JP2011154841A - Led lighting device, lighting fixture, and vehicle - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To reduce the size, weight, and cost of a device for controlling lighting of a plurality of LED light sources. <P>SOLUTION: A lighting fixture 1 includes a plurality of LED light sources 2 and 2, and an LED lighting device 3 for controlling lighting of the LED light source 2. Each of the LED light sources 2 is turned on when electric power is supplied from the LED lighting device 3. The LED lighting device 3 includes a DC/DC converter 51, a switching control part 54, and a PWM controller 65. The DC/DC converter 51 has a function to supply electric power to the LED light sources 2. The switching control part 54 selects an LED light source 2 which is connected to the DC/DC converter 51 by switching on/off of a first switch 52 and a second switch 53. The PWM controller 65 switches a level of electric power by switching on/off an LED drive switch 64 when the LED light source 2 connected to the DC/DC converter 51 is selected. <P>COPYRIGHT: (C)2011,JPO&INPIT

Description

  The present invention relates to an LED lighting device that controls lighting of a plurality of LED (Light Emitting Diode) light sources, an illumination device using the LED lighting device, and a vehicle including the illumination device.

  Conventionally, various LED lighting devices that control the lighting of LED light sources have been developed and are commercially available (see, for example, Patent Document 1).

  In recent years, halogen lamps have been used for automobile headlamps (for example, traveling beam headlamps (high beam), low beam headlamps, parking lamps, turning lamps (direction indicators), daytime running lamps, etc.). Instead of LED lamps and discharge lamps, the adoption of LED light sources is progressing. In other fields, LED light sources have been used instead of other lamps.

  In the future, when LED light sources are adopted as illumination loads, a plurality of LED light sources will be used in one product.

JP 2008-210537 A

  However, when a conventional LED lighting device is used, in order to control lighting of a plurality of LED light sources, it is necessary to prepare an LED lighting device for each LED light source. That is, even if there is a combination of LED light sources that are not used at the same time, the LED lighting device is required for each LED light source because functions such as dimming differ between these LED light sources. As a result, the conventional LED lighting device has a problem that a large space is required for installing a plurality of LED lighting devices, the weight increases due to the increase in the number of devices, and the cost increases.

  The present invention has been made in view of the above points, and an object of the present invention is an apparatus for controlling lighting of a plurality of LED light sources, and an LED lighting apparatus capable of simultaneously reducing size, weight and cost. It is providing the illuminating device using an LED lighting device, and the vehicle containing this illuminating device.

  The invention of the LED lighting device according to claim 1 is a device that controls lighting of each of the plurality of LED light sources. The LED lighting device includes a power supply unit, a switching unit, and a dimming control unit. The power supply unit has a function of supplying power to each LED light source. The switching unit selects an LED light source connected to the power supply unit among the plurality of LED light sources. The dimming control unit associates each of the plurality of LED light sources with a power level supplied from the power supply unit, and the power source when the LED light source connected to the power supply unit is selected. Switch levels.

  In the invention of the LED lighting device according to claim 2, in the invention of claim 1, the dimming control unit performs dimming control on the LED light source connected to the power supply unit by PWM (Pulse Width Modulation) control. To do. In the invention of claim 2, when the dimming control unit switches the dimming level stepwise for the LED light source connected to the power supply unit, the on-duty is gradually increased over time. Decrease gradually.

  The invention of the LED lighting device according to claim 3 is the invention of claim 1 or 2, further comprising an abnormality detection unit and an electric quantity detection unit. The abnormality detection unit detects an abnormality of the LED light source connected to the power supply unit. The said electric quantity detection part detects the electric quantity supplied to the said LED light source connected to the said electric power supply part. In the invention of claim 3, the abnormality detection unit detects an abnormality of the LED light source connected to the power supply unit when the electric quantity detected by the electric quantity detection unit is out of a preset range. Is detected. The amount of electricity supplied to the LED light source refers to a load voltage applied to the LED light source and a load current flowing through the LED light source.

