Overview of AMD Xilinx XCF16PVOG48C Configuration Memory
The XCF16PVOG48C is a high-performance 16-megabit Platform Flash configuration PROM specifically engineered for Xilinx FPGA programming and configuration storage. Manufactured by AMD (formerly Xilinx), this non-volatile memory device provides reliable, in-system programmable flash memory designed to store FPGA configuration bitstreams with exceptional performance and flexibility.
This configuration memory IC delivers robust storage capabilities for complex FPGA designs across telecommunications, industrial control systems, aerospace applications, and networking equipment. With its compact 48-pin TSOP package and advanced flash technology, the XCF16PVOG48C represents a proven solution for FPGA configuration management in demanding embedded systems.
Key Technical Specifications
Memory and Performance Characteristics
| Specification |
Value |
Details |
| Memory Capacity |
16 Megabits (16Mb) |
Sufficient storage for substantial FPGA configurations |
| Memory Type |
Platform Flash PROM |
Non-volatile flash technology |
| Programming Type |
In-System Programmable (ISP) |
Allows field updates and reprogramming |
| Interface Type |
Serial/Parallel/JTAG |
Multiple programming interface options |
| Maximum Clock Frequency |
50 MHz |
High-speed configuration loading |
| Typical Operating Current |
0.04 mA |
Low power consumption |
Electrical and Environmental Parameters
| Parameter |
Specification |
Notes |
| Supply Voltage (Vcc) |
1.8V nominal |
Energy-efficient operation |
| Voltage Range |
1.65V to 2.0V |
Wide voltage tolerance |
| Operating Temperature |
-40°C to +85°C |
Industrial temperature grade |
| Maximum Junction Temperature |
125°C |
Enhanced thermal reliability |
| Moisture Sensitivity Level |
MSL 3 |
Standard handling requirements |
Physical Package Details
| Feature |
Description |
| Package Type |
48-pin TSOP (Thin Small Outline Package) |
| Package Dimensions |
18.40mm Width (0.724″) |
| Mounting Type |
Surface Mount Technology (SMT) |
| Supplier Device Package |
48-TSOP |
| Pin Count |
48 terminals |
| Lead Finish |
Matte Tin (Sn) |
Why Choose XCF16PVOG48C for FPGA Configuration?
In-System Programmability Advantages
The XCF16PVOG48C features In-System Programmable capability, enabling engineers to update FPGA configurations without removing the device from the circuit board. This functionality significantly reduces development time, simplifies field updates, and minimizes maintenance costs in production environments.
High Memory Capacity Benefits
With 16 megabits of flash storage, this configuration PROM supports complex FPGA designs with extensive logic resources. The substantial memory capacity accommodates advanced applications requiring large bitstream files while maintaining fast configuration times through its 50 MHz clock frequency support.
Wide Operating Voltage Range
Operating across a voltage range from 1.65V to 2.0V, the XCF16PVOG48C integrates seamlessly into various power supply architectures. This flexibility makes it compatible with both legacy systems and modern low-power designs, enhancing system-level power efficiency.
Industrial-Grade Reliability
Designed for operation across -40°C to +85°C temperature range, this configuration memory delivers dependable performance in harsh industrial environments. Whether deployed in outdoor telecommunications equipment or automotive electronics, the XCF16PVOG48C maintains data integrity and operational stability.
Primary Applications for XCF16PVOG48C
Telecommunications Infrastructure
The XCF16PVOG48C serves as an essential component in telecommunications equipment where FPGA-based signal processing and protocol handling require reliable configuration storage. Its high-speed programming and robust environmental specifications make it ideal for network switches, routers, and base station equipment.
Industrial Control Systems
Manufacturing automation and process control systems leverage the XCF16PVOG48C to store FPGA configurations controlling complex machinery, sensor networks, and real-time monitoring systems. The industrial temperature rating ensures consistent operation in factory floor environments.
Aerospace and Defense Applications
Mission-critical aerospace systems utilize the XCF16PVOG48C for FPGA configuration in avionics, navigation systems, and communication equipment. The device’s reliability specifications and stable operation across temperature extremes meet demanding aerospace requirements.
Networking Equipment
High-performance network infrastructure depends on the XCF16PVOG48C to configure FPGAs managing packet processing, traffic shaping, and network security functions. The serial interface support enables efficient configuration loading during system initialization.
