FR2702045A1 - Circuit having a light detector which controls, in a motor vehicle, a light-regulated electronic control device - Google Patents

Abstract

a) Circuit having a light detector which controls, in a motor vehicle, a light-regulated electronic control device. b) circuit, characterised in that the single light detector (10), comprising at least one light-sensitive detector element, is connected for the purpose of controlling them to at least two electronic control devices (13, 16, 20, 23), while at least one of these devices (13, 23) is controlled by incident sunlight.

Description

"Circuit with a light sensor controlling in a motor vehicle an electronic control device regulated by light.

The invention relates to a light sensor controlling a circuit with an electronic control device controlled by light, such as an alarm installation controlled by infrared, a central locking controlled by infrared, a switchboard lighting. on board controlled by the luminosity, an air conditioning installation controlled according to an incident radiation, or similar installations
Document US-A 47 60 772 discloses an air conditioning installation for a motor vehicle in which the temperature of the internal space is adapted as a function of the incident solar radiation. For this purpose, photo-sensitive elements or many light sensors, thanks to which both the angle of the position of the sun above the horizon and also the horizontal angel angle of irradiation in the motor vehicle, can be detected.

 Document DE-OS 32 08 558 discloses an infrared transmitter disposed on the steering wheel, the control signals of which are detected by an infrared receiver component on the fixed steering column. Thus, a control keyboard can be arranged on the steering wheel, a keyboard by means of which the various items of equipment to be controlled can be controlled wirelessly by means of infrared radiation, so as to avoid costly wiring.

We also know from the periodical "word
Technik ", 7/1991, pages 114 to 115, an infrared transmitter by means of which the installation for closing the doors of a vehicle can be controlled remotely.

This remote control also includes an alarm installation which can be connected to it, which can be activated or deactivated wirelessly.

 In modern motor vehicles, it is moreover customary to regulate the lighting of the dashboard and the lighting of the car radio according to the sunshine or the brightness of the moment to obtain indications without glare.

 All these known systems have their own light sensors with respectively one or more light-sensitive sensor elements, so that in total, when there are several devices controlled by light, several light sensors arranged at different locations are planned. Both with regard to the various incorporation locations and the corresponding wiring, and also with regard to the costs of the light sensors themselves, such a system is always all the more complex and expensive as there are has more light-controlled devices to incorporate in a motor vehicle.

 The circuit according to the invention has 1 advantage that one should only incorporate in the motor vehicle, a single light sensor, which then controls the various devices or regulation systems. This circuit is characterized in that this single light sensor comprising at least one light-sensitive sensor element is connected to control them, to at least two electronic control devices while at least one of these devices is controlled by the sunshine.

 Due to the simplification in the incorporation and use of a single detector, the entire device is simplified and its cost decreases. Since only a single sensor is required, it can be of higher quality and be placed more favorably, so that the light control becomes more precise overall.

 The circuit according to the invention also includes advantageous complements and improvements.

 It is particularly advantageous to connect the various devices controlled by the light and the light sensor to a parallel data transmission system (bus system), in particular a serial bus system, because then the combination of the different functions of the Light control is possible without any additional expense due to components. The light detector can then be connected to any location favorable for this connection of the bus system.

To guarantee good incident radiation both from sunlight coming from above, and also from lateral infrared light from an infrared emitter, the light sensor is advantageously provided with a wide angle optic (lens fisch-eye). It is thus possible to obtain that both a light coming from above, and also a light coming from the side, is deflected so that it always reaches the light sensor on its light-sensitive side. The light sensor therefore needs to have only a single sensor element
Another advantageous possibility is that the light sensor comprises at least a first sensor element for directly capturing the sunshine coming from above, and at least a second sensor element for capturing infrared light coming laterally from an infrared emitter. The light-sensitive zone of the first sensor element is then oriented upwards and that of the second sensor element towards the side.

 To still be able to correctly exploit the digital signals of an infrared transmitter despite high sunshine, a protection element is advantageously provided to prevent direct sunlight from the second sensor element (or group of elements). This protective element can advantageously be in the form of a printed circuit board on one side of which the first sensor element is placed while the other sensor element is placed on the other side. e The first sensor element can then be used to detect the intensity of the sunshine while the second sensor element can only receive indirect sunshine and, consequently, the difference, compared to the level of digital infrared signals. incidents, is reduced.

 Several second sensor elements can also be advantageously provided, the light-sensitive zones of which are oriented towards the outside in different directions. Thus, infrared light possibly coming from several sides, can be correctly detected. In addition, these second multiple sensor elements can be used to detect indirect sunlight and to detect the direction of the incident sunlight, for example to be able to control an air conditioning system according to this direction.