  In the invention of the LED lighting device according to claim 4, in the invention of claim 3, the abnormality detection unit has the above range for each LED light source. In the invention of claim 4, the abnormality detection unit switches the range when the LED light source connected to the power supply unit is selected.

  The invention of the LED lighting device according to claim 5 is the invention according to claim 3 or 4, wherein the abnormality detection unit has a function of outputting information relating to abnormality of the LED light source to an external device.

  The invention of the lighting device according to claim 6 includes the LED lighting device according to any one of claims 1 to 5 and a plurality of LED light sources that are turned on when power is supplied from the LED lighting device.

  The invention of a vehicle according to claim 7 includes the illumination device according to claim 6.

  According to the first, sixth, and seventh aspects, when the switching unit selects the LED light source connected to the power supply unit, the dimming control unit switches the power level, so that the specifications such as the rated power are different. The power supply unit can be shared with the LED light source. As a result, according to the first, sixth, and seventh aspects of the invention, it is possible to achieve a reduction in size (space saving), a reduction in weight, and a reduction in cost as compared with a case where an LED lighting device is provided for each LED light source.

  According to the invention of claim 2, when the dimming level is switched in a stepwise manner for the LED light source connected to the power supply unit, the dimming control unit gradually increases or decreases the on-duty with time. Thereby, the light quantity of the said LED light source can be changed gradually, without giving discomfort to a user.

  According to the invention of claim 3, when the amount of electricity supplied to the LED light source deviates from a preset range (normal range), the abnormality detection unit detects the abnormality of the LED light source, whereby the abnormality of the LED light source is detected. Can be grasped early.

  According to invention of Claim 4, abnormality detection suitable for each LED light source can be performed because an abnormality detection part changes the said range for every LED light source.

  According to the fifth aspect of the present invention, the abnormality detection unit outputs information relating to the abnormality of the LED light source to the external device, so that the user can be notified of the abnormality of the LED light source at an early stage.

It is the schematic of the illuminating device which concerns on Embodiment 1. FIG. In the lighting apparatus according to the above, (a) shows a load current at the time of normal lighting, and (b) shows a load current at the time of dimming lighting. It is a figure for demonstrating the operation | movement at the time of a duty switch in the LED lighting device which concerns on the same as the above. It is a circuit diagram of the abnormality detection part which concerns on the same as the above. It is a figure which shows the threshold value for detecting abnormality of the LED light source which concerns on the same as the above. It is a figure for demonstrating the operation | movement at the time of a duty switch in the LED lighting device which concerns on the modification same as the above. FIG. 6 is an external view of a vehicle according to a second embodiment.

(Embodiment 1)
As shown in FIG. 1, the lighting device 1 according to the first embodiment includes a plurality (four in the illustrated example) of LED light sources 2, 2... That are turned on when power is supplied, and a plurality of LED light sources 2. , 2... Are provided with two LED lighting devices 3 and 3 for controlling lighting. Two LED light sources 2 and 2 are connected to each LED lighting device 3. When the two LED lighting devices 3 and 3 are described separately, the first LED lighting device 31 and the second LED lighting device 32 are used. In each LED lighting device 3, when the two LED light sources 2 and 2 are described separately, the first LED light source 21 and the second LED light source 22 are used.

  Each LED light source 2 has a plurality of LEDs 23, 23... Connected in series. Each LED 23 lights up when a current flows when a voltage is applied between the anode and the cathode.

  In each LED lighting device 3, the DC power source 4 is connected to the input terminals 33, 34, the anode side of each LED light source 2 is connected to the positive output terminals 35, 35, and the LEDs are connected to the negative output terminals 36, 36. The cathode side of the light source 2 is connected. The input terminal 34 is connected to the ground (GND). The first LED lighting device 31 and the second LED lighting device 32 share a ground. A control signal to be described later is input from the input terminal 37.

