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JP5549873B2 - LED lighting power supply - Google Patents

LED lighting power supply Download PDF

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JP5549873B2
JP5549873B2 JP2010187462A JP2010187462A JP5549873B2 JP 5549873 B2 JP5549873 B2 JP 5549873B2 JP 2010187462 A JP2010187462 A JP 2010187462A JP 2010187462 A JP2010187462 A JP 2010187462A JP 5549873 B2 JP5549873 B2 JP 5549873B2
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幸男 野村
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Kyoto Denkiki Co Ltd
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Description

本発明は、複数のLED(発光ダイオード)が用いられたLED照明器具を駆動するLED照明電源装置に関し、特に、工場等において製品の外観検査や選別検査などの検査ラインに使用されるLED照明器具を点灯駆動するのに好適なLED照明電源装置に関する。   The present invention relates to an LED lighting power supply device for driving an LED lighting fixture using a plurality of LEDs (light emitting diodes), and in particular, an LED lighting fixture used in an inspection line for product appearance inspection or sorting inspection in a factory or the like. It is related with the LED illumination power supply device suitable for lighting-driving.

工場における製品の外観検査や選別検査のために、ライン上を高速で移動する製品を撮影し、それにより得られた画像に対して画像認識などのデータ処理を行って製品の欠陥を見つけ出したり製品形状を判定したりする検査装置が利用されている。こうした検査装置では撮影対象の製品を照明するために様々な形態の照明器具が用いられているが、長寿命、省電力などの利点から、近年、LEDを光源としたLED照明器具の利用が急速に進んでいる。   For product appearance inspection and sorting inspection at factories, products that move at high speed on the line are photographed, and image processing is performed on the resulting images to detect product defects and products. An inspection device for determining the shape is used. In such inspection apparatuses, various types of lighting fixtures are used to illuminate the product to be photographed. However, in recent years, LED lighting fixtures using LEDs as light sources have been rapidly used due to advantages such as long life and power saving. Is going on.

一般に、LED照明器具の点灯駆動方法として、PWM(パルス幅変調)制御と定電流制御とが知られている。PWM制御では、LED照明器具に供給する矩形波駆動電圧のパルス幅を可変することにより調光が行える。他方、定電流制御では、LED照明器具に供給する直流電流の電流値を可変することにより調光が行える。上述した検査用LED照明器具を点灯駆動する電源装置では、従来、PWM制御が広く利用されている(特許文献1、2参照)。その主な理由は次の通りである。   In general, PWM (pulse width modulation) control and constant current control are known as lighting driving methods for LED lighting fixtures. In PWM control, dimming can be performed by varying the pulse width of the rectangular wave driving voltage supplied to the LED lighting apparatus. On the other hand, in the constant current control, dimming can be performed by changing the current value of the direct current supplied to the LED lighting apparatus. Conventionally, PWM control is widely used in the above-described power supply device for lighting and driving the LED lighting fixture for inspection (see Patent Documents 1 and 2). The main reason is as follows.

検査用LED照明器具は一般家庭用LED照明器具とは異なり、用いられるLEDの特性の幅が広く、同一の定格電圧仕様をもつ器具であっても使用されるLEDの個数が様々である。定電流制御を行う場合には、使用されるLED照明器具に搭載されているLEDの数や特性などの構成に応じて電源から供給する電流値を調整する必要があるため、上記のように使用される器具が様々である場合、調整が非常に煩雑である。これに対し、PWM制御では、LED照明器具に印加する電圧は該器具の構成に依らず一定でよく、パルス幅の簡便な制御により器具の構成の相違に対応できるとともに調光も行えることから、面倒な手動調整が不要であるとともにコスト的にも有利である。   The LED lighting fixture for inspection is different from the general LED lighting fixture for home use, and the range of the characteristics of the LED used is wide, and the number of LEDs used varies even if the fixture has the same rated voltage specification. When performing constant current control, it is necessary to adjust the current value supplied from the power supply according to the configuration such as the number and characteristics of the LEDs mounted on the LED lighting fixture used. Adjustment is very cumbersome when the instruments to be used are various. On the other hand, in PWM control, the voltage applied to the LED lighting fixture may be constant regardless of the configuration of the fixture, and because it can respond to the difference in the configuration of the fixture by simple control of the pulse width and can also perform dimming, Troublesome manual adjustment is not necessary and cost is advantageous.

