FR3026857A1 - CONTROL UNIT FOR DOMOTIC INSTALLATION AND CONTROL METHOD THEREFOR - Google Patents

Abstract

A home automation control unit (20) (10) comprises a human-machine interface and an electronic control circuit (38) connected to the human-machine interface for receiving input signals from the interface human-machine, the man-machine interface being accessible on the front face (26) of the control unit (20) for generating the input signals, so as to control a device (14) of the home automation system when the control unit (20) is in a user mode (102). The control unit (20) is arranged to enter an expert mode (103) in response to the detection by the control unit (20) of a predetermined initiator event independent of the input signals, and then to leave the expert mode (103) for initiating or executing at least one control function if a programming input signal has been generated by a programming touch zone (36) of the man-machine interface (56) before a flow of a predetermined time from the detection of the initiating event. or to enter the user mode (102) at the end of the predetermined time if the programming input signal has not been generated.

Description

The present invention relates to a control unit for a home automation installation, and more specifically to the initiation or the execution by such a control unit of a control unit. 'a programming function. PRIOR ART [0002] In order to control certain home automation equipment such as opening blanking or sun protection screens actuators, simple wall control units having three or four keys on the front face are used. mechanical, for example three keys corresponding to the commands "Up", "Down", and "Off", the "Off" key possibly having a dual function, namely a stop function when the actuator rotates at the moment the activation of the key, and, when the actuator is stopped at the moment of activation of the key, a command function of movement from the current position to a preferred intermediate position, previously memorized. To be able to program the control unit, for example to pair it with a home automation device, or to reset the control unit or the actuator by returning to the factory settings, it is necessary to access a control unit. part of the control unit arranged behind the front face, concealed by the latter, and on which is positioned a programming key, which remains operational in the absence of front face and with which the installer can initiate or execute the programming sequence. Programming therefore requires that the front panel is initially dismantled. At the end of the programming sequence, the installer can fix the front panel on the wall control unit to the wall, which prevents any subsequent access to the button initiating the programming sequence. This avoids any involuntary manipulation of the key initiating the programming sequence by an unsuspecting user. It also avoids that the programming key, become useless, and can be felt as unsightly, remains visible after wall mounting. But this type of assembly requires a structure comprising at least two parts, namely the wall support of the electronic card and the removable front face. In addition, this structure is not simply transferable to a remote control unit in which the mechanical keys have been replaced by a human-machine interface requiring a power supply. By analogy, it would certainly be possible to provide a specific programming key protected by a cover. But this solution is not satisfactory because it requires to provide for the control unit a housing having a wall bracket and a moving part, namely this protective cover.

SUMMARY OF THE INVENTION The invention aims to overcome the drawbacks of the state of the art and to provide simple means to allow the installer access to a programming function of a remote control, while avoiding an unsuspecting user accidentally accesses the programming function. To do this is proposed, according to a first aspect of the invention, a control unit for home automation system, comprising a man-machine interface and an electronic control circuit connected to the man-machine interface so as to receive input signals from the man-machine interface, for controlling at least one equipment of the home automation system when the control unit is in a user mode, the human-machine interface being accessible to generate the control signals; capture. The control unit is configured to enter an expert mode in response to a predetermined initiator event and then, in the expert mode, to initiate or execute at least one programming function if a programming input signal has been generated by a tactile zone for programming the man-machine interface before a predetermined time elapses from the initiating event. The programming ergonomics for the installer is improved, insofar as it is sufficient for him to initiate or execute a programming function to provoke the external initiator event and then confirm his will by acting on the touch zone. programming on the front of the control unit. For information only, the predetermined time, which is the maximum time to enter the expert mode, can be between ten seconds and thirty minutes. Insofar as the initiation or execution of the programming function requires the conjunction of the initiating event and a confirmation, the unsuspecting user does not risk, by accidental manipulation, to involuntarily access the programming function. Preferably, it is expected that if no programming input signal has been generated by the programming touch zone of the man-machine interface before a predetermined time elapses from the initiating event, the The control unit exits the expert mode, for example to enter a setting mode, or a user mode which may itself include, if necessary, a setting sub-mode and a sub-mode of use itself. . By actual use mode is meant a mode of operation of the control