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Logic Gates

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SN74HC4078AD

Rochester Electronics

Differential 8 1 2V 6V 5.2mA NOR，OR Gate HC 5.2mA SOIC-14 SMD mount

Quantity: 674

Ship Date: 7-12 working days

14+ $22.8384

Ext. Price: $319.73

MOQ: 14

Mult: 14

SPQ: 1

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CD74HC03M96

Rochester Electronics

IC GATE NAND 4CH 2-INP 14SOIC

Quantity: 4651

Ship Date: 7-12 working days

1848+ $0.1664

Ext. Price: $307.50

MOQ: 1848

Mult: 1848

SPQ: 1

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74AC08SCX

Rochester Electronics

IC GATE AND 4CH 2-INP 14SOIC

Quantity: 143095

Ship Date: 7-12 working days

1798+ $0.1768

Ext. Price: $317.88

MOQ: 1798

Mult: 1798

SPQ: 1

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SNJ54AC32J

Rochester Electronics

IC QUAD 2-INP

Quantity: 4

Ship Date: 7-12 working days

4+ $78

Ext. Price: $312.00

MOQ: 4

Mult: 4

SPQ: 1

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74HC133D-G

Rochester Electronics

Datasheet

10ns@ 6V,50pF 13 1 2V 6V 5.2mA NAND Gate 74HC 5.2mA SOIC-16 SMD mount

Quantity: 86

Ship Date: 7-12 working days

12+ $26.0832

Ext. Price: $312.99

MOQ: 12

Mult: 12

SPQ: 1

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SN74HC133D

Rochester Electronics

10ns@ 6V,50pF 13 1 2V 6V 5.2mA NAND Gate HC 5.2mA SOIC-16 SMD mount

Quantity: 0

Ship Date: 7-12 working days

38+ $8.3096

Ext. Price: $315.76

MOQ: 38

Mult: 38

SPQ: 1

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Logic Gates

Logic gates are fundamental building blocks in digital circuit design and are used to create complex digital systems. They perform logical operations on one or more binary inputs and produce a single binary output. The basic logic gates include AND, OR, NOT, NAND, NOR, XOR, and XNOR.

Definition:
A logic gate is an electronic device that implements a Boolean function, which is a mathematical operation that takes one or more logical values (usually represented as 0 or 1) and produces a single logical value as output.

Function:
Logic gates function by processing input signals and producing output signals based on a specific logical operation. For example:
- AND gate: Outputs 1 only if all inputs are 1.
- OR gate: Outputs 1 if at least one input is 1.
- NOT gate: Inverts the input (1 becomes 0, 0 becomes 1).
- NAND gate: Outputs 0 only if all inputs are 1.
- NOR gate: Outputs 1 only if all inputs are 0.
- XOR gate: Outputs 1 if an odd number of inputs are 1.
- XNOR gate: Outputs 1 if an even number of inputs are 1.

Applications:
Logic gates are used in various applications, including:
1. Computers: They form the basis of processors and memory units.
2. Communication systems: They are used in signal processing and data transmission.
3. Control systems: They are essential in automating industrial processes.
4. Consumer electronics: They are found in devices like TVs, smartphones, and gaming consoles.

Selection Criteria:
When choosing logic gates for a specific application, several criteria are considered:
1. Speed: The gate's ability to switch states quickly.
2. Power consumption: Lower power consumption is desirable for portable devices.
3. Size: Smaller gates are preferred for integrated circuits to save space.
4. Cost: The cost of the gate, including manufacturing and maintenance.
5. Reliability: The gate's ability to perform consistently over time.
6. Compatibility: The gate must be compatible with other components in the system.

In summary, logic gates are essential components in digital electronics, performing basic logical operations that are the foundation of complex digital systems. Their selection is based on performance, power efficiency, size, cost, reliability, and system compatibility.
Please refer to the product rule book for details.