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XC7Z045-1FFG900C

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XC7Z045-1FFG900C

IC SOC CORTEX-A9 667MHZ 900FCBGA

Manufacturer: AMD

Categories: System On Chip (SoC)

Quality Control: Learn More

The AMD Zynq®-7000 series XC7Z045-1FFG900C is a System on Chip (SoC) featuring a dual ARM® Cortex®-A9 MPCore™ processor with CoreSight™, operating at 667MHz. This device integrates a Kintex™-7 FPGA with 350K logic cells, offering significant processing and programmable logic capabilities. Connectivity options include CANbus, EBI/EMI, Ethernet, I2C, MMC/SD/SDIO, SPI, UART/USART, and USB OTG. Peripherals include Direct Memory Access (DMA), and it has a RAM size of 256KB. The XC7Z045-1FFG900C is supplied in a 900-FCBGA (31x31) package, suitable for applications in industrial control, automotive, aerospace, and test and measurement. It operates within a temperature range of 0°C to 85°C (TJ).

Additional Information

Series: Zynq®-7000RoHS Status: ROHS3 CompliantManufacturer Lead Time: 16 week(s)Product Status: ActivePackaging: TrayDatasheet:
Technical Details:
PackagingTray
Package / Case900-BBGA, FCBGA
Speed667MHz
RAM Size256KB
Operating Temperature0°C ~ 85°C (TJ)
Core ProcessorDual ARM® Cortex®-A9 MPCore™ with CoreSight™
Primary AttributesKintex™-7 FPGA, 350K Logic Cells
ConnectivityCANbus, EBI/EMI, Ethernet, I2C, MMC/SD/SDIO, SPI, UART/USART, USB OTG
PeripheralsDMA
Supplier Device Package900-FCBGA (31x31)
ArchitectureMCU, FPGA
Flash Size-

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AMD FAQs

AMD is a semiconductor company founded in 1969 that began with logic and memory chips before expanding into microprocessors in the 1980s, becoming a major competitor to Intel.

The company helped shape modern computing with key innovations like 64-bit x86 processors and early multi-core CPUs in the 2000s and strengthened its position in graphics by acquiring ATI Technologies in 2006.

After a period of decline, AMD returned to prominence with the launch of its Zen architecture and Ryzen processors in 2017, establishing itself as a leader in CPUs, GPUs, and high-performance computing today. In 2022, AMD further expanded into adaptive computing with its acquisition of Xilinx, adding FPGAs and adaptive SoCs to its portfolio.

Learn More: The History of AMD - A Complete Overview

AMD/Xilinx designs and develops high-performance computing and graphics semiconductor solutions, with a focus on CPUs, GPUs, and adaptive computing technologies.

AMD/Xilinx core components include:

  • CPUs (central processing units) for desktop, mobile, and server applications
  • GPUs (graphics processing units) for gaming, professional visualization, and data centers
  • Adaptive SoCs and FPGAs (Xilinx acquisition)
  • Data center accelerators for AI and high-performance computing (HPC)
  • Embedded processors for industrial and edge applications
  • Chipsets and supporting platform technologies

AMD specializes in high-performance, energy-efficient computing solutions for data-intensive and graphics-driven workloads.

AMD serves industries that require high-performance computing, graphics processing, and scalable data center solutions.

AMD’s key industries include:

  • Data centers and cloud computing
  • Artificial intelligence (AI) and machine learning
  • Gaming
  • Professional visualization and content creation
  • Embedded systems and industrial applications
  • Telecommunications and networking

These industries rely on AMD for compute performance, scalability, and advanced processing architectures.

AMD/Xilinx is known for high-performance CPUs, FPGAs, CPLDs, GPUs, and adaptive computing platforms.

Key AMD/Xilinx product lines include:

  • Ryzen - desktop and mobile processors for consumer and commercial systems
  • EPYC - server processors for data centers and enterprise workloads
  • Spartan - FPGAs for cost sensitive and low power applications
  • CoolRunner - CPLDs for low power and control applications
  • Artix - FPGAs for low power and cost optimized performance
  • Kintex - FPGAs for mid range performance and efficiency
  • Virtex - FPGAs for high performance and data intensive applications
  • Versal - adaptive SoCs for AI, edge, and embedded systems
  • Zynq - SoCs combining ARM processors with FPGA fabric for embedded applications
  • Threadripper - high-core-count processors for workstation and enthusiast markets
SoC FAQs

A System-on-Chip (SoC) is an integrated circuit that combines processors, memory, communication interfaces, and peripherals onto a single chip to reduce power consumption and improve efficiency.

A SoC works by integrating multiple computing functions into one semiconductor device, enabling processors, memory, graphics, and connectivity modules to communicate efficiently within a compact architecture.

SoCs are used in:

  • Smartphones
  • IoT devices
  • Wearable technology
  • Automotive electronics
  • Embedded systems
  • Edge computing
Frequently Asked Questions

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We partner with industry-leading AS6171 & AS6081-certified third party testing labs to mitigate risk and support a wide array of end uses for your company’s requirements. Testing includes but isn’t limited to: Decapsulation & Internal Dye Verification. X-Ray Inspection & Analysis, External Visual Inspection, Surface Texture Analysis (SEM), and Electrical Pin Correlation.