EPF10K50VBC356-3 FPGA: Features, Specifications, and Applications

You use the epf10k50vbc356-3 fpga to make digital design easier. This device lets you build and test many digital systems. Engineers, students, and tech fans use this fpga in areas like telecommunications, aerospace, and industrial automation. More people want digital design now. The global fpga market may reach USD 13.5 billion by 2032. When you pick a solution, check its features, strengths, and other choices.

Key Takeaways

• The EPF10K50VBC356-3 FPGA has a lot of logic gates. It can have up to 250,000 gates. This makes it good for hard digital designs.

• This FPGA does not use much power. It uses less than 0.5 mA when on standby. This helps save energy in systems.

• There are 274 input and output pins on the EPF10K50VBC356-3. This lets it connect to many digital parts. It makes designs more flexible.

• The chip lets you change how it works. You can update and change designs as technology gets better.

• People use it in many areas. It is used in industrial automation, communication systems, and consumer electronics. This shows it can work in many fields.

EPF10K50VBC356-3 FPGA Overview

FLEX-10K Family Introduction

The flex-10k fpga family is popular with engineers. These devices help with reconfigurable computing. The flex-10k family was a big improvement in programmable logic. It has reconfigurable architecture and built-in memory. It also works with many I/O standards. You can use up to 250,000 gates for complex systems. Each device is tested before it ships, so it works well. You can reprogram the SRAM-based design many times. This lets you change your project as technology gets better.

• Reconfigurable architecture

• Embedded memory capabilities

• Works with many I/O standards

• Up to 250,000 gates for high density

• Every device is tested before shipping

• SRAM-based for easy reprogramming

The flex-10k family keeps getting better. Newer versions like FLEX 10KE add more features and work faster. These devices are used in fast-changing fields like telecommunications and cars.

Device Highlights

The epf10k50vbc356-3 fpga is special in the flex-10k group. It gives you strong computing power and design flexibility. You can look at the table to see how it compares to other flex-10k devices:

Feature	EPF10K50VBC356-3	Other FLEX-10K Members
Gates	Up to 250,000	10,000 to 250,000
RAM Bits	Up to 40,960	Varies
Reconfigurability	Yes	Yes
System-on-a-Programmable-Chip	Yes	Yes
Low Power Consumption	< 0.5 mA in standby	Varies

This fpga has 360 logic blocks and 2880 logic elements. It also has 274 input/output pins. The surface-mount package uses 356 pins. This helps you connect to many digital parts.

Feature	Description
Part of the FLEX-10K® FPGA Family	Yes
Configurable Logic Blocks	360
Logic Elements	2880
Embedded RAM	Yes
Input and Output Pins	274
High Gate Count Capacity	Yes
Operating Voltage Range	Wide
Surface-Mount Package	356 Pins
Temperature Range	Standard

Importance in Digital Design

You use the epf10k50vbc356-3 fpga for digital projects that need reconfigurable computing. The flex-10k devices let you change your design as you need. You can build, test, and update systems for factories, communication, or electronics. The flex-10k family helps you keep up with new technology. You get flexibility, high density, and good performance for your digital projects.

Key Features of EPF10K50VBC356-3 FPGA

Logic Blocks and Architecture

The epf10k50vbc356-3 fpga has a grid layout. This layout has many blocks that connect together. These blocks help you make your own digital circuits. The main blocks are called Logic Array Blocks (LABs). Each LAB has several Logic Elements (LEs). You use LEs to build logic functions. The blocks link with fast local connections. This helps signals move quickly inside the chip.

• The architecture has:

  • Logic Array Blocks (LABs) for custom logic

  • Embedded Array Blocks (EABs) for memory and hard tasks

  • I/O Elements (IOEs) for sending and getting signals

  • Hierarchical routing for quick communication

This setup lets your digital projects work well. The inside connections help you handle hard designs. Your system does not slow down. You can use the fpga for many digital jobs. It works for simple controllers and also for signal processing.