  Each LED lighting device 3 includes a DC / DC converter 51, a first switch 52, a second switch 53, and a switching control unit 54. Each LED lighting device 3 includes a load voltage monitoring unit 61, a load current monitoring unit 62, a power supply voltage monitoring unit 63, an LED drive drive switch 64, a PWM controller 65, and an output cutoff switch 66. ing. The first LED lighting device 3 further includes a PWM generator 67 and an abnormality detection unit 68. The switching control unit 54, the PWM controller 65, the PWM generator 67, and the abnormality detection unit 68 are operated by electric power from the control power source 69.

  The DC / DC converter 51 converts the DC voltage from the DC power supply 4 into a DC voltage suitable for the LED light source 2 electrically connected to the output side under the control of the PWM controller 65. The converted DC voltage is applied to the LED light source 2. That is, the DC / DC converter 51 has a function of supplying power to each LED light source 2. The DC / DC converter 51 corresponds to the power supply unit of the present invention.

  The first switch 52 is inserted between the DC / DC converter 51 and the first LED light source 21. The first switch 52 enables power supply from the DC / DC converter 51 to the first LED light source 21 when turned on, and power supply from the DC / DC converter 51 to the first LED light source 21 when turned off. Cut off.

  The second switch 53 is inserted between the DC / DC converter 51 and the second LED light source 22. The second switch 53 enables power supply from the DC / DC converter 51 to the second LED light source 22 when turned on, and supplies power from the DC / DC converter 51 to the second LED light source 22 when turned off. Cut off.

  The switching control unit 54 is configured by a microprocessor (MPU: Micro Processing Unit) or the like. The switching control unit 54 selects the LED light source 2 electrically connected to the DC / DC converter 51 by switching the first switch 52 on and off and the second switch 53 on and off, respectively. That is, when the switching control unit 54 turns on the first switch 52 and turns off the second switch 53, the first LED light source 21 and the DC / DC converter 51 are electrically connected. In this case, the first LED light source 21 is supplied with power from the DC / DC converter 51 and lights up. On the other hand, when the switching control unit 54 turns off the first switch 52 and turns on the second switch 53, the second LED light source 22 is electrically connected to the DC / DC converter 51. In this case, the second LED light source 22 is supplied with power from the DC / DC converter 51 and lights up. The first switch 52, the second switch 53, and the switching control unit 54 correspond to the switching unit of the present invention.

  The load voltage monitoring unit 61 detects a load voltage applied to the LED light source 2 connected to the DC / DC converter 51. The load current monitoring unit 62 detects the load current flowing through the LED light source 2 connected to the DC / DC converter 51. The power supply voltage monitoring unit 63 detects the power supply voltage of the DC power supply 4. The load voltage monitoring unit 61 and the load current monitoring unit 62 correspond to an electric quantity detection unit of the present invention.

  The LED drive drive switch 64 is inserted between the DC / DC converter 51 and each LED light source 2. The LED drive drive switch 64 is switched on and off under the control of the PWM controller 65.

  The PWM controller 65 controls lighting of the LED light source 2 connected to the DC / DC converter 51 by PWM control. In other words, the PWM controller 65 controls the on / off switching of the LED drive drive switch 64 so that the LED light source 2 electrically connected to the DC / DC converter 51 is normally lit (100% lit) or adjusted. Turn on the light. The LED drive drive switch 64 and the PWM controller 65 correspond to a dimming control unit of the present invention.

  The PWM controller 65 switches the power level when selecting the LED light source 2 connected to the DC / DC converter 51. That is, the PWM controller 65 changes the power level of the LED light source 2 newly connected to the DC / DC converter 51 when the LED light source 2 connected to the DC / DC converter 51 is selected by the switching control unit 54. To do. From the above, in the present embodiment, even when the first LED light source 21 and the second LED light source 22 have different power levels, it is possible to cope with them.

