JPS61256595A - Hot cathode discharge lamp driving circuit - Google Patents

Abstract

(57) [Summary] This bulletin contains application data before electronic filing, so abstract data is not recorded.

Description

DETAILED DESCRIPTION OF THE INVENTION [Field of Industrial Application] The present invention relates to improvements in starting a hot cathode discharge lamp at low voltage and extending battery life in a hot cathode discharge lamp drive circuit.

[Summary of the invention]

The present invention improves υ low-voltage starting in a hot cathode discharge lamp circuit by applying a voltage boosted and stabilized by a DC-DC converter circuit to the filament only at the time of starting the hot cathode discharge lamp. This improves the overall efficiency of the circuit and the effective use of batteries. In addition, in the hot cathode discharge lamp circuit, a circuit for detecting the discharge state at the time of starting and a voltage from the DC-DC converter circuit are turned ON and OFF.
The discharge state of the hot cathode discharge lamp is detected by a discharge state detection circuit, and when the hot cathode discharge lamp is in a glow discharge or non-discharge state, the boost stabilization from the DC-DC converter circuit is provided. ONI the voltage.

Heat the filament. When the arc discharge state occurs, D
Turn off the voltage from the C-DC converter circuit. In this way, except when the hot cathode discharge lamp starts lighting, the DC
- Since the DC converter circuit does not work and the starting battery voltage can be lowered, the life of the battery can be reduced.

[Conventional technology]

A conventional hot cathode discharge lamp drive circuit is shown in FIG.

1 is a battery, and 2 is a DC-AC inverter circuit, which drives the hot cathode discharge lamp by changing the power supply voltage to a voltage necessary for discharging the lamp. 5 is a DC-DC converter circuit that boosts and stabilizes the battery voltage. 6 is a hot cathode discharge lamp, 7 is an anode, and 8 is a filament.

To light up the hot cathode discharge lamp 6, a certain voltage is applied to the filament 8 of the hot cathode discharge lamp B to heat it, and an output from a DC-AC inverter circuit is applied between the anode 7 and the filament 8. Let it discharge. In the conventional circuit, D
The power supply voltage is supplied to the hot cathode discharge lamp 6 using the C-AC inverter circuit 2.
If a part of the oscillation voltage is applied to the filament 8 of the hot cathode discharge lamp 6 with the voltage required for starting and driving the lamp, the voltage of the battery 1 may drop or the power supply voltage may be unstable. Lighting could not be started because the filament 8 was not sufficiently heated. Therefore, in order to apply a stable voltage to the DC-AC inverter circuit 2 even if the voltage of the battery 1 drops, the battery voltage is boosted and stabilized by the DC-DC converter and circuit 5, and then the voltage is applied to the DC-AC inverter circuit 2. In addition, the hot cathode discharge lamp 6 was being driven. Then, in order to heat the filament 8 of the hot cathode discharge lamp 6, D
A part of the oscillation voltage of the C-AC inverter circuit 2 was applied to the filament 8.

[Problems and objects to be solved by the invention] However, in the prior art, in order to light up a hot cathode discharge lamp, a DC-
The DC converter circuit boosts and stabilizes the battery voltage to
Since the hot cathode discharge lamp is driven by applying voltage to the C-AC inverter circuit, the DC-D
The efficiency of the C converter circuit is greatly affected, reducing the efficiency of the entire circuit, increasing power consumption, and shortening battery life. In particular, when the battery voltage decreases, the voltage must be boosted by the DC-DC converter circuit, and the efficiency of the entire circuit is low, making it impossible to start lighting unless the voltage applied to the filament is low. Has a point.

Therefore, the present invention is intended only for starting the lighting of a hot cathode discharge lamp.
By applying a voltage boosted and stabilized by a DC-DC converter circuit to the filament, lighting can be performed even with a low battery voltage, thereby improving the efficiency of the entire circuit and making effective use of the battery.

[Means to solve the problem]

The hot cathode discharge lamp drive circuit of the present invention has the following features: (1) a') A lighting drive circuit for a hot cathode discharge lamp, b)! DC-AC inverter circuit for driving a hot cathode discharge lamp with a battery C) A DC-DC converter circuit that boosts the battery voltage and heats the filament of the hot cathode discharge lamp only at the time of starting lighting.

(2) a) In the hot cathode discharge lamp drive circuit of (1), b) a discharge state detection circuit that detects the discharge state of the hot cathode discharge lamp from a DC-AC inverter circuit.

C) It is characterized by comprising a semiconductor switch that turns on or off the voltage from the DC-DC converter circuit using a discharge state detection circuit.

[Effect]

According to the above configuration of the present invention, when heating the filament in order to start lighting the hot cathode discharge lamp, the DC-DC converter circuit is provided only for heating at the time of starting,
A boosted and stabilized voltage is applied to the filament of a hot cathode discharge lamp to start the lamp.

