JP3168575B2 - Noble gas discharge lamp lighting device - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION [Object of the Invention] (Industrial application field) The present invention relates to a rare gas discharge lamp lighting device for lighting, for example, a cold start type rare gas discharge lamp at high frequency.

(Prior Art) Conventionally, a rare gas discharge lamp lighting device shown in FIG. 4 is known. This connects a high frequency inverter circuit 2 to a DC power supply 1. The inverter circuit 2 is a pair of NPN type switching transistors 3, oscillation transformer 5, made from the resonance capacitor 6 and indane wardrobe element 7, the input winding 5 ₁ of each oscillation transformer 5 collector of each switching transistors 3 and 4 connecting the emitter connection to connect to the negative terminal of the DC power source 1 to each other, and based on each end of the base winding 5 ₃ each oscillation transformer 5 as well as connected to each end of the. The bases of the switching transistors 3 and 4 are connected to each other via resistors 8 and 9 respectively, and the connection point is connected to the positive terminal of the DC power supply 1 via an inductance element 7 and the oscillation transformer 5
It is connected to the center tap of the input winding 5 _1. Between both ends of the input winding 5 ₁ of the oscillation transformer 5 resonance capacitor 6 is connected.

And the output winding of the oscillation transformer 5 of the inverter circuit 2
5 ₂ first, connecting the second, rare gas discharge lamp 13 through the third current limiting capacitor 10, 11, 12. That is, the rare gas discharge lamp 13 has a pair of main electrodes 13 ₁ and 13 ₂ inside and an auxiliary electrode 14 for lowering the starting voltage on the tube wall.
One of the main electrodes 13 ₁ through a first current limiting capacitor 10 is connected to one end of the output winding 5 _second oscillating transformer 5, the other main electrode 13 ₂ via the third current limiting capacitor 12 of the oscillator connected to the other end of the output winding 5 ₂ of the transformer 5, and one end of the auxiliary electrode 14 through a second current limiting capacitor 11 is connected to one end of the output winding 5 _second oscillating transformer 5.

And the inverter circuit 2 is a switching transistor
Doing oscillation by alternately switching operation of the 3,4, oscillation transformer 5 output winding 5 ₂ high frequency voltage is generated from the Kakukiri diverted via the capacitor 10, 11, 12 rare gas discharge lamp 13
Is applied to

The rare gas discharge lamp 13 has a rare gas such as xenon of several torr enclosed in a tube, and the fluorescent lamp is excited by ultraviolet rays emitted from a positive column by glow discharge to emit visible light. The auxiliary electrode 14 has the function of attracting the positive column to the tube wall to excite the phosphor strongly and increase the amount of light emission.

In this conventional device, the voltage between the output terminals of the first and second current limiting impedance elements 10 and 11 is V ₁ , and the voltage between the output terminals of the second and third current limiting impedance elements 11 and 12 is V _2, each of the main electrodes 13 ₁ of noble gas discharge lamp 13, 13 when the voltage between ₂ and V _3, the voltages V _1, V _2, relationship V ₂ of V _3> V ₃
> It has been a V _1.

(Problems to be Solved by the Invention) However, as described above, the relationship among the voltages V ₁ , V ₂ , and V ₃ is V ₂ > V ₃ >
If a V _1, the main electrodes 13 ₁ of noble gas discharge lamp 13, 13 is the voltage V ₃ between ₂ becomes lower than the voltage V ₂ between the main electrodes 13 ₂ and the auxiliary electrode 14, and therefore FIG. 5 a problem that the light output becomes unstable is in the vicinity of the positive column B is particularly the main electrodes 13 ₁ generated by glow discharge hardly attracted to the auxiliary electrode 14 as shown in a portion a surrounded by a dotted circle frame to Was.

Therefore, the invention corresponding to claim (1) provides a voltage between the output terminals of the first and second current limiting impedance elements as V ₁ , second,
The voltage between the output terminals of the third current limiting impedance element is
V ₂ , when the voltage between the main electrodes of the rare gas discharge lamp is V ₃ ,
By selecting the impedance of each current-limiting impedance element so that the relationship among the voltages V ₁ , V ₂ , and V ₃ always becomes V ₃ > V ₂ > V ₁ , the positive column generated by glow discharge is used as the auxiliary electrode. It is an object of the present invention to provide a rare gas discharge lamp lighting device which can be reliably drawn and can always obtain a stable light output.

