Innovative system that modulates ventilation flow rates matching the flow rate to needs.


Maintenance is light and easy: reporting of information about the condition of the system with an interface of control.


Thermal, aeraulic and acoustic comfort for the occupants.


Savings on the electrical energy consumption of the fans.


Energy savings on heating or air-conditioning.


Proven reliability, with thousands of systems already sold in France.


Excellent indoor air quality at all times.


System simple to install: only two wires on most of the components.


Open and open-ended system: it can be connected to other external devices or to a BMS.


Description
Characteristics
Schematic
Gallery
Documents

VMX, a smart ventilation system

Premises in non-residential buildings are characterised by highly variable and intermittent occupancy. For example, meeting rooms are generally used for a few hours and their occupancy is quite variable.
Classrooms are completely empty during recreation periods, lunch breaks and vacation periods. The VMX, with its smart ventilation, is well suited for the non-residential sector and allows an optimal management of ventilation flow rates according to the occupancy of the room.

Important energy savings

This system yields large energy savings by reducing airflow rates by 25 to 75%, on average, depending on the reference flow rates.
Thanks to carbon dioxide or presence detectors placed at different locations in the room, the flow rates are managed strictly according to the needs. This avoids both over-ventilation, which would mean higher energy consumption, and under-ventilation, which could have negative impacts on the health, concentration, and comfort of the occupants.

Management of indoor air quality

With its different sensors, the VMX optimises indoor air quality by adapting automatically its ventilation to the needs of the room. If, for example, a room is highly occupied, the indoor air will be charged with CO2, humidity and odours emitted by the occupants which can result not only in discomfort and inconvenience but also in decrease of concentration. The VMX system, thanks to its sensors, will detect the occupancy rate and instantaneously activate the ventilation evacuating vicious air, bad odours and allowing new fresh air in the room.

Three detection modes

VMX system offers the possibility to measure three types of information through three detection modes: the “Presence” mode, which adapts the ventilation according to the detected presence. The “Movement” mode, which induces a ventilation rate proportional to the number of movements measured. The “CO2” mode, which adjusts the airflow proportionally or binary (minimum / maximum) to the CO2 rate.

Components

 

     
VMX S-PRE Optical detector that measure presence and movement. Up to 8 detectors can be connected to the main module.
VMX S-CO2 Carbon dioxide (CO2) detector that measures the concentration in ppm. Other detectors can be connected to the VMX system.
VMX Main Main module that coordinates the whole system and recovers information from the installed detector(s) to control the valves or the fan.

Fan In Multizone management, the airflow rate is adjusted on the motorized valves according to the true need of each room, based on the information received from the detectors and the modules. In Unizone management, the airflow rate is adjusted on the fan on the basis of the information received from the modules. The fan must be able to cover the operating range defined by the valves.
VMX Relay Out, VMX Contact In and VMX In/Out 0-10V Modules that, depending on their configuration, can inform the users, control external devices, or receive information from external devices to manage the ventilation flow rates. As the users’needs require, optional modules can be added to this system for additional applications. For example, adjusting the ventilation based on timetables, etc.
Diffusers Used in air supply or exhaust, the diffusers of the VMX system are available in several models and designs.
Motorized valves These are constant-flow rate mechanical airflow rate regulators. The variable flow is obtained by chrono-proportional management of the opening of the valves. Available in various diameters ø80 to ø250 mm

 

EXAMPLE OF VMX CONFIGURATIONS ON A ROOM

 

The VMX system is an intelligent system which can be fully configurated according to needs thanks to its several components (see next page). These elements can be adapted to most types of equipment commonly used for ventilation. They can also communicate with the majority of external systems (to provide information or to comply with instructions).
The VMX system can fit the existing ventilation network and has 2 ways of managing ventilation: “Unizone” or “Multizone” approach.

UNIZONE APPLICATION

In a Unizone installation, the VMX system manages and controls the ventilation flow rates centrally, at the fan. This generally assumes that one fan is installed for each room. The detector in the room measures a parameter (CO2, presence, movement, etc.) and sends a signal to the modules that control the fan to vary the airflow rate and thereby ensure optimal indoor air quality.

 

MULTIZONE APPLICATION

In a Multizone installation, the VMX system manages and controls the ventilation flow rates in a decentralized manner, on the motorized valves. Several valves and diffusers are connected to a single fan, which can serve one or several rooms. A single fan serves several air supply or exhaust valves and diffusers, located in a single room or in different rooms. There is generally one VMX system (one MAIN module) per room. The detector(s) placed in the room measure(s) various parameters (concentration of CO2, presence, movement, etc.) and send signals to the modules that control the motorized valves (opening or closing of the flaps in a specified time) so as to adapt the airflow rates and thereby improve the indoor air quality.

VMX

Installation instructions (summary) - TF5797_D 5776_B

VMX

Installation and user guide – TF5814_E

VMX

Product booklet – CAT626GB_C

Compatible ventilation systems: