JP6695665B2 - Power supply for LED lighting device and LED lighting system - Google Patents

Description

  The present invention relates to a power source for an LED lighting device used for surface inspection, shape recognition, exposure, resin curing, etc.

  This type of LED lighting device is driven in various light emission modes depending on the purpose. As the light emission mode, for example, as shown in Patent Document 1, there are a strobe mode (single shot light emission mode), a PWM mode (continuous pulse light emission mode), and the like, and the light emission mode is a power supply connected to a lighting device. Is set in.

  The PWM mode is a mode in which the apparent brightness can be adjusted by turning on / off the LED at a fast cycle and changing the duty ratio thereof, and a rated voltage is applied to the LED.

The strobe mode is a mode in which the LED emits light in a single shot or at a very small duty ratio for a short time, and a high voltage exceeding the rated voltage is applied to the LED.
The light emission time and the applied voltage in each of these modes are set to be adjustable by a drive unit provided in the power supply and having a DC conversion circuit.

  Furthermore, recently, a multifunctional power supply capable of connecting a plurality of LED lighting devices and independently emitting light from each LED lighting device is being developed. Such a power supply has a plurality of drive units, each of which can switch the light emission mode of the LED lighting device between a strobe mode and a PWM mode and adjust the output voltage.

  The maximum output capacity of such a power supply is determined by the number of LED lighting devices that can be driven. The power required for one drive unit is the maximum power consumption when the LED lighting device operates (for example, the power consumption when the LED lighting device emits light at the maximum brightness). Therefore, the power consumption is multiplied by the number of drive units. Is the maximum output capacity of the power supply.

Japanese Patent Laid-Open No. 2014-041803

However, even if a sufficient power capacity is secured for the power source, for example, in the case where one drive unit wants to switch from the PWM mode to the strobe mode, when the output voltage is adjusted to increase, at that time, The inventor of the present application has for the first time found that the brightness of an LED lighting device connected to another drive unit is reduced, and as a result, an error occurs. This may occur even if the LED lighting device is not connected to the drive unit that is adjusting the output voltage.
The present inventor has found that the cause is a large-capacity capacitor connected to the output terminal of the DC conversion circuit of each drive unit.

The reason will be specifically described.
The large-capacity capacitor has a function as an accumulator for supplementarily supplying an electric current to the LED when the LED is pulse-lighted and preventing an instantaneous drop in the voltage of the DC conversion circuit.

  However, when adjusting the output voltage in the direction of increasing particularly, the large-capacity capacitor is also charged, and a considerable large current flows for a non-short period, which causes the power supplied to the other drive unit to be temporary. That is, the cause of the above-mentioned malfunction occurs.

  The present invention has been made to solve the above-mentioned problems, and LED lighting that does not affect the driving of the LED lighting device in another driving unit even if the output voltage of one driving unit is adjusted. It is intended to provide a power source for the device.

That is, the power supply for the LED lighting device according to the present invention includes a plurality of drive units that can drive the connected LED lighting devices in a specified light emission mode, and a power supply circuit that supplies power to each of the drive units. And
The drive unit includes a direct current conversion circuit configured to adjust an output voltage by an external setting, and a capacitor connected to an output terminal of the direct current conversion circuit to store charges and supplementarily supply a current to the LED lighting device. Equipped with,
When the output voltage of the DC conversion circuit is adjusted in one or more drive units, the power supply circuit supplies the power necessary for driving the LED lighting device by another drive unit in addition to the power necessary for the adjustment. It is characterized by being

  According to such a configuration, even if one drive unit is adjusted to increase its output voltage, the operation of the LED lighting device connected to another drive unit is not affected at that time. Therefore, it is possible to prevent the brightness from being lowered and the resulting error.

The block diagram which shows the whole structure of the LED lighting system in one Embodiment of this invention. The partial block diagram which shows the detailed internal structure of the power supply and LED lighting apparatus in the same embodiment.

  An embodiment of the present invention will be described with reference to the drawings.

  As shown in FIG. 1, the LED lighting system in this embodiment, for example, supplies the LED lighting device 100 used for surface inspection of various works, and supplies power to the LED lighting device 100 and controls the light emission mode thereof. And a single power source 200.

  As shown in FIG. 2, the LED lighting device 100 includes a plus terminal L1 and a minus terminal L2, and an LED circuit 2 having an anode and a cathode connected to the plus terminal L1 and the minus terminal L2, respectively. The LED circuit 2 includes a plurality of LEDs 2a, and the light emitted from the LEDs 2a is applied to the work.

As shown in FIG. 1, the power supply 200 is provided with one power supply circuit 3 and a plurality of (two here) drive units that are supplied with power from the power supply circuit 3 to drive each LED lighting device 100 to emit light. 4 and a control circuit 5 for controlling the output voltage and the light emission mode of each drive unit 4.
Each part will be described.