Here is a table to compare some features:

Series	FLEX 10K
Number of Logic Blocks	360
Number of I/Os	274
Operating Supply Voltage	3.3 V

Memory and I/O Capabilities

The epf10k50vbc356-3 fpga gives you strong memory and I/O. The chip has up to 40,960 bits of RAM. You can use this RAM to store data or buffer signals. You can also run small programs. The 20.5 kbit distributed RAM helps you manage data close to where you need it.

The fpga has 274 input/output pins. These pins let you connect to sensors and displays. You can also connect to other digital devices. This lets you build systems that talk to many parts at once.

Specification	Value
RAM Size	Up to 40,960 bits
Number of I/Os	274
Distributed RAM	20.5 kbit

Tip: The many I/O pins help you connect your fpga to lots of digital parts. This makes your design more flexible and strong.

Power and Packaging

The epf10k50vbc356-3 fpga uses very little power. In standby, it needs less than 0.5 mA. This low power helps you make energy-saving systems. This is good for battery or always-on devices.

The fpga comes in a 356-pin LBGA package. This package is small but gives you many connections. You can put the chip on modern boards without using much space. The many pins let you connect to lots of signals at once.

The 356-pin BGA package makes the fpga easy to use in many projects. You get a small size and many features. This is great for embedded and mid-level digital designs.

Here are some problems you may face in digital design and how this fpga helps:

Challenge	Description
Balancing Power Consumption with Reliability	You can add error correction, but you must watch energy use.
Managing Increased Design Complexity	More features mean more gates and routes, but the fpga helps you handle this.
Performance Impact of Reliability Features	Extra reliability can slow things, but fast routing keeps your system quick.

The epf10k50vbc356-3 fpga gives you many good features. You get high logic density, lots of memory, many I/O pins, low power use, and a small package. These features make it a great choice for embedded and mid-level digital projects.

EPF10K50VBC356-3 FPGA Specifications

The epf10k50vbc356-3 fpga has many features. These features help you make strong digital systems. This part tells you about the main technical details. You should know these before you start your project.

Electrical and Performance Specs

You must know the electrical details to build a good design. The epf10k50vbc356-3 fpga needs a supply voltage from 3.0V to 3.6V. It uses about 10 mA when it is working. The chip works in temperatures from 0°C to +70°C. This means you can use it in many places, even if it gets hot or cold.

Here is a table with the main electrical details:

Specification	Value
Operating Supply Voltage	3.0V to 3.6V
Operating Supply Current	10 mA
Maximum Operating Temperature	+70°C
Minimum Operating Temperature	0°C

This fpga has up to 50,000 usable gates. The highest clock speed is 125 MHz. This lets you run fast digital circuits and do hard jobs. It does not use much power. It works in many temperatures. This makes it good for lots of projects.

You can use these details to plan your system. This helps you avoid problems with power or heat.

Technology and Speed Grade

The epf10k50vbc356-3 fpga is made with 0.42-micron process technology. This lets the chip have more features in a small space. It works better and uses less power. The speed grade is -3. This means the fpga can do fast digital work. You can use it for designs that need quick and steady timing.

When you pick this fpga, you get new technology and strong performance. The technical details help you build fast and cool digital systems.

Supported Standards

You need to connect your fpga to other parts. The epf10k50vbc356-3 fpga works with many common digital standards. You can use it with TTL, LVTTL, and PCI logic levels. This makes it easy to link the fpga to microcontrollers, memory, and other chips.

• Supported I/O standards:

  • TTL (Transistor-Transistor Logic)

  • LVTTL (Low-Voltage TTL)

  • PCI (Peripheral Component Interconnect)

These features let you use the fpga in many kinds of designs. You can build digital systems for factories, communication, or home use. The support for many standards gives you more choices and makes your work easier.

