JPH081839B2 - Discharge lamp lighting device - Google Patents

Description

Description: BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a discharge lamp lighting device, and more particularly to a circuit configuration suitable for obtaining a highly efficient and low cost discharge lamp lighting device.

[Background of the Invention]

As a conventional example of the discharge lamp lighting value, there is a device shown in FIG. 1 in Japanese Patent Laid-Open No. 58-161297 as shown in FIG.

In the conventional device of FIG. 1, 1 is an AC power supply, 2 is a full-wave rectifier, 3 is a constant current reactor, 4 and 5 are base resistors, 6
And 7 are transistors, 8 is a resonance capacitor, 9 is primary windings 9a and 9b, feedback winding 9c, preheating windings 9d and 9f, and secondary winding 9
e is a transformer, 10 is a discharge lamp, and 11 is a smoothing capacitor. The operation will be briefly described. When the AC power supply 1 is turned on, it is converted into DC by the full-wave rectifier 2 and the base resistance 4
The bases of transistors 6 and 7 are positively biased through and 5. Then, due to a slight variation in the characteristics of the transistors 6 and 7, one of the transistors is turned on. When one of the transistors is turned on, a voltage is generated in the primary windings 9a and 9b of the transformer 9 and the feedback winding 9c, and the feedback signal is fed back to the transistors 6 and 7 to start oscillation. After that, the oscillation is continued at a frequency substantially determined by the inductance of the primary side of the transformer 9 and the value of the resonance capacitor 8. At this time, a no-load secondary voltage is generated on the secondary side of the transformer 9, and a preheating current flows through a pair of filaments of the discharge lamp 10 to light the discharge lamp 10.

However, in order for the above circuit to continue the operation stably, it is necessary to supply a base current of 1 / h _FE or more of the collector current to the bases of the transistors 6 and 7 through the base resistors 4 and 5. Therefore, there is a problem that the power consumption in the base resistors 4 and 5 is large, the circuit efficiency is lowered, and the reliability is lowered due to the temperature rise of the circuit element when incorporated in the housing. In addition, there are problems that the structure and the process are complicated by taking measures such as mounting a heat sink to suppress the rise of the element temperature, and the cost is increased by increasing the temperature grade of the element.

[Object of the Invention]

An object of the present invention is to reduce the power consumption of the discharge lamp lighting device as compared with the conventional one.

[Outline of Invention]

The gist of the present invention has an inverter circuit configured to perform an oscillating operation by supplying a feedback signal to one terminal of a switching element, and the output of the inverter circuit is connected to the primary side of a transformer, A discharge lamp lighting device, comprising: a discharge lamp connected to a secondary side of the transformer, wherein the feedback signal is supplied to the one terminal via the discharge lamp. It is in.

Example of Invention

According to the embodiment of the present invention, the source of the base current of the transistor, which is indispensable for the stable and continuous oscillation, is obtained via the discharge lamp and the discharge lamp filament, so that the power consumption in the base resistance can be reduced. Conventionally, after rectifying the current from the AC power source, the base current was supplied from the high-voltage section through the resistor, so the current consumption at this resistor was large, but according to this embodiment, the base current is supplied from the low-voltage section. Its current consumption for supply can be reduced.

 Embodiments of the present invention will be described below with reference to the drawings.

FIG. 2 shows an embodiment of the present invention. 10 in FIG.
a and 10b are a pair of filaments of the discharge lamp 10, 12 is a starting resistance, 15 is a constant voltage diode, 16 is a capacitor, 17 and 1
Reference numeral 8 is a base resistor, 19 is a rectifier circuit, and the same reference numerals as those in FIG. 1 denote the same or equivalent portions.

When the AC power supply 1 is turned on, it is converted into direct current by the full-wave rectifier 2 and the smoothing capacitor 11, and the bases of the transistors 6 and 7 are positively biased via the starting resistor 12 and the base resistors 17 and 18. Then, due to a slight variation in the characteristics of the transistors 6 and 7, one of the transistors is turned on. When one of the transistors is turned on, a voltage is generated in the primary windings 9a and 9b of the transformer 9 and the feedback winding 9c, and the feedback signal is transmitted to the transistor 6
By starting to oscillate by being fed back to 7 and 7, a voltage is also generated in one preheating winding 9f of the transformer 9,
A current flows through one filament 10b of the discharge lamp 10 and the rectifier circuit 19 to charge the capacitor 16,
Is charged above a certain voltage, the base resistors 17 and 18
A base current is supplied to the bases of the transistors 6 and 7 via the to maintain stable oscillation. In this state, no-load secondary voltage is generated in the secondary winding 9e of the transformer 9, and the discharge lamp
Preheating current also flows through the other filament 10a of 10,
The discharge lamp 10 lights up. After lighting, the base current is supplied to the bases of the transistors 6 and 7 through the discharge lamp 10, the rectifier circuit 19 and the base resistors 17 and 18, and the stable operation is continued. In addition, a constant voltage diode 15 is placed across the capacitor 16.
By connecting with, a stable base current can be supplied even if the power supply voltage or the like fluctuates.

As described above, according to the present embodiment, the starting resistor 12 connected to the high voltage part may flow a minute current necessary for performing the oscillation cutoff, and most of the base current is at both ends of the capacitor 16. Since it is supplied from the low voltage part, the power loss in the base resistance can be made extremely small.

In the embodiment shown in FIG. 2, the same effect can be obtained even if the rectifier circuit 19 is a full-wave rectifier or a half-wave rectifier. Further, as shown in FIG. 3, the same effect can be obtained by replacing the rectifier circuit 19 and the constant voltage diode 15 in FIG. 2 and connecting the constant voltage diode 20 and the diode 21. A device with a small score can be obtained.

Also, adjust the number of windings of the preheating windings 9d and 9f of the transformer 9, or insert an appropriate impedance element between the intermediate tap on the side of the preheating winding 9d on the secondary side of the transformer 9 and the filament 10a of the discharge lamp 10. And then the filament 10 of the discharge lamp 10
By balancing the preheating currents flowing through a and 10b, preheating imbalance can be prevented.

As described above, according to the embodiment of the present invention, the bias current is supplied by supplying the base current of the transistor of the discharge lamp lighting device through one of the preheating windings of the transformer and one filament of the discharge lamp. It is possible to suppress power consumption in the circuit, improve efficiency, and suppress excessive heat generation. As a result, the temperature rise in the housing of the discharge lamp lighting device can be reduced, and the reliability of the device is improved.

〔The invention's effect〕

According to the present invention, the power consumption of the discharge lamp lighting device can be made smaller than before.

[Brief description of drawings]

FIG. 1 is a circuit diagram illustrating a circuit configuration of a conventional discharge lamp lighting device, FIG. 2 is a circuit diagram showing an embodiment of the present invention, and FIG. 3 is a circuit diagram showing another embodiment of the present invention. Is. 9 ... Transformer, 10 ... Discharge lamp, 15 ... Constant voltage diode, 16 ... Capacitor, 17 ... and 18 ... Base resistance,
19 ... Rectifier circuit, 20 ... Constant voltage diode, 21 ... Diode.

Claims (1)

[Claims] 1. An inverter circuit configured to perform an oscillating operation by supplying a feedback signal to one terminal of a switching element, the output of the inverter circuit being connected to a primary side of a transformer, A discharge lamp lighting device, comprising a discharge lamp connected to a secondary side of a transformer, wherein the feedback signal is supplied to the one terminal via the discharge lamp.