The S-80930CLMC-G60-T2 is a voltage detector IC manufactured by SII Semiconductor Corporation. This device is designed to monitor voltage levels in electronic circuits and provide a reset signal when the voltage falls below a specific threshold. This function is crucial for preventing malfunctions and ensuring stable operation, especially in sensitive electronic equipment.

Applications

• Microcontroller and microprocessor reset circuits
• Power management systems
• Battery-powered devices (e.g., IoT devices, wearables)
• Industrial control systems
• Consumer electronics (e.g., appliances, audio-visual equipment)

Features

• Detection voltage: 3.0V
• High-accuracy detection voltage
• Ultra-low current consumption
• CMOS output
• Operating temperature range: -40°C to +85°C
• Small package size (SOT-23-5)
• Built-in hysteresis

Benefits

• Enhanced system reliability by preventing erratic behavior due to voltage drops
• Extended battery life in portable applications due to low power consumption
• Compact design suitable for space-constrained devices
• Simplified circuit design with integrated voltage detection functionality
• Stable operation across a wide temperature range
• Improved noise immunity due to hysteresis
• Direct compatibility with CMOS logic circuits

Additional Details

The S-80930CLMC-G60-T2 offers a CMOS output, providing a clean and well-defined logic signal for interfacing with digital circuits. The built-in hysteresis helps to prevent false triggering of the reset signal caused by noise or voltage fluctuations near the threshold level. This voltage detector is typically used to monitor the power supply voltage of microcontrollers, microprocessors, and other critical components. When the voltage drops below the detection threshold, the detector asserts a reset signal, ensuring that the device is properly initialized or shut down to prevent data corruption or malfunction. The small SOT-23-5 package allows for easy integration into compact electronic designs. Furthermore, the low current consumption makes it ideal for battery-powered applications where minimizing power drain is essential.