Technical Comparison with Alternative Configuration PROMs
| Model |
Memory Size |
Voltage Range |
Package |
Clock Speed |
| XCF16PVOG48C |
16Mb |
1.65V – 2.0V |
48-TSOP |
50 MHz |
| XCF08PVOG48C |
8Mb |
1.65V – 2.0V |
48-TSOP |
50 MHz |
| XCF32PVOG48C |
32Mb |
1.65V – 2.0V |
48-TSOP |
50 MHz |
The XCF16PVOG48C occupies a middle position in the Platform Flash family, offering balanced capacity for mid-range FPGA applications without the cost premium of higher-density alternatives.
Programming and Configuration Features
Multiple Interface Support
The XCF16PVOG48C supports multiple programming interfaces including serial, parallel, and JTAG, providing design flexibility for different system architectures. This multi-interface capability simplifies both production programming and in-field updates.
Fast Configuration Loading
With a maximum clock frequency of 50 MHz, the device enables rapid FPGA configuration during system boot-up. Fast configuration times minimize system initialization delays and improve overall application responsiveness.
Data Retention and Endurance
Platform Flash technology provides excellent data retention characteristics, maintaining configuration data integrity for extended periods without power. The flash memory architecture supports multiple program/erase cycles suitable for applications requiring periodic configuration updates.
Design Integration Considerations
PCB Layout Recommendations
When integrating the XCF16PVOG48C into PCB designs, engineers should observe standard TSOP package layout practices including proper thermal management, decoupling capacitor placement near power pins, and controlled impedance routing for high-speed signals. The surface mount package facilitates automated assembly processes and compact board layouts.
Power Supply Design
The device requires a stable 1.8V nominal supply with adequate current sourcing capability. Designers should implement proper power supply filtering and decoupling to minimize noise, especially during programming operations when current consumption increases.
Signal Integrity Considerations
High-speed configuration interfaces demand attention to signal integrity principles. Proper termination, ground plane continuity, and minimized trace lengths help ensure reliable data transfer during FPGA configuration sequences.
Product Status and Availability
Important Note: The XCF16PVOG48C carries an obsolete lifecycle status according to manufacturer notifications. While inventory remains available through authorized distributors, designers should evaluate current AMD Xilinx alternatives for new designs requiring long-term production support. Contact authorized distributors for information on replacement components and migration paths for existing designs.
Ordering Information and Package Marking
Part Number Nomenclature
- XCF16P: 16Mb Platform Flash family
- V: Voltage variant (1.8V nominal)
- O: Commercial/Industrial temperature grade
- G48C: 48-pin TSOP package, Commercial grade
Packaging Options
The XCF16PVOG48C ships in standard tray packaging suitable for automated pick-and-place assembly equipment. The component meets RoHS compliance requirements for lead-free manufacturing processes.
Frequently Asked Questions
What FPGAs are compatible with XCF16PVOG48C?
The XCF16PVOG48C works with various Xilinx FPGA families that support Platform Flash configuration PROMs, including Spartan, Virtex, and other compatible device families. Designers should verify specific FPGA compatibility through AMD Xilinx documentation.
Can I program the XCF16PVOG48C after PCB assembly?
Yes, the In-System Programmable (ISP) capability allows programming after the device is soldered to the PCB using standard JTAG programming tools or serial programming interfaces supported by AMD Xilinx software tools.
What is the typical configuration time?
Configuration time depends on the FPGA bitstream size and selected clock frequency. At maximum 50 MHz clock speed, configuration loading completes rapidly, typically within milliseconds for most FPGA designs.
Is the XCF16PVOG48C suitable for harsh environments?
The industrial temperature rating of -40°C to +85°C makes the device suitable for many harsh environment applications. However, for extreme aerospace or military applications, designers should review specific environmental qualification requirements.
Conclusion
The XCF16PVOG48C represents a proven Platform Flash configuration PROM solution delivering 16 megabits of non-volatile storage for FPGA configuration applications. Its combination of In-System Programmability, wide voltage range, industrial temperature rating, and compact 48-pin TSOP package makes it well-suited for telecommunications, industrial control, aerospace, and networking applications.
While the component carries obsolete status, remaining inventory supports maintenance of existing designs and short-term production requirements. Engineers designing new systems should consult with AMD Xilinx for current generation alternatives offering similar functionality with extended lifecycle support.
For comprehensive FPGA solutions and configuration memory selection guidance, explore resources on design optimization, power management strategies, and system integration best practices that maximize the capabilities of AMD Xilinx programmable logic devices.
