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FPGA Boards

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Experience the excellence of our FPGA Boards, including the Mimas S7 Lite, Saturn S6 FPGA Development Board with DDR SDRAM, Styx Z7 FPGA Module, Narvi S7 FPGA Module, and Neso A7 FPGA Development Board, backed by over 14.0 years of expertise. Featured with cutting-edge technology, our FPGA Boards offer superb performance, impeccable quality, and an immaculate design. These new must-have boards are ideal for a wide range of applications where flexibility and high performance are essential. Offering advantages such as rapid prototyping, easy customization, low power consumption, high reliability, and seamless integration, our FPGA Boards stand out in the market. Explore the innovative functionalities and unparalleled capabilities of our FPGA Boards for your projects, setting a new standard in the industry.

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Mimas S6 FPGA Development Board

Price: 7480 INR

/

Unit

Minimum Order Quantity : 1 Unit

Mimas S6 FPGA Development Board

Board Type:Rigid

Product Type:FPGA Development board

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Features

  • FPGA: AMD Spartan-6 XC6SLX9 in TQG144 package
  • Flash memory: 16 Mb SPI flash memory (M25P16)
  • 100MHz CMOS oscillator
  • USB 2.0 interface for On-board flash programming
  • FPGA configuration via JTAG and USB
  • 8 LEDs and four switches for user-defined purposes
  • 70 IOs for user-defined purposes
  • Onboard voltage regulators for single-power rail operation

 

Applications

  • Product Prototype Development
  • Signal Processing
  • Wired and Wireless Communications
  • Educational tool for schools and universities

Attribute

Value

Weight

0.11 lbs

Dimensions

5 × 3 × 1 in

FPGA

XC6SLX9

Number Of Clock Sources

1

Primary Clock Frequency

100MHz

Number Of GPIOs (Max)

70

Switches

4x Push Button

Number Of Gneral Purpose LEDs

8

Configuration Options

JTAG, USB

Configuration Memory

SPI Flash

HTS

8542.39.0001

ECCN

EAR99


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Mimas V2 S6 FPGA Development Board with DDR SDRAM

Price: 7150 INR

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Unit

Minimum Order Quantity : 1 Unit

Mimas V2 S6 FPGA Development Board with DDR SDRAM

Base Material:FR4

Board Thickness:1.6 mm

Board Type:Other, SMD and TH Components

Color:Green

Copper Thickness:35 µm

Electrical Components:XC6SLX9 Spartan-6 FPGA, 512Mb DDR SDRAM, 16 Mb SPI Flash

Flame Resistance Level:V-0

Hole Size:0.3 mm (min)

Impedance:Controlled

Insulation Resistance:> 10^12 Ω

Min. Line Spacing:0.15 mm

Min. Line Width:0.15 mm

Number Of Layers:Other, 4

Panel Size:120 mm x 75 mm

Product Type:FPGA Development board

Sensor Switch:No

Silkscreen:White

Soldermask:Green

Surface Finish:Other, HASL with lead

Test:Other, 100% E-test

Voltage Endurance:250V AC/min

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Features

  • FPGA: AMD Spartan XC6SLX9 in CSG324 package
  • DDR Memory: 166MHz 512Mb LPDDR (MT46H32M16LF/W949D6CBHX6E)
  • Flash memory: 16 Mb SPI flash memory (M25P16)
  • USB 2.0 interface for On-board flash programming
  • FPGA configuration via JTAG and USB
  • 8 LEDs, Six Push Buttons, and 8 way DIP switch for user-defined purposes
  • VGA Connector
  • Stereo Jack
  • Micro SD Card Adapter
  • Three-Digit Seven Segment Displays
  • 32 IOs for user-defined purposes
  • Four 6×2 Expansion Connectors
  • Onboard voltage regulators for single power rail operation

Applications

  • Product Prototype Development
  • Signal Processing
  • Learning Digital Electronics
  • Educational tool for schools and universities

Attribute

Value

Weight

0.2 lbs

Dimensions

6 × 4 × 1 in

FPGA

XC6SLX9

Memory

LPDDR 512Mbits

Number Of Clock Sources

1

Primary Clock Frequency

100MHz

Data Storage

Micro SD Slot

Display Type

Seven Segment LED

Audio Codec

PWM

Audio Out

Analog

Switches

DIP, Push Button

Number Of GPIOs (Max)

32

Number Of General Purpose LEDs

8

Configuration Options

JTAG, USB

HTS

8542.39.0001

ECCN

EAR99




Powerful FPGA Platform for Prototyping

Mimas V2 S6 leverages the capabilities of the Xilinx Spartan-6 XC6SLX9 FPGA, enabling rapid prototyping for digital designs and embedded systems. With its ample DDR SDRAM and SPI Flash, you get enhanced memory resources, supporting a wide range of applications from learning to advanced development.


Flexible Connectivity and Expansion

The board features dual 40-pin headers (3.3V logic) for easy I/O access and hardware expansion. USB 2.0 (FT2232-based) provides seamless onboard programming and UART communication, while the 50 MHz oscillator ensures a steady clock source for precise operations.


User-Friendly Interface and Robust Design

Equipped with 4 LEDs, 4 DIP switches, 5 tact switches, and a reset button, the Mimas V2 S6 supports quick project interactions. Its commercial grade, four-layer, FR4 construction with HASL finish guarantees reliability, enhanced insulation, and long-life performance in any development environment.

FAQ's of Mimas V2 S6 FPGA Development Board with DDR SDRAM:


Q: How do I program the Mimas V2 S6 FPGA Development Board?

A: You can program the Mimas V2 S6 using the onboard JTAG interface via the USB 2.0 FT2232 chip. Simply connect the board to your computer with a mini USB cable and use Xilinx development tools like iMPACT or Vivado for configuration.

Q: What are the typical applications for this development board?

A: The Mimas V2 S6 is commonly used for digital design prototyping, embedded system development, and FPGA education or research projects, thanks to its robust memory, user interface, and expansion capabilities.

Q: When should I use the DDR SDRAM on the board?

A: Utilize the 512Mb DDR SDRAM when your project requires large, high-speed memory for data buffers, image processing, or managing complex algorithms that exceed the internal FPGA memory capacity.

Q: Where can I connect additional peripherals to the board?

A: You can connect external modules, sensors, or custom circuits using the dual 40-pin expansion headers provided on the board. These headers support 3.3V logic for safe, easy interfacing.

Q: What is the process for powering the board?

A: Power is supplied through a 5V DC mini USB connection. The onboard regulators handle voltage conversion, stabilizing the supply for the FPGA and peripherals.

Q: How can the onboard user interface components be used in projects?

A: The 4 LEDs, 4 DIP switches, and 5 tact switches can serve as status indicators, user inputs, or for debugging purposes, giving hands-on interaction to control and monitor your FPGA designs.

Q: What are the main benefits of choosing the Mimas V2 S6 board?

A: You benefit from a versatile, reliable FPGA prototyping platform with extensive onboard memory, flexible expansion options, user-friendly interfaces, and support for industry-standard tools, all in a compact and robust design.

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Saturn S6 FPGA Development Board with DDR SDRAM

Price: 19800 INR

/

Unit

Minimum Order Quantity : 1 Unit

Saturn S6 FPGA Development Board with DDR SDRAM

Base Material:FR4

Board Thickness:1.6mm

Board Type:Rigid

Color:Green

Copper Thickness:35µm (1 oz/ft²)

Electrical Components:Xilinx Spartan-6 LX45 FPGA, DDR SDRAM, USB UART, Flash Memory, FT2232H for JTAG & UART

Flame Resistance Level:94V-0

Hole Size:Min. 0.3mm

Impedance:Controlled, ±10%

Insulation Resistance:>10^12 Ω

Min. Line Spacing:0.1mm

Min. Line Width:0.1mm

Number Of Layers:Other, 4 layers

Panel Size:Standard 8 x 6

Product Type:FPGA Development board

Sensor Switch:Not Included

Silkscreen:White

Soldermask:Green

Surface Finish:Other, ENIG (Electroless Nickel Immersion Gold)

Test:Other, 100% Functional Test

Voltage Endurance:50V DC

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Features

  • Xilinx Spartan 6 FPGA USB 2.0 Host Interface Upto 150 User IOs DDR SDRAM For Temporary Data Storage Built In Configuration System
  • FPGA: AMD Spartan 6 LX45 in CSG324 package (other variants available, please contact us for details)
  • DDR: 166MHz 512Mb LPDDR
  • Flash memory: 128 Mb SPI flash memory
  • 100MHz CMOS oscillator
  • High-Speed USB 2.0 interface for On-board flash programming
  • FT2232H Channel A is dedicated to SPI Flash Programming. Channel B can be used for custom applications.
  • Onboard voltage regulators for single power rail operation
  • FPGA configuration via JTAG and USB
  • XC6SLX16 – 150 IOs
  • XC6SLX45 – 136 IOs
  • FT2232H – 8 IOsMaximum 158 IOs for user-defined purposes

Applications

  • OEM Integration Acceleration Evaluation ResearchResearch
  • Product Prototype Development
  • OEM Integration
  • Development and testing of custom embedded processors
  • Signal Processing
  • Communication device development
  • Educational tool for Schools and Universities 

Attribute

Value

Weight

0.12 lbs

Dimensions

5 × 3 × 1 in

Product Dimensions

2.47 x 2.26 x 0.59 in

FPGA

XC6SLX16, XC6SLX45

Memory

LPDDR 512Mbits

Primary Clock Frequency

100MHz

Number Of GPIOs (Max)

150

Header Type and IO Headers

Male Header on Bottom, Female Header on Top, Ship Separate

Configuration Options

JTAG, USB

HTS

8542.39.0001

ECCN

EAR99




Extensive Connectivity and Expansion

The Saturn S6 development board offers a wide array of connection options for enhanced flexibility. Dual 40-pin GPIO headers and PMOD compatibility make it easy to interface with various peripherals. The presence of a microSD slot, 16MB SPI Flash, and robust PC interfaces via micro-USB ensure smooth workflows for data transfer, programming, and development.


Optimal Power Management and Reliability

With a 5V DC input (regulated down to 3.3V/1.2V), the board ensures stable operations. Users can opt for USB-powered mode or an external supply, offering adaptability in both lab and field scenarios. The board incorporates ESD protection, RoHS compliance, and a sturdy build with 4-layer FR4 base, ENIG finish, and integrated user LEDs for monitoring.


Debugging Made Effortless

The onboard FT2232H dual-channel bridge supports both JTAG and UART functions, enabling easy programming as well as real-time debugging directly from your PC. The inclusion of 8 user-programmable LEDs and 4 push buttons adds further convenience for testing and real-time feedback during the development process.

