Logic Gate Circuits | Binary Logic Gates | RS
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    Logic Gates

    Logic gates are physical components in a circuit that control the flow of a signal by implementing a Boolean function, processing a signal to binary information. Logic gates are foundational in logic circuits, or in any electronic circuit process that involves digital to analogue signal conversion, or the flow of digital information. Logic gates are primarily implemented using diodes or transistors as electrical switches, but can also be constructed using electromagnetic relays (relay logic), vacuum tubes, optics, molecules, fluidic logic, pneumatic logic, or even mechanical elements.

    Types of Logic Gate

    Logic gates have distinct logic functions. The most common of these are known as basic gates. These include:

    • AND Gates - these gates have multiple inputs that are processed into a single signal output depending on the positive combination of high signals in the inputs. It will only produce a high signal if both inputs register as high (e.g. two ones will result in a one, otherwise, it will have an output of zero).
    • OR Gates - similar to the AND gate, an OR gate has multiple inputs and a single output. In this case, it does not require a positive combination of one signals but will implement logical produce a high signal if one or all of the inputs are high. (e.g a one and a zero, or two ones, may produce a high signal, but two zeros will produce zeros.)
    • NOT Gates -also known as inverters, the NOT gates will process the signal as the opposite of its value (eg. a one will invert as a zero, and a zero will invert as a 1.)

    There are also combined function logic gates that modify typical functions with an inversion.

    • NAND Gate - unlike an AND gate, NAND will process two high signals as a zero and all other combinations as a one.
    • NOR Gate - unlike an OR gate, this will produce a one if the inputs register a zero signal in any combination, rather than a high signal.
    • Buffer Gate - a buffer logic gate behaves in the opposite manner of a NOT gate, in that it passes a signal unchanged from input to output.

    Applications

    As CPUs employ binary logic, logic gates are essentially the building blocks of computers. As such, they can be found in many kinds of digital circuits such as:

    • Encoders & Decoders
    • Multiplexers & Demultiplexers
    • Full and half adders

    1029 Products showing for Logic Gates

    DiodesZetex
    Schmitt Trigger Input
    XOR
    Surface Mount
    4
    2
    TSSOP
    14
    HCT
    Schmitt Trigger
    5.5 V
    -4mA
    48 ns @ 50 pF
    4.5 V
    4mA
    DiodesZetex
    -
    NAND
    Surface Mount
    4
    2
    TSSOP
    14
    LVC
    CMOS
    5.5 V
    -24mA
    6.5 ns @ 2.7 V
    1.65 V
    24mA
    onsemi
    -
    OR
    Surface Mount
    4
    2
    TSSOP
    14
    ACT
    TTL
    5.5 V
    -24mA
    10 ns @ 50 pF
    4.5 V
    24mA
    Toshiba
    Schmitt Trigger Input
    NAND
    Through Hole
    4
    2
    PDIP
    14
    HC
    Schmitt Trigger
    6 V
    -5.2mA
    110 ns @ 2 V, 19 ns @ 6 V, 22 ns @ 4.5 V
    2 V
    5.2mA
    Nexperia
    -
    NOR
    Surface Mount
    4
    2
    SOIC
    14
    74HC
    CMOS
    6 V
    -
    135 ns @ 50 pF
    2 V
    -
    DiodesZetex
    Schmitt Trigger Input
    XOR
    Surface Mount
    -
    2
    SOT353
    5
    -
    -
    -
    -
    -
    -
    -
    Nexperia
    -
    OR
    Surface Mount
    4
    2
    TSSOP
    14
    74HCT
    TTL
    5.5 V
    -4mA
    36 ns @ 50 pF
    4.5 V
    5.2mA
    onsemi
    -
    NAND
    Surface Mount
    4
    2
    SOIC
    14
    ACT
    TTL
    6 V
    -24mA
    10ns
    2 V
    24mA
    DiodesZetex
    Schmitt Trigger Input
    NAND
    Surface Mount
    4
    2
    SOIC
    14
    HC
    Schmitt Trigger
    6 V
    -4mA
    135 ns @ 50 pF
    2 V
    5.2mA
    Nexperia
    -
    Multifunction
    Surface Mount
    1
    3
    SC-88
    6
    LVC
    TTL
    5.5 V
    -32mA
    10.6 ns @ 50 pF
    1.65 V
    32mA
    DiodesZetex
    -
    -
    Surface Mount
    -
    -
    DFN3030
    10
    -
    CMOS
    5 V
    -
    140ns
    3.3 V
    140mA
    Nexperia
    -
    OR
    Surface Mount
    4
    2
    SOIC
    14
    4000
    -
    15 V
    -3.6mA
    115 ns @ 5 V, 35 ns @ 15 V, 50 ns @ 10 V
    3 V
    3.6mA
    DiodesZetex
    -
    Non-Inverting
    Surface Mount
    1
    -
    SOT-553
    5
    LVC
    CMOS
    5.5 V
    -32mA
    6 ns @ 2.7 V
    1.65 V
    32mA
    DiodesZetex
    Schmitt Trigger Input
    NAND
    Surface Mount
    4
    2
    TSSOP
    14
    HCT
    Schmitt Trigger
    5.5 V
    -4mA
    29 ns @ 50 pF
    4.5 V
    4mA
    Texas Instruments
    -
    OR
    Through Hole
    3
    3
    PDIP
    14
    4000
    -
    18 V
    -4.2mA
    120 ns @ 10 V, 250 ns @ 5 V, 90 ns @ 15 V
    3 V
    4.2mA
    Nexperia
    -
    AND
    Surface Mount
    4
    2
    SOIC
    14
    LV
    CMOS
    5.5 V
    -12mA
    14 ns @ 5.5 V
    1 V
    12mA
    Texas Instruments
    -
    NAND
    Through Hole
    4
    2
    PDIP
    14
    74
    -
    5.25 V
    -0.4mA
    22 ns @ 5 V
    4.75 V
    16mA
    Nexperia
    -
    XOR
    Surface Mount
    1
    2
    TSSOP
    5
    74LVC
    CMOS
    5.5 V
    -
    13 ns @ 50 pF
    1.65 V
    -
    onsemi
    -
    OR
    Surface Mount
    4
    2
    SOIC
    14
    HC
    CMOS
    6 V
    5.2mA
    125ns
    2 V
    5.2mA
    onsemi
    -
    Multifunction
    Surface Mount
    6
    2
    SOIC
    16
    -
    -
    18 V
    -0.14mA
    180 ns @ 50 pF
    3 V
    -
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