しかしながら、PWM制御の場合には非常に高速ではあるもののLEDは点滅を繰り返すため、検査対象の製品が照明されている期間と照明されていない期間とが生じる。近年、検査の高速化の要求に応えて検査装置における撮像もますます高速になってきており、そうなると照明の点滅の影響が撮影された画像に現れるおそれがある。こうした影響を回避するには、PWM制御ではなく定電流制御を利用しLED照明器具を連続的に点灯させることが必要となる。   However, in the case of PWM control, although the LED is very fast, the LED repeats blinking, so that a period during which the product to be inspected is illuminated and a period during which the product is not illuminated are generated. In recent years, in response to a demand for high-speed inspection, imaging in an inspection apparatus has become increasingly faster, and if this happens, the effect of lighting blinking may appear in the captured image. In order to avoid such an influence, it is necessary to continuously turn on the LED lighting apparatus using constant current control instead of PWM control.

特開2009−300871号公報JP 2009-300871 A 特開2010−153151号公報JP 2010-153151 A

本発明は上記課題に鑑みて成されたものであり、例えば検査装置に用いられる検査用LED照明器具を定電流制御により点灯駆動するLED照明電源装置において、LEDの数や特性が相違するなど多様なLED照明器具に対し煩雑な手動調整を不要とすることにより、使用するLED照明器具について高い汎用性を実現することを主たる目的としている。   The present invention has been made in view of the above-mentioned problems. For example, in an LED illumination power supply device that lights and drives an LED lighting fixture for inspection used in an inspection apparatus by constant current control, the number and characteristics of LEDs are different. The main purpose is to realize high versatility for the LED lighting apparatus to be used by eliminating the need for complicated manual adjustment for such LED lighting apparatus.

上記課題を解決するために成された本発明は、複数のLEDが用いられたLED照明器具を定電流制御により点灯駆動するLED照明電源装置において、
複数のLEDが用いられたLED照明器具を定電流制御により点灯駆動するLED照明電源装置において、
a)負荷として接続されたLED照明器具に該照明器具の電圧仕様により異なる規定の一定電圧を印加した状態で該照明器具に流れる電流を検知する手段であってLED照明器具への一定電圧の印加を開始した時点から所定時間が経過した時点で該照明器具に流れる電流を検知する電流検知手段と、
b)前記電流検知手段により検知された電流値に基づいて、定電流制御による調光時の最大出力電流を設定するための制御情報を作成して記憶する定電流制御情報取得手段と、
c)外部から所定の指令が与えられたときに、前記電流検知手段がLED照明器具に規定の一定電圧を印加して該照明器具に流れる電流を検知し、前記定電流制御情報取得手段が検知された電流値に基づいて定電流制御による調光時の最大出力電流を設定するための制御情報を作成して記憶するように制御する制御手段と、
d)前記定電流制御情報取得手段により記憶されている制御情報を用いて100%調光に対応する最大出力電流を設定し、外部からの調光指示に応じて0〜100%調光に対応した一定電流を出力する定電流供給手段と、
を備えることを特徴としている。
In order to solve the above problems, the present invention is an LED lighting power supply apparatus that drives and lights an LED lighting apparatus using a plurality of LEDs by constant current control.
In the LED lighting power supply device that drives the LED lighting fixture using a plurality of LEDs by constant current control,
a) Means for detecting a current flowing through the lighting fixture in a state where a predetermined constant voltage different depending on the voltage specification of the lighting fixture is applied to the LED lighting fixture connected as a load, the constant voltage to the LED lighting fixture being A current detection means for detecting a current flowing through the lighting device at a time when a predetermined time has elapsed from the start of application ;
b) Constant current control information acquisition means for creating and storing control information for setting the maximum output current during dimming by constant current control based on the current value detected by the current detection means;
c) When a predetermined command is given from the outside, the current detection means applies a specified constant voltage to the LED lighting fixture to detect the current flowing through the lighting fixture, and the constant current control information acquisition means detects Control means for creating and storing control information for setting the maximum output current at the time of dimming by constant current control based on the current value,
d) A maximum output current corresponding to 100% dimming is set using the control information stored by the constant current control information acquisition means, and 0 to 100% dimming is supported according to a dimming instruction from the outside. Constant current supply means for outputting a constant current,
It is characterized by having.