unit comprising an interpretation of the input signals as commands of the home automation equipment. By mode or sub-mode of adjustment, we mean a mode that the user can access at any time during the life of the control unit, and which allows for example to adjust the value of certain parameters, for example a end position or a preferred position of the home automation equipment ordered. The expert mode differs from such a setting mode in that it is accessible only for a limited time from an initiating event. By nature, the expert mode is therefore intended for the advanced programming of functions that we do not wish to make available to an uninformed user at any time, as opposed to the settings available in a setting mode, which remain accessible to any user. moment. [0007] In the case where a programming input signal has been generated by the programming touch zone of the man-machine interface before a predetermined time has elapsed since the initiating event, and one or more functions The programming unit has been executed, the control unit exits the expert mode at the end of the execution of this or these programming functions, to enter the user mode. According to a particularly advantageous embodiment, the control unit is constituted such that the generation of input signals 5 by the programming touch zone and / or the reception by the electronic circuit of input signals from of the programming touch zone and / or the access to the programming function are deactivated after the lapse of the predetermined time from the initiating event if the programming input signal has not been generated during this time. [0009] According to a first variant, the programming touch zone is active only in the expert mode, to obtain the initiation or execution of the programming function. The programming touch zone may for example be formed in a corner of a rectangle constituting the touch zone. It may be advantageous if it is not immediately identifiable as a data entry area by an unsuspecting user. For this purpose, it may be optionally covered by a logo, or any inscription that does not suggest the presence of such an entry area. The deactivation or deactivation of the programming touch zone can be carried out by any appropriate means, hardware or software. Alternatively, it can be expected that the programming touch zone 20 is also used in the user mode, which also benefits from this touch zone in this mode of operation. In such a case, the control unit interprets the signal coming from the programming touch zone as a programming input signal only if the control unit is in the expert mode, and otherwise as a user input signal. Preferably, the man-machine interface comprises at least one control input area without intersection with the programming touch zone, the generation of input signals by the control input area and / or the reception of control signals. input from the command input field is disabled in the expert mode. In expert mode, no command action is available. For better ergonomics, it can be provided that the front face of the control unit comprises a display, the electronic circuit being configured so that the display shows a programming interface display when the unit command is in the expert mode and a user interface display when the control unit is in the user mode. To this end, it is possible to use an electronic paper covering all or part of the touch zone. This type of technology offers the advantage of not consuming energy to maintain a given display. Alternatively, the programming touch zone can be highlighted by a light-emitting diode backlight, which is lit only while this zone is active. [0013] Preferably, the predetermined initiating event is independent of the input signals. The risk of error by an involuntary generation of an initiating event is thus limited. According to one embodiment, the electronic circuit comprises a counter for counting a time elapsed since the detection of the initiator event. According to one embodiment, the control unit comprises supply terminals for a connection of the electronic circuit to a terminal low voltage electrical distribution installation of a building equipped with the home automation system. It also preferably comprises a power supply unit connected directly to the power supply terminals for converting an AC low-voltage terminal AC power signal from the electrical distribution system into a signal suitable for supplying the electronic circuit, for example in a rectified signal or a signal at a very low voltage, continuous or alternating. Typically, the terminal electrical distribution installation of the building delivers an alternating signal whose voltage is, as an indication, between 110V and 240V, at a frequency between 50Hz and 60Hz. The adapted signal may be continuous or alternating, it may be in particular a very low voltage signal at a voltage not exceeding 50V. This configuration with direct power supply by the electrical distribution system of the building integrating the home automation system makes it possible, if need be, to completely do without a battery or battery type autonomous power supply, hence a longer service life, a better recyclability and significant decrease in cost price. The touch zone may be of any suitable type, for example with individual keys with mechanical displacement, or with a tactile surface using, for example, a resistive, capacitive or optical technology. In general, for solutions with a tactile surface, the electronic circuit comprises an excitation transmitter for sending excitation signals to the touch zone, and a receiver for receiving and evaluating a response from the touch zone to the signals of the touch zone. 