MAX6368PKA26-T Overview
There are 8 terminals on this power management that allow it to be mounted. Packaged in the form of a Tape & Reel (TR), power management is easy to use. There are 1 functions included in this PMIC so that you can refer to them. There are 2 channels on this power managment ic that can be found in a series. To assist you, this PMIC includes SOT-23-8 functions. There are a number of benefits that this PMIC has in common with other Battery Backup Circuit manage ics. IC management is specified that the package peak reflow temperature should be 245. A supply voltage of 2.8V is used to conduct the PMIC chip. IC management conducts in a 1-voltage supply. Power management is included in the Surface Mount mount. As a subcategory, this PMIC chip can be categorized as Power Management Circuits. The total number of pins on this power management is 8. Power managment ic pin count is 8. In order for this IC power to function, the supply voltage (Vsup) cannot be less than 0V. There should be no more than 5.5V volts of supply voltage (Vsup) in this power management. Power management recommends the Surface Mount mounting type. You should set the supervisor's temperature during -40°C~85°C TA . During normal operation, this power managment ic can generate Open Drain or Open Collector of output voltage. It is estimated that the voltage supervisor's supply current is 15μA. Supervisors are also additional features, such as [0] for example, which are worth mentioning. It is always advisable to use MAX6368, the base supervisor number, when searching for similar PMICs from the manufacturer. In order to operate this power management, it requires 2.5/5V volts of power.
MAX6368PKA26-T Features
Battery Backup Circuit type
Minimum supply voltage of 0V
15μA operating supply current
MAX6368PKA26-T Applications
There are a lot of Maxim Integrated MAX6368PKA26-T Voltage Supervisors applications.
- Power distribution systems of infant care room
- DSP
- Radio
- Network equipment
- Microprocessor system
- Rechargeable batteries
- Detection of phase loss
- Detection of phase imbalance
- Electric heating appliances
- Power distribution systems of ICU