The invention according to claim (2) is also capable of reliably attracting a positive column generated by a glow discharge to an auxiliary electrode in each of the discharge lamps even in a case of lighting a plurality of rare gas discharge lamps, so that the light output is always stable. And a rare gas discharge lamp lighting device capable of reducing the number of current limiting impedance elements to be used.

[Structure of the Invention] (Means for Solving the Problems) According to a first aspect of the present invention, there is provided a high-frequency inverter circuit having a switching element and an oscillation transformer, and a pair of main electrodes provided inside and an auxiliary electrode provided on a tube wall. A first current limiting impedance element connected between one main electrode of the rare gas discharge lamp and one end of the output winding of the oscillation transformer, an auxiliary electrode and the oscillation transformer. A second current-limiting impedance element connected between the one end of the output winding of the second and the first current-limiting impedance element as viewed from the output winding, and the other of the rare gas discharge lamp , And a third current limiting impedance element connected between the main electrode of the oscillation transformer and the other end of the output winding of the oscillation transformer. The voltage between the output terminals of the first and second current limiting impedance elements is V ₁ , Second, The voltage between the output terminals of the third current limiting impedance element V _2, noble when the voltage between the main electrodes of the gas discharge lamp has a V _3, the voltages V _1, V _2, the relationship of V ₃ is V ₃
> V ₂ > V ₁ and the impedance of each of the current limiting impedance elements is selected such that most of the positive column is attracted to the auxiliary electrode.

According to a second aspect of the present invention, there is provided a high-frequency inverter circuit having a switching element and an oscillating transformer, a plurality of rare gas discharge lamps having a pair of main electrodes provided therein and an auxiliary electrode attached to a tube wall. A plurality of first current-limiting impedance elements respectively connected between one main electrode of each rare gas discharge lamp and one end of an output winding of the oscillation transformer, an auxiliary electrode of each rare gas discharge lamp and an oscillation transformer; The first terminal in common with one end of the output winding and viewed from the output winding;
And a second current limiting impedance element connected in parallel to the current limiting impedance element, and a second current limiting impedance element connected between the other main electrode of each rare gas discharge lamp and the other end of the output winding of the oscillation transformer. In each rare gas discharge lamp, the voltage between the output terminals of the first and second current limiting impedance elements is V ₁ , and the voltage between the output terminals of the second and third current limiting impedance elements is the voltage between the output terminals V _2, when the voltage between the main electrodes of the rare gas discharge lamp has a V _3, the voltages V _1, V _2, the relationship of V ₃ is V _3> V _2> V _1, and the In addition, the impedance of each of the current limiting impedance elements is selected so that most of the positive column is attracted to the auxiliary electrode.

(Operation) In the invention corresponding to claim (1), when the high-frequency inverter circuit starts the oscillating operation, a high-frequency voltage is applied between each main electrode and the auxiliary electrode of the rare gas discharge lamp. The relationship between the voltage V ₁ between the output terminals of the second current limiting impedance element, the voltage V ₂ between the output terminals of the second and third current limiting impedance elements, and the voltage V ₃ between the main electrodes of the rare gas discharge lamp is as follows. Since V ₃ > V ₂ > V ₁ , the positive column generated by the glow discharge is about to be present in the shortest path between the main electrodes, so that it is reliably drawn to the auxiliary electrode.

In the invention according to claim (2), when the high-frequency inverter circuit starts the oscillating operation, a high-frequency voltage is applied between the main electrodes and the auxiliary electrodes of each rare gas discharge lamp. , The voltage V ₁ between the output terminals of the _first and second current limiting impedance elements, the voltage V ₂ between the output terminals of the second and third current limiting impedance elements, and the voltage between the main electrodes of the rare gas discharge lamp. the relation of V ₃ is _{V 3> V 2> V 1} , positive column generated by glow discharge even this case would be reliably attracted to the auxiliary electrode because it will be present in the shortest path between the main electrodes .

Hereinafter, an embodiment of the present invention will be described with reference to the drawings.

As shown in FIG. 1, a DC power supply 21 is connected to a high-frequency inverter circuit 22.

