TPS3510DRG4 Overview
This power management consists of 8 mounting terminals on which it can be mounted. Tape & Reel (TR)-packaging is used. The purpose of this IC management is to provide you with a reference of 1 functions. There are 3 channels available on this supervisor, and each channel has a different function. The purpose of this IC power is to provide you with a reference of 8-SOIC (0.154, 3.90mm Width) functions. With power management, you get a lot of benefits that you won't find in other Multi-Voltage Supervisor products. There is a specification for the peak reflow temperature of the package to be 260. IC management conducts at a voltage of 5V. There is a voltage supply of 3 for the PMIC chip, and the chip conducts at that voltage. Power Management Circuits is a subcategory of this PMIC chip. In total, IC powers are 8 pins on the board. The pins of the power management system count 8. I should note that the minimum supply voltage (Vsup) for this IC management should be at least 4V, which is the minimum supply voltage that should be applied. During this IC power, the maximum supply voltage (Vsup) should not exceed 15V volts. Mounting type Surface Mount is recommended. It is recommended to set the supervisor's temperature to this range: -40°C~85°C TA. The output voltage of this power managment ic during operation is Open Drain or Open Collector. The supply current of the power management is 1mA. For similar manage ics search of the manufacturer, you can always refer to TPS3510, the base PMIC number. A maximum supply temperature of 1mA can be used.
TPS3510DRG4 Features
Multi-Voltage Supervisor type
Minimum supply voltage of 4V
1mA operating supply current
TPS3510DRG4 Applications
There are a lot of Texas Instruments TPS3510DRG4 Voltage Supervisors applications.
- Power distribution systems of infant care room
- Power communication system
- Rechargeable batteries
- Electronics installed in the vehicle
- Power distribution systems of ICU
- Kitchen appliances
- Insulation fault location system
- Fire equipment power monitoring system
- Embedded computing
- Detection of phase loss