Product Overview: NXP PC74HC175P

The NXP PC74HC175P is a high-speed CMOS logic quad D-type flip-flop with a clear function, encapsulated in a DIP-16 (Dual In-line Package) form factor. This semiconductor device is designed by NXP Semiconductors, a trusted leader in the electronics industry, known for their commitment to innovation and quality in integrated circuits.

Key Features

• Logic Type: Quad D-type flip-flop with clear
• Package: 16-pin DIP (DIP-16)
• Operating Voltage Range: 2.0V to 6.0V
• High Noise Immunity: NXP's characteristic V_NN/V_CC noise immunity is present in this device, making it robust against electrical noise.
• Speed: Fast propagation delays and high clock frequency handling capabilities.
• Temperature Range: Designed to operate over a broad temperature range, making it suitable for various environments.
• Low Power Consumption: CMOS technology ensures low power dissipation.
• Compatibility: Input and output are fully compatible with TTL logic levels.

Applications

The PC74HC175P is versatile and can be used in a wide array of applications such as:

• Buffer storage
• Shift registers
• Data storage
• Pattern generators

Product Description

The NXP PC74HC175P is designed for high-speed operation while maintaining the robustness of CMOS technology. Each flip-flop has individual clear and clock inputs and also features a common clear input to reset all flip-flops simultaneously. This feature is particularly useful for initializing registers and counters in digital circuits.

With its wide operating voltage range, the PC74HC175P is suitable for interfacing with both CMOS and TTL logic levels, providing designers with flexibility in various system designs. The device's fast switching speeds make it an ideal choice for operations that require quick data manipulation and stable performance.

Overall, the NXP PC74HC175P is a reliable and efficient solution for designers looking to implement flip-flops in their digital logic circuits. Its low power consumption and high noise immunity are particularly beneficial in portable and noise-sensitive applications.