 A symbolization of the influence of the different sensors relative to one another (wiring of totalization or multiplication of the different sensor elements, or else calculation by means of a micro-computer, or of a similar means) allows a special adaptation. at the place of incorporation, as well as the environmental conditions (glazing, shade cast by the roof, the mirror, sun visors, and equivalent equipment).

 Furthermore, it is advantageous to use sensors with a different spectral sensitivity, so that the signal is identified as a function of the direction and of the spectrum.

 Examples of embodiment of the invention are shown in the accompanying drawings and will be explained in more detail in the description below.

FIG. 1 is a block diagram of a light sensor which controls four different electronic control devices in a motor vehicle,
FIG. 2 is a signal diagram for the representation of the different amplitudes of the analog solar fraction and of the digital infrared fraction of a signal received in the light sensor,
FIG. 3 shows a top view of a light sensor made up of four sensor elements, and in which three sensor elements are protected against direct sunlight,
FIG. 4 shows in side view the light sensor represented in FIG. 3,
- Figure 5 shows a light sensor with wide angle optics.

 In the case of the circuit shown in FIG. 1, a light sensor 10 incorporated in a motor vehicle, not shown, receives, on the one hand, light 11 from the sun coming from above, and, on the other hand, the infrared light emanating from an infrared emitter 12 irradiating laterally. This light sensor is made up of one or more light-sensitive sensor elements, as is further explained in correlation with FIGS. 3 to 5.

 This light sensor 10 is, to control them, connected to four electronic control devices. The first control device 13 is produced in the form of an air conditioning system and consists of an electronic air conditioning control device 14, which controls the temperature of the air stream and the speed of rotation of an engine. fan 15. Thanks to the light sensor control of the air conditioning control device 14, an adaptation of the temperature of the internal space depending on the amount of sunshine is obtained. For high sunshine, the temperature of the cold supply air is reduced and / or the quantity of cold supply air is increased.

 The second control device 16 takes the form of a central locking for the doors and the boot of a motor vehicle and is constituted by an electronic control 17 by which the two door locks 18, 19 acting for example electromagnetically are controlled. . For the simplification of the representation, only two such door locks 18, 19 are shown.

By a signal from the infrared transmitter 12, the door locks 18, 19 are locked or unlocked.

 The third control device 20 takes the form of an alarm installation for the motor vehicle and is constituted by an alarm triggering electronics 21, by means of which a horn 22 of the motor vehicle can be triggered in the event of an alarm . Other known possibilities of optical, acoustic or radio triggering of the signal can, of course, also be provided.

Thanks to the infrared transmitter 12, the alarm triggering electronics 21 can be activated after leaving the motor vehicle or else be deactivated before returning to the motor vehicle.

 The fourth control device 23 takes the form of a brightness control for the lighting of the dashboard and comprises a brightness control electronics 24 by means of which the brightness of the lighting 25 of the dashboard is adjusted as a function incident sunlight collected by the light sensor 14.

 All four control devices 13, 16, 20, 23 are respectively known per se from the state of the art indicated at the beginning, so that one can dispense with a more precise description of the mode of action of these control devices. The light signal picked up by the light sensor 10 comprises, according to FIG. 2, an analog irradiation part Aa coming from the sunshine and a digital irradiation part coming from the infrared emitter 12 with the amplitude Ad These two parts overlap. Care should be taken, during production, that the Ad / Aa ratio is significantly greater than the lowest resolution of the detector (background noise) and that the amplitude Aa is less than the saturation of the sensor. case of the control devices 13 and 23, the digital part can be neglected, so that respectively, the total intensity is exploited, all the more so since the infrared transmitter 12 in normal operation of the motor vehicle is not not in operation. In the case of control devices 16 and 20, the analog part is, on the other hand, in a manner known per se, eliminated by filtration or else the digital part is amplified, so that only the digital part is used for the control. This signal preparation can be carried out in the control electronics 17 or else in the alarm triggering electronics 21 or else in a separate signal preparation stage.

 In Figures 3 and 4 is shown an exemplary embodiment of the light sensor 10. At the top of a triangular printed circuit board 26, is connected a first light sensitive sensor element 27, the light sensitive side of which is directed to the top. Below the printed circuit board 26, three other sensor elements 28 to 30 are connected in vertical arrangement, the light-sensitive sides of which are directed outwards respectively. This light sensor 10 is arranged in the motor vehicle so that the lower sensor elements 28 to 30 are protected against direct sunlight from the top by the printed circuit board 26.

