RS244YTSS20 Octal Buffer/Driver With 3-State Outputs

RS244YTSS20 vs. MC74VHC244DTR2G

The RS244YTSS20 offers improved output drive strength and faster transition times compared to the MC74VHC244DTR2G, while maintaining compatibility with standard logic levels. RS244YTSS20's enhanced ESD protection and lower propagation delay make it ideal for applications requiring reliable, high-speed signal buffering in noisy environments.

RS244YTSS20 vs. MC74ACT244DTR2G

Compared with the MC74ACT244DTR2G, the RS244YTSS20 demonstrates superior thermal performance and more consistent signal switching. RS244YTSS20 also supports higher fan-out and improved timing margins, reducing signal distortion in complex PCB layouts.

RS244YTSS20 vs. 74VHC244FT

The RS244YTSS20 features enhanced noise immunity and better drive characteristics than the 74VHC244FT, making it more robust in mixed-voltage systems. Additionally, RS244YTSS20 maintains excellent performance over wider temperature and voltage ranges, improving reliability in industrial and automotive designs.

RS244YTSS20 vs. 74LCX244FT

While the 74LCX244FT offers low-voltage operation, the RS244YTSS20 provides comparable power efficiency while delivering stronger drive capability and reduced EMI. It also integrates tighter process control, resulting in more predictable timing performance.

RS244YTSS20 vs. 74HCT244PW

The RS244YTSS20 outperforms the 74HCT244PW in both speed and output drive strength. Its CMOS design allows for faster transitions, lower static power consumption, and greater flexibility in interfacing with modern logic families, whereas the 74HCT244PW is limited in speed and voltage range.

RS244YTSS20 vs. 74HC244PW

In comparison with the 74HC244PW, the RS244YTSS20 provides lower dynamic power consumption and faster edge rates. It also offers better ESD performance, making it more resilient in systems exposed to electrostatic events.

RS244YTSS20 vs. 74AHCT244PW

The RS244YTSS20 has the advantage of a modern CMOS process that ensures better propagation delay and current sinking capabilities than the 74AHCT244PW. This results in more stable output signals in high-frequency designs.

RS244YTSS20 vs. 74AHC244PW

When benchmarked against the 74AHC244PW, the RS244YTSS20 shows enhanced output strength and lower ground bounce. The device also maintains better switching performance under capacitive loads, which is critical in data bus buffering.

RS244YTSS20 vs. 74LVC244APW

The RS244YTSS20 closely matches the 74LVC244APW in voltage flexibility and speed but offers superior drive robustness and process stability. This makes it a preferred choice for systems requiring precise timing and long-term reliability.

RS244YTSS20 vs. 74AC244MTC

Compared with the 74AC244MTC, the RS244YTSS20 delivers similar high-speed performance while consuming less power and exhibiting improved thermal efficiency. Its robust design supports more demanding applications with better fault tolerance.

Conclusion

The RS244YTSS20 stands out across a diverse range of competitors by delivering a superior combination of high-speed performance, strong output drive, low power consumption, and robust ESD protection. It is well-suited for use in high-performance computing, automotive electronics, and industrial control systems where signal integrity and long-term reliability are essential.