JPH08124682A - Lighting system - Google Patents

Abstract

PURPOSE: To provide a lighting system which has a detecting means for detecting the state of a lighting load with a simple structure and can control the power supplied to the lighting load according to the detected state of the lighting load. CONSTITUTION: A DC voltage obtained by rectifying and smoothing an AC power source Vac is supplied to a lighting load La through an inductance element L1 , a switching element Q1 , and a resistor R2 . The switching element Q1 is PWM-controlled by a PWM control circuit 1. A snubber circuit 2 is connected to both ends of a series circuit consisting of the switching element Q1 and a resistor R1 , the photodiode PCD1 of a photocoupler PC1 is connected in series to the resistor R2 , and a voltage control part 4a for controlling the voltage Vc2 between both terminals of a capacitor C2 is connected in parallel between the PWM control circuit 1 and a power source circuit 3. Thus, a lighting system having a detecting means for detecting the state of the lighting load with a simple structure and capable of controlling the power supplied to the lighting load according to the detected state of the lighting load can be provided.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a lighting load for lighting a lighting load, and more particularly to a lighting device for lighting an incandescent light bulb (for example, a halogen light bulb).

[0002]

2. Description of the Related Art As a conventional example according to the present invention, there is one shown in a circuit diagram of FIG.

In this circuit, a DC voltage obtained by rectifying an AC power supply V _ac with a rectifier DB and smoothing it with a smoothing capacitor CH ₁ is used as an inductance element L ₁ , a switching element Q ₁ , and a resistor R.
Supply to the lighting load La via ₂ . The switching element Q ₁ is a PWM (Pulse Wide Modular)
on) PWM control is performed by the control circuit 1. Further, across the series circuit composed of the switching elements Q _1, resistors R _1, capacitor C _1, diode - prevent de D _1, the snubber circuit 2 including a resistor R ₂ provided that the switching element Q ₁ is being destroyed .

Further, the PWM control circuit 1 is driven by the power supply circuit 3 which is connected in parallel to both ends of the smoothing capacitor CH ₁ and includes a resistor R ₃ , a Zener diode ZD ₁ and a smoothing capacitor CH ₂ . The PWM control circuit 1 includes a resistor R ₄ and a resistor R ₅ connected in parallel at both ends of the smoothing capacitor CH _2.
And a capacitor C ₂ connected in parallel to both ends of the resistor R ₅ , and an OSC that outputs a triangular wave, for example.
It is composed of a comparator CO ₁ for comparing and outputting the output of the OSC and the voltage V _C2 across the capacitor C ₂ . Here, the comparator CO ₁ controls the switching element Q ₁ by PWM because, for example, when the voltage V _C2 across the capacitor C ₂ increases, the time of the output high (H) level increases.

If the lighting load La blinks frequently or is repeated, it is controlled to output the base of the switching element Q ₁ .
By controlling the switching element Q ₂ connected between the emitter and the emitter by the external signal S ₁ , the light output of the lighting load La rises faster and the inrush current is reduced.

[0006]

However, the lighting load La is
In order to detect the state (for example, an abnormal state such as a normal state or a no-load state), a means such as setting the resistance R ₁ to a high resistance value or newly providing a detection circuit at both ends of the illumination load La is used. However, there is a problem that the resistor R ₁ generates a large amount of heat or the device becomes large.

The present invention has been made in view of the above problems, and an object of the present invention is to provide a detecting means for detecting the state of an illumination load with a simple structure, and to provide a detecting device according to the detected state of the illumination load. Provided is a lighting device capable of controlling electric power supplied to a lighting load.

[0008]

In order to solve the above problems, according to the invention of claim 1, the lighting load and the power connected to the lighting load in series and controlled to the lighting load are controlled. In a lighting device including a switching element, a snubber circuit connected in parallel to both ends of the switching element, and a control unit that controls the switching element, the snubber circuit includes a detection unit that detects an abnormal state of a lighting load. At the same time, the control unit turns off the switching element when the detection unit detects an abnormal state of the illumination load.

According to the second aspect of the present invention, the control section includes:
In addition to the one described in claim 1, when the lighting load is started, it has a soft start function for gradually increasing the electric power supplied to the lighting load.

According to the invention of claim 3, the lighting load voltage detecting means for detecting the lighting load voltage is provided, which is connected in parallel to the lighting load, and the control section is the same as that of claim 2. When the lighting load voltage detecting means detects that the lighting load voltage exceeds a certain value, the soft start function is stopped.

According to the invention described in claim 4, a switch is provided which is connected in series to the lighting load, and the control unit, in addition to any one of claims 1 to 3, further comprises: The feature is that the switch is turned off.

