BU4818G-TR Overview
It is mounted through 5 terminals on the power management. Tape & Reel (TR)-packaging is used. Power management is possible to find a series of 1 functions. This power management is made up of 1 channels which are available in a series format. In this PMIC, you can find SC-74A, SOT-753 functions for your reference. It is a IC power that shares many benefits with other products from the Simple Reset/Power-On Reset line. IC management conducts at a voltage of 2.4V. The mount is provided by Surface Mount. There is a subcategory called Power Management Circuits for this power management. There are a total of 5 pins on power management. There are 5 pins on the power managment ic. It is recommended that the minimum supply voltage (Vsup) for this IC management should not be less than -300mV volts. The supply voltage (Vsup) should not exceed 7V volts in this IC power. Surface Mount is the recommended mounting type. The temperature of the supervisors should be set to this range: -40°C~125°C TA. As a result of this supervisor's operation, the output voltage is Open Drain or Open Collector. For this power management, there is an 550nA volt supply current. If you want to search for similar IC managements of this manufacturer, you can always refer to BU48*, which is the base power ics number. A maximum supply temperature of 1.05μA can be used with this power management. 1 outputs are available for this IC management's architecture. As IC management of the measurement and testing process, a nominal tolerance of 1% should be noted.
BU4818G-TR Features
Simple Reset/Power-On Reset type
Minimum supply voltage of -300mV
550nA operating supply current
BU4818G-TR Applications
There are a lot of ROHM Semiconductor BU4818G-TR Voltage Supervisors applications.
- Magnetic resonance imaging
- WiFi router
- Unattended substation automation
- Military electronics
- Power distribution systems of CCU
- Urban rail transit weak current power monitoring
- Multi-voltage system
- Precision measurement
- Consumer electronics
- Detection of phase loss
