The N74F193D,602 is a high-performance, 4-bit binary up/down counter chip designed and manufactured by NXP Semiconductors. This integrated circuit is part of NXP's esteemed 74F series, known for its fast switching speeds and robust performance. The device is crafted to operate with a 2V to 6V power supply, making it suitable for a variety of digital applications.

Key Features

• Counting Sequence: The N74F193D,602 is capable of sophisticated counting operations, including both up and down counting, providing versatility in its application.
• Speed: As part of the 74F series, this counter boasts a high-speed operation, ensuring quick and efficient counting for time-sensitive tasks.
• Dual Mode: With dual counting modes, this device can seamlessly transition between up and down counts, allowing for dynamic counting processes.
• Reset Function: It includes a master reset function that clears the counter, providing a quick way to restart the counting process.
• Output Capability: The device has a high output drive capability, which is essential for driving loads in various applications.
• Power Supply Range: The flexible 2V to 6V power supply range makes this counter suitable for a wide range of digital systems.
• Package: The N74F193D,602 comes in a standard SOIC-16 package, which is widely used and easily integrated into most circuit boards.

Applications

The N74F193D,602 is designed for general purpose counting applications and is particularly well-suited for use in:

• Industrial control systems
• Process counters
• Timers and clocks
• Frequency dividers
• Programmable dividers

Quality and Reliability

NXP Semiconductors is renowned for its commitment to quality and reliability. The N74F193D,602 is built to meet the stringent standards expected of NXP products, ensuring long-term performance and stability in your electronic designs.

With its combination of speed, versatility, and reliability, the N74F193D,602 from NXP is an excellent choice for designers looking to implement a high-speed counting solution in their digital systems.