AFS090-2QNG108I

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

Embedded – FPGAs (Field Programmable Gate Array) have been playing an indispensable role in the electronic industry since its commencement. AFS090-2QNG108I is a featured FPGA, which is increasingly being employed across diffe-rent applications and domains. This article mainly explains the application field and working principle of AFS090-2QNG108I FPGA.

AFS090-2QNG108I is a modern-day FPGA from the family of Altera. Manufactured in a 14nm 3D Tri-gate copper low-power process, it consists of a 9,188 logic elements, 106 digital signal processing blocks, 163 multipliers, and 265Kbits of embedded RAM. It has 1176 user I/Os pin count, variable voltage threshold (1.2V to 3.3V), and additionally supports the PCI-Express Gen4x4, SFI4.4 (Serial Rapid I/O), USB, and 850Mbps 64b/66b high frequency mode. It runs on a maximum clock frequency of 1200MHz and is backed by a generous 3540Kbits of embedded memory.

AFS090-2QNG108I FPGA has a wide range of applications in various domains. It is extensively used in embedded designs and computer networks for its high-speed, low-power consumption, and reliable performance attributes. In the embedded design field, it is primarily employed in the development of automotive designs, industrial automation systems, home security systems, medical systems, and consumer devices. Its flexible architecture and enhanced user I/O pin count make it an ideal choice for aerospace applications, where it is used to develop radar systems, battlefield control systems, and intelligent navigation systems. It also finds usage in industrial automation applications, such as traffic control systems and warehouse systems.

The working principle of AFS090-2QNG108I FPGA can be explained in terms of logic blocks, routing resources, user program, and input / output circuitry. The logic blocks contain a predefined set of components which serve as the basic building blocks for logic and data manipulation. These blocks are programmable and can be connected to perform various functions. The routing resource, on the other hand, provides a path for the signals to travel between different blocks and circuitry elements. This is done by using a network of wires and switches. The user programs, which are written using hardware description language, are used to program the logic blocks and routing resources of the FPGA. Finally, the input/output circuitry provides the required external connections to and from the circuit.

In conclusion, AFS090-2QNG108I FPGA is an advanced-level device with multiple features and versatile applications. It comes with an advanced process architecture and a high number of user I/O pins, along with a generous integrated memory, which makes it an ideal choice for various embedded applications. Its easy-to-manage working principle also adds to its popularity. Thus, AFS090-2QNG108I FPGA is a great addition to the field of embedded programming and electronic engineering.

The specific data is subject to PDF, and the above content is for reference