A54SX16P-1TQG176I Overview
In the package 176-LQFP, this product is provided. A total of 147 I/Os allow data to be transferred in a more coherent manner. A fundamental building block consists of 1452 logic elements/cells. An attachment Surface Mount allows the FPGA module to be attached to the development board. The supply voltage of the device is 3V~3.6V 4.75V~5.25V , at which it runs. FPGAs belonging to the SX series are a type of FPGA that belong to the SX series of FPGAs. Fpga chips is recommended that the operating temperature be kept wFpga chipshin the range -40°C~85°C TA while the machine is operating. As a space-saving measure, this FPGA model is contained within Tray. Its base part number A54SX16 can be used to find related parts. There are 176 pins on this device. Fpga electronics contains 1452 LABs/CLBs in an array. Providing that this FPGA is mounted in Surface Mount, it will be able to perform according to its specifications in a flawless manner. With a 5V supply voltage, designers can fully utilize the flexibility of the device. When this module is operated at its maximum operating temperature, it reaches 85°C. Fpga electronics is necessary to maintain an operating temperature higher than -40°C. There are 24000 gates that make up its basic building block. A basic building block of this system consists of 1452 logic blocks (LABs). The registers used in the transfer of and storage of data are 528 in number. Powered by a 280MHz-frequency motor, it delivers high efficiency. Fpga semiconductor can accept a maximum voltage of 5.5V volts as a supply voltage. A minimal supply voltage of 4.5V is required for it to operate. Fpga semiconductor is possible for this FPGA to reach speeds of up to 280MHz. The device package supplied by 176-TQFP (24x24) is one of its suppliers.
A54SX16P-1TQG176I Features
147 I/Os
176 LABs/CLBs
85°C gates
1452 logic blocks (LABs)
528 registers
Operating from a frequency of 280MHz
A54SX16P-1TQG176I Applications
There are a lot of Microsemi Corporation A54SX16P-1TQG176I FPGAs applications.
- Automotive advanced driver assistance systems (ADAS)
- Digital signal processing
- Development Boards and Shields for Microcontrollers
- Cryptography
- Random logic
- Filtering and communication encoding
- Secure Communication
- Software-defined radio
- Image processing
- Enterprise networking