'excitation. According to one embodiment, the electronic circuit comprises wired connection terminals to at least one home automation equipment of the home automation system. The possibility of a wired link is particularly interesting in new buildings when the wiring can be planned in advance, or when a high security level is sought against intrusions by avoiding wireless transmissions, or when it is desired to minimize electromagnetic interference. It is particularly suitable for a fixed control unit. An alternative wired connection is to use the power supply terminals of the control unit to communicate with the home automation equipment via the common power distribution installation common to the control unit and to the control unit. home automation equipment. According to one embodiment, the electronic circuit comprises a wireless telecommunication interface with at least one home automation device of the home automation system. The possibility of a wireless connection makes it possible to dispense with additional wiring of the building, which is particularly useful when the home automation system comes to equip a pre-existing building. The home automation equipment connected wirelessly to the control unit can notably be a nomadic remote control, which allows for example to control the control unit with the nomadic remote control by the wireless link, to send commands to another equipment home automation system, connected by a wired or wireless link to the control unit. Preferably, the control unit comprises fastening means to a wall of a building incorporating the home automation system. According to a particularly advantageous embodiment, the control unit is constituted so as to initiate or execute at least a first programming function if a first programming input signal has been generated by the programming touch zone of the programming unit. the man-machine interface before the predetermined time elapses from the initiating event and a second programming function if a second programming input signal has been generated by the programming touch zone of the man-machine interface before the predetermined time from the initiating event. The programming touch zone can be divided into two exclusive sub-zones each of which is dedicated to one of the programming functions. Alternatively, the control unit is able to detect two types of touches of the touch zone, for example a short touch for the first programming function and a long touch for the second. According to another aspect of the invention, it relates to a control method of at least one home automation device of a home automation system using a control unit comprising a man-machine interface. and an electronic control circuit connected to the man-machine interface for receiving input signals from the man-machine interface. This method comprises the following steps: in response to an initiating event, placing the control unit in an expert mode; if a programming input signal is received from a programming touch zone of the man-machine interface before a predetermined time elapses from the initiating event, initiation or execution of less a programming function; if the programming input signal is not received from the programming touch zone before the predetermined time elapses from the initiating event, the end of the expert mode. This method can in particular be implemented using the control unit as described above. By choosing an initiator event independent of the input signals, it is avoided that an unsuspecting user inadvertently places the control unit in the expert mode that provides access to the programming function. For the installer, who controls the occurrence of the initiating event, the procedure to switch to the expert mode and then the initiation and execution of the programming function is particularly simple. At the end of the expert mode preferably follows an entry in a user mode comprising an interpretation of the input signals as commands of the home automation equipment. The user mode may also comprise a so-called adjustment sub-mode, accessible at any time by a particular input on the input interface, and in which the input signals are interpreted as commands for storing values of adjustment parameters of the input interface. home automation equipment. Preferably, the method comprises a countdown of a time elapsed since the initiating event and a comparison with the predetermined time. [0025] Preferably, the predetermined initiating event is independent of the input signals. As discussed above, it is advantageous to choose the initiating event from the following events: - powering up the control unit, - receiving an order from a configuration tool of the Installation outside the control unit Preferably, the method comprises deactivating the generation of input signals by the programming touch zone and / or receiving input signals when the control unit is connected. in the user mode. It is also possible, when the control unit is in the expert mode, to inactivate the generation of input signals by an input area of the human-machine interface of use or the reception of input signals in from this input area, then a commissioning of the input area of the man-machine interface of use when the control unit is in the user mode. Preferably, the method comprises a step of displaying on at least a portion of the human-machine interface of a programming interface when the control unit is in the expert mode and an interface of use when the control unit is in the user mode. Preferably, the control unit initiates or executes at least a first programming function if a first programming input signal has been generated by the programming touch zone of the man-machine interface before the predetermined time has elapsed. starting from the detection of the initiating event and a second programming function if a second programming input signal has been generated by the programming touch zone of the man-machine interface before the predetermined time has elapsed since the detection of the initiating event.

