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Encyclopedia Entry: 74ACT00SJ
Product Information Overview
- Category: Integrated Circuit (IC)
- Use: Logic Gate
- Characteristics: High-speed, low-power consumption
- Package: SOIC (Small Outline Integrated Circuit)
- Essence: Quad 2-input NAND gate
- Packaging/Quantity: Tape and Reel, 2500 units per reel
Specifications
- Logic Family: ACT
- Number of Gates: 4
- Gate Type: NAND
- Input Voltage Range: 0V to VCC
- Output Voltage Range: 0V to VCC
- Operating Temperature Range: -40°C to +85°C
- Supply Voltage: 4.5V to 5.5V
- Propagation Delay: 3.8ns (typical)
Detailed Pin Configuration
The 74ACT00SJ has a total of 14 pins, which are arranged as follows:
__ __
A1 |1 U 14| VCC
B1 |2 13| A4
Y1 |3 12| B4
A2 |4 11| Y4
B2 |5 S 10| A3
Y2 |6 9| B3
GND |7 8| Y3
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Functional Features
- Quad 2-input NAND gate with Schmitt-trigger inputs
- High-speed operation with improved noise immunity
- Low power consumption
- Compatible with TTL (Transistor-Transistor Logic) input/output levels
- Balanced propagation delays for all four gates
Advantages and Disadvantages
Advantages: - High-speed operation allows for efficient processing of logic signals - Low power consumption helps conserve energy - Schmitt-trigger inputs provide improved noise immunity - Compatibility with TTL levels allows for easy integration into existing systems
Disadvantages: - Limited number of gates (4) in a single package - Operating temperature range may not be suitable for extreme environments
Working Principles
The 74ACT00SJ is a quad 2-input NAND gate that utilizes Schmitt-trigger inputs. It operates by taking two input signals and producing an output signal based on the logical NAND operation. The Schmitt-trigger inputs ensure reliable switching even in the presence of noise or signal fluctuations.
Detailed Application Field Plans
The 74ACT00SJ can be used in various applications, including: 1. Digital logic circuits 2. Microprocessor systems 3. Data communication systems 4. Industrial control systems 5. Automotive electronics
Detailed and Complete Alternative Models
Some alternative models to the 74ACT00SJ include: - 74HC00: High-speed CMOS Quad 2-input NAND gate - 74LS00: Low-power Schottky Quad 2-input NAND gate - 74F00: Fast CMOS Quad 2-input NAND gate
These alternative models offer similar functionality but may have different characteristics, such as speed, power consumption, or voltage compatibility.
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Перелічіть 10 типових запитань і відповідей, пов’язаних із застосуванням 74ACT00SJ у технічних рішеннях
Sure! Here are 10 common questions and answers related to the application of 74ACT00SJ in technical solutions:
Q: What is the 74ACT00SJ? A: The 74ACT00SJ is a quad 2-input NAND gate integrated circuit (IC) commonly used in digital logic applications.
Q: What is the operating voltage range for the 74ACT00SJ? A: The 74ACT00SJ operates within a voltage range of 4.5V to 5.5V.
Q: Can the 74ACT00SJ be used in high-speed applications? A: Yes, the 74ACT00SJ is designed for high-speed operation and can be used in applications that require fast switching times.
Q: How many inputs does the 74ACT00SJ have? A: The 74ACT00SJ has four independent 2-input NAND gates, totaling eight input pins.
Q: What is the maximum output current of the 74ACT00SJ? A: The 74ACT00SJ can source or sink up to 24mA of current per output pin.
Q: Can the 74ACT00SJ be used in both TTL and CMOS logic systems? A: Yes, the 74ACT00SJ is compatible with both TTL and CMOS logic levels, making it versatile for various applications.
Q: What is the typical propagation delay of the 74ACT00SJ? A: The typical propagation delay of the 74ACT00SJ is around 4.5ns.
Q: Is the 74ACT00SJ capable of driving capacitive loads? A: Yes, the 74ACT00SJ can drive moderate capacitive loads without requiring additional buffering.
Q: Can the 74ACT00SJ be used in battery-powered applications? A: Yes, the 74ACT00SJ can operate within the voltage range typically provided by batteries, making it suitable for such applications.
Q: Are there any specific precautions to consider when using the 74ACT00SJ? A: It is important to ensure proper decoupling and bypass capacitors are used near the power supply pins to minimize noise and voltage fluctuations.
Please note that these answers are general and may vary depending on specific application requirements and datasheet specifications.