Overview
The SN74AC573DWRG4 is a high-performance octal transparent D-type latch manufactured by Texas Instruments. This component is designed for applications requiring high-speed data storage and transfer, featuring 3-state outputs for bus interfacing. It is widely used in digital systems, offering reliable performance in industrial, automotive, and consumer electronics. The SN74AC573DWRG4 stands out for its robust design, low power consumption, and compatibility with a wide range of operating conditions.
Key Specifications
| Parameter | Value | Unit | Notes |
|---|---|---|---|
| Logic Type | D-Type Transparent Latch | ||
| Number of Circuits | 8 | ||
| Output Type | 3-State | ||
| Supply Voltage | 2V to 6V | V | |
| Propagation Delay | 6.5 ns | ns | Max at 5V |
| Operating Temperature | -40°C to 85°C | °C | |
| Package | SOIC-20 |
Key Features
- High-speed operation with a propagation delay of 6.5 ns.
- 3-state outputs for bus-oriented applications.
- Wide operating voltage range from 2V to 6V.
- Low power consumption, ideal for battery-operated devices.
- Robust design suitable for industrial and automotive environments.
Applications
The SN74AC573DWRG4 is commonly used in digital systems where data storage and transfer are critical. Its applications include:
- Industrial automation systems for data buffering and control.
- Automotive electronics for signal processing and interfacing.
- Consumer electronics, such as smart home devices and gaming consoles.
- Communication systems for data routing and management.
Q & A
1. What is the logic type of SN74AC573DWRG4?
It is a D-Type Transparent Latch.
2. How many circuits does it have?
It has 8 circuits.
3. What is the output type?
It features 3-State outputs.
4. What is the operating voltage range?
The operating voltage ranges from 2V to 6V.
5. What is the maximum propagation delay?
The maximum propagation delay is 6.5 ns at 5V.
6. What is the operating temperature range?
It operates between -40°C and 85°C.
7. What is the package type?
It comes in an SOIC-20 package.
8. Is it suitable for industrial applications?
Yes, its robust design makes it ideal for industrial environments.
9. Can it be used in automotive electronics?
Yes, it is suitable for automotive signal processing and interfacing.
10. Is it compatible with low-power devices?
Yes, its low power consumption makes it ideal for battery-operated devices.