FAQ's of Saturn S6 FPGA Development Board with DDR SDRAM:


Q: How do I program the Saturn S6 FPGA Development Board?

A: You can program the Saturn S6 FPGA board using the onboard FT2232H chip, which provides JTAG access through the micro-USB port. Supported by Xilinx tools such as iMPACT or Vivado, programming is straightforward and does not require additional hardware.

Q: What are the main benefits of the Xilinx Spartan-6 LX45 FPGA on this board?

A: The Spartan-6 LX45 offers a strong balance of logic resources, memory, and performance suitable for a diverse range of applications, including digital design, signal processing, and communications. Its compatibility with industry-standard development tools facilitates rapid prototyping and deployment.

Q: Where can I interface additional peripherals with the development board?

A: Peripheral devices can be connected via the two 40-pin GPIO headers, which are PMOD compatible for modular add-ons. The microSD slot and SPI Flash expand memory options, while the micro-USB provides UART, JTAG, and power interfaces.

Q: What process should I follow to power the board?

A: The Saturn S6 can be powered either through the micro-USB port or by supplying 5V DC to the external power connector. The onboard regulator automatically steps the voltage down to 3.3V and 1.2V for stable FPGA and peripheral operation.

Q: When is it advisable to use external power instead of USB power?

A: External power is recommended when your application requires higher current than a typical USB port can supply, or when connecting multiple power-intensive peripherals to the board through GPIO headers.

Q: How does ESD protection and RoHS compliance benefit users?

A: Integrated ESD protection on all I/O lines reduces the risk of damage from electrostatic discharge, enhancing the board's durability and safety. RoHS compliance ensures the product meets environmental standards, making it safe for both users and the environment.

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Neso A7 FPGA Development Board

Price: 35200 INR

/

Unit

Minimum Order Quantity : 1 Unit

Neso A7 FPGA Development Board

Base Material:FR4

Board Thickness:1.6 mm

Board Type:Other, SMD, Through Hole

Color:Green

Copper Thickness:1 oz

Electrical Components:FPGA, Voltage Regulator, Connectors, LEDs, Oscillator

Flame Resistance Level:94V-0

Hole Size:0.3 mm (min)

Impedance:Controlled

Insulation Resistance:>500 MΩ

Min. Line Spacing:6 mil

Min. Line Width:6 mil

Number Of Layers:Other, 4

Panel Size:Standard

Product Type:FPGA Development board

Sensor Switch:Push Button, DIP Switches

Silkscreen:White

Soldermask:Green

Surface Finish:Other, HASL with lead-free options

Test:Other, 100% Electrical Tested

Voltage Endurance:50V DC

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Features

  • FPGA: XC7A100T in CSG324 package (XC7A100T-2CSG324C)
  • DDR3: 2Gb DDR3(MT41J128M16JT-125:K)
  • Flash memory: 128 Mb SPI flash memory (N25Q128A13ESE40E / IS25LP128F – JBLE)
  • 100MHz CMOS oscillator
  • High-Speed USB 2.0 interface for Onboard flash programming.
  • Revision V1: FT2232H Channel A is dedicated to SPI Flash /JTAG Programming. Channel B can be used for custom applications.
  • Revision V2: FT2232H Channel B is dedicated to SPI Flash /JTAG Programming. Channel A can be used for custom applications.
  • Onboard voltage regulators for single power rail operation
  • FPGA configuration via JTAG and USB
  • Compact form factor FPGA Module
  • Maximum IOs for user-defined purposes
  • FPGA – 140 IOs
  • FT2232H – 8 IOs

Attribute

Value

Weight

0.12 lbs

Dimensions

5 × 3 × 1 in

Product Dimensions

3.29 x 2.26 x 0.62 in

FPGA

XC7A100T – CSG324

Memory

DDR3 – 2GBits

Primary Clock Frequency

100MHz

Number Of GPIOs (Max)

140

Configuration Options

JTAG, USB

Host Interface

USB 2.0

Package Contents

Neso – Artix 7 FPGA Development Board – 1Qty

HTS

8542.39.0001

ECCN

3A991.d




Versatile Connectivity and Expansion

With over 80 I/O pins accessible through PMOD and GPIO headers, Neso A7 allows seamless interfacing with a wide array of external modules. The board features various interfaces like USB-UART, HDMI, and Ethernet, offering compatibility with modern communication protocols. This flexibility makes it suitable for sophisticated design and testing environments.


Comprehensive On-board Memory Support

Equipped with 256Mb SPI Flash and 64MB DDR3 SDRAM, the Neso A7 provides robust memory capabilities for large-scale designs and real-time applications. This ample memory enables smooth operation of complex algorithms and enhances design performance, making the board capable of handling demanding use-cases.


Reliable and User-Friendly Design

Built with durable FR4 material and a standard panel size, the Neso A7 offers a compact yet sturdy build. On-board peripherals such as LEDs, switches, and buzzers, combined with 100% electrical testing and high insulation resistance, ensure reliable and safe operation. Its green, lead-free surface is complemented by a clear white silkscreen for easy component identification.

FAQ's of Neso A7 FPGA Development Board:


Q: How do I program the Neso A7 FPGA Development Board?

A: The Neso A7 can be programmed using the USB-JTAG or standard JTAG interface. Support for standard development tools provided by Xilinx enables you to configure and debug the onboard Artix-7 FPGA with ease. USB programming also simplifies setup for beginners.

Q: What types of projects benefit from using the Neso A7 board?

A: The Neso A7 is well-suited for digital signal processing, embedded system design, communication protocol development, image and video processing, and hardware prototyping. Educational institutions, industrial researchers, and electronics enthusiasts leverage its versatility for a variety of applications.

Q: When should I use the external 5V power supply instead of USB power?

A: An external 5V power supply should be used when your application requires higher current for peripherals, or when USB power is not sufficient to meet your system's needs. For low power designs or development tasks, USB power is typically adequate.

Q: Where are the I/O pins accessible on the Neso A7 board?

A: I/O pins are accessible via the PMOD and GPIO headers located on the board. These headers facilitate easy connection to sensors, displays, and other external devices, expanding the board's functionality to suit a wide range of hardware experiments.

Q: What is the process for updating the configuration on the FPGA?

A: To update the FPGA configuration, connect your board using USB-JTAG or JTAG, then use the Xilinx Vivado or iMPACT tool to load your bitstream file to the FPGA. The 256Mb SPI Flash also allows for non-volatile storage of configurations, supporting automatic loading on power-up.

Q: How can I utilize the onboard peripherals for prototyping?

A: The board features 4 LEDs, 4 push buttons, 4 DIP switches, and a buzzer. These can be easily accessed and controlled via the FPGA, enabling quick implementation, validation, and demonstration of user interfaces or logic designs, making prototyping intuitive and interactive.

Q: What are the key benefits of the Neso A7's hardware and construction standards?

A: The board uses a 4-layer FR4 base, 1 oz copper thickness, and is 94V-0 flame resistant. With controlled impedance and rigorous 100% electrical testing, it offers excellent signal integrity, durability, and reliability, ensuring optimal performance for critical applications.

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Skoll K7 USB Ready To Go FPGA Module

Price: 33000 INR

/

Unit

Minimum Order Quantity : 1 Unit

Skoll K7 USB Ready To Go FPGA Module

Base Material:FR4

Board Thickness:1.6 mm

Board Type:Other, SMD/DIP Mixed

Color:Green

Copper Thickness:35 µm

Electrical Components:FPGA, USB Connector, Voltage Regulators, Oscillator

Flame Resistance Level:UL94 V-0

Hole Size:0.3 mm (min)

Impedance:Controlled, 50 Ohm

Insulation Resistance:>10^8 Ω

Min. Line Spacing:0.152 mm (6 mil)

Min. Line Width:0.152 mm (6 mil)

Number Of Layers:Other, 4 Layers

Product Type:FPGA Development board

Sensor Switch:No

Silkscreen:White

Soldermask:Green

Surface Finish:Other, ENIG (Electroless Nickel/Immersion Gold)

Test:Other, 100% E-test

Voltage Endurance:250 V AC

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Features

  • FPGA: AMD XC7K70T in FBG484 package, Speed Grade: 1
  • DDR3: 2Gb DDR3 (MT41J128M16HA-125:K)
  • Flash memory: 128 Mb Quad bit SPI flash memory (N25Q128A13EF840E)
  • 100MHz CMOS oscillator
  • High-Speed USB 2.0 interface for On-board flash programming. FT2232H Channel A is dedicated to SPI Flash /JTAG Programming. Channel B can be used for custom applications.
  • Onboard voltage regulators for single power rail operation
  • FPGA configuration via JTAG and USB
  • Maximum IOs for user-defined purposes
  • FPGA – 150 IOs, FT2232H – 8 IOs

Applications

  • Product Prototype Development
  • Accelerated computing integration
  • Development and testing of custom embedded processors
  • Signal Processing
  • Communication device development
  • Educational tool for Schools and Universities

Attribute

Value

Weight

0.12 lbs

Dimensions

5 × 3 × 1 in

Product Dimensions

3.29 x 2.26 x 0.62 in

FPGA

XC7K70T – FBG484

Memory

DDR3 – 2GBits

Primary Clock Frequency

100MHz

Number Of GPIOs (Max)

150

Configuration Options

JTAG, USB

Host Interface

USB 2.0

HTS

8542.39.0001

ECCN

3A991.d




High-Performance Kintex-7 FPGA Platform

Harness the computational power and versatility of the Xilinx Kintex-7 FPGA, supported by 1 GB DDR3 memory and over 150 user I/O pins for multitasking and rich connectivity. The Skoll K7's multiple FMC/HPC connectors support a range of high-speed peripherals, making this module a robust solution for demanding industrial and academic applications.


Robust Design and Easy Integration

Crafted with a 4-layer FR4 PCB, ENIG surface finish, and controlled impedance, the Skoll K7 ensures signal integrity and longevity. Ready for integration, it features convenient programming via JTAG or Micro USB, and can be powered through USB or an external 5V DC source for versatility in lab and field environments.


Comprehensive Tool Support and Ease of Use

The module is supported by Xilinx Vivado and ISE Design Suite, offering seamless development and debugging. Its status and programmable LEDs simplify user interaction, while plug-and-play USB interface (with JTAG and UART) streamlines setup and programming. The Skoll K7 delivers everything needed for a streamlined FPGA development workflow.

FAQ's of Skoll K7 USB Ready To Go FPGA Module:


Q: How can I program the Skoll K7 FPGA module?

