Overview of XCV200E-7PQG240I FPGA
The XCV200E-7PQG240I is a powerful field-programmable gate array (FPGA) from AMD’s (formerly Xilinx) Virtex-E family, designed to deliver exceptional performance for complex digital systems. This industrial-grade FPGA features 200,000 system gates, advanced I/O capabilities, and operates reliably across an extended temperature range from -40°C to +100°C, making it ideal for demanding industrial applications.
As part of the renowned Xilinx FPGA product line, the XCV200E-7PQG240I combines flexibility, performance, and reliability for applications requiring high-speed digital processing and reconfigurable logic.
Key Features and Specifications
Core FPGA Architecture
| Specification |
Details |
| Part Number |
XCV200E-7PQG240I |
| Manufacturer |
AMD (Xilinx) |
| Product Family |
Virtex-E |
| Logic Elements |
200,000 system gates |
| Package Type |
240-PQFP (Plastic Quad Flat Pack) |
| Speed Grade |
-7 (High Performance) |
| Operating Temperature |
-40°C to +100°C (Industrial) |
Advanced Memory and Logic Resources
The XCV200E-7PQG240I FPGA delivers robust computational capabilities through its integrated resources:
| Resource Type |
Quantity |
Description |
| CLBs (Configurable Logic Blocks) |
2,400+ |
Flexible logic implementation |
| Block RAM |
40 Kbits |
On-chip memory storage |
| Distributed RAM |
Variable |
Additional memory resources |
| Embedded Multipliers |
Yes |
Hardware multiplication support |
| IOBs (I/O Blocks) |
176 |
High-speed I/O capability |
Electrical Characteristics and Performance
| Parameter |
Specification |
| Core Voltage |
1.8V nominal |
| I/O Voltage Standards |
3.3V, 2.5V, 1.8V LVTTL/LVCMOS |
| Maximum System Frequency |
200+ MHz (design dependent) |
| Power Consumption |
Low power design |
| ESD Protection |
HBM and CDM compliant |
Technical Capabilities
High-Speed Digital Processing
The XCV200E-7PQG240I FPGA excels in applications demanding high-speed signal processing. With its -7 speed grade designation, this device offers:
- Fast internal routing for reduced propagation delays
- Optimized clock distribution networks
- High-performance I/O standards supporting various interface protocols
- Dedicated carry logic for arithmetic operations
Flexible I/O Architecture
The 240-pin PQFP package provides 176 user I/O pins, supporting:
- Multiple voltage standard interfaces (LVTTL, LVCMOS, PCI)
- Programmable drive strength and slew rate control
- Input/output delay compensation
- Hot-swappable and mixed-voltage capability
Memory and Storage Options
| Memory Type |
Configuration |
Use Case |
| Block SelectRAM |
40 Kbits total |
FIFO buffers, lookup tables |
| Distributed RAM |
CLB-based |
Small memory arrays, shift registers |
| ROM Implementation |
Via configuration |
Constant data storage |
Applications and Use Cases
Industrial Control Systems
The XCV200E-7PQG240I’s industrial temperature range makes it perfect for:
- Motor control and drive systems
- Industrial automation controllers
- Process monitoring equipment
- Factory floor robotics
Communications Infrastructure
Leverage the FPGA’s high-speed capabilities for:
- Protocol conversion and bridging
- Data encryption/decryption modules
- Network packet processing
- Signal conditioning circuits
Embedded Systems Development
Ideal for complex embedded applications including:
- Custom processor implementations
- Hardware accelerators
- Real-time data acquisition systems
- Digital signal processing (DSP) applications
Test and Measurement Equipment
The XCV200E-7PQG240I supports:
- Logic analyzers and protocol analyzers
- Arbitrary waveform generators
- High-speed data capture systems
- Automated test equipment (ATE)
Design and Implementation
Development Tools and Software
Working with the XCV200E-7PQG240I requires:
- Xilinx ISE Design Suite for synthesis and implementation
- VHDL or Verilog hardware description languages
- Timing analysis tools for performance optimization
- ChipScope Pro for in-system debugging
Programming and Configuration
| Configuration Method |
Description |
| JTAG |
Standard boundary-scan programming |
| Serial PROM |
Non-volatile configuration storage |
| Slave Serial |
Host-based configuration |
| SelectMAP |
Parallel configuration interface |
Package Information
240-PQFP Package Details
| Parameter |
Specification |
| Package Type |
240-Pin Plastic Quad Flat Pack |
| Pitch |
0.5mm |
| Body Size |
32mm × 32mm nominal |
| Height |
Low-profile surface mount |
| Moisture Sensitivity |
MSL 3 |
| Lead Finish |
RoHS compliant |
Thermal Characteristics
- Junction Temperature Range: -40°C to +125°C
- Thermal Resistance (θJA): Approximately 35°C/W
- Recommended heat sink: For high-utilization applications
- Airflow requirements: Natural or forced convection
Quality and Reliability
Industrial-Grade Standards
The XCV200E-7PQG240I meets stringent quality requirements:
- Extended temperature operation (-40°C to +100°C)
- Enhanced screening and testing
- Long-term availability for industrial products
- Comprehensive quality assurance
Compliance and Certifications
- RoHS compliant lead-free manufacturing
- REACH compliant materials
- JEDEC standards compliance
- ISO 9001 certified manufacturing
Comparison with Related Models
Virtex-E Family Variants
| Model |
System Gates |
I/O Pins |
Speed Grade |
Temperature Range |
| XCV200E-7PQG240I |
200K |
176 |
-7 |
Industrial (-40 to +100°C) |
| XCV200E-7PQG240C |
200K |
176 |
-7 |
Commercial (0 to +85°C) |
| XCV200E-6PQG240I |
200K |
176 |
-6 |
Industrial (-40 to +100°C) |
| XCV300E-7PQG240I |
300K |
176 |
-7 |
Industrial (-40 to +100°C) |
Getting Started Guide
Step 1: Design Entry
Begin your FPGA project by:
- Creating schematic or HDL-based designs
- Simulating functionality with ModelSim or ISim
- Synthesizing the design with XST or third-party tools
- Verifying timing constraints
Step 2: Implementation
The implementation flow includes:
- Translation: Converting design to primitives
- Mapping: Fitting logic into CLBs
- Place and Route: Optimizing physical layout
- Timing Analysis: Verifying performance
Step 3: Programming
Configure the XCV200E-7PQG240I using:
- Generate configuration bitstream
- Select programming method (JTAG, PROM, etc.)
