JP3026990B2 - Pulse start type discharge lamp lighting device - Google Patents

Description

Description: TECHNICAL FIELD The present invention relates to a pulse starting discharge lamp lighting device used for starting a discharge lamp such as a high-pressure sodium lamp or a multi-halogen lamp.

(Prior art) Discharge lamps such as high-pressure sodium lamps and multi-halogen lamps
It is necessary to apply a high-voltage pulse at startup.

Conventionally, there is a pulse start type discharge lamp lighting device used for this type of discharge lamp as shown in FIG. 3 or FIG.

In FIG. 3, 1 is an AC power supply, 2 is a discharge lamp, 3 is a ballast unit, and 4 is a pulse stop circuit. The ballast section 3 is composed of a choke coil 5, capacitors 6, 7, a triac 8,
A trigger element 9, a resistor 10, a power factor improving capacitor 11, and the like are provided. The pulse stop circuit 4 includes a current transformer 12, a transistor 13, a diode bridge 14, and the like.

In this lighting device, when starting the discharge lamp 2, first, the triac 8 is triggered and turned on by the trigger element 9 at a certain phase of the power supply voltage (200V AC). When the triac 8 is turned on, the electric charge of the capacitor 6 is discharged,
Triac 8, capacitor 11, 1 of choke coil 5
Winding 5a, circuit discharge current I _c flows through a capacitor 6, the voltage to the primary winding 5a of the choke coil 5 is induced, wound between the voltage primary winding 5a and the secondary winding 5b The pulse voltage required for starting the discharge lamp 2 is obtained by increasing the voltage by the line ratio. Incidentally, the pulse voltage is between 2000 V and 5 V, as shown in FIG.
It is about 000 V, and the pulse width is 0.5 ms or less.

When the discharge lamp 2 starts and lights by applying a pulse voltage,
The current transformer 12 detects the lighting current, and the transistor 13,
The operation of the triac 8 is stopped via the diode 14.

The lighting device of FIG. 4 is provided with a starter unit 16 without the pulse generating circuit of the choke coil 15. Starter section
16 is a pulse generation transformer 17, SSS element 18, capacitor 1
9, equipped with a resistor 20.

In this lighting circuit, the SSS element 18 is turned on at a certain phase of the power supply voltage (200 V AC), and the capacitor 19 flows the discharge current ic. Therefore, the pulse generating transformer 17 operates in the same manner as in FIG. As shown in FIG. 6, a pulse voltage having a pulse width of several μs or less is generated and applied to the discharge lamp 2. When the discharge lamp 2 starts and lights up, the discharge lamp voltage becomes 200 V
To about 130 V, so that the SSS element 18 does not turn on.

(Problems to be Solved by the Invention) In the lighting device shown in FIG. 3, a ballast unit 3 generates a pulse voltage of 2000 V to 5000 V and applies the pulse voltage to the discharge lamp 2. If the lamp circuit connecting the ballast unit 3 and the discharge lamp 2 is not long, the attenuation of the pulse voltage becomes a problem, and the length of the lamp circuit is limited to about 15 m to 30 m. Further, since a high-voltage pulse voltage is applied via the tube lamp circuit, insulation against high voltage becomes difficult.

In the lighting device shown in FIG. 4, the pulse voltage is generated by the starter unit 16 attached to or near the appliance main body accommodating the discharge lamp 2, so that the problem shown in FIG. 3 can be solved.
However, in this configuration, the pulse generating transformer 17 must be increased in order to increase the pulse width, and therefore, there is a disadvantage that the pulse width cannot be sufficiently secured because the pulse generating transformer 17 becomes too large.

In view of such a conventional problem, the present invention provides a pulse-starting discharge lamp in which a low-voltage pulse voltage having a relatively low pressure and a wide pulse width and a high-voltage pulse voltage having a narrow pulse width are superimposed and can be applied to the discharge lamp. A lighting device is provided.

(Means for Solving the Problems) The present invention is a starter unit 21 which generates a high pulse voltage P ₁
When a relatively low pressure and a ballast unit 22 which generates a wide low-pressure pulse voltage P ₂ pulse width, the ballast unit actuates the starter unit 16 by the low-pressure pulse voltage P ₂ of the ballast portion 22 22
High voltage pulse voltage P ₁ of starter unit 21 to low voltage pulse voltage P ₂
Are connected to the discharge lamp 2 so that the starter unit 21 and the ballast unit 22 are superimposed and applied to the discharge lamp 2.

(Operation) When the discharge lamp 2 is started, the ballast unit 22 generates a low-voltage pulse voltage P ₂ having a relatively low pressure and a wide pulse width, and applies the low-voltage pulse voltage P ₂ to the starter unit 21. It is operated to generate a high pulse voltage P ₁ in. Then, it applied to the discharge lamp 2 by superimposing the low-pressure pulse voltage P ₂ of the ballast portion 22 and the high-voltage pulse P ₁ of the starter unit 21. Accordingly, pulse attenuation in the lamp circuit is not a problem, and the lamp circuit can be lengthened and the problem of insulation resistance can be solved. Also,
A sufficient pulse width can be ensured while reducing the size of the starter unit 21.