A: You can program the Skoll K7 module using either the onboard Micro USB port (supporting JTAG) or a dedicated JTAG interface. Tools such as Xilinx Vivado or the ISE Design Suite are fully compatible with this device, enabling easy configuration and debugging.

Q: What are the primary benefits of the Skoll K7 module for developers?

A: The Skoll K7 offers a high-performance Kintex-7 FPGA, over 150 user I/O pins, and extensive FMC/HPC connectivity, making it ideal for rapid prototyping and complex design implementations. Its user-friendly interfaces, robust PCB design, and comprehensive tool compatibility benefit both academic and industrial users.

Q: Where is the Skoll K7 module most commonly used?

A: This module is used extensively in research institutions, universities, and industries focusing on signal processing, embedded systems, high-speed data acquisition, and real-time application development where flexible FPGA platforms are essential.

Q: What is the process for powering and getting started with the module?

A: Simply connect the Skoll K7 to your computer using the Micro USB port for both power and communication, or use an external 5V DC adapter if additional power is required. Once connected, use Vivado or ISE Design Suite to initialize your designs and begin development.

Q: When should I consider using an external 5V DC supply instead of USB power?

A: An external 5V DC supply is recommended when your application draws significant current, such as when multiple peripherals are connected or when driving a large number of I/O. For lighter or prototyping tasks, USB power is often sufficient.

Q: How do the onboard LEDs and status indicators assist in module usage?

A: The user-programmable LEDs allow developers to quickly visualize the status of their designs or debugging processes. The power status indicator provides immediate confirmation that the board is receiving power and operating within the specified range.

Q: What compliance and safety features does the Skoll K7 offer?

A: The module is RoHS compliant, tested for electrical reliability (including UL94 V-0 flame resistance), and passes 100% E-test quality checks. Such measures ensure both safety and consistent operational standards for users.

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Nereid K7 PCI Express FPGA Development Board

Price: 110000 INR

/

Unit

Minimum Order Quantity : 1 Unit

Nereid K7 PCI Express FPGA Development Board

Base Material:FR4

Board Thickness:1.6 mm

Board Type:Rigid

Color:Green

Copper Thickness:1 oz

Electrical Components:FPGA, connectors, LEDs, switches, clock oscillators, voltage regulators

Flame Resistance Level:UL94-V0

Hole Size:0.3 mm (min)

Impedance:Controlled impedance traces

Insulation Resistance:>10^12 Ω

Min. Line Spacing:6 mil

Min. Line Width:6 mil

Number Of Layers:Other, 6 Layers

Panel Size:Standard PCIe form factor

Product Type:FPGA Development board

Sensor Switch:No

Silkscreen:Other, White, both sides

Soldermask:Other, Green, both sides

Surface Finish:Other, ENIG (Electroless Nickel/Immersion Gold)

Test:Other, 100% E-Test

Voltage Endurance:250V AC

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Features

 

  • FPGA: AMD Kintex-7 XC7K160T-1 FBG676 package (Other devices available at request)
  • 4 lane PCIe Gen2.0 (5GT/s) interface at maximum 2GB/s
  • 4GB DDR3L SODIMM SDRAM M471B5173CB0-YK0 1600MHz (included)
  • 128 Mb QSPI flash memory (N25Q128A13ESE40E) for Configuration and optional data storage
  • USB to UART serial converter
  • 1 x 100MHz CMOS oscillator, 1x 150MHz LVDS oscillator for users
  • 1 x 150MHz LVDS oscillator for GTP
  • ANSI/VITA 57.1 Standard compliant FMC HPC connector
  • Maximum 174 IOs for user-defined purposes on FMC connector
  • Onboard voltage regulators for single power rail operation
  • Can be powered from PCIe slot or from an external power supply
  • JTAG header for programming and debugging
  • All differential pairs are length matched on the board
  • 1 RGB LED for custom use

 

Applications

 

  • Parallel processing and accelerators
  • Development and testing of custom embedded processors
  • Signal Processing
  • Communication device development
  • Data Acquisition
  • Educational tool for Schools and Universities
  • * Fan available only on larger FPGA variants

 

Attribute

Value

Weight

1.5 lbs

Dimensions

12 × 9 × 2 in

FPGA

XC7K160T– FBG676, XC7K325T-FBG676, XC7K410T – FBG676

Memory

DDR3 – 4GBytes

Number Of Clock Sources

3

Communication

x4 PCIe, USB-RS232

Configuration Options

JTAG

Primary Clock Frequency

100MHz

Number Of GPIOs (Max)

153

Non-Volatile Configuration Storage

N25Q128A13ESE40E

Total Number of GTX

4

Differential Pairs Length Matched

Yes

HTS

8542.39.0001

ECCN

3A991.d




Advanced FPGA Performance

Powered by the Xilinx Kintex-7 XC7K325T, the Nereid K7 supports demanding applications requiring high logic density and speed. Its Gen2 x4 PCI Express interface ensures rapid communication with host systems, ideal for data acquisition, acceleration, and research applications.


Flexible Memory and Connectivity

Onboard 1GB DDR3 SDRAM and versatile I/O connectors, such as FMC and GPIO headers, provide extensive options for interfacing with add-ons or custom peripherals. Programmable clock oscillators cater to various timing requirements, further expanding development capabilities.


Robust Design for Reliability

The board features a 6-layer FR4 construction, ENIG surface finish, and controlled impedance traces for electrical stability. Its design includes comprehensive power options and stringent testing, ensuring dependable operation within 0C to +70C, suitable for diverse project environments.

FAQ's of Nereid K7 PCI Express FPGA Development Board:


Q: How do I configure the Nereid K7 FPGA development board?

A: The Nereid K7 supports configuration via both JTAG and onboard Flash memory, allowing you to load your FPGA bitstream using standard Xilinx programming tools for flexible and convenient setup.

Q: What are the power supply options for the Nereid K7?

A: You can power the board either through a 12V external adapter or directly from the PCIe slot, providing adaptability for standalone or in-system use.

Q: When should I use the FMC and GPIO headers?

A: FMC and GPIO headers are useful whenever you need to expand board functionality, connect custom peripherals, or integrate third-party modules for prototyping or system development.

Q: Where can the Nereid K7 be deployed given its operating temperature range?

A: With an operating range of 0C to +70C, the board is suitable for use in standard indoor environments such as laboratories, development offices, and academic settings.

Q: What benefits does the board's standard PCIe form factor offer?

A: The standard PCIe form factor ensures compatibility with most desktop and server chassis, simplifying installation and integration within commercial and research computing systems.

Q: How does the board facilitate debugging during development?

A: The Nereid K7 includes user-friendly debug features like LEDs, push buttons, and DIP switches, enabling interactive testing, status monitoring, and efficient troubleshooting during hardware and software development.

Q: What advantages does the ENIG surface finish provide?

A: ENIG (Electroless Nickel/Immersion Gold) finish delivers excellent solderability, enhanced durability, and superior electrical performance, making the board robust for repeated use and assembly.

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Galatea PCI Express S6 FPGA Development Board

Price: 30030 INR

/

Unit

Minimum Order Quantity : 1 Unit

Galatea PCI Express S6 FPGA Development Board

Base Material:FR4

Board Thickness:1.6 mm

Board Type:Other, PCB

Color:Blue

Copper Thickness:1 oz

Electrical Components:Includes Xilinx Spartan-6 FPGA, PCIe connectors, onboard memory

Flame Resistance Level:UL94-V0

Hole Size:0.3 mm (min)

Impedance:Controlled impedance

Insulation Resistance:>10^12 Ω

Min. Line Spacing:6 mil

Min. Line Width:6 mil

Number Of Layers:Other, 4

Panel Size:Standard PCI Express

Product Type:FPGA Development board

Sensor Switch:No

Silkscreen:White

Soldermask:Blue

Surface Finish:Other, ENIG (Electroless Nickel/Immersion Gold)

Test:Other, 100% E-test

Voltage Endurance:1500V AC/min

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Features

 

  • FPGA: AMD Spartan-6 XC6SLX45T in -3FGG484 package (Other devices available at request)
  • x1 lane PCIe Gen1 interface
  • 2 x DDR3: 2Gb SDRAM MT41J128M16
  • Dual Port 100BASE-T Ethernet (Daughter Board)
  • IO Expansion Module (Daughter Board)
  • 128 Mb QSPI flash memory (N25Q128A13ESE40E) for Configuration and optional data storage
  • USB to UART serial converter
  • 3 x 100MHz CMOS oscillator
  • 2 x 150MHz CMOS oscillator for GTP
  • 2 x GTP available on 2x SATA connectors
  • MicroSD adapter for bulk data storage
  • All differential pairs are length matched on the module
  • Maximum 112 IOs for user-defined purposes on FX18 Hirose connectors
  • Can be powered from PCIe slot or from an external power supply
  • JTAG and SPI headers for programming and debugging
  • 44 Length matched LVDS33 differential pairs
  • 12 Length matched LVDS1V5 differential pairs
  • 2x SMA connectors for Clock or other signal input/output

 

Applications

 

  • Product Prototype Development
  • Development and testing of custom embedded processors
  • Signal Processing
  • Communication device development
  • Data Acquisition
  • Educational tool for Schools and Universities

 

Attribute

Value

Weight

1.4 lbs

Dimensions

15 × 11 × 2 in

Product Dimensions

6.59 x 3.86 x 0.70 in

FPGA Device

XC6SLX45T, XC6SLX100T, XC6SLX150T

Memory

DDR3, 2Gb x 2

Number Of Clock Sources

3

Primary Clock Frequency

100MHz

External Clock Inputs

2x SMA

Data Storage

Micro SD Slot

Non-Volatile Configuration Storage

SPI Flash (N25Q128A13ESE40E)

Total Number Of GTP

4

Number Of GPIOs (Max)

112

Differential Pairs Length Matched

Yes

Communication

PCIe, USB-RS232

Configuration Options

JTAG

HTS

8542.39.0001

ECCN

3A991.d




Versatile FPGA Platform for Complex Applications

Engineered around the Xilinx Spartan-6 XC6SLX45 FPGA, the Galatea S6 board supports demanding design tasks, enabling quick prototyping, logic emulation, and custom processing. With ample onboard DDR3 SDRAM, it is suitable for data-intensive projects where speed and memory footprint are crucial. The range of configuration methods, flexible I/O via standard PCI Express and dual FMC LPC connectors, and robust PCB design ensure reliable performance for diverse embedded applications.


Seamless Integration and Expandability

Featuring standard PCI Express x1 and two FMC LPC connectors, this development board offers broad compatibility with peripherals, add-on modules, and existing lab hardware. The onboard memory, precise impedance control, and clock source make it easy to deploy in a variety of system architectures, while the JTAG and flash options support straightforward programming and updates.