Direct sunshine can therefore only reach the sensor element 27 which is provided for the formation of a signal dependent on sunshine. The three lower sensor elements 28 to 30 can detect infrared light irradiated from different sides by the infrared emitter 12. Simultaneously indirect sunlight still arrives at these sensor elements 28 to 30. Depending on the angle irradiation of the sun above the horizon and irradiation from different sides of the motor vehicle, different analog signals are formed in these sensor elements 28 to 30. These different analog signals can be digitized and compared to values stored in a storage device, in which case, an association with determined positions of the sun takes place. In combination with the absolute irradiation intensity, control signals are then produced via characteristic fields or function generators, for example for the air conditioning control device 14. Such production of signals dependent on the direction of irradiation is for example known for an air conditioning installation from the document US
A 47 60 772 mentioned initially, so that one can dispense with a more precise description.

 It is of course also possible, instead of the printed circuit board 26, to provide a usual protective plate, to which the sensor elements 27 to 30 and their supply lines are fixed. The number of sensor elements 28 to 30 can, of course, also vary, just as it is also possible to provide several sensor elements 27 arranged on the plate.

 The link 31 connecting the control devices 13, 16, 20, 23 to the light sensor 10 can also be produced in the form of a bus link system. In this case, the light sensor 10 of complex constitution according to Figures 3 and 4, can be easily connected to this bus connection system without additional expense due to components. Otherwise, the signals from separate sensor elements 27 to 30 should be applied mainly to the climate control device 14 via a cable with separate individual lines. On the other hand, for the brightness control electronics 24, only a single connection would be necessary for the signals from the sensor element 27.

 In the case of the exemplary embodiment shown in FIG. 5, there is provided a light sensor 32 which comprises a single sensor element. Above this light sensor 32 is arranged a wide angle optic 33, which is for example produced in the form of what is called a fish-eye lens. The sunlight coming from above as also the infrared light from the infrared emitter 12 coming from the side, is respectively deflected in this wide angle lens 33 towards the light sensor 32, so that the light coming from all the directions arrive from the top, on the photo-sensitive surface of this light sensor 32. The arrangement according to FIG. 5 can, of course, also be implemented for the circuit according to FIG. 1. In addition, it is also possible for the light sensor 10 shown in res 3 and 4, to provide a wide angle optic, according to Figure 5, to optimize the incidence of light.

Claims (10)

 1.- Circuit with a light sensor controlling an electronic control device in a motor vehicle, such as an alarm installation controlled by infra-red, a central locking controlled by infra-red, lighting of the dashboard controlled by the light, an air conditioning installation controlled as a function of the sunshine, and similar apparatuses, circuit characterized in that this single light sensor (10, 32) comprising at least one light-sensitive sensor element (27 to 30) is connected to control them, at least two electronic control devices (13, 16, 20, 23), while at least one of these devices (13, 23) is controlled by sunshine.  2.- Circuit according to claim 1, characterized in that the control devices (13, 16, 20, 23) and the light sensor (10, 32) are connected to a bus system (31) including a system of serial bus.  3.- Circuit according to claim 1 or claim 2, characterized in that the light sensor (32) is provided with a wide angle optics (33) (fisch-eye lens).  4.- Circuit according to claim 3, characterized in that the light sensor (32) comprises a single sensor element.  5.- Circuit according to one of claims 1 to 3, characterized in that the light sensor (10) comprises at least a first sensor element (27) for directly detecting the sunshine coming from above, and at least a second sensor element (28 to 30) for detecting infrared light arriving from the side of an infrared emitter (12).  6.- Circuit according to claim 5, characterized in that the light-sensitive zone of the first sensor element (27) is directed upwards, while that of the second sensor element (28 to 30) is directed towards the side  7.- Circuit according to claim 5 or claim 6 characterized in that there is provided a protective element (26) to prevent direct sunlight from the second sensor element (28 to 30).  8.- Circuit according to claim 7 characterized in that the protective element (26) takes the form of a printed circuit board on one side of which is disposed the first sensor element (27) while the other sensor element (28 to 30) is arranged on the other side.  9.- Circuit according to one of claims 5 to 8 characterized in that there is provided several second sensor elements (28 to 30), whose light sensitive areas are directed in different directions outward.  10.- A circuit according to claim 9 characterized in that the multiple second sensor elements (28 to 30) are provided for the additional detection of indirect solar radiation and for the detection of the direction of irradiation of the sun.