本発明に係るLED照明電源装置において、外部から所定の指令が与えられると、これに対応して電流検知手段は該装置に負荷として接続されているLED照明器具に規定の一定電圧を印加する。この規定の一定電圧はLED照明器具の電圧仕様により異なる。通常のLED照明器具では、規定の一定電圧が印加されると該照明器具に許容される最大電流が流れるから、電流検知手段はそのときに接続されているLED照明器具の最大電流を検知することができる。通常、最大電流は器具に使用されているLEDの数(素子数)に依存し、素子数が多いほど最大電流が大きい。
In the LED lighting power supply device according to the present invention, a predetermined command from the external is provided, the current detecting means in response to which a constant voltage is applied as defined in the LED lighting apparatus which is connected as a load to the device . This prescribed constant voltage depends on the voltage specification of the LED lighting fixture. In a normal LED lighting fixture, when a specified constant voltage is applied, a maximum current allowed to flow through the lighting fixture flows. Therefore, the current detection means detects the maximum current of the LED lighting fixture connected at that time. Can do. Usually, the maximum current depends on the number of LEDs (number of elements) used in the instrument, and the maximum current increases as the number of elements increases.

定電流制御情報取得手段は、その最大電流の電流値に基づいて、定電流制御による調光時の最大出力電流を設定するための制御情報を作成して記憶する。例えば、基準電流の値Isを予め定めておき、電流検知手段により検知された電流値Imと基準電流値Isとの比(Im/Is)を制御情報とすることができる。   The constant current control information acquisition means creates and stores control information for setting the maximum output current during dimming by constant current control based on the current value of the maximum current. For example, the reference current value Is can be determined in advance, and the ratio (Im / Is) between the current value Im detected by the current detection means and the reference current value Is can be used as control information.

定電流供給手段は上記制御情報を用いて100%調光に対応する最大出力電流を設定し、外部からの調光指示に応じて0〜100%調光に対応した一定電流を負荷、つまりLED照明器具に出力し、該器具を連続的に点灯させる。このような定電流制御に際しては、負荷であるLED照明器具の素子数などに応じて予め記憶された制御情報が利用されるので、LED照明器具の構成に依らず該器具の最大電流を100%調光とした定電流制御による調光が可能となる。また、制御情報の取得は自動的に行われるので、作業者による煩雑な作業を省くことができる。   The constant current supply means sets a maximum output current corresponding to 100% dimming using the control information, and loads a constant current corresponding to 0 to 100% dimming according to an external dimming instruction, that is, LED It outputs to a lighting fixture and makes this fixture light continuously. In such constant current control, since control information stored in advance according to the number of elements of the LED lighting fixture as a load is used, the maximum current of the fixture is set to 100% regardless of the configuration of the LED lighting fixture. Dimming by constant current control with dimming is possible. Moreover, since acquisition of control information is performed automatically, a troublesome operation by an operator can be omitted.

本発明に係るLED照明電源装置では、負荷であるLED照明器具が交換された場合に制御情報を取得し直すことが望ましい。そこで、本発明に係るLED照明電源装置では、外部から所定の指令が与えられたときに、前記電流検知手段がLED照明器具に規定の一定電圧を印加して該照明器具に流れる電流を検知し、前記定電流制御情報取得手段は検知された電流値に基づいて、定電流制御による調光時の最大出力電流を設定するための制御情報を作成して記憶する。一方、前記所定の指令が与えられないときには、前記電流検知手段による電流検知及び前記定電流制御情報取得手段による制御情報の作成を実行せずに、前記定電流供給手段により、制御情報を用いた定電流制御による調光を行う。
In the LED lighting power supply device according to the present invention, it is desirable to re-acquire control information when the LED lighting fixture as a load is replaced. Therefore, the LED lighting source apparatus according to the present invention, when a predetermined command is externally given, the current detecting means by applying a predetermined voltage specified in the LED lighting apparatus detects a current flowing through the lighting fixture , the constant current control information obtaining means based on the sensed current value, to create and store the control information for setting the maximum output current during dimming by constant current control. On the other hand, when the predetermined command is not given, the control information is used by the constant current supply means without executing the current detection by the current detection means and the creation of control information by the constant current control information acquisition means. It intends line dimming by the constant current control.

このような構成とすることで、LED照明器具を交換したような場合に外部から所定の指令を与えることにより、その時点で接続されているLED照明器具に対応した制御情報を自動的に取得し直すようにすることができる。
With such a configuration , when the LED lighting fixture is replaced, a predetermined command is given from the outside, and control information corresponding to the LED lighting fixture connected at that time is automatically acquired. You can fix it.

また本発明に係るLED照明電源装置において、前記電流検知手段は、LED照明器具への一定電圧の印加を開始した時点から所定時間が経過した時点で該照明器具に流れる電流を検知する構成としている。ここで、所定時間とは、一般的なLEDに電流が供給されたときの温度上昇に起因する電流の変化の状況に基づいて予め決められた値、又は、外部から入力設定される値のいずれでもよい。
The Te LED lighting power supply smell according to the present invention, before Symbol current detection means configured to detect a current flowing through the lighting fixture at a predetermined time from the time of starting the application of a constant voltage to the LED lighting fixture has elapsed It is said . Here, the predetermined time is either a value determined in advance based on a state of change in current caused by a temperature rise when current is supplied to a general LED, or a value input and set from the outside. But you can.