FAQ's of Galatea PCI Express S6 FPGA Development Board:


Q: How do I program the Galatea PCI Express S6 FPGA Development Board?

A: You can program the board using the JTAG header or onboard flash configuration options. Utilize the Xilinx ISE or Vivado tools along with a compatible JTAG programmer to load your bitstream into the Spartan-6 FPGA.

Q: What types of applications benefit from using this FPGA board?

A: This board is ideal for high-speed data acquisition, digital signal processing, embedded systems, rapid prototyping, and custom logic emulation. Its fast on-board DDR3 memory and expansive I/O make it suited for both industrial and academic use.

Q: When is it suitable to use the onboard flash for FPGA configuration?

A: Onboard flash is beneficial when you need the FPGA to self-configure on power-up, enabling stand-alone or in-field deployment without requiring a separate programmer each time.

Q: Where can I connect additional hardware modules or peripherals?

A: You can use the two FMC LPC connectors and the standard PCI Express interface to add compatible daughter cards, extension modules, or peripherals, greatly expanding the board's functionality.

Q: What is the process for ensuring signal integrity on this board?

A: The board features controlled impedance traces, a 4-layer design, minimum line/space of 6 mils, and 1 oz copper thickness. Together with 100% E-testing and an ENIG finish, these ensure reliable, high-quality signal transmission.

Q: How does the operating temperature range affect usage?

A: Rated for commercial operation from 0C to 70C, the board is suitable for most indoor industrial, laboratory, and development environments but should not be used in extreme temperatures or outdoor settings.

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Styx Z7 FPGA Module

Price: 26400 INR

/

Unit

Minimum Order Quantity : 1 Unit

Styx Z7 FPGA Module

Base Material:FR4

Board Thickness:1.6 mm

Board Type:Rigid

Color:Green

Copper Thickness:1 oz

Electrical Components:Mounted

Flame Resistance Level:94V-0

Hole Size:0.2 mm (min)

Impedance:Controlled

Insulation Resistance:>10^12 Ω

Min. Line Spacing:0.15 mm

Min. Line Width:0.15 mm

Number Of Layers:Other, 6

Product Type:FPGA Development board

Sensor Switch:No

Silkscreen:White

Soldermask:Green

Surface Finish:Other, ENIG (Electroless Nickel Immersion Gold)

Test:Other, 100% E-test

Voltage Endurance:250V AC

Know More

Features

  • Pin compatible with Saturn S6 FPGA Module, Neso A7 FPGA Module, and Skoll K7 FPGA Module and offers a seamless upgrade path
  • Device: XC7Z020 in CLG484 package
  • DDR3: 2Gb DDR3 (MT41J128M16HA-125:K or equivalent)
  • Flash memory: 128 Mb Quad bit SPI flash memory (N25Q128A13EF840E)
  • 33.33 MHz CMOS Oscillator
  • 100 MHz CMOS Oscillator
  • High-Speed USB 2.0 interface for onboard flash programming.
  • FT2232H Channel B is dedicated to SPI Flash /JTAG Programming. Channel A can be used for custom applications
  • Onboard voltage regulators for single-power rail operation
  • Flash programming via JTAG and USB
  • Maximum IOs for user-defined purposes
  • FPGA – 150 IOs
  • FT2232H – 8 IOs
  • All user IOs are length matched and can be used as differential pairs

Applications

  • Product Prototype Development
  • Development and testing of custom-embedded processors
  • Signal Processing
  • Communication device development
  • Educational tool for Schools and Universities

Attribute

Value

Weight

0.8 lbs

Dimensions

5 × 3 × 1 in

FPGA

XC7Z020

Memory

DDR3 MT41J128M16HA – 2Gb

Number Of GPIOs (Max)

150

Configuration Options

JTAG, USB

Primary Clock Frequency

33.33 MHz

HTS

8542.39.0001

ECCN

3A991.d




Powerful Performance in a Compact Footprint

The Styx Z7 FPGA Module is engineered for demanding embedded solutions requiring both processing power and flexibility. With a Xilinx Zynq-7000 SoC, integrated 512 MB DDR3 SDRAM, and multiple high-speed expansion options, it excels in real-time applications and hardware acceleration.


Seamless Integration and Expandability

Designed for easy integration, the module's dual FMC LPC and PMOD connectors facilitate rapid prototyping and interface expansion. USB JTAG programming and diverse communication interfaces enable straightforward development and testing for engineers and researchers.


Industrial Grade Reliability and Quality Construction

Built on a 6-layer FR4 board with ENIG finish, 1 oz copper, and rigorous electrical testing, the Styx Z7 FPGA Module offers robust performance, flame resistance (94V-0), and consistent signal integrity. Its RoHS compliance and durable design ensure long-term reliability in professional environments.

FAQ's of Styx Z7 FPGA Module:


Q: How do I program the Styx Z7 FPGA Module?

A: You can program the Styx Z7 FPGA Module using the on-board USB JTAG interface, which allows fast and reliable configuration of the Xilinx Zynq-7000 device. Standard Xilinx development tools (such as Vivado) are supported for programming and debugging.

Q: What applications benefit most from using the Styx Z7 FPGA Module?

A: The Styx Z7 is ideal for embedded computing, digital signal processing, high-speed data acquisition, academic research, and rapid prototyping. Its flexible interfaces and expandability make it suitable for both industrial and laboratory settings.

Q: When should I use FMC or PMOD connectors on this module?

A: FMC LPC connectors provide high-speed, high-density connectivity for custom daughter cards and advanced peripherals, while the PMOD connectors are perfect for low-pin-count modules like sensors or simple I/O, making them useful for diverse interfacing needs during prototyping or deployment.

Q: Where can this FPGA module be operated safely?

A: The Styx Z7 FPGA Module is designed for controlled environments with an operating temperature of 0C to +70C. It is suitable for use in laboratories, classrooms, and industrial settings that meet these conditions.

Q: What is the process for integrating the module into my system?

A: Begin by supplying regulated 5V DC power. Use USB JTAG for programming and firmware updates. Interface required peripherals through FMC or PMOD connectors, and use supported communication protocols (UART, USB 2.0, JTAG) to integrate the module with your host system.

Q: How does the Styx Z7 FPGA Module ensure reliability and electrical safety?

A: The board uses high-quality FR4 material, 6-layer construction, and ENIG surface finish, complemented by rigorous 100% E-testing and a flame resistance rating of 94V-0. It provides insulation resistance greater than 10^12 , controlled impedance, and voltage endurance up to 250V AC.

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Mimas S7 Lite

Price: 11000 INR

/

Unit

Minimum Order Quantity : 1 Unit

Mimas S7 Lite

Base Material:FR4

Board Thickness:1.6 mm

Board Type:Other, Single Board

Color:Blue

Copper Thickness:35 μm

Electrical Components:SMD and Through Hole

Flame Resistance Level:94V-0

Hole Size:0.3 mm

Impedance:Controlled

Insulation Resistance:>10^12 Ω

Min. Line Spacing:6 mil

Min. Line Width:6 mil

Number Of Layers:Other, 2

Panel Size:100 mm x 75 mm

Product Type:FPGA Development board

Sensor Switch:Slide Switches

Silkscreen:White

Soldermask:Blue

Surface Finish:HASL

Test:E-Test

Voltage Endurance:1500V

Know More

Features

  • FPGA: XC7S50 in CSGA324 package, Speed Grade: -1.
  • Flash memory: 128 Mb Quadbit SPI flash memory (MT25QL128ABA1ESE-0SIT).
  • 100MHz CMOS Oscillator.
  • FPGA configuration via JTAG and USB (Windows).
  • 2 push buttons and 8 LEDs for User defined purposes.
  • Nine PMODs for User defined purposes.

Applications

  • Educational tool for Schools and Universities
  • Product Prototype Development
  • Accelerated computing integration
  • Development and testing of custom embedded processors
  • Signal Processing
  • Communication devices development

Attribute

Value

FPGA

XC7S50 – 1CSGA324

Configuration Options

JTAG, USB

Primary Clock Frequency

100MHz

Non-Volatile Configuration Storage

128Mb QSPI flash memory

Number of PMODs

9




Exceptional FPGA Performance

At the heart of the Mimas S7 Lite lies the Xilinx Spartan-7 (XC7S15-FTGB196) FPGA, chosen for its reliable performance in digital design and embedded system development. With 512Mb DDR3 SDRAM and 16Mb SPI Flash, users benefit from high-speed temporary and permanent storage, supporting complex processing tasks and rapid prototyping for both professional and academic projects.


Seamless Connectivity and Expansion

The board provides 40 I/O pins at 3.3V logic level and two 2x20 pin dual-row expansion headers for flexible connectivity. Micro USB programming (supports both JTAG and UART) ensures straightforward configuration, while the on-board UART-to-USB bridge and power indicators enhance debugging and usability. Its standard interfaces cater to a wide range of peripherals and application needs.


Durable and User-Friendly Design

Created with a 2-layer FR4 substrate, 1.6 mm thickness, and a blue soldermask, the Mimas S7 Lite offers durability under regular use. The board's design follows stringent test standards including E-Test and 94V-0 flame resistance. With four user LEDs, four push buttons, and slide switches, it provides a hands-on platform for students, makers, and engineers.

FAQ's of Mimas S7 Lite:


Q: How can I program the Mimas S7 Lite FPGA board?

A: You can program the Mimas S7 Lite using the Micro USB interface, which provides both JTAG and UART connectivity. The Xilinx Vivado Design Suite is the recommended tool for synthesizing and uploading your FPGA designs.

Q: What are the key features that make the Mimas S7 Lite suitable for learning and prototyping?

A: The board offers a Spartan-7 FPGA, 512Mb DDR3 SDRAM, 16Mb SPI Flash, straightforward Micro USB programming, on-board UART-to-USB bridge, 4 LEDs, and 4 push buttons, making it an excellent choice for hands-on learning, rapid validation of ideas, and real hardware experience.

Q: When should I use the expansion headers on the Mimas S7 Lite?

A: Use the 2x20 pin dual-row expansion headers when you need to interface the board with additional modules, sensors, or external circuits, allowing you to extend the functionality of your FPGA designs.

Q: Where can I purchase the Mimas S7 Lite in India?

A: The Mimas S7 Lite is available through various distributors, importers, manufacturers, and suppliers across India. Check with reputable electronics component suppliers or reach out directly to the manufacturer's authorized partners.

Q: What is the process for setting up the Mimas S7 Lite for the first time?

A: Start by installing Xilinx Vivado Design Suite on your PC. Connect the board via its Micro USB port using a standard cable. Use Vivado to program the FPGA through JTAG, configure UART communication as needed, and verify operation with on-board LEDs and user buttons.

