The NXP 74HC4059D is a high-performance, programmable divide-by-n counter chip that is part of the 74HC (High-speed CMOS) family. This integrated circuit is designed to offer a versatile solution for frequency division applications. With its programmable nature, it can be customized to divide input frequencies by a wide range of division factors, making it suitable for various electronic applications, including timing circuits, digital watches, frequency synthesizers, and other clock management tasks.

Key Features

• Division Factor: The 74HC4059D can be programmed to divide by any number from 3 to 15,999, making it extremely versatile for precision frequency division.
• High-Speed CMOS Technology: This device is fabricated with high-speed CMOS technology, ensuring low power consumption and a broad voltage operating range.
• Supply Voltage Range: It operates on a supply voltage range from 2.0V to 6.0V, accommodating various logic level requirements and making it compatible with TTL levels.
• Multiple Counting Modes: The chip supports several counting modes including binary, BCD, Johnson, and straight counting modes for diverse application needs.
• Output Frequency Range: Depending on the input frequency and division setting, the 74HC4059D can achieve a wide range of output frequencies.
• Package Type: The device is available in a 16-pin SOIC package, which is suitable for surface-mounted PCB designs.

Applications

The 74HC4059D is ideal for use in digital systems where programmable frequency division is required. Its applications span across consumer electronics, communication devices, and industrial control systems. Some specific applications include:

• Programmable clocks and timers
• Frequency synthesizers and modulators
• Signal processing
• Waveform generation

Quality and Reliability

NXP Semiconductors is known for its commitment to quality and reliability. The 74HC4059D is manufactured to meet the stringent standards expected of high-performance CMOS devices, ensuring stable operation and longevity in demanding environments.