Allicdata Part #: | 5CEBA4F17A7N-ND |
Manufacturer Part#: |
5CEBA4F17A7N |
Price: | $ 59.91 |
Product Category: | Integrated Circuits (ICs) |
Manufacturer: | Intel FPGAs/Altera |
Short Description: | IC FPGA 128 I/O 256FBGA |
More Detail: | N/A |
DataSheet: | 5CEBA4F17A7N Datasheet/PDF |
Quantity: | 1000 |
90 +: | $ 54.46350 |
Series: | Cyclone® V E |
Part Status: | Active |
Number of LABs/CLBs: | 18480 |
Number of Logic Elements/Cells: | 49000 |
Total RAM Bits: | 3464192 |
Number of I/O: | 128 |
Voltage - Supply: | 1.07 V ~ 1.13 V |
Mounting Type: | Surface Mount |
Operating Temperature: | -40°C ~ 125°C (TJ) |
Package / Case: | 256-LBGA |
Supplier Device Package: | 256-FBGA (17x17) |
Base Part Number: | 5CEBA4 |
Due to market price fluctuations, if you need to purchase or consult the price. You can contact us or emial to us: sales@allicdata.com
FPGAs, or Field Programmable Gate Arrays, have been used for decades in many applications including digital signal processing, communications, industrial automation, automotive industry and other applications. In the broadest sense, an FPGA is a logic array in which the connectivity, timing and signal levels are programmable. In this regard, a FPGA is a flexible semiconductor chip that can be used in many different ways. FPGAs are typically used in systems where real-time control, reconfiguration and flexibility is required. The 5CEBA4F17A7N is a FPGA designed by Altera and is the industry\'s first device to combine the benefits of an ARM® Cortex™-A9 processor and programmable logic technology in a single device. The 5CEBA4F17A7N’s dual-core ARM Cortex-A9 processor is ideal for applications that require high-performance processor capabilities, as well as providing a flexible, open and secure platform for embedded designs. In addition, advantages over fixed hardware and dedicated hardware are manifest in this particular device.The 5CEBA4F17A7N has a range of applications which include the following:
- Media and video: video conferencing and broadcast video processing
- Consumer electronics: set-top box and multimedia home gateways
- Industrial automation, such as machine vision
- Medical devices
- Communications: base station, routers and switches
- Automotive: digital instrument clusters, infotainment and driver assistance systems
- Avionic systems: flight control systems, driverless cars, robots and unmanned aerial vehicles
- Computer systems: portable computers, tablets and single-board computers
Given its application field and range of applications, the 5CEBA4F17A7N exhibits considerable flexibility and configurability. In addition, the FPGA is highly reconfigurable, allowing the user to take advantage of its flexibility and quickly change the configuration to meet changing requirements. The mechanism of an FPGA is similar to that of an ASIC (Application Specific Integrated Circuit) but with the added benefit of being more flexible. Unlike an ASIC, which is designed to perform a specific task, an FPGA is designed with basic components such as logic gates and multiplexers, allowing the user to reprogram the device for different tasks. In this way, an FPGA can be used for a diverse set of tasks, from control systems to digital signal processing and communications.The 5CEBA4F17A7N is a complex device and its inner workings depend on the devices’ specific design. Generally, FPGAs consist of a set of configurable logic blocks (CLBs) connected in an array. Each CLB consists of a set of logic elements (LE) and flip-flops that can be used to construct complex logic designs. The LEs can accept inputs from other CLBs or external pins. The clock network configures connections to the logic elements in order to create the required logic gates. Additionally, the FPGA may have hard macros, which are pre-configured blocks of logic designed to perform specific tasks.Each LE in the 5CEBA4F17A7N is a three-input lookup table (LUT), with its outputs being stored in flip-flops and/or MUXs. The LUTs are connected in a network, allowing them to be interconnected to form more complex logic functions. The flip-flops are used to store the data; they can either be combinational (with no memory) or sequential (with a memory) that can be clocked. The clock network is responsible for distributing the clock signal to the flip-flops. Finally, the MUXs are used to select from the output of one of several inputs. The 5CEBA4F17A7N is a flexible and powerful device that can be used for a wide range of applications. It offers the unique combination of an ARM Cortex-A9 processor and programmable logic technology in a single, easy to use package. The 5CEBA4F17A7N’s flexible architecture, coupled with its reconfigurability, makes it ideal for a variety of embedded applications.