Q: How is the board protected during operation?

A: The Mimas S7 Lite incorporates flame-resistant FR4 base material, 94V-0 flame resistance, and a tough soldermask. It also features E-Test compliance, an insulating resistance greater than 10^12 , and a durable build for safe and dependable use.

Q: What benefits does the on-board UART-to-USB bridge provide?

A: The on-board UART-to-USB bridge significantly simplifies debugging and communication with a PC. It enables serial communication for data monitoring, debugging, and interaction without the need for additional external adapters.

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Mimas A7 FPGA Development Board

Price: 25300 INR

/

Unit

Minimum Order Quantity : 1 Unit

Mimas A7 FPGA Development Board

Base Material:Other, FR4 Epoxy Glass

Board Thickness:1.6 mm

Board Type:Other, FR4 PCB

Color:Green

Copper Thickness:1 oz (35 µm)

Electrical Components:Xilinx Artix-7 (XC7A35T) FPGA, 512Mb DDR3 SDRAM, Onboard configurations switches, LEDs, USB-UART, USB-JTAG, Micro SD card slot, SPI Flash

Flame Resistance Level:UL94-V0

Hole Size:0.3 mm (min)

Impedance:Controlled Impedance Routing

Insulation Resistance:>10^12 Ohm

Min. Line Spacing:0.1 mm

Min. Line Width:0.1 mm

Number Of Layers:Other, 4-Layer PCB

Panel Size:Approximately 100 mm x 70 mm

Product Type:FPGA Development board

Sensor Switch:Tactile Push Buttons

Silkscreen:White

Soldermask:Green

Surface Finish:Other, ENIG (Electroless Nickel Immersion Gold)

Test:Other, 100% Electrical Testing

Voltage Endurance:250V AC

Know More

Features

  • Device: AMD Artix 7 FPGA (XC7A50T-1FGG484C)
  • DDR3: 2Gb DDR3 (MT41J128M16HA-125 or equivalent)
  • FTDI FT2232H based host interface
  • Built-in programming interface. No expensive JTAG adapters needed for programming the board
  • Gigabit Ethernet
  • HDMI IN/OUT interfaces
  • High-Speed Serial Interface (GTP) available on mini DisplayPort connectors
  • Onboard 128Mb flash memory for FPGA configuration storage and custom user data storage
  • 100MHz CMOS oscillator
  • Micro SD card slot for memory expansion
  • Seven Segment Display and switches for easy learning, prototyping and debugging
  • FPGA configuration via JTAG and USB
  • 80 IOs (40 professionally length matched Differential Pairs) for user-defined purposes

Applications

  • Product Prototype Development
  • Accelerated computing integration
  • Development and testing of custom embedded processors
  • Signal Processing
  • Communication device development
  • Educational tool for Schools and Universities
  • Video processing

Attribute

Value

Weight

1 lbs

Dimensions

6 × 4 × 1 in

Ethernet

Gigabit

HDMI Inputs

1

HDMI Outputs

1

Host Interface

USB 2.0

Memory

DDR3 – 2GBits

Number Of GPIOs (Max)

80

Number Of Diff Pairs

40

Primary Clock Frequency

100MHz

High Speed Serial

GTP x4 (on two mini DisplayPort connectors)

HTS

8542.39.0001

ECCN

3A991.d




Powerful and Flexible FPGA Platform

Mimas A7 is built around the Xilinx Artix-7 XC7A35T FPGA, coupled with 512Mb DDR3 SDRAM, supporting high-speed data processing and storage. With 90 user I/O pins, expansion headers, and standard voltage levels (3.3V I/O, 5V power), it excels in diverse digital design applications. The high-quality four-layer PCB ensures reliable performance, while integrated configuration interfaces enable rapid prototyping and seamless workflow.


User-Friendly Connectivity and Expansion

This board offers flexible connection options with Pmod headers, a Micro-USB interface, and MicroSD slot, guaranteeing easy addition of peripherals and modules. Onboard configuration support via USB JTAG and SPI Flash simplifies programming, while accessible LEDs, switches, and buttons facilitate interactive projects and debugging.


Compatibility and Development Tools

Mimas A7 shines with its compatibility with Xilinx Vivado Design Suite, making development, simulation, and synthesis efficient and straightforward. Its user-friendly features and comprehensive documentation support rapid experimentation, making it ideal for students, hobbyists, and engineers working in embedded systems or digital logic design.

FAQs of Mimas A7 FPGA Development Board:


Q: How do I program the Mimas A7 FPGA Development Board?

A: You can program the Mimas A7 board using the onboard USB JTAG programmer, which is compatible with Xilinx Vivado Design Suite. Additionally, configuration via SPI Flash or a MicroSD card slot is supported for flexible design deployment.

Q: What advantages does the onboard 512Mb DDR3 SDRAM provide?

A: The 512Mb DDR3 SDRAM enables fast and efficient memory access, allowing for complex data processing, buffering, and storage tasks, which is crucial for demanding FPGA applications such as image processing or signal analysis.

Q: When should I use the Pmod compatible headers?

A: Use the Pmod compatible headers when you wish to connect additional modules, such as sensors, displays, or communications interfaces, to expand the boards capabilities or to prototype custom peripherals quickly.

Q: Where can I power the board from and what are the supply requirements?

A: The board is powered via a Micro-USB port, making it compatible with standard USB chargers, computers, or power banks. It operates reliably on a 5V input and supports 3.3V logic levels on the I/O pins.

Q: What is the process of configuring the FPGA using the MicroSD card?

A: To configure the FPGA via the MicroSD card, place your bitstream file onto a compatible MicroSD card, insert it into the onboard slot, and set the configuration switches as detailed in the user guide. The board will automatically load the design at power-up.

Q: How can onboard LEDs, switches, and push buttons enhance my project?

A: The eight user LEDs, five push buttons, and eight DIP switches provide interactive inputs and visual outputs, useful for interfacing, debugging, or prototyping user-controlled operations during FPGA development.

Q: What are the benefits of the boards four-layer FR4 PCB and ENIG surface finish?

A: The four-layer FR4 PCB ensures low electrical noise and robust signal integrity, while the ENIG surface finish enhances solderability, reliability, and longevity of the board, making it suitable for both professional and educational use.

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Callisto K7 USB 3.1 FPGA Module

Price: 104500 INR

/

Unit

Minimum Order Quantity : 1 Unit

Callisto K7 USB 3.1 FPGA Module

Base Material:Other, FR-4

Board Thickness:1.6 mm

Board Type:Rigid

Color:Green

Copper Thickness:1 oz (35um)

Electrical Components:Integrated with Xilinx Kintex-7 FPGA

Flame Resistance Level:UL 94V-0

Hole Size:0.3 mm (min.)

Impedance:Controlled impedance

Insulation Resistance:>10^12 Ω

Min. Line Spacing:0.1 mm

Min. Line Width:0.1 mm

Number Of Layers:Other, 6 Layers

Panel Size:Custom (per design)

Product Type:FPGA Development board

Sensor Switch:No

Silkscreen:White

Soldermask:Green

Surface Finish:Other, ENIG (Electroless Nickel Immersion Gold)

Test:Other, 100% E-Test

Voltage Endurance:>1000V

Know More

Features

  • FPGA: AMD XC7K160T in FBG676 package
  • DDR3: 4Gb DDR3 (MT41J256M16HA-125:K or equivalent)
  • Flash memory: 512 Mb Quadbit SPI flash memory (S25FL512SDSBHV210/IS25LP512M-RHLE)
  • 1 x 100MHz CMOS oscillator
  • USB 3.1 Gen1 @5Gbps (USB Type-C connector)
  • Onboard voltage regulators for single power rail operation
  • 12V DC power supply
  • A Push Button for the reset pin
  • JTAG header for programming and debugging
  • 274 IOs for user-defined purposes
  • All user IOs are length matched and can be used as differential pairs

Applications

  • Product Prototype Development
  • Communication Device Development
  • Accelerated Computing Integration
  • Development and Testing of Custom embedded processors
  • Signal Processing
  • Educational tool for Schools and Universities

Attribute

Value

Weight

0.8 lbs

Dimensions

6 × 4 × 1 in

FPGA

XC7K160T– FBG676, XC7K325T-FBG676, XC7K410T – FBG676

Memory

DDR3 – 4Gb

Number Of GPIOs (Max)

274

Configuration Options

JTAG, USB

Non-Volatile Configuration Storage

S25FL512SDSBHV210

Number of Clock Sources

1

Communication

USB 3.1

Primary Clock Frequency

100MHz

Shipping Hardware

V2

HTS

8542.39.0001

ECCN

3A991.d




Advanced FPGA Performance

The module integrates the Xilinx Kintex-7 (325T) FPGA, known for delivering high computational power and flexibility. This makes it well-suited for complex logic designs, digital signal processing, and applications requiring rapid data throughput, such as scientific instrumentation and embedded computing.


High-Speed USB 3.1 Interface

A native USB 3.1 Type-C interface ensures fast connectivity for data transfers and programming. Coupled with USB-JTAG support, users can quickly configure and debug their FPGA designs with modern devices, streamlining the development process and minimizing downtime.


Extensive Expansion and I/O

With over 120 user I/O pins exposed via robust connectors, and PMOD-compatible headers, the Callisto K7 offers excellent options for custom peripheral interfacing. The board also features high-speed I/O expansion, 1GB DDR3 RAM for temporary data storage, and 64MB SPI flash for non-volatile storage needs.

FAQ's of Callisto K7 USB 3.1 FPGA Module:


Q: How do I program the Callisto K7 USB 3.1 FPGA Module?

A: You can program the Callisto K7 using the USB-JTAG interface or direct configuration via the USB 3.1 Type-C port. The board supports configuration from onboard SPI Flash or through Xilinx programming tools, making setup straightforward for a wide range of development environments.

Q: What benefits does the USB 3.1 Type-C interface offer for this FPGA module?

A: The USB 3.1 Type-C interface enables rapid data transfer speeds and reliable communication with host devices. It simplifies the connection, powering the board directly from the USB port, and supports high-throughput applications such as data acquisition and real-time processing.

Q: Where can I use the Callisto K7 FPGA module?

A: This module is ideal for prototyping, high-speed data acquisition systems, embedded computing, and designs requiring extensive user I/O. Its robust construction and industrial temperature range make it suitable for research labs, development facilities, and educational institutions.

Q: When is the onboard 1GB DDR3 SDRAM utilized?

A: The onboard 1GB DDR3 SDRAM is used during high-speed data processing or storage-intensive operations within your FPGA design. It serves as volatile memory for buffering, caching, or real-time signal processing tasks that demand fast and temporary data access.

