| Code | Function | Description | |------|----------|-------------| | P1 | Over-voltage cutoff | Load disconnects if voltage > this value | | P2 | Over-voltage reconnect | Voltage must drop below this to re-engage | | P3 | Under-voltage cutoff | Load disconnects if voltage < this value | | P4 | Under-voltage reconnect | Voltage must rise above this to re-engage | | P5 | Over-current cutoff | Load disconnects if current > this value | | P6 | Delay time (seconds) | Delay before reconnecting after fault | | P7 | Start delay | Delay before relay engages on power-up |
The module features two primary working modes: and Discharging Mode (OUT) .
The "XYCD60" model number appears across several product categories (most commonly in precision measurement tools and automotive electronics). Because manufacturers often provide only a basic quick-start guide, finding a comprehensive manual can be challenging. This article serves as the definitive resource for the XYCD60 manual. We will cover initial setup, button functions, calibration procedures, error code solutions, and advanced operational tips that aren't always included in the original documentation.
Understanding the physical and electrical limits of the module ensures safe operation within custom electronic enclosures. Specification DC 6.0V to 60.0V Voltage Control Precision Maximum Load Current Power Consumption Compatible Batteries Lead-Acid, Lithium-Ion, LiFePO4, Storage Cells Operating Temperature -25°C to 80°C Physical Dimensions 79mm x 43mm x 38mm Terminal and Wiring Configurations xycd60 manual
DC 6V - 60V (Suitable for 12V, 24V, 36V, 48V systems).
The XY-CD60 is a versatile and intelligent battery charge and discharge controller module, widely used to protect and automate the charging cycles for various battery types. In simple terms, it acts as a smart automatic switch, using its built-in relay and user-set voltage limits to connect or disconnect your charger and load.
These three timer functions give you fine control over the module’s behaviour, particularly useful in automated systems. This article serves as the definitive resource for
The module supports two primary configurations based on your setup:
Use the UP and DOWN buttons to increase or decrease values.
If the displayed voltage differs from a multimeter reading, the Specification DC 6
Make sure to hold the set button until the screen flashes to confirm changes.
: In a solar system, you have solar panels (the charger) and a battery. Set "UP" to your battery's maximum voltage (e.g., 14.4V for a 12V lead-acid). Set "dn" to the voltage at which you want charging to begin again (e.g., 12.0V). When the battery voltage drops to 12.0V or below, the module connects the solar panel to charge it. Once it reaches 14.4V, it disconnects the panel, preventing overcharging.