BD4951FVE-TR Overview
There are 5 terminals on this power management that allow it to be mounted. This power ic is packaged in a way that looks like a Tape & Reel (TR). For your reference, this IC power includes a list of 1 functions. Depending on the power managment ic you are looking at, you can find a total of 1 channels. The purpose of this IC power is to provide you with a reference of SOT-665 functions. As with other Voltage Detector products, this IC management also offers a wide range of benefits. When 4.9V is applied to the power ic, it conducts. When 1 is applied to the power ic, it conducts. Surface Mount is the one that mounts power management. As a subcategory, this PMIC chip can be categorized as Power Management Circuits. It has a total of 5 pins that are attached to IC management. 5 pins are present on the power management system. I should note that the minimum supply voltage (Vsup) for this IC management should be at least -300mV, which is the minimum supply voltage that should be applied. There should be no more than 10V volts of maximum supply voltage (Vsup) in this power management. The recommended mounting type is Surface Mount. The supervisors should be set to the following temperature: -40°C~105°C TA. Power management has an output of Push-Pull, Totem Pole during operation. If you want to search for similar IC managements of this manufacturer, you can always refer to BD49, which is the base power ics number. To operate this power management, you will need at least 4.9V volts of power. At the most, voltage supervisor can work with a supply temperature of 1.8μA. The IC power comes from the well-known BD49xxx series.
BD4951FVE-TR Features
Voltage Detector type
Minimum supply voltage of -300mV
BD4951FVE-TR Applications
There are a lot of ROHM Semiconductor BD4951FVE-TR Voltage Supervisors applications.
- Electric heating appliances
- Radar
- Battery cars
- Smartphones
- Military electronics
- Microcontroller system
- Embedded computing
- Automotive power systems
- Display equipment
- Urban rail transit weak current power monitoring