- How does Fast Charge work?
- Does it actually charge your device faster, and if so,
- Is there a downside to using it?
Fast Charging can be achieved in two ways
Hardware based Charging
Type C USB Charging- USB Type C Charging explained. Also see Android phone “charging slowly”: How to make it faster
- Kernels (including kernel tweaks) capable of increasing charge rate whether it is USB or wall outlet charging
First part of your question How does fast charging work? Does it actually charge your device faster
This has been covered at length here (linking it rather than copy-paste) Will plugging the Samsung fast charger into a outlet rated 10W/2.1AMP slow down the charge rate?.
To summarise, normal charging is done at 0.5 to 0.8 C (C is charge rate) and fast charging done at 1 to 3 C. Please note that the exact or indicative charging rate is not revealed in any OEM documentation despite extensive search and it is unlikely that OEMs will reveal such details, deeming it "proprietary"
Coming to the second part of your question Is there a downside to it (Fast Charging)?
Yes, in two ways:
A common feature while using fast chargers is raise in temperature of battery (since more current is being pumped in and power (read heat) is proportional to square of current) and this is inimical to good health of battery, which is extensively covered here.
- Short Term (Battery capacity after charging) Battery is not really fully charged as it does not undergo charging spending enough time in all stages, compared to conventional charging. In simple words battery may deliver typically 85% of performance compared to regular charging. Details on this are available here
- Long Term (Battery life span) Battery life is specified in Cycles or discharge cycles. OEMs/ Battery resellers may specify this number, for example, it is 550 Cycles for Samsung Note 2
Quoting from BU-501: Basics About Discharging
What Constitutes a Discharge Cycle?
A discharge/charge cycle is commonly understood as the full discharge of a charged battery with subsequent recharge, but this is not always the case. Batteries are seldom fully discharged and manufacturers often use the 80 percent depth-of-discharge (DoD) formula to rate a battery, meaning that only 80 percent of the available energy is delivered and 20 percent remains in reserve. Cycling a battery at less than full discharge increases service life and manufacturers argue that this is closer to a field representation because batteries are commonly recharged with some spare capacity left.
There is no standard definition as to what constitutes a discharge cycle.
This does not mean that every time you charge you are consuming a cycle
For example, if you discharge a battery to 50 percent one day, charge it back to 100 percent, then discharge it 50 percent again the next day, that is counted as one "cycle" of the battery. So shallow discharges, in all these regards, are ideal for a Li-ion battery.
Now that battery life in cycles has been explained, let us see how fast charging adversely affects long term battery life
Figure 2 from BU-401a: Fast and Ultra-fast Chargers graphically shows deterioration in long term battery life. Note deterioration in charge holding capacity and life of battery are both affected adversely
Figure 2: Cycle performance of Li-ion with 1C, 2C and 3C charge and discharge Charging and discharging Li-ion above 1C reduces service life. Use a slower charge and discharge if possible. This rule applies to most batteries.
Bottom Line: Use fast charging when you "have to" due to time constraints else if possible stick to normal charging if you care for your battery( if you have read this lengthy answer, it's because you care:). But a relevant question is what can be done if your cell is equipped only with a fast charger? Answer would be to use a battery pack for normal use and fast charging when you really need it. This way, you could end up spending more but wouldn't need to bother about battery health
Perhaps realizing that ill effects of fast charging would be negative, Samsung has come up with user selectable enable/disable fast charge option
See FoneArena Labs : Best Fast Charging Standard in the market for performance comparison of different charging techniques
When you plug your phone into a PC, or other device that communicates with the phone, the phone uses a USB "Data mode", so to speak. In this mode, there is a 500ma maximum draw from the USB port.
When you plug your phone into a regular AC wall charger, there is no data connection. The phone then uses whatever amperage is supported by both the phone and charger (typically between 500ma and 2.1amps)
There are USB charging cables that have the data pins re-wired to disable a data connection. This makes the phone think it's plugged into a regular AC charger, and allow more than 500ma to flow. That does not mean the USB port has more than 500ma to begin with. Typically, USB ports on PCs have 500ma, or USB 3.0 ports may have 900ma.
Theoretically this is safe because it's just disabling a data connection. It's not using more power than it should. Phone's are designed not to accept more amps than it can handle.
There are also apps that allow for fast charging by forcing the phone into using the AC charging mode instead of data. However you still need a compatible kernel or it won't work. (For standard users, changing the kernel is a complicated and risky procedure.)
Please note that there are reported cases of people's phones not supporting regular data modes after attempting to activate fast charge via an app (notably the nexus 4).