Dual Channel 12S Lithium Battery Charger
SkyRC PC1260 is a dual channel 12S LiPo charger for industrial application drones. It is reliable, safe and easy to operate while with comprehensive functionality, like battery voltage meter, internal resistance meter, LiHV charging mode, also the time saving synchronization mode.
Maximum Charge Power
Maximum Charge Current
Ergonomic design; Intuitive user interface; Portable with PVC handle.
LiPo & LiHV Supported
Press “UP” and “DOWN” key together to switch battery type.
3 Working Modes
Charger through the EU CE certification, the United States FCC certification, in line with the RoHS standard, product quality and safety and reliability, so that users can rest assured that the use of security.
Strong Technical Strength
Strong technical strength to support, the software system has been optimized for many times, so that the charger output current is more stable, more reliable.
Multiple Protection Function
Short circuit protection, reverse connection protection, over temperature protection, multiple protection function, software system regularly updated maintenance, through firmware upgrades, can experience more new features, so that you use more secure.
This function enables user to control 2 or more PC1080 charger at the same time via datacable. All the SLAVE channel will follows the settings of MASTER channel, which saves much time while charging a bunch of similar batteries.
Battery Internal Resistance Meter
With this function, internalresistance of each cell will be displayed on the screen. Internal resistance is a key feature which reflects the health status of the battery, the lower internal resistance indicates the higher battery quality. Also this value can help you pair your batteries.
What’s in the Box
AC Power Cord
12S Balance Adaptor
AS150 (Female housing w/ male terminal)
AS150 (Male housing w/ female terminal)
AS150 (Male housing w/ female terminal) + XT150 Male Connector
1260W (540W x 2)
100W (50W x 2)
1.0-12.0A x 2
Battery Cell Count
12S x 2
Balance Charge Mode