ON Semiconductor MC34160DW Product Overview

The MC34160DW from ON Semiconductor is a versatile power supply supervisory circuit designed to monitor voltage levels in a wide range of electronic applications. This integrated circuit is essential for systems that require high reliability and consistent performance, as it ensures that the power supply operates within specified limits. The MC34160DW is particularly well-suited for use in switch-mode power supplies, computers, and other microprocessor-based systems.

Key Features

• Precision Voltage Monitoring: The device is capable of monitoring several power supply voltages, providing accurate and reliable supervision to prevent damage from voltage fluctuations.
• On-Chip Oscillator: It includes an on-chip oscillator with a frequency range that is adjustable by external components, offering flexibility for various design requirements.
• Reset Output: The MC34160DW features a reset output that can be programmed for a wide range of threshold voltages, ensuring compatibility with different microprocessors and digital systems.
• Power-On Reset: A power-on reset capability is integrated into the device, which generates a reset pulse when the power supply is initially turned on, providing an additional layer of system protection.
• Low Standby Current: The low standby current is an important characteristic for power-sensitive applications, helping to conserve energy and extend the life of battery-operated devices.
• SOP-16 Package: The MC34160DW comes in a 16-lead Small Outline Package (SOP), making it compact and suitable for space-constrained applications.

Applications

The MC34160DW is ideal for a variety of applications where voltage supervision is critical. Some common uses include:

• Switch-mode power supplies (SMPS)
• Desktop and laptop computers
• Microprocessor and microcontroller systems
• Telecommunication equipment
• Industrial control systems

ON Semiconductor's commitment to quality ensures that the MC34160DW supervisory circuit is a reliable and durable choice for designers seeking to enhance system integrity. Its comprehensive feature set and flexibility make it an excellent choice for safeguarding electronic systems against the risks of improper voltage levels.