Send an Inquiry

To receive a quote for your project, please fill in the following information, and we’ll get back to you promptly.

Name*
Company*
Email Address*
Phone/WhatsApp
Part Number*
Quantity*
Message
Submit Inventory List

Please fill in the following information, and we’ll get back to you promptly.

Name*
Company*
Email Address*
Phone/WhatsApp
Upload My List
Message

AMD XC4008E-3PQ208C

Part No.:
XC4008E-3PQ208C
Manufacturer:
AMD
Category:
FPGAs (Field Programmable Gate Array)
Package:
208-BFQFP
Description:
IC FPGA 144 I/O 208QFP
Quantity:
Payment:
Payment
Shipping:
Shipping

Inventory:2,715

Please send an inquiry. Send us your inquiry, and we will respond immediately.

Part Number
Quantity*
Price
Name*
Company
Email*
Comments

Product details

Overview

XC4008E-3PQ208C from AMD is a XC4000E FPGA device intended for configurable logic, embedded digital processing support, and interface concentration in legacy embedded and communications systems. This orderable option combines the XC4000E architecture with 208-BFQFP, which reflects legacy FPGA package choices used for board-level programmable logic and interface consolidation, allowing the design team to place board-specific logic, buffering, and connectivity functions into one FPGA platform rather than spreading them across multiple fixed-function devices.

XC4000E devices represent an early SRAM-based FPGA family used in legacy programmable logic systems, digital control hardware, and long-life embedded platforms that still rely on established Xilinx footprints. For engineers reviewing the XC4008E-3PQ208C datasheet, XC4008E-3PQ208C pinout, XC4008E-3PQ208C application, or XC4008E-3PQ208C equivalent, this device is widely used in legacy industrial control hardware, communications boards, programmable interface bridges, sustaining-production embedded systems, and board-level digital consolidation designs.

Technical Context

In real hardware, XC4008E-3PQ208C is used as an FPGA platform rather than a fixed-function controller. The selected XC4000E density and speed grade 3 orderable option. matter because logic capacity, I/O reach, and package escape constraints all influence whether the device can absorb the intended control, buffering, and subsystem interface workload.

The exact orderable code is important here: 208-BFQFP affects legacy PCB compatibility and escape routing, speed grade 3 orderable option. affects timing margin, and the commercial temperature option indicated by the suffix. determines whether the part can remain aligned with the target deployment range or sustaining-production qualification need.

Larger XC4000E density point for older programmable logic platforms that need wider I/O and more logic reach. In practice, this means XC4008E-3PQ208C is typically chosen when a program must preserve an established FPGA footprint while still keeping board-specific digital control, interface adaptation, and subsystem glue logic inside one programmable device.

Key Specifications

Parameter Value and Actual Design Meaning
Device Type XC4000E FPGA.
Series XC4000E
Package 208-BFQFP package with bulk packing.
Speed Grade Speed grade 3 orderable option.
Operating Range Commercial temperature option indicated by the suffix.
Architecture Role Legacy field-programmable logic device for configurable digital processing, interface adaptation, and subsystem integration.
Integration Focus Used where board-specific programmable logic, interface glue, and sustaining-production digital control need to be consolidated.
Programming Model Configuration-based FPGA platform within the referenced AMD/Xilinx legacy family.

Pinout & Package

The XC4008E-3PQ208C pinout includes configurable user I/O, power rails, configuration and JTAG connections, and package-specific escape resources within 208-BFQFP package.

For PCB design, the main concerns are footprint continuity, power integrity, configuration access, and escape routing that preserves compatibility with the established board architecture.

Pin / Function PCB Design and Circuit Role
User I/O Pins Configurable pins used for subsystem interfaces, address/data paths, timing signals, and board-specific digital connectivity.
Clock / Timing Pins Used to support synchronous logic behavior and timing distribution inside the programmable fabric.
Configuration / JTAG Pins Support device programming, configuration control, and board-level debug access.
Power Rails Support the core and I/O voltage domains required by the selected legacy FPGA family.
Ground Pins Provide return paths needed for stable digital operation and noise control.

Key Features

  • Configurable FPGA fabric supports board-specific logic, control, and interface integration.
  • Legacy package options help preserve established PCB footprints and routing strategies.
  • Orderable speed grades help align the device with validated board timing margins.
  • Suitable for sustaining-production digital control and interface-consolidation functions.
  • Supports long-life hardware programs that still depend on older programmable logic platforms.
  • Field-programmable behavior preserves updateability across maintenance revisions.

Applications

Legacy Industrial Control Sustaining Communications Boards

Use Scenario: Used in older control hardware that still depends on established programmable logic footprints.

IC Role: Acts as the board-specific digital control and interface layer.

