Xycd60 Manual Link Jun 2026
If you are using this with an ISTA Breeze wind turbine, note that the acts as the main voltage controller for the relay.
The is a versatile battery charge and discharge controller module designed for DC 6V–60V systems, including lithium and lead-acid batteries. It functions primarily as a voltage-triggered switch to prevent overcharging or deep discharging. Manuals & Documentation
Setting XY-CD60 controller at ISTA Breeze charge controllers
: Prevents overcharging. The relay closes to start charging when the battery voltage is below the lower limit ( dn ) and opens to stop when it reaches the upper limit ( UP ). xycd60 manual link
Ensure the input voltage is within the 6-60V range and that the power-saving mode ( L-P ) is not enabled.
The module supports two main working modes, which can be toggled by a long press on the "SET" button. This mode protects batteries from overcharging. You set the lower limit ( dn ) and upper limit ( UP ).
is a digital battery charge/discharge controller module designed for 6V to 60V systems, typically used for lithium or lead-acid batteries If you are using this with an ISTA
to enable or disable the output relay.
The XY-CD60 operates in two primary modes. You must select the correct mode based on your specific application. Charging Control Mode (UP Mode)
Remember the safest path: .
⚠️ The XY-CD60 operates as a switch on a single line. It does not regulate voltage or current internally. The input voltage source must match the battery's required charging voltage. Example A: Dedicated Battery Charging Setup
The relay opens (turns ) when the battery voltage drops to the lower limit ( dn ), cutting off the load to protect cell health. Step-by-Step Programming Guide
A: The current version is v2.3 (released March 2024). If you have an older unit (bought before 2022), you need the v1.9 manual, which has different DIP switch settings. Manuals & Documentation Setting XY-CD60 controller at ISTA
The is a versatile battery charge and discharge controller module designed for DC 6V–60V systems. It acts as a protective "brain" for lithium and lead-acid batteries, preventing damage from overcharging, under-voltage, and overloading. Key Operating Modes