  The power supply circuit 3 includes an AC / DC converter 31 that is connected to a commercial power source (not shown) and that converts AC to DC, and a power limiting circuit 32 that limits the output power of the AC / DC converter 31 to below a certain level. It was done. Note that the maximum power that can be output by the power supply circuit 3 is such that the output power required for one drive unit 4 is the maximum power consumption of the LED lighting device 100 (for example, the power consumption when light is emitted at the maximum brightness). Therefore, as a matter of course, the maximum power consumption is set to be equal to or more than the value obtained by multiplying the number of drive units 4.

  As shown in FIGS. 1 and 2, the driving unit 4 includes a supply terminal S1 connected to the positive terminal L1 of the LED lighting device 100 and a lead-in terminal S2 connected to the negative terminal L2, and the power supply circuit 3 A step-down DC conversion circuit 43 (hereinafter also referred to as a DC / DC converter 43) that drops the voltage of the output DC current to a specified voltage and applies the voltage to the supply terminal S1, and the lead-in terminal S2. It is provided with a current adjusting circuit 44 that is connected and adjusts a current flowing through the LED lighting device 100, and a capacitor 45 provided between the supply terminal S1 and the ground.

  As shown in FIG. 2, the DC / DC converter 43 has a switching circuit 431 that turns on / off the output of the power supply circuit 3 in a predetermined cycle, and smoothes the output of the switching circuit 431 to convert it into a different DC voltage. The smoothing circuit 432 is provided. The switching circuit 431 is composed of switching elements such as MOSFETs and diodes, and the smoothing circuit 432 is composed of a reactor (in some cases, in addition to this, a capacitor).

  As shown in FIG. 2, the current adjusting circuit 44 includes a current control element (here, MOSFET) 441 arranged between the lead-in terminal S2 and the ground. When a current command signal from the outside is input to the control terminal (here, the gate), the current control element 441 operates according to the current command signal to adjust the current flowing through the LED lighting device 100. To do.

  As shown in FIGS. 1 and 2, the capacitor 45 supplements an electric current when the LED lighting device 100 is turned on, and the output voltage of the DC / DC converter 43 instantaneously drops. It has a function as an accumulator to prevent this. Here, for example, an electrolytic capacitor is used as the capacitor 45, and the capacitance thereof is set to 1000 μF to 3000 μF.

  As shown in FIGS. 1 and 2, the control circuit 5 is composed of a CPU, a memory and the like (not shown), and by operating the CPU and its peripheral devices according to a program stored in the memory, As described above, the output voltage of each drive unit 4 and the light emission mode (here, the above-mentioned PWM mode and strobe mode) are independently controlled for each drive unit 4.

  First, the control of the output voltage will be described. The control circuit 5 adjusts the ON / OFF ratio of the switching circuit 431 to control the output voltage of the DC / DC converter 43. More specifically, the control circuit 5 compares the target voltage set according to the light emission mode with the output voltage of the DC / DC converter 43, and the switching circuit 431 so that the output voltage approaches the target voltage. Then, a voltage command signal (binary duty signal) is output to and the ON / OFF ratio is feedback-controlled.

  Next, the light emission mode will be described. When the user selects, for example, the PWM mode, the control circuit 5 outputs a binary current command signal having a duty ratio of the dimming degree (brightness) specified by the user in a predetermined cycle. As a result, the current control element 441 is turned on / off at the duty ratio, and the LED lighting device 100 repeatedly turns on / off at the duty ratio, and apparently the dimming degree (brightness) designated by the user. Controlled by. At this time, the control circuit 5 sets the output voltage of the DC / DC converter 43, that is, the voltage applied to the LED lighting device 100 to the maximum voltage (rated voltage) that can continuously light the LED 2a. Here, for example, the maximum allowable continuous application voltage of the LED circuit 2 is 24V.

  On the other hand, when the user selects the strobe mode, the control circuit 5 outputs a single current command signal having a predetermined time width to turn on the current control element and cause the LED lighting device 100 to emit a single pulse. At this time, the control circuit 5 sets the output voltage of the DC / DC converter 43, that is, the voltage applied to the LED lighting device 100 to a voltage higher than the maximum allowable continuous application voltage. Here, for example, it is 48V. In this strobe mode, if the duty ratio is equal to or lower than a certain value (for example, 10% or lower), light emission can be repeated in the same manner as in the PWM mode, and such a setting can be made.

  By the way, in the case where the output voltage of the DC / DC converter 43 in one of the drive units 4 is adjusted to increase within a short time (for example, when the PWM mode is switched to the strobe mode, or the set applied voltage in the strobe mode is increased. (For example), a considerable amount of current for charging the capacitor 45 is required. The power for that purpose is short time (5 msec to 500 msec), but may exceed the maximum power consumption of the LED lighting device 100. In addition, when the output voltage is adjusted to be lowered, a discharge circuit including a switching element (not shown) is provided to discharge the electric charge of the capacitor 45.