一般に、LEDは点灯に伴い発熱し、温度上昇に従い電流が増加する。これに対し、上記所定の時間が適切に設定されていれば、LED照明器具中の各LEDの温度上昇が収まり電流の変化も収まった状態で最大電流を検知することができる。これにより、負荷であるLED照明器具に対応して、より正確な制御情報を得ることができ、定電流制御による調光時の照度も一層正確になる。 In general, an LED generates heat as it is turned on, and the current increases as the temperature rises. In contrast, if the time of the upper Kisho constant are properly configured, it is possible to detect the maximum current in a state of change falls and the temperature rise subsided current of each LED in the LED lighting fixture. Thereby, more accurate control information can be obtained corresponding to the LED lighting apparatus as the load, and the illuminance at the time of dimming by the constant current control becomes further accurate.

本発明に係るLED照明電源装置によれば、同一の電圧仕様であってLED数が異なる等の多様な構成のLED照明器具に対し、定電流制御による良好な調光を実現することができる。また、多様な構成のLED照明器具に対応するために作業者による煩雑な調整や作業を必要としないので、ユーザーにおいては1台の電源装置を汎用的に利用することができ非常に使い勝手がよい。   According to the LED lighting power supply device according to the present invention, it is possible to realize good dimming by constant current control for LED lighting fixtures having various configurations such as the same voltage specifications and different numbers of LEDs. In addition, since it is not necessary to perform complicated adjustments or work by an operator in order to deal with variously configured LED lighting fixtures, a single power supply device can be used universally for the user, which is very convenient. .

本発明の一実施例であるLED照明電源装置のブロック構成図。The block block diagram of the LED illumination power supply device which is one Example of this invention. 本実施例のLED照明電源装置における初期設定時の制御フローチャート。The control flowchart at the time of the initial setting in the LED illumination power supply device of a present Example. 本実施例のLED照明電源装置における初期設定及び定電流制御による調光動作の一例を示す図。The figure which shows an example of the light control operation | movement by the initial setting and constant current control in the LED illumination power supply device of a present Example.

以下、本発明の一実施例である検査用LED照明電源装置を添付図面を参照して説明する。図1は本実施例の検査用LED照明電源装置のブロック構成図である。   Hereinafter, an inspection LED illumination power supply device according to an embodiment of the present invention will be described with reference to the accompanying drawings. FIG. 1 is a block diagram of the LED lighting power supply device for inspection of this embodiment.

本実施例の検査用LED照明電源装置1は、数十〜数百個程度のLEDが用いられた検査用のLED照明器具2を点灯駆動するものである。一般的なLED照明器具の電圧仕様は、+12V、+24V、+48Vなどである。本実施例の検査用LED照明電源装置1は、主要なブロックとして、負荷であるLED照明器具2に駆動電流を供給する定電流出力部13と、CPUなどを含み装置全体の動作制御を司る制御部10と、該制御部10の制御の下に定電流出力部13から出力される電流値を制御する出力制御部11と、LED照明器具2に流れる電流値を検知する電流検知部14と、検知された電流値に基づいて本発明における制御情報に相当する制御用係数を算出する係数演算部15と、作業者による操作を受け付ける又は接続された外部のコンピュータ等(図示しない)からの指示を受け付ける入力部16と、を備える。   The inspection LED illumination power supply device 1 of the present embodiment drives and lights up the LED illumination fixture 2 for inspection in which about several tens to several hundreds of LEDs are used. Typical voltage specifications for LED lighting fixtures are + 12V, + 24V, + 48V, and the like. The LED lighting power supply device 1 for inspection according to the present embodiment includes, as main blocks, a constant current output unit 13 that supplies a driving current to the LED lighting device 2 that is a load, and a CPU that controls operation of the entire device including a CPU. Unit 10, an output control unit 11 that controls a current value output from the constant current output unit 13 under the control of the control unit 10, a current detection unit 14 that detects a current value flowing through the LED lighting fixture 2, Based on the detected current value, a coefficient calculation unit 15 that calculates a control coefficient corresponding to the control information in the present invention, and an instruction from an external computer or the like (not shown) that accepts or connects an operation by an operator And an input unit 16 for receiving.

