SN7417D
Product Overview
- Category: Integrated Circuit (IC)
- Use: Logic Gate
- Characteristics: Hex Buffer/Driver with High-Voltage Outputs
- Package: DIP (Dual In-Line Package)
- Essence: The SN7417D is a hex buffer/driver IC that provides high-voltage outputs. It is commonly used in digital logic circuits to amplify and buffer signals.
- Packaging/Quantity: The SN7417D is typically packaged in a plastic DIP package and is available in various quantities.
Specifications
- Supply Voltage: 4.75V to 5.25V
- Input Voltage: 0V to Vcc
- Output Voltage: 0V to Vcc
- Operating Temperature Range: -55°C to 125°C
- Propagation Delay Time: 15ns (typical)
Detailed Pin Configuration
The SN7417D has a total of 14 pins, which are labeled as follows:
- GND (Ground)
- A1 (Input A1)
- Y1 (Output Y1)
- A2 (Input A2)
- Y2 (Output Y2)
- A3 (Input A3)
- Y3 (Output Y3)
- Vcc (Positive Power Supply)
- A4 (Input A4)
- Y4 (Output Y4)
- A5 (Input A5)
- Y5 (Output Y5)
- A6 (Input A6)
- Y6 (Output Y6)
Functional Features
- Hex buffer/driver with high-voltage outputs
- Provides buffering and amplification of digital signals
- Can drive high-capacitance loads
- TTL-compatible inputs
- High output current capability
- Low power consumption
Advantages and Disadvantages
Advantages
- High-voltage output capability
- Wide operating temperature range
- Fast propagation delay time
- Versatile and widely used in digital logic circuits
Disadvantages
- Limited number of inputs and outputs (6 each)
- Requires external power supply
Working Principles
The SN7417D operates by receiving digital input signals on its six input pins (A1 to A6). These input signals are then buffered and amplified by the internal circuitry. The amplified signals are then available at the corresponding output pins (Y1 to Y6). The IC is designed to drive high-capacitance loads and provides high-voltage outputs.
Detailed Application Field Plans
The SN7417D can be used in various applications, including:
- Digital logic circuits
- Signal amplification and buffering
- Driving high-capacitance loads
- Level shifting
- Voltage translation
Detailed and Complete Alternative Models
Some alternative models to the SN7417D include:
- 74HC17: Hex Schmitt-Trigger Buffer/Driver
- CD40107B: Dual 2-Wide 2-Input AND-OR-Invert Gate
- MC14504B: Hex Non-Inverting Buffer/Converter
These alternative models offer similar functionality and can be used as substitutes for the SN7417D in various applications.
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10个与SN7417D在技术解决方案中的应用相关的常见问题及解答
Sure! Here are 10 common questions and answers related to the application of SN7417D in technical solutions:
Q: What is SN7417D? A: SN7417D is a hex buffer/driver IC (Integrated Circuit) that can be used for various digital logic applications.
Q: What is the voltage supply range for SN7417D? A: The voltage supply range for SN7417D is typically between 4.5V and 5.5V.
Q: How many buffers/drivers are there in SN7417D? A: SN7417D consists of six independent buffers/drivers, making it suitable for applications requiring multiple outputs.
Q: What is the maximum output current of SN7417D? A: The maximum output current per buffer/driver in SN7417D is 25mA.
Q: Can SN7417D be used for level shifting applications? A: Yes, SN7417D can be used for level shifting as it has high input impedance and can handle different voltage levels.
Q: Is SN7417D compatible with TTL (Transistor-Transistor Logic) inputs? A: Yes, SN7417D is compatible with TTL inputs, making it suitable for interfacing with TTL-based devices.
Q: Can SN7417D drive capacitive loads? A: Yes, SN7417D can drive small capacitive loads directly. However, for larger capacitive loads, an external buffer may be required.
Q: What is the propagation delay of SN7417D? A: The typical propagation delay of SN7417D is around 15ns, which is relatively fast for most digital logic applications.
Q: Can SN7417D be used in high-frequency applications? A: SN7417D is not specifically designed for high-frequency applications, but it can still be used in moderate-speed digital circuits.
Q: Are there any recommended decoupling capacitors for SN7417D? A: It is generally recommended to use a 0.1μF ceramic capacitor placed close to the power supply pins of SN7417D to ensure stable operation.
Please note that these answers are general and may vary depending on specific application requirements and datasheet specifications.