JP2014103039A - Lighting control device, and illuminating device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an illumination technology that can achieve low power consumption in an illuminating device using an LED with a relatively simple configuration.SOLUTION: A lighting control device that controls lighting of a plurality of light sources each having a light-emitting element 12 and a switch 13 and connected in parallel to each other, comprises: a DC-DC converter 2 having a control terminal for selecting effective/non-effective for an operation; a first resistive element 4 having one end connected with an output end of the DC-DC converter 2, and the another end connected with the plurality of light sources; a second resistive element 3 having one end connected with a power supply 6, and the another end connected with an output end of the DC-DC converter 2 and the one end of the first resistive element 4; and a comparator 5 having a non-inverted input end connected with the one end of the first resistive element 4, an inverted input end connected with the another end of the first resistive element 4, and an output end connected with the control terminal of the DC-DC converter 2.

Description

  The present invention relates to an illumination technique using a light emitting element such as an LED (light emitting diode), and more particularly, to an illumination technique suitable for performing illumination at a plurality of locations in a vehicle interior, for example.

  Generally, when illuminating the interior of a vehicle, for example, as shown in FIG. 4, light sources 1a, 1b, 1c, 1d, and 1e are arranged at a plurality of locations such as a driver's seat side, a rear seat side, and a trunk space side, respectively. There is a desire to turn them on / off independently. In recent years, as each light source, there has been a movement to replace a conventional light bulb with a light source using an LED from the viewpoint of power saving. Prior examples regarding this are disclosed in, for example, Japanese Patent Application Laid-Open No. 2007-276671 (Patent Document 1) and Japanese Patent Application Laid-Open No. 2010-55841 (Patent Document 2). However, each of the vehicle-mounted LED lighting system and the vehicle interior lighting device disclosed in the preceding examples has a relatively complicated circuit configuration. For this reason, an illumination technique with a simpler circuit configuration is desired.

  FIG. 5 is a circuit diagram showing a reference example of a lighting device using LEDs. In the illustrated lighting device, each of the light sources 1a, 1b, 1c, 1d, and 1e is connected in parallel, one end side thereof is commonly connected to the DC-DC converter 2, and the other end side is a ground terminal (reference potential terminal). It is connected to the. A voltage is supplied to the DC-DC converter 2 from a battery (power source) 6. Each light source 1a and the like has a resistance element, an LED, and a switch connected in series, the resistance element side is connected to the DC-DC converter 2, and the switch side is connected to a ground terminal. According to such a configuration, the use of the DC-DC converter 2 and the resistance element realizes constant current flowing in each LED.

  By the way, in the illumination device of the reference example shown in FIG. 5, even if all the light sources are in the off state, for example, if the “off state” is not detected by any means, the DC-DC Since the converter 2 continues to operate, there is room for improvement from the viewpoint of reducing power consumption. For this, for example, it is conceivable to add a wiring for transmitting the open / closed state of each switch included in each light source 1 a to the DC-DC converter 2. However, in this case, the number of wirings increases, which is not desirable particularly when an illumination device used in the passenger compartment is considered. On the other hand, it is conceivable to provide one-to-one DC-DC converters for each of the light sources 1a and the like, but in this case, the number of DC-DC converters increases, which is not desirable in terms of cost.

JP 2007-276671 A JP 2010-55841 A

  A specific aspect of the present invention is to provide an illumination technique capable of achieving low power consumption in an illumination device using a light emitting element such as an LED with a relatively simple configuration. To do.

  A lighting control device according to an aspect of the present invention is a lighting control device that controls the lighting of a plurality of light sources each having a light emitting element and a switch and connected in parallel to each other. (B) a first resistance element having one end connected to the output end of the DC-DC converter and the other end connected to a plurality of light sources; ) A second resistance element having one end connected to the power supply and the other end connected to the output terminal of the DC-DC converter and one end of the first resistance element; and (d) a non-inverting input terminal being the first resistance element. The lighting control device includes a comparator connected to one end of the DC-DC converter, an inverting input terminal connected to the other end of the first resistance element, and an output terminal connected to the control terminal of the DC-DC converter. Note that the meaning of “connection” in the present specification includes cases where other circuit elements are interposed between circuit elements such as circuit elements in a manner that does not hinder the operation necessary to achieve the object of the present invention. Shall be included.

  According to the above configuration, it is possible to control lighting of a plurality of light sources by using one DC-DC converter, and the wiring extending from the light source to the DC-DC converter can be reduced, so that the circuit configuration can be simplified. it can. Further, when all the light sources are turned off, the operation of the DC-DC converter can be stopped autonomously, so that low power consumption can be achieved.

