|Manufacturer Part Number: TC7SET00F
|Manufacturer / Brand: Toshiba
|Part of Description: SoC FPGA TC7SET00F
|Lead Free Status / RoHS Status: Lead free / RoHS Compliant
|Ship From: HK/Shen Zhen
|Shipment Way: DHL/Fedex/TNT/UPS
|Package / Case
|Maximum Operating Temperature
|– 40 C
|Minimum Operating Temperature
|Factory Pack Quantity
|Propagation Delay Time
|Supply Voltage – Max
|Supply Voltage – Min
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Logic Operations: NAND gates can be used to perform various logic operations, including AND, OR, and NOT. They are versatile and can be combined to create more complex logic functions.
Inverters (NOT Gates): By connecting both inputs of a NAND gate together, it functions as an inverter, producing the complement (NOT) of the input signal.
Flip-Flop and Latch Construction: NAND gates are often used to construct flip-flops and latches, which are essential building blocks for memory and sequential logic circuits.
Arithmetic Circuits: NAND gates are used in the construction of arithmetic circuits such as adders and subtractors.
Multiplexer and Demultiplexer Design: NAND gates can be used to create multiplexers (mux) and demultiplexers (demux) for data routing and selection.
Encoder and Decoder Circuits: NAND gates are employed in encoder and decoder circuits used for data compression and expansion.
Signal Modulation and Demodulation: In communication systems, NAND gates can be used for signal modulation and demodulation.
Digital Clocks and Timers: NAND gates are used in the construction of digital clocks, timers, and frequency dividers.