- Download configuration to device
- Verify successful programming
Power Management
Power Supply Requirements
| Supply Rail |
Voltage |
Tolerance |
Purpose |
| VCCINT |
1.8V |
±5% |
Core logic power |
| VCCO |
3.3V/2.5V/1.8V |
±5% |
I/O bank power |
| VCCAUX |
2.5V |
±5% |
Auxiliary circuits |
Power Consumption Optimization
Reduce power consumption through:
- Clock gating for unused logic
- Optimal placement of high-activity circuits
- I/O standard selection for lower power
- Voltage scaling where applicable
Storage and Handling
Proper Storage Conditions
To maintain device reliability:
- Temperature: 15°C to 35°C ambient
- Humidity: 40% to 60% RH
- Anti-static protection: ESD-safe containers required
- Moisture control: Bake devices if MSL exposure exceeded
ESD Precautions
Handle the XCV200E-7PQG240I with care:
- Use grounded wrist straps
- Work on ESD-safe mats
- Store in conductive packaging
- Follow ANSI/ESD S20.20 standards
Frequently Asked Questions
What is the difference between XCV200E-7PQG240I and XCV200E-7PQG240C?
The primary difference is the operating temperature range. The “I” suffix indicates industrial temperature grade (-40°C to +100°C), while “C” denotes commercial grade (0°C to +85°C). Both share identical logic resources and performance characteristics.
Can I use modern Vivado tools with XCV200E-7PQG240I?
No, the Virtex-E family requires Xilinx ISE Design Suite (version 14.7 or earlier). Vivado supports only newer device families starting from 7-series and UltraScale.
What configuration memory is recommended?
For the XCV200E-7PQG240I, use Xilinx XCF02S or XCF04S Platform Flash PROMs, or equivalent serial configuration memory devices that support the required bitstream size.
Is the XCV200E-7PQG240I suitable for automotive applications?
While the industrial temperature range is suitable for many automotive environments, this device is not AEC-Q100 qualified. For automotive-grade FPGAs, consider Xilinx Automotive-targeted product lines.
Ordering Information and Availability
Part Number Breakdown
XCV200E-7PQG240I
- XC: Xilinx commercial FPGA
- V: Virtex architecture
- 200E: 200K gates, Virtex-E family
- -7: Speed grade (fastest commercial grade)
- PQG240: Package type and pin count
- I: Industrial temperature range
Recommended for New Designs
Please note: The Virtex-E family is a mature product line. For new designs, consider:
- Xilinx 7-series FPGAs (Artix-7, Kintex-7, Virtex-7)
- UltraScale or UltraScale+ devices
- Contact AMD/Xilinx for product roadmap information
Technical Support and Resources
Documentation Available
- Device datasheet and specifications
- User guides and application notes
- Design constraint files (.UCF)
- Reference designs and examples
- PCB layout guidelines
Online Resources
- AMD/Xilinx Support Portal
- Community forums and discussion boards
- Video tutorials and webinars
- Technical articles and white papers
Conclusion
The XCV200E-7PQG240I represents a proven FPGA solution for industrial applications requiring reliable high-performance reconfigurable logic. With 200,000 system gates, extended temperature operation, and comprehensive I/O capabilities in a compact 240-pin PQFP package, this Virtex-E device continues to serve engineers in automation, communications, and embedded systems.
Whether you’re designing industrial control systems, communications infrastructure, or specialized test equipment, the XCV200E-7PQG240I delivers the performance and reliability needed for mission-critical applications. As part of the trusted Xilinx FPGA family, it offers proven technology backed by decades of field deployment.
For technical specifications, ordering information, and design support, consult the official AMD/Xilinx documentation or contact authorized distributors for availability and pricing.
