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SN74AUP1G17DRLR
Product Overview
- Category: Integrated Circuit
- Use: Logic Gate
- Characteristics: Single Schmitt-Trigger Buffer
- Package: SOT-553
- Essence: High-speed CMOS technology
- Packaging/Quantity: Tape and Reel, 3000 pieces per reel
Specifications
- Supply Voltage Range: 0.8V to 3.6V
- Input Voltage Range: 0V to VCC
- Output Voltage Range: 0V to VCC
- Maximum Operating Frequency: 400 MHz
- Propagation Delay: 2.5 ns (typical)
- Input Capacitance: 2 pF (typical)
- Operating Temperature Range: -40°C to +85°C
Detailed Pin Configuration
The SN74AUP1G17DRLR has the following pin configuration:
____
A --| |-- VCC
Y --| |-- GND
--|____|-- B
Functional Features
- Single Schmitt-trigger buffer with open-drain output
- Provides hysteresis for improved noise immunity
- Allows interfacing between systems with different voltage levels
- Low power consumption
- High-speed operation
Advantages
- Wide supply voltage range allows compatibility with various systems
- High-speed operation enables quick signal processing
- Open-drain output facilitates easy connection to other devices
- Hysteresis improves noise immunity and signal integrity
- Small package size saves board space
Disadvantages
- Limited output current capability
- Not suitable for applications requiring high drive strength
- May not be compatible with systems operating at higher voltages
Working Principles
The SN74AUP1G17DRLR is a single Schmitt-trigger buffer that operates using high-speed CMOS technology. It provides hysteresis, which means that the input signal must cross a certain threshold voltage level to change the output state. This feature improves noise immunity and prevents false triggering.
The device operates within a wide supply voltage range of 0.8V to 3.6V, allowing it to interface with systems operating at different voltage levels. It has an open-drain output, which means that it can either pull the output low or leave it floating. This makes it suitable for connecting to other devices with compatible input requirements.
Detailed Application Field Plans
The SN74AUP1G17DRLR is commonly used in various applications, including:
- Battery-powered devices: The low power consumption and wide supply voltage range make it ideal for portable electronics.
- Communication systems: It can be used for level shifting and signal conditioning in data transmission circuits.
- Industrial automation: The high-speed operation and noise immunity make it suitable for control systems and sensor interfaces.
- Automotive electronics: Its small package size and compatibility with different voltage levels make it useful in automotive applications.
Detailed and Complete Alternative Models
- SN74LVC1G17DBVR
- SN74LV1T17DBVR
- SN74AHC1G17DBVR
- SN74AHCT1G17DBVR
- SN74LVC1G17DCKR
These alternative models offer similar functionality and characteristics to the SN74AUP1G17DRLR and can be considered as alternatives depending on specific application requirements.
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Liste 10 perguntas e respostas comuns relacionadas à aplicação de SN74AUP1G17DRLR em soluções técnicas
Sure! Here are 10 common questions and answers related to the application of SN74AUP1G17DRLR in technical solutions:
1. What is SN74AUP1G17DRLR? - SN74AUP1G17DRLR is a single Schmitt-trigger buffer gate IC (integrated circuit) that can be used in various electronic applications.
2. What is the purpose of using SN74AUP1G17DRLR? - The purpose of using SN74AUP1G17DRLR is to provide signal buffering and level shifting capabilities, especially in applications where noise immunity and signal integrity are important.
3. What voltage levels does SN74AUP1G17DRLR support? - SN74AUP1G17DRLR supports voltage levels ranging from 0.8V to 3.6V, making it compatible with a wide range of digital systems.
4. Can SN74AUP1G17DRLR be used for level shifting between different voltage domains? - Yes, SN74AUP1G17DRLR can be used for level shifting between different voltage domains, as long as the voltage levels fall within its supported range.
5. What is the maximum output current of SN74AUP1G17DRLR? - The maximum output current of SN74AUP1G17DRLR is typically around 32mA, which allows it to drive moderate loads.
6. Is SN74AUP1G17DRLR suitable for high-speed applications? - Yes, SN74AUP1G17DRLR is suitable for high-speed applications due to its fast propagation delay and transition times.
7. Can SN74AUP1G17DRLR handle both analog and digital signals? - SN74AUP1G17DRLR is primarily designed for digital signals, but it can also handle certain analog signals within its voltage range.
8. Does SN74AUP1G17DRLR have built-in protection features? - Yes, SN74AUP1G17DRLR has built-in ESD (electrostatic discharge) protection to safeguard against electrostatic damage during handling and operation.
9. Can SN74AUP1G17DRLR be used in battery-powered applications? - Yes, SN74AUP1G17DRLR can be used in battery-powered applications as it operates at low power supply voltages and has low quiescent current consumption.
10. Are there any recommended application circuits available for SN74AUP1G17DRLR? - Yes, the datasheet of SN74AUP1G17DRLR provides recommended application circuits and example schematics that can help in designing with this IC.
Please note that these answers are general and may vary depending on specific design requirements and use cases. It's always recommended to refer to the datasheet and consult with technical experts for accurate information.