MAX6718AUKWGD3+T Overview
This power management consists of 5 mounting terminals on which it can be mounted. Packaged in the form of a Tape & Reel (TR), power management is easy to use. In this IC power you will find 1 functions for you to refer to. Depending on the power managment ic you are looking at, you can find a total of 2 channels. In this PMIC, you can find SC-74A, SOT-753 functions for your reference. With power management, you get a lot of benefits that you won't find in other Multi-Voltage Supervisor products. Specifies a reflow peak temperature of 260 for the package during reflow. In a 3.15V supply voltage, the power management conducts. IC management is possible to find a succession of 2 voltages that have been checked. Using Surface Mount, IC management is mounted. It is possible to subcategorize this power ic as a Power Management Circuits chip. A total of 5 pins are located on this power management. There are 5 pins on the supervisor. Supply voltage (Vsup) should be at least 800mV for this power management. This IC power should be powered by no more than 5.5V volts of supply voltage (Vsup). In this case, Surface Mount is the recommended mounting type. The temperature of the supervisors should be set to this range: -40°C~125°C. During normal operation, this power managment ic can generate Push-Pull, Totem Pole of output voltage. As far as the supply current of the power management is concerned, it is 15μA. It is always advisable to use MAX6718A, the base supervisor number, when searching for similar PMICs from the manufacturer.
MAX6718AUKWGD3+T Features
Multi-Voltage Supervisor type
Minimum supply voltage of 800mV
15μA operating supply current
MAX6718AUKWGD3+T Applications
There are a lot of Maxim Integrated MAX6718AUKWGD3+T Voltage Supervisors applications.
- Display equipment
- Important electronics for automotive protection
- Low voltage/high power - AI, GPU
- Precision measurement
- WiFi router
- Microcontroller system
- Smart meter
- Refrigeration
- Data storage applications
- Stable power system