XCV100E-7BG352C

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Embedded FPGAs (Field Programmable Gate Array) are used to create a vast array of digital processing and control applications in areas from medical devices to satellite communications. Xenics Corporation\'s XCV100E-7BG352C device is an FPGA that provides powerful single board and embedded computing solutions for a variety of applications.

Xenics\' XCV100E-7BG352C is an embedded FPGA with a 32-bit, 200MHz ARM-9 core and an array of peripherals, such as dual UARTs, 2-Wire and 8-Wire SPI, I2C, CAN bus interface with integrated drivers, 3- and 5-channel A/D converters, 1- and 3-channel D/A converters and 4-port GPIO. The XCV100E-7BG352C uses the Xilinx Spartan 6 LX FPGA technology, providing up to 160kbits of embedded SRAM, 8Mbits of on-board non-volatile storage, and 16 GPIOs. It also includes high-speed differential PCI Express ×l Gen 2 expansion ports, allowing it to connect to a wide variety of third-party subsystems.

This device is optimized for both fast embedded design cycles and deep embedded customization. The XCV100E-7BG352C is designed for application crashes protection, high reliability, real-time performance and small System on Module (SOM) size. This device\'s FPGA technology is inherently secure, allowing developers to create powerful and secure embedded systems.

The main feature of the XCV100E-7BG352C is its versatile application field. This device is used in various industries and applications, such as medical imaging, analytics and software-defined radios, military and aerospace applications, industrial control and automation, embedded software development, and intelligent transportation systems. The XCV100E-7BG352C can also be used in low-power, high-performance computing applications, such as miniature embedded systems, sensor hubs, and robotics.

In addition to its application field, the XCV100E-7BG352C also offers a wide range of features to enable users to program and control the FPGA. It includes a JTAG-programmable FPGA, configurable via the on-chip low-power SPI EEPROM interface. This device also supports the embedded Xilinx Vivado Design Suite for building on-chip circuits and programming the FPGA. The XCV100E-7BG352C is equipped with a powerful 32-bit ARM Cortex-M4 microcontroller, providing the flexibility to customise the FPGA as desired.

The XCV100E-7BG352C also supports the on-chip debugging capabilities of the JTAG interface, allowing developers to perform debugging operations with ease. The XCV100E-7BG352C device also provides high-speed interfaces, such as SDRAM and NAND flash memory, as well as support for external DDR and DDR2 SDRAM.

Another important feature of the XCV100E-7BG352C is its working principle. An FPGA is a type of integrated circuit (IC) that can be configured to perform a specific function or a range of functions. This device is programmed using a hardware description language (HDL) such as VHDL or Verilog, and then downloaded into the FPGA using a tool such as Xilinx ISE. The programmed instructions are stored in the FPGA\'s on-chip RAM, providing the flexibility to alter the FPGA\'s configuration as needed.

The main benefit of FPGAs is that they provide a very flexible and cost-effective way to design and develop an embedded system. FPGA\'s are programmed and debugged by simple steps, thus providing maximum flexibility and speed of development. Additionally, FPGA\'s can provide faster processing speeds, since they can be programmed to execute instructions in parallel, while traditional processors can only execute instructions sequentially.

The XCV100E-7BG352C is an ideal solution for a wide range of embedded applications due to its versatile application field and working principle. This device provides powerful single board and embedded computing solutions, making it an ideal choice for a variety of applications. In addition, the XCV100E-7BG352C provides the flexibility to build on-chip circuits, program the FPGA, and debug the circuit with ease. With the many features and benefits of the XCV100E-7BG352C, it is a great choice for any embedded application.

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