BRIEF DESCRIPTION OF THE FIGURES [0030] Other characteristics and advantages of the invention will emerge on reading the description which follows, with reference to the appended figures, which illustrate: FIG. 1 is a schematic view of a home automation installation including a control unit according to one embodiment of the invention; - Figure 2 is a schematic view of the control unit of the home automation system of Figure 1; FIG. 3, a logic diagram of a control method according to an embodiment of the invention, implemented by the control unit of FIG. 2; - Figure 4, a schematic view of a second embodiment of a man-machine interface of the remote control of the home automation system of Figure 1, in an expert mode; FIG. 5, a schematic view of the human-machine interface according to FIG. 4, during the execution of a programming function; FIG. 6, a schematic view of the human-machine interface according to FIG. 4, in a user mode. For clarity, the identical elements will be identified by identical reference signs on all the figures. DETAILED DESCRIPTION OF EMBODIMENTS [0032] FIG. 1 illustrates a home automation installation 10 equipping a building 12 comprising home automation equipment, namely on the one hand a motorized equipment item 14 such as a shutter screen actuator or of occultation of an opening 16 of the building 12, and secondly a nomadic wireless remote control 18 and a wall control unit 20. The motorized equipment 14 and the wall remote control 20 are electrically powered by the distribution installation 22, a single-phase low voltage AC signal (for example at a voltage between 110V and 380V, at a frequency between 50Hz and 60Hz). In addition, the wall control unit 20 is connected to the motorized equipment 14 by a wired connection 24 monodirectional or bidirectional control. The wall control unit 20, shown schematically in Figure 2, comprises a front face 26 provided with three sensory control keys 28, 30, 32, a switch 34 and a touch sensitive said 36. The sensitive areas are arranged directly opposite conductive detection zones 28.1, 30.1, 32.1, 36.1 defined on an electronic card fixed behind the front face. The switch 34 and the detection zones 28.1, 30.1, 32.1, 36.1 are connected to an electronic control circuit 40 formed on the electronic card 38. The electronic card 38 is furthermore equipped with a power supply unit 42 having terminals 44 to be connected to the cables of the power supply installation 22 of the building. It is also equipped with a single or bidirectional wireless telecommunication unit 46 connected to an antenna 48 and a wired telecommunication block 50 whose terminals 52 are connected by the wired link 24 to the home automation equipment. FIG. 2 also shows holes 54 for fixing the wall control unit 20 to a wall of the building 12. [0034] The sensitive keys 28, 30, 32, 36 and, if appropriate, the switch 34, form with the detection zones 28.1, 30.1, 32.1, 36.1 a man-machine interface 56 connected to the electronic control circuit 40. The digital contact detection at the touch sensitive keys 28, 30, 32, 36 can be implemented with different technologies . The embodiment of FIG. 2 implements a capacitive technology: each conductive surface 28.1, 30.1, 32.1, 36.1 forms with the ground plane of the electronic card 38 a capacitance (of low value, typically a few pF). The approach of a user's finger modifies the value of the capacitance (by increasing it), thus modifying the electrical characteristics of the circuit to which the capacitance in question belongs (for example its impedance or its resonance frequency if the capacitance makes part of an oscillating circuit). The variation of the value of the capacity for each location 28.1, 30.1, 32.1, 36.1 is detected by a dedicated component, each location corresponding to a detection channel. The component sends to the electrical circuit corresponding to each location 28.1, 30.1, 32.1, 36.1 a predefined electrical signal (a reference voltage) and measures characteristics of a response signal of the circuit to which the capacity corresponding to the considered location belongs. (eg the resonance frequency, or the charging time up to a preset voltage value). At each location 28.1, 30.1, 32.1, 36.1 corresponds a dedicated digital output which delivers the result of the detection (proximity of the user finger or not). The locations 28.1, 30.1, 32.1, 36.1 are connected to the dedicated component, and the detection channels are made operational independently of each other, which allows the selective activation and deactivation of the conductive detection zone associated with the sensitive sensing area 36. The parameters related to the detection (sending frequency of the predefined electrical signals, templates expected for the response signal) can be determined in hardware or by software programming, channel by channel.