Note: Always check the technical details for your project. This makes sure all your parts work together.

Now you know the main details and features of the epf10k50vbc356-3 fpga. This information helps you see if this chip is right for your next project.

FPGA Applications and Use Cases

Industrial Automation

The epf10k50vbc356-3 fpga is used in factories. It helps control machines and robots. You can use it for conveyor belts and sensors. This fpga lets you do digital signal processing. You can also change your design when needed. If you want new features, you can update it. The table below shows where this fpga is used:

Application Area	Description
Industrial automation	Used for controlling machines in factories.
Automotive systems	Supports driver-assist and entertainment systems.
Data processing centers	Processes large amounts of information quickly.
Medical diagnostic equipment	Utilized in MRI machines and other medical tools.
Military and defense systems	Employed for safe communication and radar.
Research and development labs	Used for experimenting with new digital ideas.

You can try out new digital ideas in your factory with this fpga. This helps you test and fix your design before making the final system.

Communication Systems

This fpga is used in many communication devices. You can use it in routers and wireless gadgets. It helps with digital signal processing. The fpga can handle fast data and new protocols. You can change your design to add new standards. It is good for testing network equipment. You can add things like error correction and encryption.

• With this fpga, you can:

  • Make custom digital signal processing blocks.

  • Try out new communication protocols.

  • Add security to your design.

Consumer Electronics

You find this fpga in smart TVs and game consoles. It is also used in audio devices. The fpga helps with video and sound signals. You can make new digital features for home entertainment. It lets you test new products and designs fast. You can add things like better images and voice control.

This fpga lets you make cool digital features for electronics. You can update your design as technology gets better.

The epf10k50vbc356-3 fpga is used in many digital projects. Its features help you change designs, process signals, and build new things fast. You can make strong systems for factories, communication, and home devices.

Pros, Cons, and Alternatives

Advantages of EPF10K50VBC356-3 FPGA

This fpga gives you many good things for your projects. It has lots of logic blocks and many I/O pins. You can use it in things like factory control, phones, and home electronics. The chip does not use much power, so it saves energy. You can reprogram it again and again. This helps you try out ideas and test new things. The flexible design lets you change your project as you need. You can use this chip in digital systems that need quick updates.

Key advantages:

• High logic density for complex applications

• Many I/O pins for easy connections

• Low power use for efficient systems

• Reprogrammable for fast changes

• Good for both learning and real-world projects

Tip: You can try out new ideas fast with this fpga before making your final product.

Limitations

There are some problems you might have with this chip. It is not as fast as some newer chips. The memory is not big enough for very large jobs. The 0.42-micron process is older than what new chips use. This chip does not work with the newest high-speed connections. You may also need special tools to program it.

Limitation	Impact on Applications
Lower speed	Not ideal for high-speed tasks
Limited memory	Hard for large data projects
Older process technology	Less efficient than new chips
Fewer modern interfaces	Limits some new applications

Alternative FPGA Options

You can pick other chips if you want more speed or memory. Some good choices are Xilinx Spartan, Lattice MachXO, and Intel Cyclone. These chips are faster, have more memory, and work with new connections. You can use them for harder jobs or when you need better results. Always look at what your project needs before you choose a chip.

• Xilinx Spartan: Good for low-cost applications

• Lattice MachXO: Great for simple digital designs

• Intel Cyclone: Offers more memory and speed

Note: You should look at features and prices to find the best chip for your project.

You have learned about the main features of the EPF10K50VBC356-3 FPGA. This chip can be used in lots of different projects. It works for things like factory machines and home electronics. Before you start, make sure this chip fits your project needs. You should compare what you need with what this chip can do.

 

 

 

 

 

Written by Jack Elliott from AIChipLink.

 

AIChipLink, one of the fastest-growing global independent electronic   components distributors in the world, offers millions of products from thousands of manufacturers, and many of our in-stock parts is available to ship same day.

 

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