ECO RE 415 G: Precise performance in a compact format
The LAUDA ECO RE 415 G is a state-of-the-art temperature control thermostat designed to meet the needs of laboratories and high-precision industrial applications. With a wide operating range from -15 °C to 200 °C, it can be used for both heating and cooling, with remarkable stability of ±0.02 K, ensuring ideal temperature consistency in the most demanding environments.
This system is designed for flexible use: it can be used both for external applications and for immersion in a bath. The control of the thermal fluid circulation is optimised by a flow switch located at the front of the control unit. This allows a smooth transition between internal and external circulation, even during operation.
The ECO RE 415 G is easy to use thanks to its clear text menu navigation. This system guarantees intuitive operation and quick familiarisation, even for novice users. It is also equipped with a standard mini-USB interface for control or monitoring via a computer, with the option of integrating additional communication modules as required.
In terms of energy performance, the most powerful models are equipped with the LAUDA SmartCool system, which optimises consumption while maintaining thermal efficiency. The ECO RE 415 G model offers a heating power of 2.6 kW and a cooling power that can be adjusted according to the ambient temperature, reaching, for example, 0.18 kW at 20 °C with ethanol. Its low bath volume (between 3.3 and 4 L) combined with high power makes it particularly suitable for confined spaces.
Its compact dimensions (180 × 350 × 546 mm) and robust construction are additional advantages, allowing easy integration into any working environment. Finally, the internal pump ensures a maximum pressure of 0.55 bar and a flow rate of 22 L/min, guaranteeing uniform regulation in the bath.
The LAUDA ECO RE 415 G is a complete, reliable and high-performance solution for anyone looking for a precise and easy-to-use laboratory thermostat that also offers exemplary energy efficiency.
