Application
Any
Loading
Function
Supercapacitor Chargers
Matching Circuits
The Following Circuits match the search criteria selected above.
12V Input to 5V Outputs High Peak-Power & Backup Supply using Two Supercapacitors with Input Voltage Monitoring 12V Power Ride Through Using Six 10F, 2.7V Supercapacitors in Series with Front End Flyback 12V Power Ride-Through Application Using Six Supercapacitors in Series and Voltage Supervisor 12V to 5V/3.3V High Peak Power Supply using Two Supercapacitors 3 x AA Alkaline to High Peak Power 3.3V at 2A Using Two Supercapacitors 3.3V at 1.5A from 5V Peak-Power & Back-up Supply using Two Supercapacitors 5V Power Ride-Through Application Using Two Series Connected 10F, 2.7V Supercapacitors Charged to 4.8V That Can Hold Up 20W for 1.42 seconds Complete Energy Utilization Maximizes Run Time of Supercap Ride-Through Application Embedded Automotive (6V to 36V Input) to 5V/3.3V/1.8V/1.2V Output Peak-Power Controller using Two Supercapacitors High Current USB Battery and Supercapacitors Charger with Power Path Control Li-Ion Backup Supply Li-Ion High Peak Power Battery Buffer Using Two Supercapacitors Power Backup System Using Supercapacitors Redundant USB & 3xAA High Peak Power Battery Supplies using Two Supercapacitors Solar Powered Super Capacitor Charger with MPPT Supercap-Based Power Ride-Through Circuit Maximizes Run Time Using an Energy Scavenging Scheme Supercapacitor Energy Storage System for Data Backup USB to High Peak Power 3.3V Supply Using Two Supercapacitors
12V Power Ride-Through Application Using Six Supercapacitors in Series and Voltage Supervisor
The LTC3225 is a programmable supercapacitor chargers designed to charge two supercapacitors in series to a selectable output voltage (4.8V/5.3V or 4V/4.5V) from 2.8V to 5.5V input with automatic cell balancing. This example uses six supercapacitors in series charged by three LTC3225’s. Voltage supervision is provided by LTC2915 and 1.8V POL is regulated by a LT3740.