Quick Charge - definition
Usually, Quick Charging refers to a term that increases the speed of charge flow and decreases the average charging time for a mobile device. i.e.: if a device needs 1 hour to charge at regular charging speed, then quick chargers would take less than one (1) hour.
The values vary from brand to brand and chipset to chipset. The most average smartphone charger rating we found is 5V-2A which provides 10W of power. In a quick charger, the wattage is much higher than this and becomes 14W, 18W, 20W, 24W, 32W, 55W, 64W, and so on. The voltage and current ratio changes accordingly. Such as for an 18W quick charger the voltage could be 9V-2A or a 24W quick charger may have an 8V-3A power rating.
Note: For Fast and Quick Charge the values of power intake can vary due to time or charge storing capability, in order to execute that process additional chips are used in the main chipset or power controlling unit. This unit decides when to release how many wattages of power. For example: If a battery is fully drained then it'll provide the max value of the charger which could be 24W up to 50%, then for the next 25% it'll reduce the power down a bit which could be 10W, and for the remaining 25% it may reduce to a bit more which could be 5W or 10W. Because there are a lot of rules and methods to charge a Lithium battery properly. It is totally dependent on the methods being used by the manufacturer and operation. The values vary device to device, brand to brand, chip to chip, and a few other parameters.
The values vary from brand to brand and chipset to chipset. The most average smartphone charger rating we found is 5V-2A which provides 10W of power. In a quick charger, the wattage is much higher than this and becomes 14W, 18W, 20W, 24W, 32W, 55W, 64W, and so on. The voltage and current ratio changes accordingly. Such as for an 18W quick charger the voltage could be 9V-2A or a 24W quick charger may have an 8V-3A power rating.
Note: For Fast and Quick Charge the values of power intake can vary due to time or charge storing capability, in order to execute that process additional chips are used in the main chipset or power controlling unit. This unit decides when to release how many wattages of power. For example: If a battery is fully drained then it'll provide the max value of the charger which could be 24W up to 50%, then for the next 25% it'll reduce the power down a bit which could be 10W, and for the remaining 25% it may reduce to a bit more which could be 5W or 10W. Because there are a lot of rules and methods to charge a Lithium battery properly. It is totally dependent on the methods being used by the manufacturer and operation. The values vary device to device, brand to brand, chip to chip, and a few other parameters.