The S-80823ANMP-EDL-T2 is a voltage detector IC manufactured by SII Semiconductor Corporation. It's designed to monitor the input voltage and generate a reset signal when the voltage falls below a specified threshold, ensuring the stable and reliable operation of electronic circuits. This function is critical for preventing malfunctions in microcontrollers, CPUs, and other digital devices due to voltage sags.
Applications
- Microcontroller reset circuits
- CPU reset circuits
- Power supply monitoring
- Battery-powered devices
- Industrial control systems
Features
- High-precision detection voltage
- Ultra-low current consumption
- Small SOT-23-5 package
- Built-in hysteresis
- Open-drain output
Benefits
- Reliable system reset: Prevents system failures due to voltage drops.
- Extended battery life: Low current consumption minimizes power drain in battery-operated applications.
- Compact design: Small package saves board space.
- Stable operation: Hysteresis prevents false resets caused by noise or voltage fluctuations.
- Flexible interface: Open-drain output allows easy connection to various circuits.
The S-80823ANMP-EDL-T2 features a precisely calibrated detection voltage, which ensures accurate voltage monitoring. Its ultra-low current consumption makes it particularly suitable for battery-powered devices where minimizing power consumption is paramount. The device is housed in a small SOT-23-5 package, making it ideal for space-constrained applications. The integrated hysteresis prevents the output from oscillating when the input voltage is near the detection threshold, ensuring a stable reset signal. The open-drain output allows for easy connection to various circuits and provides flexibility in system design. This voltage detector is commonly used in applications such as portable electronics, industrial control equipment, and automotive systems to protect sensitive electronic components from damage or malfunction due to voltage drops. Its small size, low power consumption, and high accuracy make it an excellent choice for ensuring the reliable operation of electronic devices across a wide range of environments.