The operational state of each location 28.1, 30.1, 32.1, 36.1 can be done by programming the dedicated component, and / or the application microprocessor, for example by masking / unmasking the interrupts. The electronic circuit 40 of the control unit 20 is hard-wired or programmed so as to unroll an algorithm illustrated by the logic diagram of FIG. 3. The algorithm starts here at step 100 by interrogating a detector. initiator event, which can be for example the power of the power supply terminals, or a specific message issued by the nomadic remote control 18 and received by the wireless telecommunication block 46. In the absence of detection from an initiating event to step 100, the control unit goes directly into a mode of operation called "user mode" in step 102. In this user mode, the control key 28 makes it possible to initiate a rising order of the home automation equipment 14 and the key 32 a descending order. When one of the climb control buttons 28 or descent 32 has been previously pressed and the actuator of the home automation equipment 14 turns, the key 30 is used to send a stop command. Assuming that the actuator of the home automation equipment is already stopped, the key 30 is assigned another function, namely a quick access function to a preferred stored position of the home automation equipment 14. The switch 34 , which is optional, allows for it to switch the control unit 20 between two control sub-modes, namely a master mode and a slave mode. In the master mode, the control unit 20 does not communicate with the nomadic remote control 18 and allows the user to directly control the home automation equipment using the control keys 28, 30, 32. In the slave mode , the control unit 20 receives commands from the nomadic remote control 18, and transmits them by the wired channel 24 to the home automation equipment 14. In the slave mode, the control keys 28, 30, 32 can, if necessary, remain active. The switch 34 is preferably shaped so as not to allow unintentional switching. It can for example be hidden by a cover. It should be noted that this user mode is known per se and has been described here in an illustrative and nonlimiting manner. The user mode may comprise if necessary a sub-mode called adjustment mode, accessible at any time by the user, and allowing him to set certain functions, for example the definition and storage of the quick access position. When an initiating event is detected in step 100, the electronic circuit 40 enters an expert mode 103. A counter is reset to step 104. At step 106, the electronic circuit interrogates the programming key 36 and determines if it has been pressed for at least two seconds. If this is the case, the program initiates a programming procedure 108, which allows the installer to configure the control unit, the home automation equipment, or the home automation system, using the control keys 28, 30, 32. Otherwise, the counter increments at step 110, and its value is compared with a maximum value, corresponding to a maximum duration of entry into expert mode, at step 112. As long as the maximum value is not the electronic circuit continues its interrogation of the programming key by returning to step 106. If the maximum value TMAX is reached, the electronic circuit leaves the expert mode and enters the user mode 102, if necessary starting with an access to the so-called adjustment sub-mode. It should be noted that in the user mode 102, the programming key 36 is not operational, which is particularly simple insofar as each conductive surface 28.1, 30.1, 32.1, 36.1 corresponds to a different digital output. This is the reason why she is not represented in front as a touch, but for example as a logo. It is in fact used only in the expert mode 103, when an installer - so we will call in a generic way anyone knowledgeable intervening on the home automation system for its connection, programming or maintenance - wishes, following the occurrence of an initiating event detected in step 100, programming or reprogramming the control unit 20 or the part of the home automation system 10 to which the control unit 20 is connected. The programming function can be more or less complex. If it does not require additional input from the installer, it can be executed directly and fully as soon as the programming signal is detected. On the other hand, if it leaves choices to the installer, it can be expected that when the installer confirms his desire to initiate the programming function by pressing the programming key 36, the control unit 20 begins the programming. execution of a control function including one or more steps of input by the installer on the keys 28, 30, 32, 36 of the man-machine interface 56. [0042] Alternatively, it is possible, in the expert mode 103, discriminating a short press (for example between 2s and 5s) and a long press (greater than 7s) on the programming key 46, to