EP1S30F780C7N

Series:	Stratix®
Part Status:	Obsolete
Number of LABs/CLBs:	3247
Number of Logic Elements/Cells:	32470
Total RAM Bits:	3317184
Number of I/O:	597
Voltage - Supply:	1.425 V ~ 1.575 V
Mounting Type:	Surface Mount
Operating Temperature:	0°C ~ 85°C (TJ)
Package / Case:	780-BBGA, FCBGA
Supplier Device Package:	780-FBGA (29x29)
Base Part Number:	EP1S30

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Overall, embedded - FPGAs, short for Field Programmable Gate Array, are designs that are time-saving and space-saving. EP1S30F780C7N is a small form factor FPGA and offers high performance for a range of applications. There are several reasons for using FPGAs in embedded applications. First, FPGAs provide flexibility and scalability in application design. By using the reconfigurable capability of FPGAs, designers can reconfigure the logic within an application, allowing them to easily adapt to changing requirements without having to re-buy and re-program the device. Second, FPGAs can also provide faster speed. FPGAs use reconfigurable logic blocks to implement logic functions, resulting in faster clock speeds compared with traditional processors. FPGAs can also be easily implemented in multiple clock domains to increase performance and reduce cost. Third, FPGAs provide high computing performance when combined with coprocessors or specialized processors. This allows hardware to be implemented faster and with higher fidelity. This helps speed up applications such as image or signal processing and allows designers to optimize the design for cost, power and performance. Finally, FPGAs provide cost-efficiency and reliability. FPGAs are designed to be error-tolerant, meaning they are able to recover from errors or safely reset when they experience faults. This provides manufacturers with a cost-effective solution that is reliable and cost-efficient.The EP1S30F780C7N is a small form factor FPGA with a high performance and low power consumption ideal for embedded applications. It is a 16-bit FPGA with a total of 1.2 million system gates. It features a two-state phased-lock loop (PLL), embedded RAM, flash, and dual SPI ports. The PLL provides users with the ability to perform phase-accurate synchronization between two clocks. It is also used as a programmable clock multiplier/divider for system clock, allowing for flexible implementation of higher bandwidth applications such as image signal processing or wireless communications. The embedded RAM on the EP1S30F780C7N is a distributed RAM that allows designers to store and access up to 4MB of data quickly, while needing fewer memory locations to access the same data set. Moreover, dual SPI ports allow the FPGA to be used in wide range of applications. By using the dual SPI protocol, multiple SPI devices can be integrated into the FPGA, creating a low-pin differential system. In addition, the EP1S30F780C7N offers enhanced configuration flexibility, allowing it to be used in many applications without changing its configuration. It also features a 4-input look-up table for configuration, allowing for rapid and safe reconfiguration. In terms of working principle, an FPGA is basically a reprogrammable logic device. Unlike an ASIC, which is a fixed logic device and can only be programmed once and then remade, an FPGA can be programmed and reprogrammed multiple times. This means that it can be used to implement complicated hardware designs. Using hardware-specific language (HDL) and the FPGA architecture, design engineers can create a hardware design in a digital format. These designs are then converted into a configuration bitstream, which can be loaded onto the FPGA. Once the configuration bitstream has been loaded onto the FPGA, the logic of the design can be applied and the FPGA can begin to function as intended. In summary, EP1S30F780C7N is a small form factor FPGA ideal for embedded applications. It is highly configurable and offers high performance, low power consumption, and flexibility for a range of applications. In addition, its working principle is based on reconfigurable logic which makes it easily programmable and reprogrammable multiple times.

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