Use Value: Helps preserve validated hardware while keeping logic configurable.

Use Scenario: Used in older communications equipment that still relies on FPGA-based framing, routing, or glue logic.

IC Role: Implements board-specific protocol and control behavior.

Use Value: Supports long-life maintenance without a full digital redesign.

Interface Bridge Logic Embedded Board Consolidation

Use Scenario: Used where multiple peripheral or subsystem interfaces need to be coordinated inside one programmable device.

IC Role: Centralizes digital adaptation and routing functions.

Use Value: Reduces the need for multiple fixed-function logic devices.

Use Scenario: Used to absorb discrete timing, state-machine, and digital support logic in sustaining-production embedded systems.

IC Role: Provides one configurable logic block for board-level digital functions.

Use Value: Keeps older designs maintainable while preserving layout continuity.

Equivalent & Alternatives

When evaluating a XC4008E-3PQ208C equivalent, engineers should compare family generation, package footprint, speed grade, operating range, and whether the replacement preserves legacy board compatibility.

Alternative Part Technical Difference Application Difference Selection Advice
XC4008E-3PQ208C Closely related orderable option in the same or adjacent family density with a different package, speed, or qualification emphasis. Used when the board stays in the same general FPGA family but requires a different orderable fit. Compare package, speed grade, suffix, and validated system margins before substitution.
XC4010E-3PQ160C Alternative programmable logic option that can serve a similar board-level role with a different density or family emphasis. Used in comparable sustaining-production or legacy interface-heavy applications when the design tradeoff shifts. Choose according to footprint compatibility, logic capacity, and platform continuity.

Compared with XC4008E-3PQ208C, XC4008E-3PQ208C selection depends on exact package, speed grade, suffix, and board-compatibility fit. XC4008E-3PQ208C vs XC4010E-3PQ160C selection depends on whether the design should remain in the same legacy FPGA path or shift to another density with different integration tradeoffs.

Quality

XC4008E-3PQ208C should be sourced as original AMD/Xilinx programmable logic inventory through traceable supply channels. Quality checks may include package inspection, top-mark validation, configuration access checks, and board-level bring-up verification.

Production validation should include power-sequencing review, configuration reliability, timing-margin confirmation, and signal-integrity checks around legacy high-activity I/O paths.

Availability

XC4008E-3PQ208C is suitable for sustaining-production programmable logic, subsystem integration, and legacy FPGA-based control or interface functions in embedded, industrial, and communications hardware.

Supply support may include volume procurement planning, scheduled delivery arrangements, traceable sourcing management, and long-term supply support for OEM, industrial electronics, automotive electronics, and embedded product programs. Sample and NPI supply support, as well as urgent in-stock supply support, can also be arranged for prototype builds, pilot runs, and time-critical production needs.

For production builds, confirming package option, speed grade, operating-range suffix, lifecycle status, and sourcing continuity helps reduce procurement risk for older programmable logic families.

Manufacturer

AMD is a semiconductor manufacturer whose adaptive computing and programmable logic portfolio includes FPGA devices, CPLDs, configuration solutions, embedded processing platforms, and related development technologies for industrial, communication, computing, automotive, and embedded electronic systems.

XC4000E devices represent an early SRAM-based FPGA family used in legacy programmable logic systems, digital control hardware, and long-life embedded platforms that still rely on established Xilinx footprints. Larger XC4000E density point for older programmable logic platforms that need wider I/O and more logic reach.

FAQ

What is XC4008E-3PQ208C used for?

XC4008E-3PQ208C is used for legacy configurable logic, interface concentration, and board-level digital control in older FPGA-based hardware.

Where can I find the XC4008E-3PQ208C datasheet download?

The XC4008E-3PQ208C datasheet can be accessed from the confirmed legacy family source used for this repair pass.

What should be considered in XC4008E-3PQ208C pinout design?

Designers should account for legacy footprint continuity, power domains, configuration access, and package-driven routing around board-specific digital signals.

Is XC4008E-3PQ208C a modern FPGA?

No. It belongs to an older Xilinx programmable logic generation that is typically used in sustaining-production or legacy embedded hardware.

What are common XC4008E-3PQ208C equivalent solutions?

Common candidates include XC4008E-3PQ208C and XC4010E-3PQ160C depending on package, family architecture, logic density, and system-level compatibility needs.

XC4008E-3PQ208C Specifications

Product attributes
Attribute value
Manufacturer:
AMD
Series:
XC4000E/X
Package/Case:
208-BFQFP
Packaging:
Bulk
Product Status:
Obsolete
Programmable:
Not Verified
Number of LABs/CLBs:
324
Number of Logic Elements/Cells:
770
Total RAM Bits:
10368
Number of I/O:
144
Number of Gates:
8000
Voltage - Supply:
4.75V ~ 5.25V
Mounting Type:
Surface Mount
Operating Temperature:
0°C ~ 85°C (TJ)
Grade:
-
Qualification:
-
Supplier Device Package:
208-PQFP (28x28)

XC4008E-3PQ208C FAQ

1.How can I place an order for XC4008E-3PQ208C through Aetrix?