[Embodiments] Hereinafter, detailed explanations will be given based on embodiments of the present invention. Fig. 1 shows a block diagram of a thermal #pole lamp drive circuit in an embodiment of the present invention. 1 is a battery, 2 is a DC-AC inverter circuit, 3 is a DC-DC converter circuit, 4 is a discharge state detection circuit, 5 is a semiconductor switch, 6 is a hot cathode discharge lamp, 7 is an anode, and 8 is a filament.

The hot cathode discharge lamp 6 is driven by applying the voltage of the battery 1 directly to the DC-AC inverter circuit 2. In order to start lighting the hot cathode discharge lamp 6, the filament 8 must be heated to create an arc spot. for that purpose,
In order to apply a high and stable voltage, the hot cathode discharge lamp drive circuit of the present invention uses the DC-DC converter circuit 4 to apply a high and stable voltage to the filament 8 only for heating the filament 8 at the time of starting lighting. There is.

When the hot cathode discharge lamp 6 enters an arc discharge state and an arc spot is formed, the filament 8 is heated, and there is no need to apply voltage to heat the filament 8, and the discharge of the DC-AC inverter circuit 2 is eliminated. Therefore, by applying voltage from the DC-DC converter circuit 4, the hot cathode discharge lamp 6 starts lighting, and the discharge state detection circuit 4 detects the discharge state from the DC-AC converter circuit 4. Checked from the inverter circuit 2, if the glow discharge state is still in the non-discharge state, the semiconductor switch 5 is turned ON and the DC-DC converter circuit 3
continues to apply a voltage to the filament 8. and,
When the hot cathode discharge lamp 6 enters an arc discharge state, an arc spot is formed on the filament 8, so the semiconductor switch 5 is turned off to cut off the voltage from the DC-DC converter circuit 3.
is operated with discharge detection port 1%4.

FIG. 3 is an example of a graph showing the relationship between the anode voltage required to start lighting and the voltage applied to the filament 8.

As shown in the graph of FIG. 3, the hot cathode discharge lamp 6 can enter an arc discharge state as long as the voltage applied to the filament 8 is high even if the anode voltage at the time of starting lighting is low.

Therefore, even at low battery voltages, the filament 8
It turns out that it is sufficient to apply a high and stable voltage to . For this reason, in the hot cathode discharge lamp drive circuit of the present invention, the DC-D
A C converter circuit 5 is used.

An embodiment of the discharge state detection circuit 4 of the hot cathode discharge lamp drive circuit of the present invention will be described. The discharge state detection circuit 4 detects an arc discharge state, a glow discharge state, or a non-discharge state using a DC-A
The determination is made based on the output voltage from the C inverter circuit 2 or the discharge current flowing through the hot cathode discharge lamp 6. [Effects of the Invention] As described above, according to the hot cathode number "warning lamp drive circuit of the present invention, the voltage boosted and stabilized by the DC-DC converter circuit is directly applied to only the filament to heat it, thereby generating heat. When a cathode discharge lamp enters an arc discharge state, the boosted and stabilized voltage is turned off by a semiconductor switch, and the lamp continues to be lit only by the discharge current of the DC-AC inverter circuit.
-Since the efficiency of the DC converter circuit is less than 80%, after starting the lighting, only the efficiency of the DC-AC inverter circuit becomes the efficiency of the entire circuit, so there is less loss of battery voltage and effective use of the battery is achieved. It will be done. As shown in the graph in Figure 3 of the drawing, even if the voltage applied to the anode in the DC-AC inverter circuit can be lowered, the high voltage applied to the filament cannot be applied to the DC-AC inverter circuit.
If the C-DC converter circuit adds heat, the hot cathode discharge lamp starts and lights up. Therefore, by starting and lighting the lamp even when the battery voltage drops, the battery life can be extended, which has the effect of improving the efficiency of the entire circuit and making effective use of the battery.

[Brief explanation of drawings]

FIG. 1 is a circuit block diagram showing an embodiment of the hot cathode discharge lamp drive circuit of the present invention. FIG. 2 is a circuit block diagram showing a conventional hot cathode discharge lamp drive circuit. Figure 3 is a graph showing the relationship between the voltage applied to the 7-node filament. 1...Battery 2...-DC-AC inverter circuit 3...
DC-DC converter circuit 4 --- Discharge state detection circuit 5 --- Semiconductor switch 6 --- Hot cathode discharge lamp 7 --- Anote 8 --- More than filament

Claims (2)

[Claims] (1) a) In a lighting drive circuit for a hot cathode discharge lamp, b)
A DC-AC inverter circuit that drives a hot cathode discharge lamp with a battery; c) A DC-DC converter circuit that boosts and stabilizes the battery voltage and heats the filament of the hot cathode discharge lamp only when starting the lamp. Hot cathode discharge lamp drive circuit. (2) a) In the hot cathode discharge lamp drive circuit according to claim 1, b) a discharge state detection circuit that detects the discharge state of the hot cathode discharge lamp from a DC-AC inverter circuit, and c) a discharge state detection circuit. The voltage from the DC-DC converter circuit is
A hot cathode discharge lamp drive circuit characterized by comprising a semiconductor switch that turns on or off.