The inverter circuit 22 includes a pair of NPN type switching transistors 23 and 24, an oscillation transformer 25, and a resonance capacitor 26.
And consists indane chest element 27, the negative terminal of the DC power supply 21 by connecting the emitter with one another as well as connected to each end of the input winding 25 ₁ of each of the oscillation transformer 25 collectors of the switching transistors 23 and 24 Connected. The switching transistors 23, 24
And the base was connected to each end of the base winding 25 ₃ of the oscillation transformer 25.

The bases of the switching transistors 23 and 24 are also connected to each other via resistors 28 and 29, respectively, and the connection point is connected to the DC power supply 21 via the inductance element 27.
It is connected to the center tap of the input winding 25 ₁ of the oscillation transformer 25 is connected to the positive terminal of the.

The resonant capacitor 26 is connected across the input winding 25 ₁ of the oscillation transformer 25.

The oscillation transformer 25 in the inverter circuit 22
The first is the output winding 25 ₂ two Period diverted impedance element, connecting the second, third noble gas discharge lamp 33 through a current limiting capacitor 30, 31 and 32. That said rare gas discharge lamp 33 is additionally provided an auxiliary electrode 34 for reducing the starting voltage to the tube wall is provided with the main electrodes 33 _1, 33 ₂ a pair of inside, the first one of the main electrodes 33 ₁ through one of the current limiting capacitor 30 is connected to one end of the output winding 25 ₂ of the oscillation transformer 25,
Other and the main electrode 33 ₂ via the third current limiting capacitor 32 is connected to the other end of the output winding 25 ₂ of the oscillation transformer 25. Further, one end of the auxiliary electrode 34 is connected to the output winding 25 of the oscillation transformer 25 through the second current limiting capacitor 31.
₂ is connected to one end. That is, the second current limiting capacitor 31 is connected in parallel to the output winding 25 ₂ viewed from the first current limiting capacitor 30 of the oscillation transformer 25.

The voltage between the output terminals of the first and second current limiting capacitors 30 and 31 is V ₁ , the voltage between the output terminals of the second and third current limiting capacitors 31 and 32 is V ₂ , Discharge lamp 33
When the voltage between the main electrodes 33 ₁ and 33 ₂ is V ₃ , each of the current-limiting capacitors is set such that the relationship among the voltages V ₁ , V ₂ and V ₃ satisfies V ₃ > V ₂ > V _1. 30, 31, and 32 impedances are selected.

In the present embodiment having such a configuration, when the inverter circuit 22 starts the oscillating operation by the alternate switching operation of the switching transistors 23 and 24, the oscillating transformer
High frequency voltage is applied to a rare gas discharge lamp 33 via the Kakukiri diverted capacitor 30, 31 and 32 generated from the output winding 25 ₂ of 25.

At this time, the voltage V ₁ between the output terminals of the first and second current limiting capacitors 30 and 31, the second and third current limiting capacitors 31 and 32,
The voltage V ₂ between the output terminals of each of the main electrodes 33 ₁ ,
Since the relationship of the voltage V ₃ between the electrodes 33 ₂ is V ₃ > V ₂ > V ₁ , the positive column B generated by the glow discharge tries to exist in the shortest path between the main electrodes 33 ₁ and 33 ₂ , and the second Main electrode as shown
Also it is attracted reliably to the auxiliary electrode 34 in 33 ₁ neighborhood. Accordingly, the fluorescent material is strongly excited by the ultraviolet rays emitted from the positive column B, and the discharge lamp 33 can output stable light without fluctuation.

Next, another embodiment of the present invention will be described with reference to the drawings.
The same parts as those in the above embodiment are denoted by the same reference numerals, and detailed description thereof will be omitted.

This is because the two rare gas discharge lamps 35 and 36 shown in FIG.
The rare gas discharge lamp 35 has a pair of main electrodes 35 inside.
_1, 35 tubes with ₂ additionally provided an auxiliary electrode 37 for reducing the starting voltage to the tube wall with the provision, and the other rare gas discharge lamp 36 the main electrode 36 ₁ of the pair inside, 36 ₂ provided An auxiliary electrode 38 for lowering the starting voltage is provided on the wall.

