|Approximate voltage readings|
Secondly, ALL the controller electronics runs off 3.3v. The voltage regulation is done by the ubiquitous ACT4060A DC/DC converter.
As long as you can provide above 4v at about 550mA it matters not a hoot what the battery voltage is. It makes no difference to the control, telemetry , or FPV reception, all which run on 3.3v
OperationWhen you install a battery pack and power on, the controller decides which type of battery you have installed.
- If it's between 8.4v and 6.5v it assumes it's a 2S LiPo
- If it's between 6v and 4v it assumes it's 4xAA.
Well because it calibrates the battery bar meter accordingly and,more importantly, sets the Controller failsafe voltage.
For a LiPo battery the bar indicates as follows: (all approx)
Failsafe is at 6.3v
For a 4xAA battery configuration, the bar indicates: (all approx)
Failsafe is at 4.0v
As part of your pre-flight checks, you can quickly read the actual battery voltage by simply powering on the controller whilst depressing the throttle stick.
FailsafeController failsafe occurs to protect both the battery and allow you time to safely land your quad. Failsafe is indicated by a flashing red power lamp and the switching off of the VRX and the FPV monitor. The Vrx itself draws over 250mA and that with the display account for the majority of the controller power consumption. In failsafe the current drops to ~ 90mA.
The controller is still perfectly functionable, and with the low demand on the battery pack, a full 20 to 30 minutes of flight time is normally easily achieved after failsafe.
WARNING - Putting in or powering up with a depleted LiPo can make the controller think that it is a 4xAA pack. This can cause:
- irreversible cell damage (FS is now 4v)
- probable loss of all control function at FS (because battery is really dead!)
Other cell ChemistriesA few people have tried 2S LiFe batteries. These unfortunately, when fully charged, fall in a no man's land between 4XAA and 2S Lipo being approx 6.6v. This means they normally immediately failsafe. If they are slightly depleted, they can appear as 4xAA but the absolute minimum voltage for 2S LiFe is 5v so well above the failsafe cutout. They are not recommended for those reasons.
Battery Types and CapacitiesFor comparison, below is the power density (W/h) for different battery setups from low to high, that people commonly use.
- 2s x 500mAh (Lipo) =3.7Wh
- 2s x 1000mAh (Lipo) = 7.4 Wh
- 4s x 1300mAh (Alkaline) = 7.8Wh (Duracell or similar)
- 2s x 1500mAh (Lipo) = 11.1Wh
- 4s x 2500mAh (NiMH) = 12Wh (common AA NiMH set up)
- 2s x 2000mAh (Lipo) = 14.8Wh
- 2s x 2500mAh (Lipo) = 18.5Wh
- 2s x 2700mAh (Lipo) = 20Wh (Stock H501S Flight battery)
I get about 2:30 from my 4xAA NiMH with a full flight battery worth of flying after failsafe. Others get about 4:30 from the Hubsan 2700mAh Flight battery.