High performance at a highly competitive cost.

The most advanced design based on more than 30 years of experience and state-of-the art technology.

Easy to use, adaptable to your requirements and scalable to suit your needs.

Easy and modular installation, cheaper and easy to maintain.

Always updated. Online maintenance.

Robust and reliable, with installations in more than 30 countries.

Control based on multiple sensors for greenhouse.

Controls up to 4 heating networks per compartment.

Control based on multiple sensors.

Main and secondary network heating control, developed to control the temperature and humidity in the greenhouse in 8 periods of the day.

Soil heating network control using the soil temperature measurement.

Gutter temperature control to avoid accumulation of snow in cold climates.

Regulation using PID.

Heating pump control by pump inverter.

Minimum pipe temperature control.

Influenced by outside temperature, solar radiation, wind, temperature and inside humidity.

Control of up to 4 heating networks per compartment.

We control up to 3 boilers with activation according to present and estimated energy demand of the greenhouses.

Activation by demand, by outside temperature or manual.

Regulation of the CO2 generation and hot water storage in the buffer tank.

Hot water buffer tank temperature control according to energy demand.

Shunt pump control to avoid cold returns to the boiler.

Interface with FIDUFACE boilers.

Monitoring and sending alarms in event of out of range temperatures or failure in boilers.

Heating transport group

Heating transport group control according to instant demand of each greenhouse.

Regulation by demand, temperature and pressure difference.

Manual control of transport pump with drive. Regulation of transport pumps with pump inverter.

Input and output pressure alarms. Temperature alarms.

Alarms for electrical failure in main panel.

Thermal Waters heat exchangers

Control of up to 3 blocks of exchangers.

Measurement of input and output pressure of each circuit.

Measurement of input and output temperature of each circuit.

Alarms for temperature and pressure.

Measurement of volume of thermal water used.

Calculation of energy delivered to the heating system.

Influence on control of boilers and tank.

Control in 8 periods of the day.

Activation for low humidity.

Activation for high temperature.

Control modality for %HR, Delta X, Delta T and Vapour Pressure Deficit (VPD).

Control of air-water systems. Up to 6 sectors per greenhouse.

Regulation of dosage time and waiting time between dosage.

Use of fog for treatments.

Control of 2 windows and 4 side windows per greenhouse.

Control based on multiple sensors.

Ventilation control by PID.

Influenced by solar radiation, outside temperature, outside humidity, wind speed and direction.

Protection against frost, strong winds, low inside humidity.

Minimum opening control windows.

Alarms in event of electrical failure of windows motor.

Control of up to 3 screens per compartment.

Control of black out, shade and thermal screens.

Manual adjustment of desired position of the screen.

Influence by solar radiation, heating temperature, outside temperature, high humidity.

Control of outside screens with protection for wind and for rain.

Opening in steps at dawn.

Alarms in event of electrical failure of screen motor.

Control of up to 4 blocks of fans per greenhouse.

Control based on multiple sensors.

Activation according to temperature and humidity of the greenhouse.

Influenced by CO2 and position of windows.

Maximum time for turning fan on and off.

Activation of fans in sequential mode.

We control CO2 dosage relative to solar radiation.

Regulation of CO2 dosage in function of opening of windows and influence of the wind.

We can adjust the optimum desired level and minimum absolute level.

Activation of boiler to generate CO2.

Alarm in event of high level of CO2 and shut off dosage system.

Control of up to 4 pad & fan blocks per compartment.

Control based on multiple sensors.

Activation according to temperature and humidity of the greenhouse.

Minimum time for turning on and off.

Alarm in event of electrical failure.

We control two different artificial lighting systems per greenhouse.

Activation by fixed time or at dawn/sunset. Up to two per day.

Activation by sum of light. We prolong the length of the day making use of the artificial lighting until reaching the programmed Klux level.

Activation by hours of light. We predict when the artificial light should be turned on to ensure that the plant receives the programmed hours of light.

We activate light intermittently.

Registering the working time for each lamp allow us to know when the lamps should be replaced.