Toshiba Logic Gates 2,400+

Reset All

Part	Manufacturer	Logic IC Type
TC74LCX32FK(EL,K)	Toshiba	OR GATE
74VHC02FT(TB,BJ)	Toshiba	NOR GATE
74VHCT08AFT(TB,BJ)	Toshiba	AND GATE
TC7SZ32FU,LXGJ	Toshiba	OR GATE
TC74LCX04F(EL,K,F)	Toshiba	INVERTER
TC74LCX32F(EL,K,F)	Toshiba	OR GATE
TC74LCX02FK(EL,K)	Toshiba	NOR GATE
TC7SET02FU,LXGJ	Toshiba	NOR GATE
TC74LCX00FK(EL,K)	Toshiba	NAND GATE
TC7SZ17FE,LJ	Toshiba	BUFFER
TC7PZ04FU,LJ	Toshiba	INVERTER
TC7SZU04FE,LJ	Toshiba	INVERTER
TC74LCX00F(EL,K,F)	Toshiba	NAND GATE
TC7SZ02FE,LJ	Toshiba	NOR GATE
TC7PZ14FU,LJ	Toshiba	INVERTER
TC7SZ08F,LXGJ	Toshiba	AND GATE
TC7SET17F,LJ	Toshiba	BUFFER
TC7SZ32FU,LJ	Toshiba	OR GATE
TC7PZ34FU,LJ	Toshiba	BUFFER
TC74LCX02F(EL,K,F)	Toshiba	NOR GATE
TC7SZ14FE,LJ	Toshiba	INVERTER
TC7SZ32AFS,L3J	Toshiba	OR GATE
TC7SZ17FU,LJ	Toshiba	BUFFER
TC7SZ00FU,LXGJ	Toshiba	NAND GATE
TC7SZ14F,LJ	Toshiba	INVERTER
TC7SET08F,LXGJ	Toshiba	AND GATE
74VHC32FT(TB,BJ)	Toshiba	OR GATE
TC7SET08FU,LJ	Toshiba	AND GATE
TC7PZ05FU,LJ	Toshiba	INVERTER
TC7PZ34FU,LXGJ	Toshiba	BUFFER
TC7SZ05FU,LJ	Toshiba	INVERTER
TC74LCX08FK(EL,K)	Toshiba	AND GATE
TC7SET08FU,LXGJ	Toshiba	AND GATE
TC7SH08FU,LXGJ	Toshiba	AND GATE
TC74VHC00FK(EL,K)	Toshiba	NAND GATE
TC7SH08F,LJ	Toshiba	AND GATE
TC7SZ04FE,LXGJ	Toshiba	INVERTER
TC7SZ04AFS,L3J	Toshiba	INVERTER
TC74LCX14F(EL,K,F)	Toshiba	INVERTER
74VHCT14AFT(TB,BJ)	Toshiba	INVERTER
TC7SH08FU,LJ	Toshiba	AND GATE
TC7SH08F,LXGJ	Toshiba	AND GATE
TC7SH14FU,LXGJ	Toshiba	INVERTER
TC7SH86FU,LJ	Toshiba	XOR GATE
TC7SET08F,LJ	Toshiba	AND GATE
TC7SH14F,LXGJ	Toshiba	INVERTER
TC7SZ86FE,LJ	Toshiba	XOR GATE
TC7SZ17AFS,L3J	Toshiba	BUFFER

Logic Gates

Logic gates are electronic circuits that perform basic logical operations on one or more inputs to produce a single output. They are the building blocks of digital circuits and are used to implement digital logic functions, such as AND, OR, NOT, XOR, and NAND.

Logic gates are designed using various technologies, including transistor-transistor logic (TTL), complementary metal-oxide-semiconductor (CMOS), and field-programmable gate arrays (FPGAs). They can be classified into three main types based on their operation: combinational logic gates, sequential logic gates, and programmable logic gates.

Combinational logic gates are logic gates that produce an output based solely on the current input values. These gates include the AND gate, OR gate, NOT gate, XOR gate, and NAND gate. The output of a combinational logic gate depends on the input values and the logic function implemented by the gate.

Sequential logic gates are logic gates that have memory elements and can store information. These gates include the SR flip-flop, D flip-flop, JK flip-flop, and T flip-flop. The output of a sequential logic gate depends on the current input values and the previous state of the gate.

Programmable logic gates are logic gates that can be programmed to implement different logic functions. These gates include programmable logic arrays (PLAs), programmable array logic (PALs), and field-programmable gate arrays (FPGAs). Programmable logic gates can be reprogrammed to adapt to changing system requirements.

Logic gates are used in various applications, including digital signal processing, control systems, and memory systems. They are essential components of digital systems and can be found in many electronic devices, such as computers, mobile phones, and digital cameras.