The specific data is subject to PDF, and the above content is for reference
Part Number | Manufacturer | Price | Quantity | Description |
---|
5CEBA2F23C8N | Intel FPGAs/... | 26.17 $ | 586 | IC FPGA 224 I/O 484FBGA |
5CEBA2F17C8N | Intel FPGAs/... | 95.22 $ | 300 | IC FPGA 128 I/O 256FBGA |
5CEBA2U15C8N | Intel FPGAs/... | -- | 539 | IC FPGA 176 I/O 324UBGA |
5CEBA2F23C7N | Intel FPGAs/... | -- | 131 | IC FPGA 224 I/O 484FBGA |
5CEBA4F17C8N | Intel FPGAs/... | 2955.22 $ | 200 | IC FPGA 128 I/O 256FBGA |
5CEBA2F17I7N | Intel FPGAs/... | 36.19 $ | 258 | IC FPGA 128 I/O 256FBGA |
5CEBA4F23C8N | Intel FPGAs/... | -- | 300 | IC FPGA 224 I/O 484FBGA |
5CEBA2U15I7N | Intel FPGAs/... | 41.1 $ | 228 | IC FPGA 176 I/O 324UBGA |
5CEBA4F23C7N | Intel FPGAs/... | -- | 160 | IC FPGA 224 I/O 484FBGA |
5CEBA4U15C7N | Intel FPGAs/... | -- | 107 | IC FPGA 176 I/O 324UBGA |
5CEBA4F17I7N | Intel FPGAs/... | -- | 296 | IC FPGA 128 I/O 256FBGA |
5CEBA4U15I7N | Intel FPGAs/... | 205.22 $ | 653 | IC FPGA 176 I/O 324UBGA |
5CEBA5F23C8N | Intel FPGAs/... | -- | 34 | IC FPGA 240 I/O 484FBGA |
5CEBA5F23C7N | Intel FPGAs/... | 76.27 $ | 287 | IC FPGA 240 I/O 484FBGA |
5CEBA7F23C8N | Intel FPGAs/... | -- | 54 | IC FPGA 240 I/O 484FBGA |
5CEBA7F23C7N | Intel FPGAs/... | 138.05 $ | 54 | IC FPGA 240 I/O 484FBGA |
5CEBA7F27C7N | Intel FPGAs/... | 152.42 $ | 72 | IC FPGA 336 I/O 672FBGA |
5CEBA9F27C8N | Intel FPGAs/... | 161.17 $ | 37 | IC FPGA 336 I/O 672FBGA |
5CEBA9F23C7N | Intel FPGAs/... | -- | 47 | IC FPGA 224 I/O 484FBGA |
5CEBA9F31C7N | Intel FPGAs/... | 231.48 $ | 47 | IC FPGA 480 I/O 896FBGA |
5CEBA2U19C8N | Intel FPGAs/... | 29.44 $ | 124 | IC FPGA 224 I/O 484UBGA |
5CEBA9F23C8N | Intel FPGAs/... | -- | 64 | IC FPGA 224 I/O 484FBGA |
5CEBA7F31C8N | Intel FPGAs/... | -- | 37 | IC FPGA 480 I/O 896FBGA |
5CEBA2F17C6N | Intel FPGAs/... | 36.19 $ | 65 | IC FPGA 128 I/O 256FBGA |
5CEBA2U15C6N | Intel FPGAs/... | 41.1 $ | 40 | IC FPGA 176 I/O 324UBGA |
5CEBA2F17C7N | Intel FPGAs/... | 30.15 $ | 1000 | IC FPGA 128 I/O 256FBGA |
5CEBA2U15C7N | Intel FPGAs/... | -- | 1000 | IC FPGA 176 I/O 324UBGA |
5CEBA2U19C7N | Intel FPGAs/... | 36.8 $ | 1000 | IC FPGA 224 I/O 484UBGA |
5CEBA4U15C8N | Intel FPGAs/... | 197.01 $ | 76 | IC FPGA 176 I/O 324UBGA |
5CEBA2F17A7N | Intel FPGAs/... | 42.22 $ | 1000 | IC FPGA 128 I/O 256FBGA |
5CEBA4U19C8N | Intel FPGAs/... | 42.34 $ | 1000 | IC FPGA 224 I/O 484UBGA |
5CEBA4F17C7N | Intel FPGAs/... | -- | 1000 | IC FPGA 128 I/O 256FBGA |
5CEBA2U15I7 | Intel FPGAs/... | 45.21 $ | 1000 | IC FPGA 176 I/O 324UBGA |
5CEBA4F17C6N | Intel FPGAs/... | -- | 1000 | IC FPGA 128 I/O 256FBGA |
5CEBA4U19C7N | Intel FPGAs/... | -- | 1000 | IC FPGA 224 I/O 484UBGA |
5CEBA4F17I7 | Intel FPGAs/... | 56.48 $ | 1000 | IC FPGA 128 I/O 256FBGA |
5CEBA4U15C6N | Intel FPGAs/... | -- | 1000 | IC FPGA 176 I/O 324UBGA |
5CEBA4F17A7N | Intel FPGAs/... | 59.91 $ | 1000 | IC FPGA 128 I/O 256FBGA |
5CEBA5U19C8N | Intel FPGAs/... | 64.04 $ | 1000 | IC FPGA 224 I/O 484UBGA |
5CEBA5U19C7N | Intel FPGAs/... | 80.05 $ | 1000 | IC FPGA 224 I/O 484UBGA |
IC FPGA - Field Programmable Gate Array ...
IC FPGA - Field Programmable Gate Array ...
IC FPGA
IC FPGA
IC FPGA
IC FPGA 148 I/O 208QFP