[0012]

According to the first aspect of the present invention, when the lighting load is in a normal state, no current flows through the detection means (for example, a photocoupler) provided in the snubber circuit, and the control unit controls the switching element to turn on / off. Then, the lighting load is turned on stably.

If the lighting load is in an abnormal state, a current flows through the detecting means (eg, photocoupler) provided in the snubber circuit, and the control unit turns off the switching element and turns off the lighting load.

According to the second aspect of the present invention, when the lighting load is started, the control unit shortens the ON time of the switching element to lower the lighting load voltage. After a lapse of a certain time from the start of the lighting load, the control unit lengthens the ON time of the switching element to set the lighting load voltage to the rated value and perform stable lighting.

According to the third aspect of the present invention, the soft load function is stopped by the lighting load voltage detecting means when the lighting load voltage exceeds a certain value.

According to the fourth aspect of the invention, when the lighting load is stably turned on for a certain period of time, the control unit turns off the switch to blink the lighting load.

[0017]

【Example】

(Embodiment 1) A circuit diagram of a first embodiment according to the present invention is shown in FIG.

The difference from the conventional example shown in FIG. 8 is that the resistance R ₂
Photodiode PCD of photocoupler PC ₁ in series with
₁ is connected in series, and the voltage control unit 4a for controlling V _C2 is connected in parallel between the PWM control circuit 1 and the power supply circuit 3, and the same reference numerals are given to the same configurations as other conventional examples. Therefore, the description will be omitted.

Here, the voltage control unit 4a includes a resistor R ₇ and a capacitor C which are connected in parallel at both ends of the smoothing capacitor CH _2.
A series circuit composed of ₃ and a phototransistor PCTr of a photocoupler PC ₁ connected to both ends of a capacitor C _3.
1 and a capacitor C through Zener diode ZD ₂
A series circuit consisting of the _third resistor R ₈ connected to both ends, R _9, composed of parallel-connected switching element Q ₃ Metropolitan across the resistor R _5.

Next, the operation will be briefly described. Since the lighting load La is connected in the normal state, when the switching element Q ₁ is turned off, the smoothing capacitor CH ₁ charges the capacitor C ₁ via the inductance element L ₁ , the lighting load La, and the diode D _1. It At this time, no current flows through the photo diode PCD ₁ and the photo transistor PCTr ₁ is turned off. Then, the capacitor C ₃ is gradually charged from the power supply circuit 3 via the resistor R _7, and the voltage V _C3 across the capacitor C ₃ gradually rises. The switching element Q ₁ is turned on until the voltage V _C3 across the capacitor C ₃ reaches the Zener voltage of the Zener diode ZD ₁ .

Switching element Q₁Is turned on,
Densa C₁The electric charge charged in the
Q₁, Resistance R₂, Photodiode PCD₁Released through
Be charged. At this time, Photodiode PCD₁There is no electricity
Current flows and phototransistor PCTr₁Turns on.
And the capacitor C₃The electric charge charged in the
Register PCTr₁Is discharged through the capacitor C
₃Voltage V across_C3Will fall. Repeat such operation
Therefore, in the normal state, Zener diode ZD ₁But
Since it does not turn on, switching element Q₃Is not turned on.

Switching is performed during abnormal conditions such as no load
Element Q₁Capacitor C ₁Is not charged, and
Photodiode PCD₁No current flows through. Sui
Touching element Q₁Is turned on, the capacitor C₁Has no charge
There is no photo diode PCD₁Current flows through
Absent. Therefore, the phototransistor PCTr₁Is always
And the capacitor C₃Voltage V across_C3Is smooth
Capacitor CH₂Voltage V across_CH2Rise until
You. Capacitor C₃Voltage V across_C3Is Zena-Dio-
De ZD₁If the Zener voltage of₃of
Both-end voltage V_C3Resistance R₈, Resistance R₉The voltage divided by
Switching element Q₃Applied between the base and emitter of
Switching element Q₃Turns on. And Conden
SA C₂Voltage V across_C2Is reduced to zero, the comparator C
O₁Outputs a low (L) level signal and switches
Element Q₁Is turned off. To repeat such operation
With a simpler configuration, the switch can be used when the lighting load La is in an abnormal state.
Holding element Q₁Can always be turned off.

(Embodiment 2) A circuit diagram of a second embodiment according to the present invention is shown in FIG. 2 and its timing chart is shown in FIG.

The difference from the first embodiment shown in FIG. 1 is that the voltage
A resistor R instead of the control unit 4a₇, R _Ten~ R₁₃, Dio
Do D_Four, D_Five, Switching element Q_Four, Q_Five, Photo card
Plastic PC₁Photo Transistor PCTr₁， Coun
The voltage control section 4b composed of the
The soft start was done in the
The same components as those in the first embodiment will be explained by giving the same reference numerals.
Description is omitted.

