1. Water Hammer Prevention
Smooth Transition: With a 4mm stroke completed gradually over 2 to 2.5 minutes, the actuator effectively eliminates pressure surges caused by sudden changes in flow velocity.

System Protection: This slow-acting movement prevents pipe vibrations and protects joints and connections from damage caused by pressure spikes.

2. Enhanced System Stability
Thermal Inertia Matching: Underfloor heating systems have high thermal inertia (slow heating/cooling). The gradual adjustment of the actuator matches this characteristic, ensuring linear and stable indoor temperature changes without sharp fluctuations.

Signal Interference Filtering: The deliberate response time helps filter out frequent switching commands from the thermostat caused by brief interference, such as a sudden temperature drop when a window is opened.

3. System Latency
Non-Instantaneous Response: Once a signal is received, the system requires approximately 120-150 seconds to fully open or close the valve. This operational lag should be considered when designing temperature control strategies to ensure optimal flow management.

4. Energy Saving & Device Protection (节能与保护控制设备)
Low Instantaneous Load: With a power consumption of only 3W, the electro-thermal actuator utilizes a thermal element to generate thrust. The stable current draw during operation reduces the electrical impact on control center relays, extending the service life of the entire control system.

1. Maintain System Water Circulation
Frost Protection Mode: Even when indoor heating is not required, the thermostat should remain in Frost Protection Mode to keep warm water circulating at a low frequency.

Ambient Heat Exchange: Since the actuator is mounted on the manifold, the circulating warm water provides radiant heat to the actuator and its surroundings, effectively preventing the ambient temperature from dropping below -5°C.

2. Physical Insulation Measures
Insulated Manifold Cabinets: Apply thermal insulation to the manifold cabinet, such as attaching insulation foam/cotton to the inside of the cabinet door.

Trace Heating: In extremely cold regions, consider installing a low-wattage heat trace cable or a constant-temperature heating device inside the manifold box.

3.Utilizing Internal Heat Dissipation
Self-Heating Principle: With a power consumption of 3W, the electro-thermal actuator operates by heating an internal wax element.

Power-on Strategy: Keeping the actuator in the "ON" (energized) state during extreme cold can utilize its own heat dissipation to maintain the temperature of core internal components.

4. Monitoring Ambient Humidity & Condensation
Condensation Risks: Although the actuator is IP54 rated, be vigilant about condensation in ultra-low temperatures. Ensure the wiring terminals remain dry and moisture-free to prevent electrical issues.

Nominal Power per Unit
The nominal power consumption of this actuator is only 3W.

Actual Usage in Frost Protection
In practical applications, Frost Protection Mode typically means the thermostat forces the actuator to be energized to keep the valve open for continuous water circulation. In this state, each active actuator will draw a constant 3W of power.

Total System Consumption
For systems with multiple heating loops (multiple actuators), the total additional power consumption is calculated as follows: 3W × Number of Actuators.