Part Number: XC7Z030-3FFG676E

Manufacturer: AMD

Description: IC SOC CORTEX-A9 1GHZ 676FCBGA

Shipped from: Shenzhen/HK Warehouse

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Technical Specifications of XC7Z030-3FFG676E

Datasheet  XC7Z030-3FFG676E datasheet
Category Integrated Circuits (ICs)
Family Embedded – System On Chip (SoC)
Manufacturer Xilinx Inc.
Series Zynq?-7000
Packaging Tray
Part Status Active
Architecture MCU, FPGA
Core Processor Dual ARM? Cortex?-A9 MPCore? with CoreSight?
MCU Flash
Peripherals DMA
Speed 1GHz
Primary Attributes Kintex?-7 FPGA, 125K Logic Cells
Operating Temperature 0°C ~ 100°C (TJ)
Package / Case 676-BBGA, FCBGA
Supplier Device Package 676-FCBGA (27×27)
Number of I/O 130

XC7Z030-3FFG676E Introduction

The XC7Z030-3FFG676E is a System on Chip (SoC) with a Dual ARM Cortex-A9 MPCore processor and a Xilinx Kintex-7 FPGA. It is a very well-integrated chip. This strong mix makes a platform that can be used for a wide range of embedded applications. The Dual ARM Cortex-A9 MPCore processor has high-performance processing powers that make it possible for complex programmes to run smoothly. Along with the processor, the Xilinx Kintex-7 FPGA has tools for programmable logic. This makes it possible to speed up hardware in different ways and create custom digital circuits. Together, these features make the XC7Z030-3FFG676E a great choice for engineers and developers who want to build advanced embedded systems.

Key Features of XC7Z030-3FFG676E

The XC7Z030-3FFG676E SoC has many powerful features that make it a flexible choice for embedded applications:

  • Dual ARM Cortex-A9 MPCores Processor: With two Cortex-A9 cores, the XC7Z030-3FFG676E has high-performance processing powers. The multicore architecture allows for parallel execution, which improves speed and makes it easier to handle complex applications.
  • Xilinx Kintex-7 FPGA: Integration of a Kintex-7 FPGA offers programmable logic resources and customizable hardware acceleration. FPGA technology gives more flexibility, the ability to process data in real time, and the ability to implement custom peripherals and interfaces, which makes it possible to make solutions that are specific to a problem.
  • 125K Logic Cells: The XC7Z030-3FFG676E has a large number of logic cells, which are used to make digital circuits. This large amount of logic capacity makes it possible to implement complex designs, making it perfect for a wide range of applications.
  • 1GHz Clock Speed: With a clock speed of 1GHz, the XC7Z030-3FFG676E can work quickly and respond to commands. The high clock speed makes sure that software tasks are done well, which improves the general performance of the system.
  • The XC7Z030-3FFG676E is packed in a 676-ball Fine-Pitch Ball Grid Array (FCBGA) package. This type of package offers a small and reliable way to place the SoC on a printed circuit board (PCB), which makes it easy to integrate into embedded systems.

These key features make the XC7Z030-3FFG676E an excellent choice for engineers and developers who want a powerful and flexible platform for their embedded apps.

Overview of XC7Z030-3FFG676E

  • The well-designed system architecture and smooth integration of the XC7Z030-3FFG676E SoC’s parts make it a powerful and flexible platform for embedded apps. The core of its powers is how the Dual ARM Cortex-A9 MPCore processor and the Xilinx Kintex-7 FPGA work together.
  • The XC7Z030-3FFG676E can handle complex applications well because it has a Dual ARM Cortex-A9 MPCore processor with high-performance processing powers. With a multicore architecture, the processor cores can run jobs at the same time, which makes the computer faster and more responsive.
  • When the Xilinx Kintex-7 FPGA is added to the SoC, it adds logic tools that can be changed. This FPGA allows customization and hardware acceleration, so designers can make digital circuits that fit their needs and move computationally heavy tasks to the hardware. This improves the performance of the system as a whole.
  • The XC7Z030-3FFG676E also has a variety of high-speed connections, such as Ethernet, USB, and PCIe. These interfaces make it easy to connect to other devices, which speeds up the transfer of data and conversation. This connectivity makes networking, data collection, and integration with different tools and interfaces possible. This makes the SoC more flexible.

Overall, the system architecture of the XC7Z030-3FFG676E blends the power of the ARM Cortex-A9 cores with the programmable logic of the Kintex-7 FPGA. This integration, along with the availability of high-speed interfaces, makes a powerful and flexible platform that can meet the needs of many embedded applications, such as industrial robotics, automotive, communications, and more.

Applications of XC7Z030-3FFG676E

With its powerful capabilities for embedded systems, the XC7Z030-3FFG676E SoC is used in many different industries and areas. Some important areas of application are:

  • Industrial Automation: The XC7Z030-3FFG676E is a good choice for industrial automation systems because it can process, collect data, and control in real time. It can do things like machine vision, motion control, and process tracking. This makes the manufacturing process more efficient and productive.
  • Aerospace and Defence: The SoC is great for aerospace and defence uses because it has high-performance processing and programmable logic. It can be used in places where working in real time, reliability, and security are very important, such as avionics systems, radar processing, communication systems, and flight control.
  • Automotive: The XC7Z030-3FFG676E can be used in advanced driver-assistance systems (ADAS), in-car entertainment systems, and engine control. Its processing power, programmable logic, and high-speed connections make it possible for car electronics to be intelligently processed, connected, and customised.
  • Medical Devices: The SoC can be used in medical devices like patient monitoring systems, imaging tools, and surgical robots. It makes it easier to process data in real time, analyse signals, and connect different sensors and interfaces, which leads to better health results.
  • Communications: The XC7Z030-3FFG676E can be used for communications purposes like network equipment, base stations, and software-defined radios. Its processing power, programmable logic, and high-speed ports make it easy for communication systems to handle data, protocols, and connections.
  • Multimedia Processing: The SoC works well for multimedia apps like video processing, image recognition, and digital signage. Its high-performance processing and FPGA-based acceleration make it possible to handle multimedia in real time, which improves both the user experience and the quality of the images.

The XC7Z030-3FFG676E is great at real-time processing, data acquisition, signal processing, and running complicated algorithms in these and other situations. Its performance, versatility, and adaptability make it a good choice for engineers and developers who want to make new, high-performance embedded systems for a wide range of businesses.


In conclusion, the XC7Z030-3FFG676E SoC combines a Dual ARM Cortex-A9 MPCore processor with a Xilinx Kintex-7 FPGA, offering a powerful and flexible solution for embedded applications. With high-performance processing, flexibility, and customizable hardware acceleration, it caters to diverse industry needs.

From industrial automation to aerospace and defense, automotive, medical devices, communications, and multimedia processing, the XC7Z030-3FFG676E excels in real-time processing, data acquisition, signal processing, and complex algorithm execution. It empowers engineers and developers to create innovative solutions in various domains.

To harness the potential of the XC7Z030-3FFG676E, contact ICRFQ today and unlock the possibilities this remarkable device has to offer

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