The S-1460CF-C37-TF is a voltage detector IC manufactured by SII Semiconductor Corporation. It's designed for precise voltage monitoring in a variety of electronic devices. This IC provides a reliable solution for detecting undervoltage or overvoltage conditions and can be used to reset systems or trigger other protective actions. Its compact size and low power consumption make it suitable for portable and battery-powered applications.

Applications

• Microcontroller reset circuits
• Power management systems
• Battery monitoring in portable devices
• Voltage monitoring in automotive applications
• Overvoltage and undervoltage protection circuits

Features

• High-precision voltage detection
• Low current consumption
• Small package size
• Wide operating voltage range
• Hysteresis for stable operation
• Adjustable detection voltage

Benefits

• Protects electronic devices from voltage fluctuations
• Ensures reliable system operation
• Extends battery life in portable devices
• Simplifies power management circuit design
• Reduces system downtime due to voltage-related issues
• Improves overall system reliability

Additional Details

The S-1460CF-C37-TF offers a specific detection voltage, which is crucial for proper function. The 'C37' in the part number likely refers to the specific voltage threshold. Detailed technical specifications including the exact detection voltage, operating temperature range, and package type can be found in the official datasheet from SII Semiconductor Corporation. The TF suffix often denotes a specific packaging or taping configuration. It features a built-in hysteresis to prevent chattering near the threshold voltage. The low current consumption ensures minimal impact on the overall power budget of the application. The part is typically surface mount and is available in small outline packages. This contributes to its popularity in miniaturized electronic devices. Different versions within the S-1460 series offer varying detection voltage levels and other parameters, providing design flexibility.