  The PWM controller 65 always turns on the LED drive drive switch 64 when the control signal (control voltage) for dimming and lighting the LED light source 2 electrically connected to the DC / DC converter 51 is not input. To do. Thereby, a direct current Iout1 flows to the LED light source 2 as shown in FIG. The LED light source 2 performs normal lighting (100% lighting). On the other hand, when the control signal is input, the PWM controller 65 performs PWM control and turns the LED drive drive switch 64 on and off. As a result, an on-duty rectangular current Iout2 defined by the control signal flows to the LED light source 2 as shown in FIG. As a result, the PWM controller 65 can reduce the load current, and can dimm the LED light source 2.

  The PWM controller 65 checks the state of the LED light source 2 when controlling the lighting of the LED light source 2 connected to the DC / DC converter 51, and monitors the load voltage monitoring unit 61 and the load current shown in FIG. Detection values (load voltage, load current) are acquired from the unit 62. The PWM controller 65 controls the DC / DC converter 51 and the LED drive drive switch 64 while monitoring the acquired detection value, and drives the LED light source 2 at a constant current.

  Further, the PWM controller 65 acquires a detection value (power supply voltage) from the power supply voltage monitoring unit 63, and even if there is a variation in the acquired power supply voltage, the conversion ratio (output voltage / input voltage) of the DC / DC converter 51. By controlling, the load voltage is kept constant.

  By the way, when switching from dimming lighting to normal lighting, the PWM controller 65 does not switch instantaneously, but the time from the start of switching to the completion of switching as shown in FIG. Switch smoothly to the following. The same applies when switching from normal lighting to dimming lighting. The program is stored in a memory (not shown). That is, the PWM controller 65 gradually increases or decreases the on-duty with the passage of time when the dimming level is switched stepwise for the LED light source 2 connected to the DC / DC converter 51.

  The abnormality detection unit 68 uses the detection values of the load voltage monitoring unit 61 and the load current monitoring unit 62 for each LED lighting device 3 to detect abnormality of the LED light source 2 electrically connected to the DC / DC converter 51. Is detected. The abnormality of the LED light source 2 includes a short circuit of the LED light source 2, opening of the LED light source 2, and excessive current to the LED light source 2. The anomaly detection unit 68 causes the LED light source 2 connected to the DC / DC converter 51 to short-circuit when the load voltage detected by the load voltage monitoring unit 61 is, for example, 40% or less of a specified voltage (rated voltage). Detect that On the other hand, when the load voltage is 120% or more of the specified voltage, for example, the abnormality detection unit 68 detects that the LED light source 2 is open. When the load current detected by the load current monitoring unit 62 exceeds the threshold value, the abnormality detection unit 68 detects that an excessive current flows through the LED light source 2.

  FIG. 4 shows a circuit configuration of the abnormality detection unit 68. The abnormality detection unit 68 includes a comparison circuit 681 and an open collector circuit 682. Although only one comparison circuit 681 and one open collector circuit 682 are shown in FIG. 4, the abnormality detection unit 68 includes a comparison circuit 681 and an open collector circuit 682 for each detection value. The abnormality detection unit 68 acquires the detection values of the load voltage monitoring unit 61 and the load current monitoring unit 62 while power is supplied from the DC / DC converter 51 to the LED light source 2. That is, the abnormality detection unit 68 monitors the load voltage and load current. The comparison circuit 681 compares the detection value with a threshold value.

  By the way, the abnormality detection unit 68 has a threshold for each LED light source 2 and switches the threshold when the LED light source 2 connected to the DC / DC converter 51 is selected. FIG. 5 shows an example of a threshold value for detecting a load current abnormality before and after dimming. In FIG. 5, a value of 105% of the target current value Iout1 is set as a threshold value during normal lighting, and a value of 120% of the target current value Iout2 is set as a threshold value during dimming lighting.