  The lighting control device preferably further includes a diode interposed between the output end of the DC-DC converter and one end of the first resistance element.

  Thereby, since the inflow of the electric current to the output terminal of a DC-DC converter can be prevented via a 2nd resistive element, operation | movement of a lighting control apparatus can be stabilized more.

  The lighting control device further includes a switching element in which a current path is connected between the output terminal of the DC-DC converter and one end of the first resistance element, and the output terminal of the comparator is connected to the control terminal. Is also preferable.

  According to this, since the inflow of the current to the output terminal of the DC-DC converter can be further reliably prevented through the second resistance element, the operation of the lighting control device can be further stabilized.

  An illumination device according to an aspect of the present invention is an illumination device including any one of the above-described lighting control devices and a plurality of light sources that are controlled to be turned on by the lighting control device.

  According to the said structure, it becomes possible to achieve the low power consumption in the illuminating device using light emitting elements, such as LED, by a comparatively simple structure.

FIG. 1 is a circuit diagram illustrating a configuration of a lighting device according to an embodiment. FIG. 2 is a circuit diagram illustrating another configuration example of the lighting device. FIG. 3 is a circuit diagram illustrating another configuration example of the lighting device. FIG. 4 is a diagram schematically illustrating an installation example of a light source in a vehicle interior. FIG. 5 is a circuit diagram showing a reference example of a lighting device using LEDs.

  Embodiments of the present invention will be described below with reference to the drawings.

  FIG. 1 is a circuit diagram illustrating a configuration of a lighting device according to an embodiment. 1 includes a plurality of light sources 1a, 1b, and 1c, a DC-DC converter 2, resistance elements 3 and 4, and a comparator (comparator) 5 connected in parallel to each other. ing. Note that the DC-DC converter 2, the resistance elements 3, 4, and the comparator 5, which are portions obtained by removing the light sources 1 a, 1 b, 1 c from the lighting device 100, correspond to “lighting control devices”. In addition, although an example in which three light sources are connected in parallel is shown here, the number of light sources is not limited to this, and may be more or two.

  Each of the light sources 1a, 1b, and 1c is configured by connecting a resistance element 11, an LED 12, and a switch 13 in series. Each of the light sources 1a, 1b, and 1c is connected to the DC-DC converter 2 through the resistance element 4 with the resistance element 11 side in common, and the switch 13 side is connected to a ground terminal (reference potential terminal). Yes. Each resistance element 11 is for limiting the current flowing through each LED 12. Each switch 13 is operated by a user to turn on or off each light source 1a independently.

  The DC-DC converter 2 converts the DC voltage supplied from the battery (power source) 6 into a DC voltage having a predetermined magnitude and outputs the DC voltage. The DC-DC converter 2 includes an enable / disable end (control end) for switching between execution (enable) and stop (disable) of the voltage conversion operation. It is possible to cause the DC-DC converter 2 to execute a voltage supply operation or to stop it according to the magnitude of the voltage applied from the comparator 5 to the enable / disable end.

  The resistance element (second resistance element) 3 has one end connected to the output end of the DC-DC converter 2 and the other end connected to the battery 6.

  One end of the resistance element (first resistance element) 4 is connected to the output end of the DC-DC converter 2, and the other end is connected to each resistance element 11 such as each light source 1a. The resistance element 4 is for converting a current flowing through each light source 1a into a voltage. It is assumed that the resistance value of the resistance element 4 is sufficiently smaller than the resistance value of each resistance element 11 included in each light source 1a and the like.

  The comparator 5 has a non-inverting input terminal (+) connected to one end of the resistance element 4 on the DC-DC converter 2 side, and an inverting input terminal (−) connected to one end of the resistance element 4 on the light source 1a side and the like. It is connected. The output terminal of the comparator 5 is connected to the enable / disable terminal of the DC-DC converter 2.

  The illumination device 100 of the present embodiment has such a configuration, and the operation thereof will be described next. Here, in the lighting device 100 described above, the comparator 5 compares the voltage V2 at the non-inverting input terminal with the voltage V3 at the inverting input terminal, and the voltage V4 at the output terminal is relatively large when V2> V3 (high And V2 ≦ V3, and the output terminal voltage V4 is relatively low (low). The DC-DC converter 2 operates when the voltage V4 applied to the enable / disable terminal is high (enable) and stops when the voltage V4 is low (disable).