図2は本実施例の検査用LED照明電源装置における初期設定時の制御フローチャートである。図1に加え図2を参照して、本実施例の検査用LED照明電源装置における特徴的な動作について詳述する。   FIG. 2 is a control flowchart at the time of initial setting in the LED lighting power supply for inspection of this embodiment. With reference to FIG. 2 in addition to FIG. 1, the characteristic operation in the LED lighting power supply for inspection of this embodiment will be described in detail.

本実施例の検査用LED照明電源装置1において、入力部16では通常の点灯駆動を行うモードのほかに、本装置1に接続されたLED照明器具2を適切に駆動するための初期設定を行う「設定モード」の選択が可能となっている。本装置1の電源が投入され動作を開始する際に、制御部10はまず入力部16において「設定モード」が指定されているか否かを判定する(ステップS1)。   In the LED lighting power supply device 1 for inspection according to the present embodiment, the input unit 16 performs an initial setting for appropriately driving the LED lighting apparatus 2 connected to the device 1 in addition to the mode for performing normal lighting driving. “Setting mode” can be selected. When the apparatus 1 is turned on and starts operating, the control unit 10 first determines whether or not the “setting mode” is designated in the input unit 16 (step S1).

ステップS1において「設定モード」が指定されていると判定されると、制御部10は検出待機時間を定める(ステップS2)。検出待機時間は予め制御部10の内部に記憶されている値を用いるようにしてもよいが、入力部16において作業者が検出待機時間を適宜入力設定できるようにしてもよい。次に制御部10は、出力制御部11を介して規定の一定電圧を負荷、つまりLED照明器具2に印加するように定電流出力部13を制御する(ステップS3)。このときの規定の一定電圧はLED照明器具2の電圧仕様に応じたものとする。例えば+12V仕様(PWM制御で使用する場合の電圧が+12Vであるもの)のLED照明器具であれば、規定電圧を+12Vとする。また、このときには定電流出力部13における定電流制御は実行せず、LED照明器具2に供給される電流の上限を実質的に制限しない。これにより、定電流出力部13からLED照明器具2にその器具2の素子数やLED特性などにより決まる許容される最大電流が供給され、LED照明器具2が点灯する。   If it is determined in step S1 that the “setting mode” is designated, the control unit 10 determines a detection waiting time (step S2). A value stored in advance in the control unit 10 may be used as the detection standby time, but an operator may appropriately set the detection standby time in the input unit 16. Next, the control unit 10 controls the constant current output unit 13 so as to apply a predetermined constant voltage to the load, that is, the LED lighting apparatus 2 via the output control unit 11 (step S3). The specified constant voltage at this time is assumed to correspond to the voltage specification of the LED lighting device 2. For example, in the case of an LED lighting fixture of + 12V specification (the voltage when used in PWM control is + 12V), the specified voltage is set to + 12V. At this time, the constant current control in the constant current output unit 13 is not executed, and the upper limit of the current supplied to the LED lighting device 2 is not substantially limited. As a result, the allowable maximum current determined by the number of elements of the fixture 2 and the LED characteristics is supplied from the constant current output unit 13 to the LED lighting fixture 2, and the LED lighting fixture 2 is lit.

点灯開始と同時に制御部10は内部タイマによる計時を開始し(ステップS4)、その計時がステップS2で設定した検出待機時間を過ぎたか否かを繰り返し判定する(ステップS5)。そして、検出待機時間が経過したならば、電流検知部14がLED照明器具2に流れる電流、つまり最大電流を検知する(ステップS6)。   Simultaneously with the start of lighting, the control unit 10 starts timing by an internal timer (step S4), and repeatedly determines whether or not the timing has exceeded the detection standby time set in step S2 (step S5). And if detection waiting time passes, the electric current detection part 14 will detect the electric current which flows into the LED lighting fixture 2, ie, a maximum electric current, (step S6).

上述のようにLED照明器具2の各LEDに駆動電流が供給されて点灯すると、それに伴って発生する熱の影響で電流は次第に増加する。そのため、点灯開始直後のLEDの温度が低い状態で電流検知部14が電流値を検知しても正確さを欠くことになる。これに対し、本実施例のLED照明電源装置1では、点灯開始時点から検出待機時間が経過するまで待って、即ち、その時間だけLED照明器具2を点灯し続けた後に、電流を検知するようにしているので、LEDの温度が或る程度上昇した状態における正確性の高い電流値を取得することができる。   As described above, when a driving current is supplied to each LED of the LED lighting device 2 and the LED is lit, the current gradually increases due to the influence of heat generated therewith. Therefore, even if the current detection unit 14 detects a current value in a state where the temperature of the LED immediately after the start of lighting is low, accuracy is lost. On the other hand, in the LED illumination power supply device 1 of the present embodiment, the current is detected after waiting for the detection waiting time to elapse from the lighting start time, that is, after the LED lighting apparatus 2 is continuously lit for that time. Therefore, it is possible to obtain a highly accurate current value in a state where the temperature of the LED is raised to some extent.