  When detecting an abnormality in the LED light source 2 electrically connected to the DC / DC converter 51, the abnormality detection unit 68 controls the output cutoff switch 66 shown in FIG. 1 to be switched from on to off. Thereby, the abnormality detection part 68 can stop the electric power supply from the DC / DC converter 51 to the said LED light source 2, when abnormality of the said LED light source 2 is detected.

  In addition, the abnormality detection unit 68 has a function of outputting information regarding the detected abnormality to the external device 7. An open collector circuit 682 shown in FIG. 4 is connected to the external device 7 and outputs the comparison result (abnormal flag) of the comparison circuit 681 to the external device 7. In the external device 7, the fact that the LED light source 2 connected to the DC / DC converter 51 is abnormal is displayed by blinking or non-flickering of the LED 71.

  As described above, according to the present embodiment, when the switching control unit 54 uses the first switch 52 and the second switch 53 to select the LED light source 2 connected to the DC / DC converter 51, the PWM controller 65 uses the power. By switching the level, the DC / DC converter 51 can be shared for a plurality of LED light sources 2 and 2 having different specifications such as rated power. As a result, in this embodiment, compared with a case where an LED lighting device is provided for each LED light source, size reduction (space saving), weight reduction, and cost reduction can be achieved.

  Further, according to the present embodiment, when the dimming level is switched stepwise for the LED light source 2 connected to the DC / DC converter 51, the PWM controller 65 gradually increases the on-duty with time. By gradually decreasing, the light quantity of the LED light source 2 can be gradually changed without giving the user a sense of incongruity.

  Furthermore, according to the present embodiment, when the amount of electricity (load voltage, load current) supplied to the LED light source 2 deviates from a preset range (normal range), the abnormality detection unit 68 detects an abnormality of the LED light source 2. By detecting this, the abnormality of the LED light source 2 can be grasped at an early stage. At this time, in this embodiment, the abnormality detection unit 68 can perform abnormality detection suitable for each LED light source 2 by changing the above range for each LED light source 2.

  Moreover, according to this embodiment, the abnormality detection part 68 outputs the information regarding abnormality of the LED light source 2 to the external device 7, and can notify a user of abnormality of the LED light source 2 at an early stage.

  As a modification of the present embodiment, the PWM controller 65 may be switched smoothly as shown in FIG. 6, for example, depending on the CR time constant of the control circuit unit.

(Embodiment 2)
In the second embodiment, a vehicle 8 equipped with the lighting device 1 (see FIG. 1) of the first embodiment will be described with reference to FIG. A battery mounted on the vehicle 8 is connected to the lighting device 1 of the present embodiment as a DC power source 4. Further, as the LED light source 2 of the present embodiment, for example, a traveling beam headlamp, a passing beam headlamp, a turning lamp, a parking lamp, a daytime running lamp, or the like is used. However, as the first LED light source 21 and the second LED light source 22 connected to the same LED lighting device 3, it is necessary to select light sources that do not light simultaneously. For example, a traveling beam headlamp can be used as the first LED light source 21 connected to the first LED lighting device 31, and a low beam headlamp can be used as the second LED light source 22. Further, a turning lamp can be used as the first LED light source 21 connected to the second LED lighting device 32, and a parking lamp can be used as the second LED light source 22. Hereinafter, this embodiment demonstrates the case where the LED light source 2 is used as mentioned above.

  In the first LED lighting device 31, when a control signal for lighting the traveling beam headlamp (first LED light source 21) is input, the switching control unit 54 turns on the first switch 52, The second switch 53 is turned off. Electric power is supplied from the DC / DC converter 51 to the traveling beam headlamp, and the traveling beam headlamp is turned on. On the other hand, when the control signal for turning on the low beam headlamp (second LED light source 22) is input, the switching control unit 54 turns off the first switch 52 and turns on the second switch. 53 is turned on. Electric power is supplied from the DC / DC converter 51 to the passing beam headlamp, and the passing beam headlamp is turned on.