direct the algorithm towards different programming functions, for example a pairing mode for the short activation time and a return mode to the factory settings of the home automation equipment 14 for the long activation time. Alternatively, it is possible to dispense with the step 100 of detecting the initiating event, in the event that the initiating event itself provokes the entry into the expert mode 103. This will notably be the case if one chooses for initiating event the return of the signal after a power failure 22 of the control unit 20 and if it is expected that the expert mode 103 is the default mode during a reset of the electronic circuit 40 to the return of the supply signal, or when the equipment is first powered up. Another embodiment of the detection circuit by a capacitive technology, illustrated in FIGS. 4 to 6, uses electrodes forming a mesh 200 making it possible to define vertical and horizontal coordinates, which covers the entire surface capable of detecting the near a user's finger. When approaching or touching the finger, the capacity changes are detected by reading the inputs corresponding to the electrodes, and by calculating the coordinates of the zone where these modifications are detected. The mesh is covered by an editable visual interface 202 of the electronic paper type, which allows the implementation of complex control functions. In expert mode, in FIG. 4, the visual interface points only to a touch-sensitive programming zone 236 comprising two keys 236.1, 236.2 whose function is to direct the control unit 20 towards two programming functions. Once one of the programming functions has been selected, in FIG. 5, another representation provides access to various programming parameters, for example with "+" "-" and "=" keys to modify the speed of the programming. 'actuator' and confirm it, a 'C' key to return to a factory setting of the actuator, and 'A' and 'M' keys to switch to a master mode or a slave mode. Finally, in user mode, in FIG. 6, the visual interface contains symbols corresponding to the functions of the control keys 28, 30, 32 of the previous embodiment. Other detection technologies can be implemented, also allowing the detection and location of a digital contact on all or part of the front face of the control unit. One of the alternative technologies uses a resistive principle, according to which two conductive layers separated by spacers are used. When pressing on an area, the two layers come into contact. Conductors are connected to the contour of the sensing surface, and the sensing circuit applies alternating voltage to the conductors, and then measures the voltages between the conductors and the fulcrum. The measured values are proportional on each axis with the distance from the fulcrum to the conductors. The determination of the coordinates makes it possible to identify the contact zone. If this zone corresponds to the programming key, and if the control unit 20 is in the expert mode, it initiates or executes the programming function. Otherwise, the result of the calculation is not taken into account, which corresponds to a non-operational button. One can also implement a detection of the digital contact on the front face by infrared. This technology allows finger detection on any material. Indeed, an infrared beam sweeps parallel to the so-called "touch" surface. The presence of a finger reflects the beam which can then be detected by an infrared receiver. Other detection technologies may be implemented, with a common underlying principle: excitation signals are sent, and response signals are evaluated. Of course other variations are possible, as discussed in the disclosure of the invention. The control unit can be of any type allowing remote control of at least one home automation equipment. In particular, the unidirectional or bidirectional wired control link between the control unit and the home automation equipment can pass through the cables of the electrical distribution installation of the building. It can also be replaced or doubled by a wireless link. The home automation equipment can be of any type, motorized or not. This may be for example a heating or air conditioning equipment, or a lighting equipment. The control unit can be powered by a battery. The control unit is not necessarily wall mounted, and may be a nomadic remote control.30

Claims (4)