なお、最大電流又はそれに近い電流が連続的に供給された状態で温度上昇によりLEDに流れる電流が増加する場合の、その電流増加がほぼ収束するまでに要するおおよその時間は、実験により予め求めることができる。そこで、こうした実験に基づいて、予め検出待機時間を決めておくようにすることができる。一方、上述したように、検出待機時間を入力部16から入力設定できるようにしておけば、温度上昇が極端に小さい又は大きいような特殊な構成のLED照明器具を用いる場合にも、温度変化による電流の増減の影響を正確に排除することができる。   In addition, when the current flowing through the LED increases due to temperature rise in a state where the maximum current or a current close thereto is continuously supplied, the approximate time required for the current increase to almost converge is obtained in advance by experiments. Can do. Therefore, the detection waiting time can be determined in advance based on such experiments. On the other hand, as described above, if the detection waiting time can be input and set from the input unit 16, even when using an LED lighting apparatus having a special configuration in which the temperature rise is extremely small or large, it is caused by temperature change. The influence of current increase / decrease can be accurately eliminated.

前述のように、規定の一定電圧が印加された状態でLED照明器具2に流れる電流の値は該器具2に使用されているLEDの個数や特性に依存する。そこで、係数演算部15は電流検知部14において検知された電流値を読み込み、この電流値が最大出力、つまり100%調光の出力となるように制御用係数を算出する(ステップS7)。   As described above, the value of the current flowing through the LED lighting fixture 2 in a state where a predetermined constant voltage is applied depends on the number and characteristics of the LEDs used in the fixture 2. Therefore, the coefficient calculation unit 15 reads the current value detected by the current detection unit 14, and calculates a control coefficient so that the current value becomes the maximum output, that is, the output of 100% dimming (step S7).

制御用係数の求め方の一例を、図3を参照して説明する。
いま、図3(a)に示すように、或るLED照明器具aでは規定電圧+V(例えば+12V)を印加した状態での電流値が1[A]、別のLED照明器具bでは同じ規定電圧+Vを印加した状態での電流値が0.5[A]であったとする。これら電流値がいずれも100%調光時の出力であるとし、予め決めた基準電流Isに対する実測の電流値Imの比から制御用係数を求める。例えば、ここでは基準電流Isを1[A]とし、Im/Isにより制御用係数を求める。したがって、LED照明器具aに対する制御用係数は「1」、LED照明器具bに対する制御用係数は「0.5」となる。即ち、これは、100%調光の出力を実現するために供給する電流を、LED照明器具bではLED照明器具aの1/2にする必要があることを意味している。例えば規定電圧+Vを印加した状態での電流値が0.75[A]であれば、そのときのLED照明器具に対する制御用係数は0.75と求まる。
An example of how to obtain the control coefficient will be described with reference to FIG.
Now, as shown in FIG. 3A, a certain LED lighting fixture a has a current value of 1 [A] in a state where a specified voltage + V (for example, +12 V) is applied, and another LED lighting fixture b has the same specified voltage. It is assumed that the current value with + V applied is 0.5 [A]. All of these current values are outputs at the time of 100% dimming, and a control coefficient is obtained from a ratio of an actually measured current value Im to a predetermined reference current Is. For example, here, the reference current Is is set to 1 [A], and the control coefficient is obtained from Im / Is. Therefore, the control coefficient for the LED lighting apparatus a is “1”, and the control coefficient for the LED lighting apparatus b is “0.5”. That is, this means that the current supplied to realize 100% dimming output needs to be ½ that of the LED lighting fixture a in the LED lighting fixture b. For example, if the current value in a state where the specified voltage + V is applied is 0.75 [A], the control coefficient for the LED lighting apparatus at that time is obtained as 0.75.

以上のように「設定モード」において係数演算部15で算出された制御用係数は出力制御部11に内蔵された係数記憶部12に記憶され(ステップS8)、この「設定モード」の動作は終了する。「設定モード」が指定された後のステップS1〜S8の処理は全て自動で行われ、作業者等の人手を要する作業・処理はない。   As described above, the control coefficient calculated by the coefficient calculation unit 15 in the “setting mode” is stored in the coefficient storage unit 12 built in the output control unit 11 (step S8), and the operation of the “setting mode” is completed. To do. The processes in steps S1 to S8 after the “setting mode” is designated are all automatically performed, and there is no work / process that requires manual work such as an operator.

