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SN74H52N3
Manufacturer No:
SN74H52N3
Manufacturer:
Description:
AND-OR GATE, TTL, PDIP14
Datasheet:
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In Stock : 2657
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SN74H52N3 Specifications
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TypeParameter
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Current - Quiescent (Max)-
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Package / Case-
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Supplier Device Package-
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Mounting Type-
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Operating Temperature-
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Max Propagation Delay @ V, Max CL-
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Input Logic Level - High-
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Input Logic Level - Low-
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Current - Output High, Low-
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Voltage - Supply-
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Features-
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Number of Inputs-
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Logic Type-
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PackagingBulk
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Product StatusActive
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Series*
The SN74H52N3 is a specific model of integrated circuit (IC) chip manufactured by Texas Instruments. It is a dual 4-input positive-NAND gate with Schmitt-trigger inputs. Here are some advantages and application scenarios of the SN74H52N3 IC chip:Advantages: 1. Schmitt-trigger inputs: The Schmitt-trigger inputs allow the chip to have hysteresis, which means it has a built-in noise immunity and can tolerate noisy input signals without causing false triggering. This makes it suitable for applications where the input signals may be prone to noise or fluctuations.2. Dual 4-input NAND gate: The chip contains two independent 4-input NAND gates, which provides flexibility in designing logic circuits. It can be used to implement various logic functions and can be cascaded to create more complex logic circuits.3. Wide operating voltage range: The SN74H52N3 operates over a wide voltage range, typically from 2V to 6V. This makes it compatible with a variety of power supply voltages and allows it to be used in different electronic systems.Application scenarios: 1. Logic circuit design: The SN74H52N3 can be used in various digital logic applications, such as designing combinational logic circuits, multiplexers, encoders, and decoders. Its dual 4-input NAND gates can be used to implement different logic functions based on the specific requirements of the circuit.2. Signal conditioning: The Schmitt-trigger inputs of the chip make it suitable for signal conditioning applications. It can be used to clean up noisy or distorted input signals by providing a stable and noise-immune output.3. Noise-tolerant applications: The SN74H52N3's hysteresis feature makes it ideal for applications where the input signals may be subjected to noise or fluctuations. It can be used in environments with electromagnetic interference (EMI) or in applications where the input signals are prone to voltage spikes or glitches.4. Industrial automation: The chip can be used in industrial automation systems for signal processing, control logic, and interfacing with sensors and actuators. Its wide operating voltage range and noise immunity make it suitable for harsh industrial environments.5. Educational purposes: The SN74H52N3 can be used in educational settings to teach digital logic design, combinational logic, and basic electronic circuits. Its simplicity and versatility make it a useful tool for learning and experimentation.It's important to note that the specific advantages and application scenarios may vary depending on the requirements and context of the electronic system being designed.
SN74H52N3 Relevant information