Q: What is the process for expanding the Callisto K7's I/O capabilities?

A: You can expand the Callisto K7's I/O by utilizing its more than 120 user I/O pins, high-speed connectors, and PMOD-compatible headers. These allow easy attachment of custom peripherals, sensors, or additional modules based on your project's requirements.

Q: How does the Callisto K7 support debugging and development?

A: The module provides a dedicated JTAG header and supports USB-JTAG debug interfaces. This enables efficient FPGA configuration, real-time debugging, and monitoring during development, facilitating a streamlined workflow for engineers and developers.

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Callisto S6 USB 3.1 FPGA Module

Price: 71280 INR

/

Unit

Minimum Order Quantity : 1 Unit

Callisto S6 USB 3.1 FPGA Module

Base Material:FR4

Board Thickness:1.6 mm

Board Type:Other, Module

Color:Green

Copper Thickness:1 oz

Electrical Components:FPGA, USB, Oscillator, EEPROM, Voltage Regulator

Flame Resistance Level:94V-0

Hole Size:0.3 mm

Impedance:Controlled Impedance

Insulation Resistance:>10 MΩ

Min. Line Spacing:6 mil

Min. Line Width:6 mil

Number Of Layers:Other, 4

Panel Size:50 x 50 mm

Product Type:FPGA Development board

Silkscreen:White

Soldermask:Green

Surface Finish:Other, ENIG (Electroless Nickel Immersion Gold)

Test:Other, 100% E-Test

Voltage Endurance:50 VDC

Know More

Features

  • FPGA: AMD Spartan XC6SLX150 in FGG676 package
  • DDR3: 2Gb DDR3 (MT41J128M16HA-125:K or equivalent)
  • Flash memory: 128 Mb Quadbit SPI flash memory (N25Q128A13ESE40E)
  • 2 x 100MHz CMOS oscillator
  • USB 3.1 Gen1 @5Gbps (USB Type-C connector)
  • JTAG header for programming and debugging
  • 12V DC power supply
  • A Push Button for the reset pin
  • 284 IOs for user-defined purposes
  • All user IOs are length matched and can be used as differential pairs
  • Onboard voltage regulators for single power rail operation

Applications

  • Signal Processing
  • Product Prototype Development
  • Communication devices development
  • Educational tool for Schools and Universities
  • Development and testing of custom embedded processors
  • Accelerated Computing Integration

Attribute

Value

Weight

0.8 lbs

Dimensions

6 x 4 x 1 in

Memory

DDR3 - 2Gb

Number Of GPIOs (Max)

284

Configuration Options

JTAG

Non-Volatile Configuration Storage

N25Q128A13ESE40E

Number of Clock Sources

2

Communication

USB 3.1

Primary Clock Frequency

100MHz

HTS

8542.39.0001

ECCN

3A991.d


 



Versatile Connectivity & Robust Hardware

The Callisto S6 offers a modern USB 3.1 Type-C interface for fast, reliable data transfer, supported by 32MB SDRAM and on-board SPI Flash. Its multiple communication ports-GPIO, UART, SPI, and I2C-enable seamless interfacing with sensors, controllers, and other modules, making it highly suitable for a wide array of embedded and prototyping applications.


Superior Design & Easy Development

This module integrates a 50 MHz oscillator and a Xilinx Spartan-6 FPGA, all on a compact 50 x 50 mm PCB. With a user-friendly JTAG programming interface (via USB) and LED status indicator, it streamlines development, while the ENIG surface finish and FR4 substrate ensure durability and stability for reliable long-term operation.


Flexible Integration for Industrial Use

Featuring SMD and through-hole pads, the Callisto S6 adapts to various mounting options. It can be deployed in diverse environments thanks to its operating temperature range (0C to 70C) and flame resistance (94V-0). Its controlled impedance and insulation resistance also make it ideal for sensitive, high-performance systems.

FAQ's of Callisto S6 USB 3.1 FPGA Module:


Q: How do I program the Callisto S6 FPGA Module?

A: Programming the Callisto S6 is straightforward using the on-board JTAG interface via the USB 3.1 Type-C port. You simply need to connect the module to your computer, install the required USB driver, and then use Xilinx ISE or Vivado software to configure the FPGA through the JTAG interface.

Q: What are the main benefits of using the Callisto S6 for development?

A: The Callisto S6 provides high-speed data transfer, diverse communication ports (GPIO, UART, SPI, I2C), and dependable hardware construction. It supports industry-standard tools, has flexible mounting options, and an ENIG surface finish for long-term reliability, making it an excellent choice for rapid prototyping and industrial projects.

Q: What process should I follow to supply power to the module?

A: The Callisto S6 is powered via a 5 V input supplied through the USB 3.1 Type-C connector. Simply connect the module to a compatible USB power source or port on your host device, and the onboard voltage regulator will manage the necessary conversions for safe, stable operation.

Q: Where can I purchase the Callisto S6 USB 3.1 FPGA Module in India?

A: The Callisto S6 module is available through authorized distributors, importers, manufacturers, and suppliers across India. You can find it in leading electronic component stores or specialized FPGA product suppliers both online and offline.

Q: When is the LED status indicator useful?

A: The onboard LED status indicator provides immediate visual feedback about the module's operational state. It is especially useful during programming, debugging, and diagnostics, helping you quickly ascertain if the module is powered and functioning as expected.

Q: What are the recommended use cases for this module?

A: The Callisto S6 is ideal for development, testing, and prototyping in embedded systems, IoT devices, industrial automation, and signal processing projects. Its versatility and multiple communication options allow integration into various electronic solutions.

Q: How does the module ensure signal integrity and electrical reliability?

A: The Callisto S6 features a 4-layer FR4 PCB with controlled impedance, an ENIG surface finish, and high insulation resistance (>10 M). Combined with a flame resistance rating of 94V-0, these characteristics provide exceptional electrical performance, durability, and safety in demanding applications.

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Proteus K7 USB 3.1 Development Board

Price: 110000 INR

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Unit

Minimum Order Quantity : 1 Unit

Proteus K7 USB 3.1 Development Board

Base Material:Other, FR4 Epoxy Glass

Board Thickness:1.6mm

Board Type:Rigid

Color:Green

Copper Thickness:35μm (1oz/ft²)

Electrical Components:High-Speed USB 3.1, FPGA, LEDs, Switches, Headers

Flame Resistance Level:UL94-V0

Hole Size:0.3mm (Minimum)

Impedance:Controlled, ±10%

Insulation Resistance:>10^9 Ω

Min. Line Spacing:0.15mm

Min. Line Width:0.15mm

Number Of Layers:Other, 4

Panel Size:100mm x 120mm

Product Type:FPGA Development board

Sensor Switch:Tactile Switch On-board

Silkscreen:Other, White; Top and Bottom

Soldermask:Other, Green, Both Sides

Surface Finish:Other, ENIG (Electroless Nickel Immersion Gold)

Test:Other, E-test (Professional)

Voltage Endurance:>500V

Know More

Features

  • FPGA : AMD Kintex-7 XC7K160T– FBG676 package (Other devices available at request)
  • 4GB DDR3L SODIMM SDRAM M471B5173CB0-YK0 or compatible
  • 128 MB QSPI flash memory (N25Q128A13ESE40E) for Configuration and optional data storage
  • 1 x 100MHz CMOS oscillator, 1x 150MHz LVDS oscillator for users
  • 2 x 150MHz LVDS oscillator for GTP
  • USB 3.1 Gen 1 @ 5Gbps (USB Type-C connector)
  • Onboard voltage regulators for single-power rail operation
  • 12V DC power supply
  • Maximum 130 IOs for user-defined purposes on FMC connector
  • 8 x GTX lanes upto 6.6Gbps on ANSI/VITA 57.1 Standard-compliant FMC HPC connector
  • Micro SD Card
  • A Push Button for the reset pin
  • JTAG header for programming and debugging.
  • 1 RGB LED for custom use.

Applications

  • Product Prototype Development
  • Communication Device Development
  • Accelerated Computing Integration
  • Development and Testing of Custom embedded processors
  • Signal Processing
  • Educational tool for Schools and Universities

Attribute

Value

Weight

2.5 lbs

FPGA

XC7K160T– FBG676, XC7K325T-FBG676, XC7K410T – FBG676

Memory

DDR3 – 4GBytes

Number Of GPIOs (Max)

130

Configuration Options

JTAG, USB

Non-Volatile Configuration Storage

N25Q128A13ESE40E

Number of Clock Sources

3

Total Number of GTX

8

Differential Pairs Length Matched

Yes

Communication

USB 3.1

Primary Clock Frequency

100MHz

HTS

8542.39.0001

ECCN

3A991.d




Robust FPGA Platform for Modern Applications

With its Xilinx Kintex-7 core and 1GB DDR3 RAM, the Proteus K7 USB 3.1 Development Board provides a scalable solution for resource-intensive processing, signal processing, and embedded applications. High-speed USB 3.1 and Gigabit Ethernet support enable rapid prototyping and deployment in various connectivity scenarios, making it ideal for both research and industrial projects.


User-Friendly Features and Expansion

The board ensures ease of development through accessible user LEDs, push buttons, and DIP switches for manual input and feedback. Standard 2.54mm pin headers and PMOD ports accommodate a wide range of expansion modules, providing developers with extensive flexibility for custom system design and testing.

FAQ's of Proteus K7 USB 3.1 Development Board:


Q: How can the Proteus K7 USB 3.1 Development Board be programmed?

A: You can program the Proteus K7 using JTAG or USB interfaces. It is compatible with Xilinx development tools that support the Kintex-7 (XC7K325T) series, enabling both onboard and external programmer connections for flexible development workflows.

Q: What are the primary connectivity features of this FPGA development board?

A: The board offers a comprehensive suite of connectivity options, including USB 3.1 Type-C, Micro USB, Gigabit Ethernet, UART, SPI, and I2C-all tailored for high-speed data transfer and versatile communication with external devices or networks.

Q: When is it beneficial to use the onboard DDR3 RAM, and what is its capacity?

A: The 1GB DDR3 RAM provides significant benefits during high-speed data processing and memory-intensive FPGA operations. It is particularly advantageous for real-time applications such as signal processing, image handling, and computation-heavy tasks.

Q: Where can I expand the board's capabilities with additional modules?

A: Expansion is facilitated through standard 2.54mm pin headers and PMOD ports, allowing integration of various peripheral modules and custom interface circuits to match your specific project requirements.

Q: What process is involved in interfacing with user inputs and indicators?