  Therefore, in this embodiment, when increasing the output voltage of the DC / DC converter 43 in any one of the drive units 4 within a predetermined time, the power supply circuit 3 adds the power required for the adjustment, The power necessary for driving the LED lighting device 100 by the driving unit 4 is supplied. Specifically, the maximum power supply capacity by the power supply circuit 3 is set to a predetermined time of the capacitor 45 in one of the drive units 4 by increasing the current limit value by the current limit circuit 32 by using a high power component. The capacity is set to be sufficient to supply the electric power required for internal charging and the electric power required for driving the LED lighting device 100 in the other drive unit 4 at the same time.

  According to such a configuration, for example, in the case where one drive unit 4 wants to switch from the PWM mode to the strobe mode, even if the output voltage is adjusted to increase, the drive unit 4 is connected to another drive unit 4 at that time. The operation of the existing LED lighting device 100 is not affected, and it is possible to prevent the brightness of the LED lighting device 100 from being lowered and an error from occurring as a result. Moreover, since the capacitance of the capacitor 45 can be made sufficiently large, stable light emission in the strobe mode or the PWM mode becomes possible.

The present invention is not limited to the above embodiments.
For example, the number of drive units may be three or more.
Further, the upper limit power supply amount by the power supply circuit, particularly the power limiting circuit, may be increased only during the voltage adjustment period. With such a configuration, there is an advantage that the components can be made smaller and the size can be made smaller than simply increasing the capacity of the power supply circuit.
In the above-described embodiment, the light emission mode has two, that is, the PWM mode and the strobe mode. However, a continuous light emission mode capable of dimming by adjusting the applied voltage may be added, or any of these three modes. It may be one or two.
The DC conversion circuit may be a step-up type or a DC / DC converter, and may be an AC / DC converter.
Examples of the light emitted from the LED lighting device include visible light, ultraviolet light, and infrared light, but are not limited to these.
Besides, the present invention is not limited to the above-described embodiment, and various modifications can be made without departing from the spirit of the present invention.

100 ... LED lighting device 200 ... LED lighting device power source 3 ... Power supply circuit 31 ... AC / DC converter 32 ... Power limiting circuit 4 ... Drive unit 43 ... DC conversion Circuit (DC / DC converter)
45 ... Capacitor

Claims (6)

A plurality of drive units capable of respectively driving the connected LED lighting devices in a designated light emission mode; and a power supply circuit for supplying power to each drive unit,
The drive unit includes a direct current conversion circuit configured to adjust an output voltage by an external setting, and a capacitor connected to an output terminal of the direct current conversion circuit to store charges and supplementarily supply a current to the LED lighting device. Equipped with,
When the output voltage of the DC conversion circuit is adjusted in one or more drive units, the power supply circuit supplies the power necessary for driving the LED lighting device by another drive unit in addition to the power necessary for the adjustment. A power supply for an LED lighting device, which is characterized in that   When the output voltage of the DC conversion circuit is adjusted to increase in one or more driving units, the power supply circuit needs the driving power of the LED lighting device by another driving unit in addition to the power required for the adjustment. The power supply for an LED lighting device according to claim 1, which supplies a large amount of electric power.   In the light emission mode, the LED lighting device is turned on / off at a predetermined cycle and the duty ratio is changed to adjust the apparent brightness, and the LED lighting device is caused to emit light in a single shot or a very small duty ratio. 3. The power supply for an LED lighting device according to claim 1, which is configured to be switchable to a strobe mode.   The power supply circuit includes an AC / DC converter that is connected to a commercial power source and that converts AC to DC, and a power limiting circuit that limits the output power of the AC / DC converter to a certain level or less. The power supply for the LED lighting device according to 1, 2, or 3.   The power supply for an LED lighting device according to claim 1, wherein the DC conversion circuit is a step-down DC / DC converter. An LED lighting system comprising a plurality of LED lighting devices and a single power supply for driving the LED lighting devices, comprising:
The power source includes a plurality of drive units capable of respectively driving the connected LED lighting devices in a designated light emission mode, and a power supply circuit for supplying power to each of the drive units,
The drive unit includes a direct current conversion circuit configured to adjust an output voltage by an external setting, and a capacitor connected to an output terminal of the direct current conversion circuit to store charges and supplementarily supply a current to the LED lighting device. Equipped with,
When the output voltage of the DC conversion circuit is adjusted in one or more drive units, the power supply circuit supplies the power necessary for driving the LED lighting device by another drive unit in addition to the power necessary for the adjustment. An LED lighting system characterized in that