Next, the operation will be briefly described with reference to FIG. Since the lighting load La is connected in the normal state,
When the switching element Q ₁ is turned off, the smoothing capacitor C
The capacitor C ₁ is charged from H _{1 through the} inductance element L ₁ , the lighting load La, and the diode D ₁ . At this time, no current flows through the photo diode PCD ₁ and the photo transistor PCTr ₁ is turned off. When the switching element Q ₁ is turned on, the electric charge charged in the capacitor C ₁ is, the switching elements Q _1, resistors R _2, photodiode - is discharged through the de PCD _1. At this time, a current flows through the photo diode PCD ₁ and the photo transistor PCTr ₁ is turned on. This signal V _{1 is applied} to the counter circuit 5
Clock input signal V ₁ .

Time t₀As shown in FIG. 2 (a),
S₁Becomes L level and switching element Q₂Is off
Then, as shown in FIG. 3 (c), the signal V₁But n times (where n is
Until the on / off of the natural number) is repeated, Fig. 3 (d)
As shown in, the output of the counter circuit 5 is at the L level.
And the switching element Q_FourIs off, switching element Q
₃Turns on. At this time, V_C2Is resistance R_Four, R_Five, R₁₃of
It is determined by the partial pressure, and its value is constant as shown in Fig. 3 (e).
Set below the rating. Then, as shown in FIG.
Itching element Q₁ON time is shortened, lighting load L
Voltage V across a_LaIs lower than the rated voltage.

As shown in FIG. 3C, the signal V ₁ is transmitted n times (n
Is an arbitrary natural number), and is repeated at time t
_{At 1} , the output of the counter circuit 5 becomes H level as shown in FIG. 3D, the switching element Q ₄ is turned on, and the switching element Q ₃ is turned off. At this time, capacitor C
Voltage across V _C2 of ₂ is determined by the partial pressure of resistors R _4, R _5,
Moreover, as shown in FIG. 3E, the value is set to the rated value.
Then, as shown in FIG. 3 (b), rather than between time t ₀ ~t ₁ a longer ON time of the switching element Q _1, the voltage across V _La of the illumination load La reaches the rated voltage.

It should be noted that in an abnormal state such as no load, the first
The same operation as the circuit shown in the embodiment is performed.

(Third Embodiment) FIG. 4 shows a circuit diagram of a third embodiment according to the present invention.

The difference from the second embodiment shown in FIG. 2 is that the zener diode ZD ₃ , the resistor R ₁₅ , and the photo diode PCD _{2 of the} photo coupler PC ₂ are provided at both ends of the illumination load La.
Lamp voltage detection circuit 6 consisting of
The switching element Q _5, resistors R _12, diode - phototransistor PCTR ₂ of the photocoupler PC ₂ across the series circuit composed of the de D _5, resistors R _16, diode - that a series circuit consisting of de D ₁₀ connected in parallel Therefore, the same components as those of the second embodiment are denoted by the same reference numerals and the description thereof will be omitted.

Here, when the lighting load La performs the continuous blinking operation, the lighting load La has been warmed to some extent, so that the impedance of the lighting load La becomes large to some extent, and when the lighting load La lights up. The inrush current of is reduced. Therefore, the soft start function is unnecessary.
Therefore, in this embodiment, when the voltage across the illumination load La becomes a certain value or more (for example, the rated voltage), the soft start function can be stopped and the rise of the optical output of the illumination load La can be accelerated. is there.

Next, the operation will be briefly described. Lighting load La
When the voltage across both ends exceeds a certain value, Zener diode
ZD₃Is turned on and Photodiode PCD₂Current flows through
Phototransistor PCTr ₂Turns on. Soshi
Switching element Q_FourTurns on and switching element
Q₃Is turned off. Capacitor C₂Voltage V across_C2Is constant
It becomes the rated value, the soft start function is stopped, and the lighting load
Both-end voltage V of La_LaReaches the rated voltage.

(Embodiment 4) A circuit diagram of a fourth embodiment according to the present invention is shown in FIG.

The difference from the first embodiment shown in FIG.
A resistor R instead of the control unit 4a₇, R _{twenty one}~ R₂₇， Conden
SA C₃, Zener diode ZD₂, Switching element
Q₆~ Q_Ten, Photocoupler PC₁Photo of Transit
PCTr₁, Counter circuit 5, relay-RL₁Composed of and
And a power supply circuit 3 are provided.
Inductance element L₁SW in series between and₁With
And the same components as those of the other first embodiment are designated by the same reference numerals.
The description is omitted by adding.