一方、ステップS1において「設定モード」でないと判定された場合には、LED照明器具2を通常通り点灯させるモードであるからステップS1からS9へと進み、通常の定電流駆動を実行する。即ち、出力制御部11は指示された光量設定(0〜100%調光の範囲の離散的設定又は連続設定)に応じた一定電流を供給するように定電流出力部13を制御し、定電流出力部13からLED照明器具2に一定電流が供給されることにより該LED照明器具2は一定発光強度で点灯する。この際に、出力制御部11は係数記憶部12に記憶されている制御用係数を制御に使用する。   On the other hand, if it is determined in step S1 that the mode is not the “setting mode”, the LED lighting apparatus 2 is in a normal lighting mode, so the process proceeds from step S1 to S9, and normal constant current driving is executed. That is, the output control unit 11 controls the constant current output unit 13 so as to supply a constant current according to the instructed light amount setting (discrete setting or continuous setting in the range of 0 to 100% dimming), When a constant current is supplied from the output unit 13 to the LED lighting apparatus 2, the LED lighting apparatus 2 is lit at a constant light emission intensity. At this time, the output control unit 11 uses the control coefficient stored in the coefficient storage unit 12 for control.

具体的には、最大出力(100%調光)に対する最大電流を基準電流Is×制御用係数により求め、それにより定まる最大電流を100%とした0〜100%の範囲で光量設定に応じた電流を定める。図3(b)は制御用係数が0.5である場合の光量設定と電流との関係を示す図である。制御用係数が0.5である場合、最大電流はIs×0.5=0.5[A]となり、図示するように0〜100%の調光を0〜0.5[A]の範囲の定電流制御を行うことで実現する。また、制御用係数が1である場合には、最大電流は1[A]となり、0〜100%の調光を0〜1[A]の範囲の定電流制御を行うことで実現する。   Specifically, the maximum current with respect to the maximum output (100% dimming) is obtained from the reference current Is × the control coefficient, and the current according to the light amount setting in the range of 0 to 100% with the maximum current determined as 100%. Determine. FIG. 3B is a diagram showing the relationship between the light amount setting and the current when the control coefficient is 0.5. When the control coefficient is 0.5, the maximum current is Is × 0.5 = 0.5 [A], and the dimming of 0 to 100% is in the range of 0 to 0.5 [A] as illustrated. This is realized by performing constant current control. When the control coefficient is 1, the maximum current is 1 [A], and 0 to 100% dimming is realized by performing constant current control in the range of 0 to 1 [A].

このように本実施例の検査用LED照明電源装置1では、使用されるLED照明器具2の構成、具体的には素子数やLED特性が多様であっても、「設定モード」を実行させてそのときに接続されているLED照明器具2に適合した制御用係数を算出して係数記憶部12に記憶させておくことにより、そのLED照明器具2に応じた正確な調光を定電流制御で実現することができる。   As described above, in the LED lighting power supply device 1 for inspection according to the present embodiment, even if the configuration of the LED lighting apparatus 2 to be used, specifically, the number of elements and LED characteristics are various, the “setting mode” is executed. By calculating a control coefficient suitable for the LED lighting apparatus 2 connected at that time and storing it in the coefficient storage unit 12, accurate dimming according to the LED lighting apparatus 2 can be performed with constant current control. Can be realized.

なお、上記ステップS3においては接続されたLED照明器具2に規定された一定電圧を印加する必要がある。一般的なLED照明器具の電圧仕様には+12Vのほか、+24V、+48Vなどがあるから、その電圧仕様については入力部16から設定できるようにしておくとよい。   In step S3, it is necessary to apply a constant voltage defined to the connected LED lighting fixture 2. Since there are + 12V, + 24V, + 48V, etc. in addition to + 12V in the voltage specification of general LED lighting fixtures, it is preferable that the voltage specification can be set from the input unit 16.

なお、上記実施例は本発明の一例にすぎず、本発明の趣旨の範囲で適宜変形や修正、追加を加えても本願特許請求の範囲に包含されることは明らかである。   It should be noted that the above embodiment is merely an example of the present invention, and it is obvious that modifications, corrections and additions may be made as appropriate within the scope of the present invention and included in the scope of the claims of the present application.