Please submit a Request for Quotation (RFQ) for XC4008E-3PQ208C on Aetrix. Our sales agent will provide a competitive quotation and guide you through the order confirmation once you accept the terms.

2.Are the price and stock information for XC4008E-3PQ208C reliable?

The price and inventory of XC4008E-3PQ208C are updated periodically and may fluctuate due to market conditions. Stock and pricing data are typically refreshed every 24 hours. Quotation validity for XC4008E-3PQ208C is usually 5 days.

3.What payment methods are accepted for XC4008E-3PQ208C?

We accept Wire Transfer, PayPal, Credit Card, Western Union, MoneyGram, and Escrow for XC4008E-3PQ208C transactions.

Note: Certain payment methods may incur a processing fee.

4.How is shipping managed for XC4008E-3PQ208C?

XC4008E-3PQ208C orders can be shipped via leading logistics carriers, including DHL, UPS, FedEx, TNT, or Registered Mail.

Once your XC4008E-3PQ208C order is processed, you will receive an email with the shipment details and tracking number.

Note: Tracking information may take up to 24 hours to appear. Express delivery typically takes 3–5 business days.

5.How can I obtain technical support or documentation for XC4008E-3PQ208C?

For technical support, including XC4008E-3PQ208C datasheets, pinout diagrams, or application guidance, please contact our engineering support team. They can provide detailed documentation and assistance for your XC4008E-3PQ208C requirements.

6.How does Aetrix verify that XC4008E-3PQ208C is sourced from the original manufacturer or authorized distributors?

All XC4008E-3PQ208C products on Aetrix are procured from qualified distributors and authorized channels. Our dedicated quality assurance team conducts strict verification, including traceability checks and, if necessary, third-party testing. This ensures that XC4008E-3PQ208C meets industry standards.

7.What is the process for return or replacement of XC4008E-3PQ208C?

All XC4008E-3PQ208C units undergo pre-shipment inspection (PSI). If there is an issue with XC4008E-3PQ208C, returns or replacements are accepted under the following conditions:

1.Quantity discrepancies, incorrect items, or visible external defects (such as breakage or corrosion), acknowledged by Aetrix.

2.The issue is reported within 90 days of delivery.

3.The XC4008E-3PQ208C part is unused and in its original packaging.

Return procedure for XC4008E-3PQ208C:

1.Submit a request within 90 days.

2.Obtain a Return Material Authorization (RMA) from Aetrix.

XC4008E-3PQ208C Tags

  • XC4008E-3PQ208C
  • XC4008E-3PQ208C PDF
  • XC4008E-3PQ208C Datasheet
  • XC4008E-3PQ208C Specifications
  • XC4008E-3PQ208C Images
  • AMD
  • AMD XC4008E-3PQ208C
  • Buy XC4008E-3PQ208C
  • XC4008E-3PQ208C Price
  • XC4008E-3PQ208C Distributor
  • XC4008E-3PQ208C Supplier
  • XC4008E-3PQ208C Wholesale
Related Products
ICE40LP384-SG32
ICE40LP384-SG32

Lattice Semiconductor Corporation

ICE40UL640-CM36AI
ICE40UL640-CM36AI

Lattice Semiconductor Corporation

ICE40UL1K-CM36AI
ICE40UL1K-CM36AI

Lattice Semiconductor Corporation

LCMXO2-256HC-4SG32C
LCMXO2-256HC-4SG32C

Lattice Semiconductor Corporation

10M02DCV36C8G
10M02DCV36C8G

Intel

LCMXO2-256HC-4SG32I
LCMXO2-256HC-4SG32I

Lattice Semiconductor Corporation

ICE5LP1K-SG48ITR
ICE5LP1K-SG48ITR

Lattice Semiconductor Corporation

ICE40LP1K-CM36
ICE40LP1K-CM36

Lattice Semiconductor Corporation

LCMXO2-256ZE-1SG32I
LCMXO2-256ZE-1SG32I

Lattice Semiconductor Corporation

LCMXO2-256HC-4SG48I
LCMXO2-256HC-4SG48I

Lattice Semiconductor Corporation

ICE40LP1K-CM81
ICE40LP1K-CM81

Lattice Semiconductor Corporation

T20W80I4
T20W80I4

Efinix, Inc.

Tech Hub

Search

Search

PRODUCT

PRODUCT

PHONE

PHONE

USER

USER