  In the second LED lighting device 32, when a control signal for blinking the turning lamp (first LED light source 21) is input, the switching control unit 54 turns on the first switch 52, Switch 53 is turned off. Power is supplied from the DC / DC converter 51 to the turning lamp, and the turning lamp blinks. On the other hand, when a control signal for turning on the parking lamp (second LED light source 22) is input, the switching control unit 54 turns off the first switch 52 and turns on the second switch 53. To. Electric power is supplied from the DC / DC converter 51 to the parking lamp, and the parking lamp is lit.

  In the limited space of the vehicle 8 as in the present embodiment, it is more effective to reduce the size by sharing the DC / DC converter 51 for the plurality of LED light sources 2 and 2.

  Also in this embodiment, the abnormality detection unit 68 can set a separate threshold value for each LED light source 2 (traveling beam headlamp, passing beam headlamp, turning lamp, parking lamp). Thereby, it is possible to cope with a case where different standards are defined for each lamp in terms of laws and regulations.

  In addition, the illuminating device 1 is not limited to including the two LED lighting devices 3, and may include only one LED lighting device 3, or may include three or more LED lighting devices 3. Further, the LED lighting device 3 is not limited to the lighting control of the two LED light sources 2, and may control the lighting of three or more LED light sources 2. Further, each LED light source 2 is not limited to a configuration in which a plurality of LEDs 23, 23... Are connected in series, and may be a configuration in which a plurality of LEDs 23, 23. A configuration in which a plurality of LEDs 23 connected in series are connected in parallel may be used.

  In the LED lighting device 3, the load voltage monitoring unit 61, the load current monitoring unit 62, the power supply voltage monitoring unit 63, and the abnormality detection unit 68 are not necessarily required. Even when the LED lighting device 3 does not include these components, it is possible to reduce the size (space saving), reduce the weight, and reduce the cost as compared with the case where the LED lighting device is provided for each LED light source. There is an effect that can be.

DESCRIPTION OF SYMBOLS 1 Illuminating device 2 LED light source 3 LED lighting device 51 DC / DC converter (electric power supply part)
52 1st switch (switching part)
53 Second switch (switching unit)
54 Switching control unit (switching unit)
61 Load voltage monitoring unit (electricity detection unit)
62 Load current monitoring unit (electricity detection unit)
64 LED drive drive switch (dimming controller)
65 PWM controller (dimming controller)
68 Abnormality detection unit 8 Vehicle

Claims (7)

An LED lighting device that controls lighting of each of a plurality of LED light sources,
A power supply unit having a function of supplying power to each LED light source;
Among the plurality of LED light sources, a switching unit that selects an LED light source connected to the power supply unit;
A dimming control unit that associates a power level supplied from the power supply unit with each of the plurality of LED light sources, and switches the power level when the LED light source connected to the power supply unit is selected. An LED lighting device comprising:   The dimming control unit performs dimming control on the LED light source connected to the power supply unit by PWM control, and gradually adjusts the dimming level for the LED light source connected to the power supply unit. 2. The LED lighting device according to claim 1, wherein when switching, the on-duty is gradually increased or gradually decreased with time. An abnormality detection unit for detecting an abnormality of the LED light source connected to the power supply unit;
An electric quantity detection unit for detecting an electric quantity supplied to the LED light source connected to the power supply unit;
The abnormality detection unit detects an abnormality of the LED light source connected to the power supply unit when the electric quantity detected by the electric quantity detection unit is out of a preset range. The LED lighting device according to claim 1 or 2.   The LED lighting according to claim 3, wherein the abnormality detection unit has the range for each LED light source, and switches the range when the LED light source connected to the power supply unit is selected. apparatus.   5. The LED lighting device according to claim 3, wherein the abnormality detection unit has a function of outputting information relating to abnormality of the LED light source to an external device. The LED lighting device according to any one of claims 1 to 5,
And a plurality of LED light sources that are turned on when power is supplied from the LED lighting device.   A vehicle comprising the lighting device according to claim 6.

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