REVENDICATIONS1. Control unit (20) for a home automation system (10), comprising a human-machine interface and an electronic control circuit (38) connected to the human-machine interface so as to receive input signals from the interface human-machine, for controlling at least one equipment (14) of the home automation system when the control unit (20) is in a user mode (102), the human-machine interface being accessible for generating the input signals characterized in that the control unit (20) is arranged to enter an expert mode (103) in response to a predetermined initiating event and then, in the expert mode, to initiate or execute at least one programming function if a programming input signal has been generated by a programming touch zone (36) of the man-machine interface (56) before a predetermined time elapses from the initiating event. Control unit (20) according to claim 1, characterized in that the control unit (20) is constructed in such a way that the generation of input signals by the programming touch zone (36) and / or the receiving by the electronic circuit (38) input signals from the programming touch zone (36) and / or access to the programming function are deactivated after the lapse of the predetermined time from the initiating event if the programming input signal was not generated during this time. 3. control unit (20) according to any one of the preceding claims, characterized in that the man-machine interface comprises at least one control input zone (28, 30, 32, 34) without intersection with the zone programming touch (36), generating input signals by the command input area (28, 30, 32, 34) and / or receiving input signals from the control input area (28, 30, 32, 34) being disabled in expert mode. 4. Control unit (20) according to any one of the preceding claims, characterized in that the front face (26) of the control unit (20) comprises a display (202), the electronic circuit (38) being configured so that the display (202) displays a programming interface display when the control unit is in the expert mode and a user interface display when the control unit is in the operating mode. user. Control unit (20) according to one of the preceding claims, characterized in that the predetermined initiating event is independent of the input signals. Control unit (20) according to any one of the preceding claims, characterized in that the electronic circuit (38) comprises a counter for counting a time elapsed since the detection of the initiating event. Control unit (20) according to any one of the preceding claims, characterized in that the control unit (20) is constituted so as to initiate or execute at least a first programming function if a first programming input signal was generated by the programming touch zone (36) of the man-machine interface (56) before the predetermined time elapses from the initiating event and a second programming function if a second programming input signal has been generated by the programming touch zone (36) of the man-machine interface (56) before the predetermined time elapses from the initiating event. Method for controlling at least one home automation equipment (14) of a home automation system (10) by means of a control unit (20) having a human-machine interface (56) and an electronic control circuit 105 6. (20) connected to the man-machine interface (56) for receiving input signals from the man-machine interface (56), characterized in that it comprises: in response to an initiating event, placing the control unit in an expert mode (103); if a programming input signal is received from a programming touch zone (36) of the man-machine interface (56) before a predetermined time elapses from the initiating event, the initiation or performing at least one programming function; if the programming input signal is not received from the programming touch zone (36) before the predetermined time has elapsed since the initiating event, the end of the expert mode. 9. Method according to claim 8, characterized in that at the end of the expert mode succeeds an entry in a user mode comprising an interpretation of the input signals as commands of the home automation equipment (14). 10. The method of claim 8 or claim 9, characterized in that the predetermined initiating event is independent of the input signals. 11. Method according to any one of claims 8 to 10, characterized in that the initiating event is selected from the following events: - powering up the control unit, - receiving an order from a tool for configuring the installation outside the control unit. 12. Method according to any one of claims 8 to 11, characterized in that it comprises a deactivation of the generation of input signals by the programming touch zone and / or the reception of input signals when the unit of command is in the user mode. Method according to one of claims 8 to 12, characterized in that the control unit (20) initiates or executes at least a first programming function if a first programming input signal has been generated by the area programming touch (36) of the man-machine interface (56) before the predetermined time has elapsed since the detection of the initiating event and a second programming function if a second programming input signal has been generated by the programming touch zone (36) of the man-machine interface (56) before the predetermined time elapses from the detection of the initiating event.