Product Overview: HEF40174BT,652

The HEF40174BT,652 is a high-performance, Hex D-type flip-flop integrated circuit brought to you by NXP Semiconductors. This IC is designed to provide a reliable solution for digital storage and data transfer applications. With its advanced silicon-gate CMOS technology, it offers low power consumption coupled with high speed and robust performance.

The device features six D-type flip-flops with single-bit data inputs (D0 to D5), clock inputs (CP), and data outputs (Q0 to Q5). Each flip-flop is edge-triggered and updates the output state based on the input at the rising edge of the clock pulse, providing precise control over data capture. This characteristic makes the HEF40174BT,652 an excellent choice for implementing sequential logic circuits and memory storage elements.

With its wide supply voltage range of 3V to 15V, the HEF40174BT,652 is versatile and can be integrated into various systems without the need for additional power regulation. This flexibility makes it suitable for use in both industrial and consumer applications, ranging from automation systems to portable electronics.

Furthermore, the HEF40174BT,652 is available in a compact SO-16 package, ensuring a minimal footprint on printed circuit boards (PCBs). This space-saving design is particularly beneficial for dense circuit layouts where board real estate is at a premium. It also supports a wide operating temperature range, ensuring reliability and stable operation even under extreme environmental conditions.

Key features of the HEF40174BT,652 include:

• Hex D-type flip-flop configuration
• Edge-triggered design for accurate data synchronization
• Low power consumption with high-speed operation
• Wide supply voltage range (3V to 15V)
• SO-16 packaging for space efficiency
• Compatibility with TTL levels
• Wide operating temperature range

Whether you are designing a complex digital system or looking for a reliable component for data storage, the HEF40174BT,652 by NXP Semiconductors offers the performance and durability needed to meet the demands of your application.