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

Pulse-start discharge lamp lighting device according to the present invention, as shown in FIG. 1, a starter unit for generating a high-voltage pulse P ₁
21, relatively low pressure and a ballast unit 22 which generates a wide low-pressure pulse voltage P ₂ pulse width, the ballast unit actuates the starter 21 by a low-pressure pulse voltage P ₂ of the ballast portion 22
22 of the high pressure pulse voltage of the low-pressure pulse voltage P ₂ in the starter section 21
The starter unit 21 is arranged so that P ₁ is superimposed and applied to the discharge lamp 2.
And the ballast section 22 are connected to the discharge lamp 2.

The components of the ballast section 22 and the components of the starter section 21 are the same as those of the prior art shown in FIGS. 3 and 4, except that the ballast section 22 has 0, as shown in FIG. −P 1000V
And generates a large low-pressure pulse voltage P ₁ pulse width in a relatively low pressure of about width 0.5Ms～1.0Ms. The starter unit 21 is adapted to turn on the SSS element 18 by a low-pressure pulse voltage P ₂ of the ballast unit 22, the pulse width to generate a high-voltage pulse P ₁ of 2μs or less.

When power is applied to 1 when the discharge lamp 2 starts, first ballast portion 22 generates a low pulse voltage P _2, the low-pressure pulse voltage
P ₂ is applied to the starter unit 21. Then, the capacitor 19 is charged, and when the charge reaches the breakover voltage of the SSS element 18, the capacitor 19 is turned on and the capacitor 19 is discharged.
Pulse generating transformer 17 generates a high-voltage pulse P _1.
Then superposed with these low pulse voltage P ₂ and the high-voltage pulse voltage P ₁ is, the pulse width is further superimposed pulse voltage becomes high pressure pulse voltage wide is applied to the discharge lamp 2. Therefore, even when the discharge lamp 2 requires a high voltage of about 0-P 5000V to 10,000V, it can be reliably started.

The breakover voltage of the SSS element 18 can be set only at 220V 0-P in the case of a 200V AC power supply.
Can be set to a higher voltage by the low-pressure pulse voltage height P ₂ of 22, it is possible to increase the di / dt of the discharge current _ic. Therefore, it is possible to obtain a high voltage by increasing the primary winding voltage while reducing the pulse generating transformer 17. This makes it easy to assemble into the instrument body,
It is particularly effective when a high voltage of about 10 KV to 40 KV is required, such as an instant restart type lighting device.

With this configuration, ballast unit 22 to generate a wide low-pressure pulse voltage P ₂ of a pulse width, to be applied to the discharge lamp 2 which the superimposed high-pressure pulse voltage P ₁ of the starter unit 21, the starter unit There is no need to generate a voltage having a wide pulse width at 21, and the starter unit 21 can be downsized. Also allowed to relatively generate low pressure of the low-pressure pulse voltage P ₂ in ballast unit 22, the low-pressure pulse voltage P ₂ for superimposing a high-voltage pulse P ₁ in the starter section 21, a conventional ballast portion 3 As compared with the case where a high-voltage pulse voltage is generated, the problems of the attenuation of the pulse voltage in the lamp circuit and the insulation resistance of the lamp circuit can be solved.

Note that the starter unit 21 may use a triac or the like instead of the SSS element 18.

According to the present invention (Effect of the Invention), provided with a starter unit 21 for generating a high-voltage pulse P _1, and a ballast unit 22 which generates a wide low-pressure pulse voltage P ₂ pulse widths at a relatively low pressure, stable the low-pressure pulse voltage P ₂ of the vessel portion 22 as high-voltage pulse P ₁ of the starter unit 21 to the low-pressure pulse voltage P ₂ of the ballast unit 22 actuates the starter 16 is superimposed is applied to the discharge lamp 2, Since the starter unit 21 and the ballast unit 22 are connected to the discharge lamp 2,
It is possible to solve the problems of the attenuation of the pulse voltage in the tube lamp circuit and the insulation resistance of the tube lamp circuit, and to reduce the size of the starter unit 21.

[Brief description of the drawings]

1 is a circuit diagram showing one embodiment of the present invention, FIG. 2 is a waveform diagram thereof, FIGS. 3 and 4 are circuit diagrams showing a conventional example, and FIG.
FIG. 6 and FIG. 6 are waveform diagrams. 2 ... discharge lamp, 21 ... starter part, 22 ... ballast part, P ₁
…… High voltage pulse voltage, P ₂ …… Low voltage pulse voltage.

Claims (1)

(57) [Claims] A starter section (21) for generating a high-voltage pulse voltage (P ₁ ); and a ballast section (22) for generating a low-voltage pulse voltage (P ₂ ) having a relatively low pressure and a wide pulse width. Starter section (16) by low-voltage pulse voltage (P ₂ ) of ballast section (22)
As applied to high-voltage pulse (P ₁₎ is superimposed discharge lamp of the low pressure pulse voltage (P ₂₎ to the starter section (21) of the ballast portion (22) actuates (2), the starter unit ( Two
A pulse-start type discharge lamp lighting device, wherein 1) and a ballast section (22) are connected to a discharge lamp (2).