documentation and certificates of conformance when ordering legacy FPGA devices.
Frequently Asked Questions (FAQ)
Is the XC4085XLA-09BGG432I still in production?
No. The XC4085XLA series has reached end-of-life status. However, this part remains available through authorized distributors, independent component suppliers, and reel/tray stock. Buyers should verify authenticity before purchasing.
What is the difference between XC4085XLA-09BGG432I and XC4085XLA-09BG432I?
The “BGG” and “BG” designations can refer to slightly different ball grid array variants in Xilinx’s naming scheme (fine-pitch BGG vs. standard BG). Always verify the exact PCB land pattern against the Xilinx package specifications before layout.
Can Vivado be used to program the XC4085XLA-09BGG432I?
No. Xilinx Vivado does not support the XC4000XLA family. Xilinx ISE WebPACK or the older Foundation tools must be used for design implementation and bitstream generation.
What configuration PROM is compatible with this device?
Xilinx XC18V04, XC17V16, and compatible serial PROMs are commonly used with the XC4000XLA series. Consult the XC4085XLA datasheet for the full list of supported configuration devices and timing requirements.
Does the XC4085XLA-09BGG432I support PCI bus interfacing?
Yes. The device includes PCI-compatible I/O standards, making it suitable for implementing PCI bus interfaces when proper termination and signal integrity practices are followed in PCB design.
Summary
The XC4085XLA-09BGG432I is a proven, high-density FPGA well-suited for engineers who need 85,000 gates of reprogrammable logic in a 432-pin industrial-grade BGA package. Whether the application involves replacing an aging board component, prototyping a new ASIC design, or building industrial control logic that must survive extreme temperatures, this device from AMD Xilinx’s XC4000XLA family delivers the density, speed, and flexibility required. Source carefully from verified suppliers and leverage Xilinx ISE to unlock the full capability of this device.