Then, one main electrode 35 ₁ of the one rare gas discharge lamp 35
It was connected to one end of the output winding 25 ₂ of the oscillation transformer 25 via one of the first current limiting capacitor 39, the oscillation transformer other main electrode 35 ₂ through one of the third current limiting capacitor 41 It is connected to the other end of the output winding 25 ₂ of 25. Also connected to one end of the output winding 25 ₂ of the oscillation transformer 25 one end of the auxiliary electrode 37 through a second current limiting capacitor 40.

Also connected to one end of the output winding 25 ₂ of the oscillation transformer 25 of the main electrode 36 ₁ via another first current limiting capacitor 42 of the other rare gas discharge lamp 36, the other main electrode 36 ₂ via another third current limiting capacitor 43 is connected to the other end of the output winding 25 ₂ of the oscillation transformer 25. One end of the auxiliary electrode 38 is connected to the output winding of the oscillation transformer 25 through the second current limiting capacitor 40 in common.
25 ₂ Connected to one end.

The voltage between the output terminals of the first and second current limiting capacitors 39 and 40 corresponding to the rare gas discharge lamp 35 is V ₁ ′, and the voltage between the output terminals of the second and third current limiting capacitors 40 and 41 is the voltage V ₂ when ', the voltage between the main electrodes 35 _1, 35 ₂ of the rare gas discharge lamp 35 V _3' was, the respective voltages V ₁ ', V _2', the relationship between V ₃ ' The impedances of the current limiting capacitors 39, 40, 41 are selected so that V ₃ ′> V ₂ ′> V ₁ ′.

The voltage between the output terminals of the first and second current limiting capacitors 42 and 40 corresponding to the rare gas discharge lamp 36 is V ₁ ″, and the voltage between the output terminals of the second and third current limiting capacitors 40 and 43 is the voltage V ₂ when ", the voltage between the main electrodes 36 _1, 36 ₂ of the rare gas discharge lamp 36 V _3" was, the respective voltages V ₁ ', V _2', the relationship between V ₃ " the way a _{V 3 "> V 2">} V 1 " is selected impedance of each current limiting capacitor 42,40,43.

Also in the present embodiment, the first and second rare gas discharge lamps 35 are used.
The voltage between the output terminals of the second current limiting capacitors 39 and 40
The relationship between V ₁ ′, the voltage V ₂ ′ between the output terminals of the second and third current limiting capacitors 40 and 41, and the voltage V ₃ ′ between the main electrodes 35 ₁ and 35 _{2 of} the rare gas discharge lamp 35 is V _{Since 3} ′> V ₂ ′> V ₁ ′, the positive column generated by the glow discharge is reliably drawn to the auxiliary electrode 37 as in the previous embodiment, and the discharge lamp 35 outputs stable light without fluctuation. You can do it. For the rare gas discharge lamp 36, first and second current limiting capacitors 42, 4
0 voltages V ₁ between the output terminals of the "second, third voltage V ₂ between the output terminals of the current limiting capacitor 40 and 43 ', each of the main electrodes 36 ₁ of noble gas discharge lamp 36, 36 voltage between ₂ V ₃ "relationship V ₃ of"> V ₂ ">
V ₁ ″, also in this discharge lamp, the positive column generated by the glow discharge is reliably attracted to the auxiliary electrode 38 as in the previous embodiment, and the discharge lamp 36 can output stable light without fluctuation. Become.

Also, the second current limiting capacitor 40 is connected to two rare gas discharge lamps.
Since it is commonly used for 35 and 36, the number of current limiting capacitors to be used can be reduced, miniaturizing the circuit,
Cost reduction can be achieved. In this case, since the second current limiting capacitor 40 does not act to adjust the current of the discharge lamp, there is no possibility that the characteristics of the discharge lamp will be affected even if the second current limiting capacitor 40 is commonly used for the discharge lamps 35 and 36.

In this embodiment, the description has been given of the case where two discharge lamps are used. However, the present invention is not necessarily limited to this, and three or more discharge lamps may be used. Is fine.

In each of the above embodiments, the case where a capacitor is used as a current limiting impedance element has been described. However, it is needless to say that the present invention is not necessarily limited to this.

