The AM93L422ADMB, manufactured by Rochester Electronics, is a high-speed, low-power Schottky 4-bit static Shift Register. This device is designed for use in a wide variety of digital logic applications, offering a combination of speed and efficiency.

Applications

• Data Communication Systems: Used in serial-to-parallel and parallel-to-serial data conversion.
• Digital Delay Lines: Implements precise time delays in digital signals.
• Sequence Generation: Generates specific digital sequences for control and testing.
• Instrumentation: Used in test and measurement equipment for data manipulation.
• Control Systems: Integrates into digital control circuits requiring data shifting.

Features

• High-Speed Operation: Provides fast data transfer rates.
• Low Power Consumption: Reduces overall system power requirements.
• 4-Bit Configuration: Handles data in 4-bit segments.
• Static Operation: Retains data indefinitely as long as power is applied.
• Schottky TTL Technology: Offers improved speed and lower power dissipation compared to standard TTL.

Benefits

• Improved System Performance: High-speed operation enhances data processing capabilities.
• Reduced Power Consumption: Low-power design contributes to energy efficiency.
• Versatile Application: Suitable for a broad range of digital logic designs.
• Reliable Data Storage: Static operation ensures data integrity.
• Enhanced Signal Integrity: Schottky technology minimizes signal degradation.

Additional Details

The AM93L422ADMB is typically supplied in a ceramic dual-in-line package (CERDIP), ensuring robust performance and reliability. It operates within a standard temperature range for commercial and industrial applications. Key specifications include a typical propagation delay of a few nanoseconds and a supply voltage of 5V. This device is pin-compatible with other industry-standard 4-bit shift registers, facilitating easy integration into existing systems. Rochester Electronics provides continued availability of this device, ensuring long-term support for legacy systems and new designs alike. Proper decoupling capacitors are recommended for stable operation. Detailed timing diagrams and application notes are available from Rochester Electronics to assist designers in implementing this shift register effectively.