A: The board features 8 user LEDs, 4 push buttons, and 4 DIP switches. You can interact with these user interfaces through your FPGA design logic, providing input control or visual outputs as part of your project's operational workflow.

Q: How does the Proteus K7 ensure reliability and safety for users?

A: This development board is RoHS compliant and has a UL94-V0 flame-resistance rating. It features an ENIG surface finish for enhanced durability, controlled impedance, and high insulation resistance, making it robust for both laboratory and industrial environments.

Q: What advantages does the USB 3.1 interface offer over standard USB connections?

A: USB 3.1 provides significantly faster data transfer rates compared to standard USB interfaces. This benefits high-bandwidth applications, reduces programming times, and streamlines communication with PCs or other host devices.

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Tagus A7 PCI Express Development Board

Price: 66000 INR

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Unit

Minimum Order Quantity : 1 Unit

Tagus A7 PCI Express Development Board

Base Material:FR4

Board Thickness:1.6mm

Board Type:Other, PCI Express Development

Color:Green

Copper Thickness:1oz

Electrical Components:Includes Artix-7 FPGA, PCI Express Edge Connector, DDR3 Memory

Flame Resistance Level:UL94 V-0

Hole Size:0.2mm (min)

Impedance:Controlled, 50Ω

Insulation Resistance:>500 MΩ

Min. Line Spacing:0.13mm

Min. Line Width:0.13mm

Number Of Layers:Other, 4

Panel Size:140mm x 95mm

Product Type:FPGA Development board

Sensor Switch:No

Silkscreen:White

Soldermask:Green

Surface Finish:Other, ENIG (Electroless Nickel Immersion Gold)

Test:Other, 100% E-test

Voltage Endurance:50V DC

Know More

Features

 

  • FPGA: AMD Artix-7 XC7A200T in -2 FBG484I package
  • 1 lane PCIe Gen2.0(5.0GT/s)
  • DDR3: 2Gb DDR3 (MT41J128M16HA-125:K or equivalent)
  • 128 Mb QSPI flash memory (N25Q128A13ESE40E) for Configuration and optional data storage
  • USB to UART serial converter
  • 1 x 100MHz CMOS oscillator
  • Maximum 68 IOs for user-defined purposes on ANSI/VITA 57.1 Standard-compliant FMC LPC connector
  • 1x GTP lanes up to 6.6Gbps on ANSI/VITA 57.1 Standard-compliant FMC LPC connector
  • 1 RGB LED for custom use
  • 1x Trusted Platform Module (ATXXXXXX )
  • Dual SFP Cages
  • MicroSD adapter for bulk data storage
  • Onboard voltage regulators for single-power rail operation
  • Can be powered from a PCIe slot or an external power supply
  • JTAG header for programming and debugging
  • All differential pairs are length matched on the board

 

Applications

 

  • Parallel Processing and Accelerators
  • Product Prototype Development
  • Development and Testing of custom-embedded processors
  • Signal Processing
  • Communication Device Development
  • Data Acquisition
  • Educational tool for Schools and Universities

 

Attribute

Value

Weight

1.2 lbs

Dimensions

12 × 9 × 2 in

FPGA

XC7A100T-1FGG484C, XC7A200T-2FBG484I

Configuration Options

JTAG, USB

Memory

DDR3 – 2GBits

Number Of GPIOs (Max)

68

Non-Volatile Configuration Storage

N25Q128A13ESE40E

Total Number of GTP

4 (1x PCIe x1, 1x FMC LPC, 2x SFP )

Differential Pairs Length Matched

Yes

Communication

x1 PCIe, USB-RS232

Primary Clock Frequency

100MHz

HTS

8542.39.0001

ECCN

3A991.d




Versatile FPGA Development Platform

Experience flexible and scalable development with the Tagus A7 PCI Express Board, centered on the powerful Xilinx Artix-7 (XC7A35T) FPGA. Its combination of high-speed memory, PCIe Gen2 connectivity, and extensive user interfaces makes it suitable for a broad range of applications, from learning environments to industrial prototyping.


Seamless Expansion and Connectivity

Equipped with Pmod and FMC standard interfaces, the board allows straightforward expansion for custom peripherals or testing modules. The onboard DDR3 memory and PCI Express edge connector ensure high-speed data communication for demanding projects, all powered efficiently through PCIe or an external 5V input.

FAQ's of Tagus A7 PCI Express Development Board:


Q: How can I program the Tagus A7 PCI Express Development Board?

A: The board is easily programmed via the onboard JTAG interface, compatible with standard Xilinx programming tools such as Vivado design suite. Simply connect your programming cable to the JTAG header and follow your preferred development workflow.

Q: What are the power supply options for this development board?

A: The board can be powered directly from the PCI Express bus or using an external 5V input. This dual power option offers flexibility for development and deployment in diverse environments.

Q: When is it beneficial to use the PCI Express x1 Gen2 interface on this board?

A: Employ the PCIe x1 Gen2 interface whenever you need high-speed data transfer between the FPGA board and a host system, such as for real-time data processing or interfacing with PC-based applications.

Q: Where can the Tagus A7 board be mounted?

A: With M3 mounting holes at all four corners, the board can be securely installed in custom enclosures, development racks, or test benches, facilitating safe and stable project setups.

Q: What process is involved in interfacing additional modules via the expansion interface?

A: You can utilize the Pmod and FMC standard compatible headers to connect expansion modules, such as sensors or custom boards. Simply plug compatible modules into the respective headers, configure your FPGA design, and begin utilizing the extended features.

Q: How can I monitor or debug my design with the onboard features?

A: The board provides 8 user-controlled LEDs, 4 push-buttons, and 4 DIP switches, which you can assign within your FPGA design as status indicators or user-input devices for rapid debugging and prototyping.

Q: What are the benefits of the board's RoHS compliance and quality construction?

A: Being RoHS compliant and built with lead-free processes on a 4-layer FR4 PCB with ENIG surface finish, the board ensures durability, environmental safety, and reliable signal integrity, ideal for critical prototype and production applications.

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Aller A7 FPGA Board with M.2 Interface

Price: 55000 INR

/

Unit

Minimum Order Quantity : 1 Unit

Aller A7 FPGA Board with M.2 Interface

Base Material:FR4

Board Thickness:1.6 mm

Board Type:Rigid

Color:Green

Copper Thickness:1 oz

Electrical Components:Pre-soldered high-quality SMD/TH components

Flame Resistance Level:UL 94V-0

Hole Size:0.3 mm min

Impedance:Controlled Impedance

Insulation Resistance:>=10^12 Ω

Min. Line Spacing:6 mil

Min. Line Width:6 mil

Number Of Layers:Other, 4 Layers

Panel Size:Standard

Product Type:FPGA Development board

Sensor Switch:No

Silkscreen:White

Soldermask:Green

Surface Finish:Other, ENIG (Electroless Nickel Immersion Gold)

Test:Other, 100% E-Tested

Voltage Endurance:1000V

Know More

Features

 

  • Device: AMD Artix 7 FPGA (XC7A200T-2FBG484I)
  • DDR3: 2Gb DDR3 ( MT41J128M16JT-125:K TR )
  • 4 lane PCIe Gen2 (5 GT/s)
  • Flash memory: 512 Mb Quadbit SPI flash memory (S25FL512SDSBHV210/IS25LP512M-RHLE)
  • JTAG header for programming and debugging
  • 100 MHZ CMOS oscillator
  • 1 x Trusted Platform Module (AT97SC3205)
  • M.2 Connector Interface, M-Key
  • Powered from M.2 connector
  • 1 RGB LED for custom use

 

Applications

 

  • Product Prototype Development
  • Accelerated computing integration
  • Development and testing of custom embedded processors
  • Signal Processing
  • Memory Intensive FPGA development
  • Educational tool for Schools and Universities
  • High Hash Rate calculations for Blockchain technologies such as Bitcoin and Ethereum
  • Offloading computationally intensive algorithms to FPGA
  • Machine Learning and Artificial Intelligence

 

Attribute

Value

Weight

0.6 lbs

Dimensions

5 × 3 × 1 in

Product Dimensions - without heat sink

3.15 x 0.90 x 0.18 in

FPGA

XC7A200T-2FBG484I

Configuration Options

JTAG

Memory

DDR3 – 2GBits

Non-Volatile Configuration Storage

1Gb flash memory

Total Number of GTP

4 (PCIe Gen 2, 4 lanes)

Junction Temperature Range

0-90 degrees Celsius

Power Supply

3.3V from M.2 connector (M-Key)

Primary Clock Frequency

100MHz

Package Contents

A standard heat sink, Aller Artix-7 M.2 FPGA Module – 1 Qty

HTS

8542.39.0001

ECCN

3A991.d




Versatile FPGA Board with Powerful Connectivity

The Aller A7 FPGA Board stands out with its integration of a Xilinx Artix-7 FPGA and a high-speed M.2 interface, making it ideal for modern embedded and hardware acceleration projects. Its PCIe Gen2 x4 support, DDR3 SDRAM, and multiple expansion possibilities allow developers to scale their applications swiftly and efficiently.


Designed for Flexibility and Durability

With a compact footprint, robust mounting holes, and high-quality construction, the Aller A7 suits both rapid prototyping and deployment. Careful attention to board integrity, controlled impedance, and stringent UL 94V-0 flame rating ensure long-lasting performance across the supported temperature range.


Easy Programming and Debugging

Featuring a simple USB 2.0 interface for programming and debugging, the board makes FPGA development accessible for engineers of all proficiency levels. JTAG and flash configuration options, onboard status LEDs, and e-tested reliability streamline the development workflow and reduce setup time.

FAQ's of Aller A7 FPGA Board with M.2 Interface:


Q: How can I program and debug the Aller A7 FPGA Board?

A: You can easily program and debug the board using the USB 2.0 interface provided. The board supports both JTAG and flash configuration methods for flexible development. Onboard status and debug LEDs assist in monitoring the programming process.

Q: What expansion options are supported by the Aller A7 FPGA Board?

A: The board features standard 2.54mm pitch headers and supports both SYZYGY and PMOD expansions, enabling a wide range of additional peripherals and custom daughter cards for extended functionality.

Q: Where can this FPGA board be used effectively?

A: Designed for versatility, the Aller A7 suits embedded applications requiring high-speed data processing, hardware prototyping, and educational projects. Its M.2 interface and PCIe Gen2 x4 support make it particularly useful for interfacing with modern storage or acceleration modules.

Q: What are the power input requirements and how is the board powered?

A: The Aller A7 requires a 5V DC input, conveniently supplied via a USB-C connection, ensuring compatibility with standard power sources and simplifying integration into various setups.

Q: When is using the M.2 M-Key slot beneficial for a project?

