Xilinx XCF32PVOG48C: Your Complete Buying and Usage Guide with Datasheet
Contents
The Xilinx XCF32PVOG48C, belonging to the XCF32 Series, represents a cutting-edge 32Mb in-system programmable configuration PROM crafted by Xilinx. As a vital component in the Platform Flash series, it stands out for its versatility and reprogrammability, offering a cost-effective solution for storing extensive FPGA configuration bitstreams. Operating within a voltage range of 1.65V to 2V, supporting JTAG programming, and housed in a surface-mount 48-TFSOP package, the XCF32PVOG48C emerges as a cornerstone for configuring Xilinx FPGAs in various domains, including embedded systems, telecommunications, and data processing.
XCF32PVOG48C Overview
The XCF32PVOG48C is a 32Mb in-system programmable configuration PROM (Programmable Read-Only Memory) manufactured by Xilinx. Part of the XCF32 Series, this device is designed to store and provide configuration bitstreams for Xilinx FPGAs, offering flexibility and reprogrammability in diverse applications such as embedded systems, telecommunications, and data processing. It operates at a voltage range of 1.65V to 2V, supports JTAG programming, and is available in a surface-mount 48-TFSOP package.
The XCF32PVOG48C is utilized in the configuration process of Xilinx FPGAs, storing bitstreams that define the logic and functionality of the FPGA. It offers flexibility and reprogrammability, making it suitable for various applications in fields such as embedded systems, telecommunications, data processing, medical devices, and more.
The programming of the XCF32PVOG48C involves using JTAG programming tools like Vivado or iMPACT for configuration. Depending on the application requirements, it supports both parallel and serial configuration modes.
Introduction to XCF32 Series
The XCF32 Series from Xilinx is part of the Platform Flash series of in-system programmable configuration PROMs. These PROMs offer an efficient and reprogrammable solution for storing large Xilinx FPGA configuration bitstreams. The XCF32 Series includes both the 3.3V XCFxxS PROM and the 1.8V XCFxxP PROM.
Here are some key features about the XCF32 Series:
Device Densities:
XCF32P is available in 32 Mb.
Voltage Specifications:
Operates at 1.8V.
VCCO Range: 1.8V to 3.3V.
VCCJ Range: 2.5V to 3.3V.
Programming and Configuration Modes:
Supports programming via JTAG.
Supports Serial Configuration.
Supports Parallel Configuration.
Additional Features:
Design Revisioning: Supported.
Compression: Supported.
The XCF32P, being a 32 Mb PROM, is designed to be versatile and supports various configuration modes, making it suitable for different FPGA configuration requirements.
XCFxxS Platform Flash PROM Block Diagram
XCFxxP Platform Flash PROM Block Diagram
XCF32PVOG48C Specifications
Parameter |
Specification |
Memory Size |
32Mb |
Voltage - Supply |
1.65V ~ 2V |
Operating Temperature |
-40°C ~ 85°C |
Mounting Type |
Surface Mount |
Package / Case |
48-TFSOP (0.724", 18.40mm Width) |
XCF32PVOG48C Features
• In-System Programmable PROMs for Configuration of
Xilinx® FPGAs
• Low-Power Advanced CMOS NOR Flash Process
• Endurance of 20,000 Program/Erase Cycles
• Operation over Full Industrial Temperature Range
(–40°C to +85°C)
• IEEE Standard 1149.1/1532 Boundary-Scan (JTAG)
Support for Programming, Prototyping, and Testing
• JTAG Command Initiation of Standard FPGA
Configuration
• Cascadable for Storing Longer or Multiple Bitstreams
• Dedicated Boundary-Scan (JTAG) I/O Power Supply (VCCJ)
• I/O Pins Compatible with Voltage Levels Ranging From
1.8V to 3.3V
• Design Support Using the Xilinx ISE® Alliance and
Foundation™ Software Packages
• XCF01S/XCF02S/XCF04S
• 3.3V Supply Voltage
• Serial FPGA Configuration Interface
• Available in Small-Footprint VO20 and VOG20
Packages
• XCF08P/XCF16P/XCF32P
• 1.8V Supply Voltage
• Serial or Parallel FPGA Configuration Interface
• Available in Small-Footprint VOG48, FS48, and
FSG48 Packages
• Design Revision Technology Enables Storing and
Accessing Multiple Design Revisions for
Configuration
• Built-In Data Decompressor Compatible with Xilinx
Advanced Compression Technology
Application of XCF32PVOG48C
The Xilinx XCF32PVOG48C is an in-system programmable configuration PROM designed to store and provide configuration bitstreams for Xilinx FPGAs (Field-Programmable Gate Arrays). Its application lies primarily in configuring and initializing FPGAs with specific logic designs. Here are some common applications for the XCF32PVOG48C:
FPGA Configuration:
Primary use as a configuration memory for Xilinx FPGAs, storing bitstreams that define the logic and functionality of the FPGA.
Embedded Systems:
Configuring FPGAs in embedded systems, commonly found in industrial automation, automotive electronics, and communication systems.
