Overview of NPIC6C595PW,118 Shift Register IC by NXP

The NPIC6C595PW,118 is a high-quality shift register integrated circuit (IC) produced by NXP Semiconductors. This device is designed to provide an efficient and reliable solution for the serial-to-parallel data conversion process, which is essential in various digital applications. With its compact design and powerful features, the NPIC6C595PW,118 is an ideal component for expanding the output capabilities of microcontrollers and other digital systems.

Key Features

• Logic Family: The IC is part of the 74HC family, which is known for its high-speed CMOS logic performance.
• Shift Register Type: It is an 8-bit serial-in, serial or parallel-out shift register, providing flexibility in data output configurations.
• Output Type: The device comes with latched outputs, ensuring stable data retention and reduced glitches during state changes.
• Supply Voltage: It operates within a supply voltage range of 2.3V to 5.5V, making it compatible with a variety of logic levels and power requirements.
• Output Current: The IC is capable of driving up to 50mA on each output, allowing it to directly drive LEDs and other low-power devices.
• Package: It is available in a 16-pin TSSOP package, which is suitable for space-constrained applications.
• Temperature Range: The operational temperature range of -40°C to +125°C ensures reliable performance across diverse environmental conditions.

Applications

The NPIC6C595PW,118 is versatile and can be utilized in a wide array of applications, including:

• LED displays and LED matrix management
• Industrial control systems
• Signal processing
• Data acquisition systems
• Automotive control systems
• Consumer electronics

Why Choose NPIC6C595PW,118?

Choosing the NPIC6C595PW,118 from NXP Semiconductors means opting for a shift register that offers high performance, durability, and ease of integration. Its low power consumption and robust output drive capability make it an excellent choice for designers looking to enhance their digital systems with additional output ports without compromising on efficiency or space.