BU4828FVE-TR Overview
There are 5 terminals connected to this power management, which makes it easy to mount. Packaged in the form of a Tape & Reel (TR), power management is easy to use. The purpose of this IC management is to provide you with a reference of 1 functions. There are a total of 1 channels on this supervisor, and they are arranged in a series. For your reference, this PMIC includes a list of SOT-665 functions. With power management, you get a lot of benefits that you won't find in other Simple Reset/Power-On Reset products. A supply voltage of 2.4V is used to conduct the PMIC chip. During operation, the power ic is supplied with a voltage of 1. Surface Mount is the one that mounts power management. The power management system can be categorized as a Power Management Circuits chip. Taking into account all of the pins, this power management has a total of 5. This power management system has 5 pins. In order for this PMIC to work correctly, the minimum supply voltage (Vsup) should be greater than 700mV. There should be no more than 7V volts of supply voltage (Vsup) in this power management. Surface Mount mounting is recommended. This power management is the recommended temperature range for the supervisors: -40°C~125°C TA. During operation, this power management system outputs Open Drain or Open Collector. The power management's supply current is 550nA. A similar IC managements number of the manufacturer can always be found by using BU4828, the base power ics number. The maximum supply temperature that PMIC chip can work with is 1.4μA.
BU4828FVE-TR Features
Simple Reset/Power-On Reset type
Minimum supply voltage of 700mV
550nA operating supply current
BU4828FVE-TR Applications
There are a lot of ROHM Semiconductor BU4828FVE-TR Voltage Supervisors applications.
- Microprocessor system
- Electrical fire monitoring system
- Functional modules
- WiFi router
- Medical-specific insulation monitor
- Smartphones
- Microcontroller system
- Power distribution systems of ICU
- Personal computers
- Power distribution systems of CCU