Telecommunications:
Utilized in telecommunications applications for tasks such as signal processing, protocol adaptation, and customization of network interfaces.
Data Processing and Acceleration:
Employed in data-intensive applications for parallel processing and acceleration of specific tasks, enhancing overall system performance.
Medical Devices:
Used in medical devices for real-time processing, customization, and control, supporting applications like medical imaging and diagnostic equipment.
Design Revision Storage Examples
XCF32PVOG48C Package
48-TFSOP
How to Programming XCF32PVOG48C (with datasheet)
Programming the Xilinx XCF32PVOG48C involves configuring the FPGA (Field-Programmable Gate Array) with a specific bitstream that defines the desired functionality. Here's a general guide to programming the XCF32PVOG48C:
JTAG Programming:
1. Hardware Setup:
Connect the JTAG programming cable to the JTAG port on your development board or system.
Ensure proper power and ground connections.
2. Connect to Programming Tool:
Use Xilinx programming tools like Vivado or iMPACT to connect to the target device.
Select the XCF32PVOG48C as the target FPGA.
3. Load Bitstream:
Load the compiled bitstream file (.bit) into the programming tool.
Verify that the bitstream corresponds to the desired FPGA configuration.
4. Program the Device:
Initiate the programming process through the programming tool.
The tool will transfer the bitstream to the XCF32PVOG48C, configuring it with the specified logic.
5. Verify Configuration:
Confirm successful programming by checking for any error messages in the programming tool.
Verify that the FPGA is operating as expected with the new configuration.
Parallel Configuration:
If you're using a parallel configuration mode, the process involves a different set of steps, typically using a configuration PROM.
1. Prepare Configuration PROM:
Load the configuration data into the parallel configuration PROM.
Ensure the PROM is properly connected to the FPGA.
2. Power On and Reset:
Power on the system and ensure a stable clock source.
Perform any necessary reset procedures to initialize the FPGA.
3. Configure FPGA:
The FPGA reads the configuration data from the parallel PROM upon startup.
Verify that the FPGA is correctly configured with the desired logic.
Serial Configuration:
For serial configuration, the process may involve using a serial configuration PROM.
1. Prepare Configuration PROM:
Load the configuration data into the serial configuration PROM.
Connect the PROM to the appropriate pins on the FPGA.
2. Power On and Reset:
Power on the system and ensure a stable clock source.
Perform any necessary reset procedures.
3. Configure FPGA:
The FPGA reads the configuration data from the serial PROM during startup.
Verify that the FPGA is correctly configured with the desired logic.
View the datasheet about programming here>>
XCF32PVOG48C Alternative Part
XQF32PVO48M, XCF16PVOG48C
Difference between XCF32PVOG48C vs XQF32PVO48M vs XCF16PVOG48C
Feature |
XCF32PVOG48C |
||
Type |
Xilinx EEPROM Memory |
Xilinx EEPROM Memory |
Xilinx EEPROM Memory |
Package |
TSOP-48 |
TSOP-48 |
TSOP-48 |
Mounting |
Surface Mount |
Surface Mount |
Surface Mount |
Voltage |
1.65V ~ 2V |
1.8V |
1.65V ~ 2V |
Temperature Range |
-40℃ ~ 85℃ |
-40℃ ~ 85℃ |
-40℃ ~ 85℃ |
Memory Size |
32M-Bit |
32M-Bit |
16M-Bit |
Clock Speed |
Up to 50 MHz |
Not specified |
Up to 50 MHz |
RoHS Compliance |
Yes |
No (Non-Compliant) |
Yes |
Lifecycle |
Active |
Obsolete |
Active |
Packaging |
Tube |
Tube |
Tube |
XCF32PVOG48C Price & Bom
Prices and BOM details can vary based on factors such as quantity, distributor, and region.
For the most accurate and up-to-date pricing information, please click here >>
Manufacturer
Xilinx is a prominent semiconductor company recognized for its leadership in the development of Field-Programmable Gate Arrays (FPGAs). Founded in 1984, Xilinx's innovative programmable logic devices have been instrumental in a diverse array of applications, from telecommunications and data centers to high-performance computing and artificial intelligence. The company's commitment to flexibility and adaptability through FPGA technology has positioned it as a key player in the advancement of digital solutions across various industries.
In 2020, Xilinx was in the process of being acquired by AMD, a move aimed at creating a comprehensive entity capable of delivering high-performance computing solutions by combining AMD's processing power with Xilinx's programmable logic expertise. This strategic development reflects the ongoing evolution and collaboration within the semiconductor industry.
Datasheet PDF Download
Download XCF32PVOG48C datasheet PDF here>>
Summary
In conclusion, the Xilinx XCF32PVOG48C epitomizes innovation and adaptability in the realm of programmable configuration PROMs. With its impressive features, robust programming capabilities, and diverse applications, this component underscores Xilinx's commitment to advancing FPGA technology. As part of the broader XCF32 Series, the XCF32PVOG48C stands at the forefront of in-system programmable solutions, contributing to the seamless integration of FPGA configurations across different industries.
XCF32PVOG48C In Stock: 4,740 $54.358
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