Here, when the continuous lighting of the lighting load La is not necessary for a long time, in order to prevent the lighting load La from generating heat, the light output of the lighting load La after the lighting of the lighting load La for a certain period of time is surely stopped. There is a need. Therefore, in the present embodiment, a function of turning off the power supply line when the lighting load La is lit for a certain period of time is added.

When the lighting load La is in a normal state, the photocap
La PC₁Signal from the input signal to the counter circuit 5
V₁As a result, the counter circuit 5 is operated as
The output of the counter circuit 5 is set to H level and the switching element
Child Q₇To turn on the switching element Q₆Turn off. S
Itching element Q₆Is turned off, relay-RL₁Flow to
The current stopped, and SW₁Turn off. Lighting load La
In the abnormal state of, the phototraffic is performed as in the case of the first embodiment.
Register PCTr₁Turns off and the capacitor C ₃Both ends of
Voltage V_C3Rises, Zener diode ZD₂Turns on
You. And the switching element Q₈Is on and switch
Element Q₆Turn off. Switching element Q₆Is off
Then the relay R inductance element L₁The electricity that was flowing to
Flow stops, switch SW₁Turn off.

(Embodiment 5) A circuit diagram of a fifth embodiment according to the present invention is shown in FIG. 6, and a timing chart is shown in FIG.

The difference from the second embodiment shown in FIG. 2 is that a resistor R ₃₁ is connected between the base and emitter of the switching element Q ₄ , and a capacitor C ₄ and a Zener diode are connected across the resistor R _31. The series circuit of ZD ₄ is connected in parallel, and the series circuit of the phototransistor PCTr ₁ , the resistor R ₇ , and the capacitor C ₄ is connected in parallel to the output terminal of the power supply circuit 3, and the configuration shown in FIG.
As shown in (c), the switching elements Q ₁ , Q ₃ , and Q ₄ are controlled by the voltage V _C4 (= V ₁ ) across the capacitor C ₄ instead of the counter circuit 5. The same components as those in the second embodiment are designated by the same reference numerals and the description thereof will be omitted.

[0039]

According to the first aspect of the present invention, the detection means for detecting the state of the lighting load is provided with a simple structure, and the power supply to the lighting load can be stopped when the abnormal state of the lighting load is detected. It is also possible to provide a lighting device capable of protecting the switching element.

According to the second aspect of the present invention, the detection means for detecting the state of the lighting load is provided with a simple structure, and
It is possible to provide a lighting device capable of reducing the inrush current and protecting the switching element.

According to the third aspect of the invention, the detection means for detecting the state of the illumination load is provided with a simple structure, and
It is possible to provide a lighting device capable of reducing the inrush current and stopping the soft start function according to the state of the lighting load.

According to the invention described in claim 4, the detection means for detecting the state of the illumination load is provided with a simple structure, and
It is possible to provide a lighting device capable of reducing the inrush current and easily performing the blinking operation of the lighting load.

[Brief description of drawings]

FIG. 1 is a circuit diagram showing a first embodiment according to the present invention.

FIG. 2 is a circuit diagram showing a second embodiment according to the present invention.

FIG. 3 is a diagram showing a timing chart according to the embodiment.

FIG. 4 is a circuit diagram showing a third embodiment according to the present invention.

FIG. 5 is a circuit diagram showing a fourth embodiment according to the present invention.

FIG. 6 is a circuit diagram showing a fifth embodiment according to the present invention.

FIG. 7 is a diagram showing a timing chart according to the embodiment.

FIG. 8 is a circuit diagram showing a conventional example according to the present invention.

[Explanation of symbols]

 1 Control Section 2 Snubber Circuit 6 Lighting Load Voltage Detection Means La Lighting Load Q Switching Element SW Switch

Claims (4)

[Claims] 1. A lighting load, a switching element that is connected in series to the lighting load and that controls power supplied to the lighting load, a snubber circuit that is connected in parallel to both ends of the switching element, and the switching. In a lighting device including a control unit that controls an element, the snubber circuit includes a detection unit that detects an abnormal state of the lighting load, and the control unit includes an abnormal state of the lighting load by the detection unit. The illumination device is characterized in that the switching element is turned off upon detection of. 2. The control unit, in addition to the control unit according to claim 1, has a soft start function of gradually increasing the electric power supplied to the lighting load when the lighting load is started. A lighting device characterized by being present. 3. The lighting load is connected in parallel and
A lighting load voltage detecting means for detecting the lighting load voltage is provided, and the control section is provided in addition to that of claim 2.
A lighting device, wherein when the lighting load voltage detecting means detects that the lighting load voltage exceeds a certain value, the soft start function is stopped. 4. A switch that is connected in series to the lighting load is provided, and the control unit is provided with a switch according to any one of claims 1 to 3.
In addition to any of the above, the lighting device is characterized in that the switch is turned off when the lighting load is lit for a certain period of time.