  When all the light sources 1a, 1b, and 1c are in the open state, the current flowing through the resistance element 4 is also substantially zero, so that the voltage V4 at the output terminal of the comparator 5 becomes low and DC -The DC converter 2 stops operating (disabled). In this case, only the comparator 5 consumes power. In general, in the case of a comparator that is not particularly required to have high speed as in this embodiment, the current consumption is about several μA. For this reason, when all the light sources 1a, 1b, and 1c are turned off, the power consumption in the illumination device 100 can be extremely reduced. On the other hand, when any one or more of the light sources 1a, 1b, and 1c are in the closed state, one end side of the resistive element 4 from the battery 6 through the resistive element 3 that is a pull-up resistive element. Since the voltage across the resistor element 4 becomes V2> V3, the DC-DC converter 2 starts to operate (enable), and the LED 12 of the light source with the switch 13 closed emits light.

  By the way, depending on the internal configuration of the DC-DC converter 2, when the DC-DC converter 2 is disabled, the current from the pull-up resistor 3 flows into the output terminal of the DC-DC converter 2, and the voltage V2 is applied. It can also be lowered. When the voltage V2 decreases, the potential difference generated at both ends of the resistance element 4 also decreases. Therefore, there may be a case where a sufficient potential difference for detecting the presence or absence of the current flowing through the resistance element 4 cannot be obtained.

  This inconvenience is solved by interposing a diode 7 between the output end of the DC-DC converter 2 and one end of the resistance element 4 as in the illumination device 100a of another configuration example shown in the circuit diagram of FIG. can do. 2 is the same as that of the illumination device 100 shown in FIG. 1 except for the diode 7, and thus detailed description thereof is omitted.

  Furthermore, in order to avoid the loss due to the forward voltage of the diode 7 when the DC-DC converter 2 is enabled in the lighting device 100a shown in FIG. 2, another configuration example shown in FIG.

  The lighting device 100b of the configuration example shown in FIG. 3 has basically the same configuration as the lighting device 100 shown in FIG. 1, and a pMOSFET is provided between the output end of the DC-DC converter 2 and one end of the resistance element 4. (Field effect transistor) 8 is different. In the pMOSFET 8, the current path is connected between the output end of the DC-DC converter 2 and one end of the resistance element 4, and the control end (gate) is connected to the output end of the comparator 5 via the inverter 9. . Here, the “current path” of the pMOSFET 8 is a portion provided between the drain end and the source end and capable of controlling the current according to the voltage to the control end.

  In the lighting device 100b having the configuration example shown in FIG. 3, when no current flows through the resistance element 4, the lighting device 100b enters a non-conduction state (a state where no current flows through the current path). Current inflow can be prevented. On the other hand, when any one or more of the light sources 1a and the like are lit, the pMOSFET 8 is in a conductive state (a state in which a current flows in the current path), so that the power loss can be suppressed only to the on-resistance of the pMOSFET 8. it can.

  According to the embodiment as described above, it is possible to control lighting of a plurality of light sources using one DC-DC converter, and the wiring extending from the light source to the DC-DC converter can be reduced, so that the circuit configuration is simplified. Can be Further, when all the light sources are turned off, the operation of the DC-DC converter can be stopped autonomously, so that low power consumption can be achieved.

  In addition, this invention is not limited to the content of embodiment mentioned above, In the range of the summary of this invention, it can change and implement variously. For example, in the above-described embodiment shown in FIG. 3, the pMOSFET has been described as an example of the switching element, but other switching elements such as a bipolar transistor may be used. Moreover, although only one LED is included in each light source, this is merely an example, and each light source may include a plurality of LEDs.

1a, 1b, 1c, 1d, 1e: light source 2: DC-DC converter 3, 4: resistor element 5: comparator 6: battery 7: diode 8: pMOSFET
9: Inverter 11: Resistance element 12: LED
13: Switch 100, 100a, 100b: Lighting device

Claims (4)

A lighting control device that controls lighting of a plurality of light sources each having a light emitting element and a switch and connected in parallel with each other,
A DC-DC converter having a control end for selecting valid / invalid of operation;
A first resistance element having one end connected to the output end of the DC-DC converter and the other end connected to the plurality of light sources;
A second resistance element having one end connected to a power source and the other end connected to an output end of the DC-DC converter and one end of the first resistance element;
Comparison in which a non-inverting input terminal is connected to one end of the first resistance element, an inverting input terminal is connected to the other end of the first resistance element, and an output terminal is connected to a control terminal of the DC-DC converter vessel,
Including a lighting control device. A diode interposed between an output end of the DC-DC converter and one end of the first resistance element;
The lighting control device according to claim 1. A switching element in which a current path is connected between the output terminal of the DC-DC converter and one end of the first resistance element, and the output terminal and the control terminal of the comparator are connected;
The lighting control device according to claim 1. The lighting control device according to any one of claims 1 to 3,
A plurality of light sources controlled by the lighting control device;
A lighting device.

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