[Effects of the Invention] As described above in detail, according to the present invention, the voltage between the output terminals of the first and second current limiting impedance elements is set to V ₁ , and the output terminals of the second and third current limiting impedance elements are set. the voltage between V _2, when the voltage between the main electrodes of the rare gas discharge lamp has a V _3, the voltages V _1, V _2, the relationship of V ₃ always V _3> V _2> V ₁ and so as By selecting the impedance of each current limiting impedance element, the positive column generated by the glow discharge attempts to exist in the shortest path between the main electrodes, so that it can be reliably drawn to the auxiliary electrode and always provide a stable light output. It is possible to provide a rare gas discharge lamp lighting device that can be obtained.

Further, even in the case of lighting a plurality of rare gas discharge lamps, the positive column generated by the glow discharge in each discharge lamp can be reliably drawn to the auxiliary electrode, so that a stable light output can always be obtained and used. An object of the present invention is to provide a rare gas discharge lamp lighting device capable of reducing the number of current limiting impedance elements.

[Brief description of the drawings]

FIG. 1 is a circuit diagram showing one embodiment of the present invention, FIG. 2 is a diagram showing the occurrence of a positive column in the rare gas discharge lamp of the embodiment, and FIG. 3 is another embodiment of the present invention. 4 and 5 show a conventional example, FIG. 4 is a circuit diagram, and FIG. 5 is a diagram showing a generation state of a positive column in a rare gas discharge lamp. 22 High frequency inverter circuit 23,24 Switching transistor 25 Oscillation transformer 30,39,42 First current limiting capacitor 31,40 Second current limiting capacitor 32,41 , 43… Third condenser for current limiting, 33, 35, 36… Noble gas discharge lamp.

──────────────────────────────────────────────────続 き Continuation of front page (58) Field surveyed (Int. Cl. ⁷ , DB name) H05B 41/24

Claims (2)

(57) [Claims] A high-frequency inverter circuit having a switching element and an oscillating transformer; a rare gas discharge lamp having a pair of main electrodes provided therein and an auxiliary electrode provided on a tube wall;
A first current-limiting impedance element connected between one main electrode of the rare gas discharge lamp and one end of an output winding of the oscillation transformer; and an auxiliary electrode and one end of an output winding of the oscillation transformer. And a second current limiting impedance element connected in parallel with the first current limiting impedance element as viewed from the output winding, the other main electrode of the rare gas discharge lamp, and the oscillation A third current limiting impedance element connected between the other end of the output winding of the transformer and a voltage between the output terminals of the first and second current limiting impedance elements being V ₁ , the second, When the voltage between the output terminals of the third current limiting impedance element is V ₂ , and the voltage between the main electrodes of the rare gas discharge lamp is V ₃ , each voltage V ₁ ,
The relationship between V ₂ and V ₃ is V ₃ > V ₂ > V ₁ , and the impedance of each current limiting impedance element is selected so that most of the positive column is attracted to the auxiliary electrode. Noble gas discharge lamp lighting device. 2. A high-frequency inverter circuit having a switching element and an oscillating transformer, a plurality of rare gas discharge lamps having a pair of main electrodes provided therein and auxiliary electrodes attached to a tube wall, and a plurality of rare gas discharge lamps. A plurality of first current limiting impedance elements respectively connected between one main electrode and one end of an output winding of the oscillation transformer; an auxiliary electrode of each rare gas discharge lamp; and an output winding of the oscillation transformer. And a second current-limiting impedance element connected in common to one end of the rare-gas discharge lamp and connected in parallel to the first current-limiting impedance element as viewed from the output winding. A plurality of third current limiting impedance elements respectively connected between the electrode and the other end of the output winding of the oscillation transformer, and a first and a second current limiting impedance in each of the rare gas discharge lamps. The voltage between the output terminals of the dance element
V ₁ , the voltage between the output terminals of the second and third current limiting impedance elements is V ₂ , and the voltage between the main electrodes of the rare gas discharge lamp is V ₃ , the respective voltages V ₁ , V ₂ , the relationship of V ₃ is V _3> V _2>
V ₁ becomes ,, and rare gas discharge lamp lighting apparatus, wherein a majority of the positive column and adapted to select an impedance of the respective current limiting impedance element to be attracted to the auxiliary electrode.