A: Utilizing the M.2 M-Key slot is advantageous when rapid data transfer via PCIe Gen2 x4 is needed-such as for high-speed storage, real-time data acquisition, or computational offloading-leveraging the board's advanced interface capabilities.

Q: What makes the Aller A7 durable and reliable for industrial or educational use?

A: The board features a robust 4-layer FR4 construction with 1 oz copper, controlled impedance, ENIG surface finish, and a flame resistance level of UL 94V-0. All boards are 100% E-tested to ensure reliable performance in demanding environments.

Q: How does the onboard 100 MHz oscillator benefit FPGA development?

A: The integrated 100 MHz oscillator provides a stable and accurate clock reference, supporting a variety of timing-critical applications and enabling reliable operation of custom FPGA designs without the need for external clock sources.

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Narvi S7 FPGA Module

Price: 22000 INR

/

Unit

Minimum Order Quantity : 1 Unit

Narvi S7 FPGA Module

Base Material:FR4

Board Thickness:1.6mm

Board Type:Rigid

Color:Green

Copper Thickness:35um (1oz)

Electrical Components:Pre-assembled

Flame Resistance Level:UL94-V0

Hole Size:0.2mm (min)

Impedance:50 Ω (controlled)

Insulation Resistance:>10^12 Ω

Min. Line Spacing:0.15mm

Min. Line Width:0.15mm

Number Of Layers:Other, 4

Panel Size:114mm x 64mm

Product Type:FPGA Development board

Sensor Switch:No

Silkscreen:White

Soldermask:Green

Surface Finish:Other, HASL (Lead-Free)

Test:Other, 100% E-test

Voltage Endurance:>1000V

Know More

Features

Pin compatible with :

  • Saturn S6 FPGA Module
  • Skoll K7 FPGA Module
  • Neso A7 FPGA Module
  • Styx Z7 FPGA Module
  • Telesto MAX10 FPGA Module and offers a seamless upgrade path.

  • FPGA: XC7S50 in CSGA324 package, Speed Grade: -1
  • DDR3: 2Gb DDR3 (MT41J128M16HA-125:K or equivalent).
  • Flash memory: 128 Mb Quadbit SPI flash memory (N25Q128A13ESE40E).
  • 100MHz CMOS oscillator.
  • High-Speed USB 2.0 interface for Onboard flash programming. FT2232H Channel B is dedicated to SPI Flash /JTAG Programming. Channel A can be used for custom applications.
  • Onboard voltage regulators for single power rail operation.
  • FPGA configuration via JTAG and USB.

Maximum IOs for user-defined purposes.

  • –FPGA – 130 IOs
  • –FT2232H – 8 IOs

All the user IOs are length matched and can be used as differential pairs.

Applications

  • Product Prototype Development
  • Accelerated computing integration
  • Development and testing of custom-embedded processors
  • Signal Processing
  • Communication devices development
  • Educational tool for Schools and Universities

Attribute

Value

Weight

0.8 lbs

Dimensions

5 × 3 × 1 in

Speed Grade

-1

FPGA

XC7S50 – CSGA324

Memory

DDR3 – 2GBits

Primary Clock Frequency

100MHz

Configuration Options

JTAG, USB

Number Of GPIOs (Max)

130

Header Type and IO Headers

Male Header on Bottom, Female Header on Top, Ship Separate

Host Interface

USB 2.0

Product Dimensions

3.29 x 2.26 x 0.60 in

HTS

8542.39.0001

ECCN

3A991.d




Advanced Xilinx Spartan-7 FPGA Core

At the heart of the module is the Xilinx Spartan-7 XC7S50-1CSGA324C FPGA, delivering a cost-effective solution for a wide variety of complex digital designs. It provides ample logic resources and flexible I/O, enabling rapid prototyping and deployment in both educational and industrial environments.


Robust Memory and Connectivity

Equipped with 16MB of on-board flash memory (W25Q128JV) and 64MB SDRAM, the Narvi S7 handles substantial data processing tasks with efficiency. Micro USB (UART) interfaces ensure seamless connectivity to PCs, while JTAG simplifies programming and debugging workflows.


User-Friendly Interface and Design

The module includes intuitive user interfaces: four push buttons, four DIP switches, and eight LEDs for real-time interaction, making testbenches and demonstrations straightforward. Its 74 I/O pins accommodate a broad range of peripherals, making it ideal for comprehensive development needs.

FAQ's of Narvi S7 FPGA Module:


Q: How do I program the Narvi S7 FPGA Module?

A: You can program the Narvi S7 via the standard JTAG interface using a compatible Xilinx programmer. The micro USB port also supports UART communication for debugging and data exchange. Download and install Xilinx ISE or Vivado Design Suite as the primary development software.

Q: What are the mounting options for the Narvi S7 module?

A: The Narvi S7 FPGA Module supports both socket and through-hole mounting, allowing flexibility for breadboards, prototyping setups, or permanent hardware installations. Its 114mm x 64mm rigid PCB ensures stable assembly in various project configurations.

Q: When should I use the on-board memory interfaces?

A: Use the 16MB on-board flash for non-volatile configuration storage and the 64MB SDRAM when your application requires high-speed, temporary data handling such as image processing, buffering, or real-time computations.

Q: Where can I purchase the Narvi S7 FPGA Module in India?

A: You can obtain the Narvi S7 FPGA Module through authorized distributors, importers, or manufacturers specializing in embedded and electronic components within India. Look for suppliers that guarantee RoHS-compliance and offer after-sales technical support.

Q: What is the benefit of having 74 I/O pins and controlled impedance on this module?

A: The large number of 3.3V-tolerant I/O pins, along with a 50 controlled impedance design, enables high-speed digital interfacing and reliable signal integrity, even in demanding applications such as communication, robotics, or industrial automation.

Q: How do I power the module and what protection features are included?

A: The Narvi S7 can be powered via standard USB 5V or an external DC supply. Its FR4 construction, UL94-V0 flame resistance, and HASL (lead-free) surface finish ensure operational safety and longevity for both development and deployment.

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Mimas A7 Mini FPGA Development Board

Price: 16500 INR

/

Unit

Minimum Order Quantity : 1 Unit

Mimas A7 Mini FPGA Development Board

Base Material:FR4

Board Thickness:1.6 mm

Board Type:Rigid

Color:Green

Copper Thickness:1 oz

Electrical Components:Micro USB Connector, JTAG Header, LEDs, DIP Switches, Reset Button

Flame Resistance Level:UL94 V-0

Hole Size:0.3 mm

Impedance:Controlled Impedance

Insulation Resistance:>10^10 Ω

Min. Line Spacing:0.15 mm

Min. Line Width:0.15 mm

Number Of Layers:Other, 4

Panel Size:70 mm x 40 mm

Product Type:FPGA Development board

Sensor Switch:Tactile Push Button

Silkscreen:White

Soldermask:Green

Surface Finish:Other, ENIG (Electroless Nickel Immersion Gold)

Test:Other, 100% Electrical Test

Voltage Endurance:250V AC

Know More

Features

  • Device: AMD Artix 7 FPGA (XC7A35T-1FTG256C)
  • DDR3: 2Gb DDR3 (MT41J128M16JT-125 or equivalent)
  • Built-in programming interface. No expensive JTAG adapters needed for programming the board
  • Onboard 128Mb flash memory for FPGA configuration storage and custom user data storage
  • High-Speed USB 2.0 interface for On-board flash programming. FT2232H Channel B is dedicated to JTAG Programming. Channel A can be used for custom applications
  • 100MHz CMOS oscillator
  • 8 LEDs, 1 RGB LED and 4 Push Buttons for user-defined purposes
  • FPGA configuration via JTAG and USB
  • Maximum IOs for user-defined purposes
  • FPGA – 70 IOs (35 professionally length matched Differential Pairs) and two 2×6 Expansion Headers

Applications

  • Product Prototype Development
  • Accelerated computing integration
  • Development and testing of custom embedded processors
  • Communication devices development
  • Educational tool for Schools and Universities

Attribute

Value

Dimensions

6 × 4 × 1 in

FPGA

XC7A35T – 1FTG256C

Memory

DDR3 – 2Gb

Configuration Options

JTAG, USB

Host Interface

USB 2.0

Primary Clock Frequency

100MHz

Number Of GPIOs (Max)

70

Number Of Diff Pairs

35

HTS

8542.39.0001

ECCN

EAR99




High-Performance FPGA in a Compact Design

The Mimas A7 Mini offers powerful computation with the Xilinx Artix-7 (XC7A35T) FPGA, ensuring the capability to handle complex digital design requirements. Its small size and versatile interface make it practical for both professionals and students.


Versatile Connectivity and Expansion Options

Equipped with a 40-pin expansion header (3.3V), USB interface for both programming and UART, as well as on-board SPI Flash memory, the board supports a wide range of peripheral and communication requirements for your projects.


Ease of Use and Reliable Power Supply

The board is designed for user convenience, supporting 5V power via USB or an external header. Features like user LEDs, tactile push buttons, and DIP switches enhance interactivity and prototyping flexibility.

FAQ's of Mimas A7 Mini FPGA Development Board:


Q: How do I program the Mimas A7 Mini FPGA Development Board?

A: You can program the Mimas A7 Mini using either the USB interface or the dedicated JTAG header. The board is compatible with Xilinx Vivado design tools, making it easy to load your FPGA configuration via USB (Micro) or JTAG connection.

Q: What development tools are supported with this board?

A: The Mimas A7 Mini is supported by the Xilinx Vivado development suite, which is used to create, simulate, and download designs onto the Artix-7 XC7A35T FPGA.

Q: When should I use the external power header instead of USB?

A: Use the external power header for applications that require higher current or when USB power is insufficient for connected peripherals. The board accepts input voltages between 4.5V and 5.5V.

Q: Where can I access the GPIO pins for interfacing?

A: The 40-pin expansion header on the board provides easy access to the FPGA's I/O pins, all operating at 3.3V, suitable for connecting sensors, modules, or custom circuits.

Q: What process should I follow to configure the FPGA and store user data?

A: The 512Mb SPI Flash memory is used to store the FPGA bitstream and user data. Use Vivado to generate your configuration file and program it onto the flash via USB or JTAG interfaces.

Q: How is the Mimas A7 Mini beneficial for prototyping and development?

A: Its combination of a powerful Artix-7 FPGA, abundant I/O, user interface elements, and compatibility with industry-standard tools makes it ideal for rapid prototyping, embedded development, and educational purposes.

Q: What safety and durability features does the board have?

A: Constructed on a four-layer rigid PCB with ENIG finish, UL94 V-0 flame resistance, and controlled impedance, the board ensures robust operation and reliability in various environments.

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