Overview
The SN74LVC07ADR, manufactured by Texas Instruments, is a low-voltage CMOS logic gate chip designed for 3.3V power supply applications. This hex buffer/driver features six independent open-drain output ports, each capable of handling a maximum output current of 32mA. The device is particularly suited for low-voltage systems, offering fast switching speeds and low static power consumption. Its market positioning targets applications in digital circuits, especially in scenarios requiring efficient signal transmission and level shifting.
Key Specifications
| Parameter | Value | Unit | Notes |
|---|---|---|---|
| Supply Voltage Range | 1.65 to 5.5 | V | |
| Output Current | 32 | mA | Max |
| Input Voltage Range | 0 to 5.5 | V | |
| Operating Temperature Range | -40 to 85 | °C | |
| Package Type | SOIC-14 | ||
| Propagation Delay Time | 2.6 | ns | @5V |
| Output Type | Open Drain | ||
| Number of Channels | 6 |
Key Features
- Low voltage operation suitable for 1.65V to 5.5V systems.
- Fast switching speeds for efficient signal transmission.
- Low static power consumption extends battery life.
- Open-drain outputs provide flexibility in external circuit connections.
- ESD protection enhances durability against electrostatic discharge.
Applications
The SN74LVC07ADR is widely used in various digital circuit applications, particularly in low-voltage environments. It is ideal for signal transmission, level shifting, LED driving, and switch driving. Its robust design and versatile functionality make it a preferred choice in consumer electronics, industrial automation, and communication systems.
Q & A
1. What is the supply voltage range for SN74LVC07ADR?
The supply voltage ranges from 1.65V to 5.5V.
2. What type of output does SN74LVC07ADR have?
It features open-drain outputs.
3. How many channels does SN74LVC07ADR have?
It has six independent channels.
4. What is the maximum output current per channel?
Each channel can handle up to 32mA.
5. What is the operating temperature range?
It operates between -40°C and 85°C.
6. What is the propagation delay time at 5V?
The propagation delay is 2.6ns at 5V.
7. Is SN74LVC07ADR suitable for battery-powered devices?
Yes, its low static power consumption makes it ideal for battery-powered applications.
8. Can SN74LVC07ADR be used for level shifting?
Yes, it is commonly used for level shifting in digital circuits.
9. Does SN74LVC07ADR include ESD protection?
Yes, it features ESD protection to safeguard against electrostatic discharge.
10. What package type is SN74LVC07ADR available in?
It is available in a SOIC-14 package.
