


NXP Semiconductors
HEF4027BT,652
Why Choose Us?
Professional Platform
B2B & B2C purchasingDelivery at full speed
1-2 days deliveryWide variety
Original manufacturers365 days guarantee
Responsible qualityTech Specifications
HEF4027BT,652 Description
HEF4027BT,652 Description
The HEF4027BT,652 is a dual JK-type flip-flop integrated circuit (IC) designed by NXP Semiconductors, a leading manufacturer of semiconductor solutions. This logic IC chip belongs to the 4000B series and is optimized for a wide range of digital applications. It features a clock frequency of 30 MHz, ensuring high-speed operation suitable for demanding digital systems. The IC operates within a supply voltage range of 3V to 15V, providing flexibility in power requirements.
Each flip-flop element in the HEF4027BT,652 is designed with a single bit of storage, and the outputs are complementary, offering both true and inverted outputs. The flip-flops are triggered on the positive edge of the clock signal, ensuring precise timing control. With a maximum propagation delay of 60ns at 15V and 50pF load capacitance, this IC delivers fast and reliable signal processing.
The HEF4027BT,652 is designed for surface mount technology (SMT), making it ideal for compact and high-density PCB designs. It has a quiescent current of only 16 µA, which is crucial for low-power applications. The input capacitance is 7.5 pF, and the output current capability is 3mA for both high and low states, ensuring robust performance.
HEF4027BT,652 Features
- High-Speed Operation: With a clock frequency of 30 MHz, the HEF4027BT,652 ensures fast and efficient data processing.
- Low Power Consumption: The quiescent current of 16 µA makes it suitable for battery-operated and low-power applications.
- Wide Operating Voltage Range: The IC operates reliably between 3V and 15V, providing flexibility in power supply requirements.
- Fast Propagation Delay: The maximum propagation delay of 60ns at 15V and 50pF ensures minimal signal delay.
- Positive Edge Triggering: Ensures precise timing control, making it ideal for synchronous digital systems.
- Complementary Outputs: Provides both true and inverted outputs, enhancing versatility in digital circuit design.
- Surface Mount Technology: Suitable for compact and high-density PCB designs, enhancing space efficiency.
- Robust Output Current Capability: With 3mA output current for both high and low states, it can drive various loads effectively.
- Moisture Sensitivity Level 1: The unlimited moisture sensitivity level ensures high reliability in various environmental conditions.
HEF4027BT,652 Applications
The HEF4027BT,652 is ideal for a variety of digital applications due to its high-speed operation, low power consumption, and robust performance. Some specific use cases include:
- Digital Clocks and Timers: The high clock frequency and precise triggering make it suitable for accurate timing applications.
- Sequential Logic Circuits: The JK-type flip-flops are ideal for designing state machines and other sequential logic systems.
- Data Storage and Latching: The single-bit storage per element allows for efficient data storage and latching in digital circuits.
- Frequency Dividers: The flip-flops can be used to divide clock frequencies, useful in clock management and signal processing.
- Low-Power Systems: The low quiescent current makes it suitable for battery-operated devices and other low-power applications.
- Industrial Control Systems: The wide operating voltage range and robust performance make it suitable for industrial environments###.
Conclusion of HEF4027BT,652
The HEF4027BT,652 from NXP Semiconductors is a versatile and high-performance dual JK-type flip-flop IC. Its combination of high-speed operation, low power consumption, and robust performance makes it an excellent choice for a wide range of digital applications. The complementary outputs, positive edge triggering, and wide operating voltage range provide significant advantages over similar models. Whether used in digital clocks, sequential logic circuits, or low-power systems, the HEF4027BT,652 delivers reliable and efficient performance, making it a valuable component in modern electronics design.



.png)



















.png?x-oss-process=image/format,webp/resize,h_32)










