Onsemi Field Programmable Gate Arrays (FPGA) 72

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Part	Manufacturer	Finishing Of Terminal Used	Qualification	JESD-609 Code
5962-94A1801QXX	Onsemi		No
5962-97A1501QXC	Onsemi	Gold	No	e4
5962-98A0801QXC	Onsemi	Gold	No	e4
5962-96A1901QXA	Onsemi	Tin Lead	No	e0
5962-94B0201QTX	Onsemi		No
5962-98A1501NXX	Onsemi		No
5962-98A2201QXX	Onsemi		No
5962-98A2101QXC	Onsemi	Gold	No	e4
5962-96A1001QXX	Onsemi		No
5962-97A1301QXC	Onsemi	Gold	No	e4
5962-97A1401QXX	Onsemi		No
5962-96A0801QXA	Onsemi	Tin Lead	No	e0
5962-97A1601QXX	Onsemi		No
5962-97A1202QYC	Onsemi	Gold	No	e4
5962-97A1301QXX	Onsemi		No
5962-98A2201QXC	Onsemi	Gold	No	e4
5962-98A2102QXC	Onsemi	Gold	No	e4
5962-97A1201QZC	Onsemi	Gold	No	e4
5962-96A0601QXX	Onsemi		No
5962-97A1601QXA	Onsemi	Tin Lead	No	e0
5962-96A1901QXX	Onsemi		No
5962-95A0301Q3X	Onsemi		No
5962-98A0301QXC	Onsemi	Gold	No	e4
5962-98A1101QXC	Onsemi	Gold	No	e4
5962-96A0601QXC	Onsemi	Gold	No	e4
5962-98A1301QXC	Onsemi	Gold	No	e4
5962-97A1202QYX	Onsemi		No
5962-98A0201QXC	Onsemi	Gold	No	e4
5962-97A1201QZX	Onsemi		No
5962-94B0201QTA	Onsemi	Tin Lead	No	e0
5962-98A1101QXX	Onsemi		No
5962-96A1701QXX	Onsemi		No
5962-96A0801QXX	Onsemi		No
5962-98A2102QXX	Onsemi		No
5962-97A1701QXX	Onsemi		No
5962-98A1301QXX	Onsemi		No
5962-94A1801QXA	Onsemi	Tin Lead	No	e0
5962-96A1001QXA	Onsemi	Tin Lead	No	e0
5962-95A0301Q3A	Onsemi	Tin Lead	No	e0
5962-98A0601QXC	Onsemi	Gold	No	e4
5962-98A0801QXX	Onsemi		No
5962-98A0201QXX	Onsemi		No
5962-98A0901NXX	Onsemi		No
5962-96A0901QXX	Onsemi		No
5962-96A1701QXA	Onsemi	Tin Lead	No	e0
5962-94A1901QXX	Onsemi		No
5962-96A0901QXA	Onsemi	Tin Lead	No	e0
5962-98A0401QXC	Onsemi	Gold	No	e4

Field Programmable Gate Arrays (FPGA)

Field Programmable Gate Arrays (FPGAs) are digital integrated circuits that are programmable by the user to perform specific logic functions. They consist of a matrix of configurable logic blocks (CLBs) that can be programmed to perform any digital function, as well as programmable interconnects that allow these blocks to be connected in any way the designer wishes. This makes FPGAs highly versatile and customizable, and they are often used in applications where a high degree of flexibility and performance is required.

FPGAs are programmed using specialized software tools that allow the designer to specify the logic functions and interconnects that are required for a particular application. This process is known as synthesis and involves translating the high-level design into a format that can be implemented on the FPGA hardware. The resulting configuration data is then loaded onto the FPGA, allowing it to perform the desired logic functions.

FPGAs are used in a wide range of applications, including digital signal processing, computer networking, and high-performance computing. They offer a number of advantages over traditional fixed-function digital circuits, including the ability to be reprogrammed in the field, lower development costs, and faster time-to-market. However, they also have some disadvantages, including higher power consumption and lower performance compared to custom-designed digital circuits.