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EM6352 - Voltage Detecto

Download the EM6352 datasheet PDF. This datasheet also covers the EM6352_EMMicroelectronic variant, as both devices belong to the same voltage detecto family and are provided as variant models within a single manufacturer datasheet.

Description

The EM6352 is an ultra-low current voltage detector available in a large variety of configurations and very small packages for maximum flexibility in all end-applications up to 125°C and using power supplies between 1.5V and 5.5V.

Features

  • three output types: active-low push-pull, active-low open-drain and active-high push-pull. Small SOT23 package as well as ultra-low supply current of 2.7μA makes the EM6352 an ideal choice for portable and battery-operated devices. Typical.

📥 Download Datasheet

Note: The manufacturer provides a single datasheet file (EM6352_EMMicroelectronic-MARINSA.pdf) that lists specifications for multiple related part numbers.

Datasheet Details

Part number EM6352
Manufacturer EM Microelectronic - MARIN SA
File Size 495.85 KB
Description Voltage Detecto
Datasheet download datasheet EM6352 Datasheet

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Other Datasheets by EM Microelectronic - MARIN SA

Part Number Description
EM6353 Reset Circuit
EM6354 Reset Circuit

Full PDF Text Transcription (Reference)

The following content is an automatically extracted verbatim text from the original manufacturer datasheet and is provided for reference purposes only.

View original datasheet text
EM MICROELECTRONIC - MARIN SA EM6352 Voltage Detector, High-Precision Description The EM6352 is an ultra-low current voltage detector available in a large variety of configurations and very small packages for maximum flexibility in all end-applications up to 125°C and using power supplies between 1.5V and 5.5V. This circuit monitors the supply voltage of any electronic system, and generates the appropriate reset signal without a delay time. The threshold defines the minimum allowed voltage which guarantees the good functionality of the system. As long as VDD stays above the threshold voltage, the output stays inactive. If VDD drops below VTH, the output goes active. The output is guaranteed to be in the correct state for VDD down to 0.8V.
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