MAX6734AKAZGD3+T Overview
This power management consists of 8 mounting terminals on which it can be mounted. Power management is packaged in a Tape & Reel (TR) way. For your reference, this IC power includes a list of 1 functions. There are 1 channels on this power managment ic that can be found in a series. IC management is packaged as a SOT-23-8 package. There are a lot of similarities between this IC power and other Multi-Voltage Supervisor products. IC management is specified that the package peak reflow temperature should be 260. When 3 is applied to the power ic, it conducts. The power management is mounted by a Surface Mount-axis. In this case, this PMIC chip can be sub-categorized as a Power Management Circuits chip. The total number of pins on this power management is 8. This power management has 8 pins. Normally, the supply voltage (Vsup) for this PMIC should not be lower than 800mV. The maximum supply voltage (Vsup) is not to exceed 5.5V volts in this IC management. Surface Mount mounting is recommended. This range of temperature should be set for the supervisors: -40°C~125°C TA. During normal operation, this power managment ic can generate Open Drain or Open Collector of output voltage. Supplied with a operating current of 15μA, this PMIC is capable of fully function as specified. You can always use MAX6734A, the base supervisor number, to search for similar PMICs of the manufacturer. The voltage supervisor requires a power source of 1/5V volts in order to work correctly.
MAX6734AKAZGD3+T Features
Multi-Voltage Supervisor type
Minimum supply voltage of 800mV
15μA operating supply current
MAX6734AKAZGD3+T Applications
There are a lot of Maxim Integrated MAX6734AKAZGD3+T Voltage Supervisors applications.
- Network equipment
- Detection of phase sequence
- Solar power charger
- Microcontroller system
- Electric heating appliances
- Digitally controlled LDO regulators circuit
- Power distribution systems of operating room
- Functional modules
- Important electronics for automotive protection
- External alarm