例えば上記実施例は、検査装置用のLED照明器具を駆動する電源装置に本発明を適用したものであるが、本発明に係るLED照明電源装置は検査用に限らず様々な用途のLED照明器具を駆動する電源装置に適用することができる。具体的には、入力電圧仕様が決まっているLED照明器具であれば、本発明に係るLED照明電源装置が有用である。例えばこうしたLED照明器具による一般照明や公共用照明(例えばトンネル内照明、街路灯、スタジアム照明など)に対して本発明に係るLED照明電源装置を用いた場合、将来的にLED素子の技術進歩により照度を保ちながら素子数が少なく駆動電流も少ないLED照明器具が市販され、照明器具をこうした最新のものに交換する必要が生じたときでも、LED照明器具の入力電圧仕様が合ってさえいれば電源装置自体を交換することなく最新のLED照明器具に対応した調光制御が可能となる。   For example, in the above-described embodiment, the present invention is applied to a power supply device that drives an LED lighting fixture for an inspection apparatus. However, the LED illumination power supply device according to the present invention is not limited to an inspection use, but is used for various purposes. The present invention can be applied to a power supply device that drives Specifically, the LED lighting power supply device according to the present invention is useful if the LED lighting fixture has a predetermined input voltage specification. For example, when the LED lighting power supply device according to the present invention is used for general lighting or public lighting (for example, lighting in a tunnel, street light, stadium lighting, etc.) using such LED lighting fixtures, due to technological advancement of LED elements in the future. LED lighting fixtures with a small number of elements and low drive current while maintaining illuminance are commercially available, and even if it is necessary to replace the lighting fixtures with these newest ones, as long as the input voltage specifications of the LED lighting fixtures are met, the power supply Dimming control corresponding to the latest LED lighting apparatus can be performed without replacing the device itself.

1…検査用LED照明電源装置
10…制御部
11…出力制御部
12…係数記憶部
13…定電流出力部
14…電流検知部
15…係数演算部
16…入力部
2…LED照明器具
DESCRIPTION OF SYMBOLS 1 ... LED illumination power supply device 10 for test | inspection ... Control part 11 ... Output control part 12 ... Coefficient memory | storage part 13 ... Constant current output part 14 ... Current detection part 15 ... Coefficient calculating part 16 ... Input part 2 ... LED lighting fixture

Claims (1)

複数のLEDが用いられたLED照明器具を定電流制御により点灯駆動するLED照明電源装置において、
a)負荷として接続されたLED照明器具に該照明器具の電圧仕様により異なる規定の一定電圧を印加した状態で該照明器具に流れる電流を検知する手段であってLED照明器具への一定電圧の印加を開始した時点から所定時間が経過した時点で該照明器具に流れる電流を検知する電流検知手段と、
b)前記電流検知手段により検知された電流値に基づいて、定電流制御による調光時の最大出力電流を設定するための制御情報を作成して記憶する定電流制御情報取得手段と、
c)外部から所定の指令が与えられたときに、前記電流検知手段がLED照明器具に規定の一定電圧を印加して該照明器具に流れる電流を検知し、前記定電流制御情報取得手段が検知された電流値に基づいて定電流制御による調光時の最大出力電流を設定するための制御情報を作成して記憶するように制御する制御手段と、
d)前記定電流制御情報取得手段により記憶されている制御情報を用いて100%調光に対応する最大出力電流を設定し、外部からの調光指示に応じて0〜100%調光に対応した一定電流を出力する定電流供給手段と、
を備えることを特徴とするLED照明電源装置。
In the LED lighting power supply device that drives the LED lighting fixture using a plurality of LEDs by constant current control,
a) Means for detecting a current flowing through the lighting fixture in a state where a predetermined constant voltage different depending on the voltage specification of the lighting fixture is applied to the LED lighting fixture connected as a load, the constant voltage to the LED lighting fixture being A current detection means for detecting a current flowing through the lighting device at a time when a predetermined time has elapsed from the start of application ;
b) Constant current control information acquisition means for creating and storing control information for setting the maximum output current during dimming by constant current control based on the current value detected by the current detection means;
c) When a predetermined command is given from the outside, the current detection means applies a specified constant voltage to the LED lighting fixture to detect the current flowing through the lighting fixture, and the constant current control information acquisition means detects Control means for creating and storing control information for setting the maximum output current at the time of dimming by constant current control based on the current value,
d) A maximum output current corresponding to 100% dimming is set using the control information stored by the constant current control information acquisition means, and 0 to 100% dimming is supported according to a dimming instruction from the outside. Constant current supply means for outputting a constant current,
An LED illumination power supply device comprising:
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