KR950007516Y1 - Inverter circuit - Google Patents

Abstract

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Description

Inverter Protection Circuit of High Voltage Ballast

1 is an inverter circuit diagram of a conventional ballast for fluorescent lamps.

2 is an inverter circuit diagram of the neon tube ballast of the present invention.

* Explanation of symbols for main parts of the drawings

1: Inverter transformer 2: Auxiliary coil

3: diode 4: magnetic switch

5: SCR 6: Diode

7: Diac 8: Input

9: Oscillation transformer 10A, 10B: Fet

11: voltage distribution circuit 12: neon tube

The present invention relates to an inverter protection circuit of a high voltage ballast, and in particular, an accurate abnormal voltage sensing operation is performed using a magnetic element, thereby improving the detection characteristic of the abnormal voltage, thereby preventing the inverter of a high voltage ballast from an unexpected abnormal voltage. It relates to an inverter protection circuit of a high-pressure ballast that can protect the.

In general ballast for a high pressure, for example, the inverter circuit of the ballast for fluorescent lamps is the connection point of the series connected transistors at both ends of the series power supply (Q _1, Q _2), the transistor (Q _1, Q ₂₎ as shown in the first FIG. A transformer 70 connected to and induced high voltage, a choke coil L ₁ connected to the secondary side of the transformer 70, a choke coil L ₁ and a fluorescent lamp 71 forming a display resonance circuit. It consists of a capacitor (C ₁ ) connected in parallel at both ends.

In addition, referring to the operation of the conventional inverter circuit having the above configuration, DC power first flows into the secondary side of the transformer 70 and also flows into the collector terminal of the transistor Q ₁ . Then, the transformer 70 is induced at a high voltage. At this time, the transistors Q ₁ and Q ₂ periodically perform the turn-on operation by the magnetizing current of the transformer 970 and pass through the choke coil L ₁ through the fluorescent lamp 71. ) Is input to perform the lighting operation.

By the way, the inverter type lighting device using the semiconductor (transistor, etc.) as described above, when the purity of the encapsulated gas injected into the tube is in a deteriorated state, the fluorescent lamp does not perform the lighting operation properly and accordingly, the drive device and the control device of the inverter. There was a problem that the overheat occurs in the back parts are broken.

In order to solve this problem, conventionally, a heat sensing element such as a bimetal, a demister 72, or the like is attached to detect an overheating and cut off the power supply.

However, the conventional inverter protection circuit as described above is easy to change the operating point according to the ambient temperature, so that not only malfunctions, but also keeps on again when the temperature is reduced even under normal operation, and this on / off operation is repeatedly performed. As a result, power consumption is increased.

At this time, the present invention is devised to solve the above problems, the accurate abnormal voltage detection operation is performed by using a magnetic element, thereby improving the abnormal voltage detection characteristics, thereby preventing the ballast inverter from accidental abnormal voltage The purpose of the present invention is to provide an inverter protection circuit of a high voltage ballast that can protect the circuit and is not affected by the surrounding thermal environment.

The present invention for achieving the above object is a diode connected to the secondary coil of the inverter transformer to rectify the AC voltage to a DC voltage, a magnetic switch to operate according to the magnitude of the rectified voltage of the diode, It is characterized in that the SCR is connected to one end of the magnetic switch to control the abnormal voltage.

Hereinafter, the configuration of the present invention will be described in detail based on the accompanying drawings.

The present invention is installed in a high-voltage inverter circuit, for example, a neon tube inverter circuit as shown in Figure 2, the diode to rectify the AC voltage to the DC voltage to the secondary side auxiliary coil (2) of the inverter transformer (1) (3) is connected, and the magnetic switch 4, which is operated according to the magnitude of the rectified voltage of the diode 3, is connected to the cathode end of the diode 3, and one end of the magnetic switch 4 Is connected to the gate terminal of the SCR 5 via a resistor R ₁ . And between the gate end and the resistance (R ₁₎ of the SCR (5) resistance (R ₂₎ and capacitor (C ₁₎ that is connected in parallel, the n node stage of the SCR (5), the resistance (R ₃₎ and The diodes 6 are connected in parallel, and the die solution 7 of the inverter circuit of the neon tube ballast is connected to the end of the diode 6.

Next, the operation and effects of the present invention having the above configuration will be described.

In the circuit of the present invention, as shown in FIG. 2, when the power supply voltage is input from the input unit 8 for supplying power to the oscillation transformer 9 through the die solution 7, the circuit of Fet 10A, 10B is switched. This oscillation transformer 9 oscillates and inputs its output voltage to the inverter transformer 1. Then, the output voltage of the oscillation transformer 9 inputted from the inverter transformer 1 is induced to a high voltage and input to the double voltage circuit section 11. Therefore, the double voltage circuit section 11 doubles the input voltage. The circuit of the present invention operates when the neon tube 12 is turned on after the step-up, and at this time, a constant AC voltage induced from the auxiliary coil 2 of the inverter transformer 1 is transferred to the end of the diode 3. Will be detected. Then, this outstanding AC voltage is rectified via the diode 3 and then input to one end of the magnetic switch 4. At this time, if the inverter circuit of the neon tube is being operated by the normal voltage, the magnetic switch 4 is continuously turned off because no enough operating voltage is detected to drive the magnetic switch 4.

However, when an abnormal voltage is generated in the inverter circuit, some voltages corresponding to this abnormal voltage are rectified through the diode 3 from the auxiliary coil 2 of the inverter transformer 1 and then input to the magnetic switch 4. At this time, the magnetic switch 4 is turned on by the partial voltage according to the abnormal voltage, so that the bias voltage is input to the gate of the SCR 5 via the magnetic switch 4 and the resistor R ₁ as a trigger signal. do. Then, the SCR 5 is turned on so that the abnormal voltage generated by the inverter circuit flows into the cathode end of the SCR 5 through the die solution 7 and the diode 6. The introduced abnormal voltage flows into the mode ground via the turned-on SCR 5. Therefore, the oscillation transformer 9 of the inverter circuit stops the oscillation operation, thereby protecting the inverter circuit.

As described above, according to the present invention, since an accurate abnormal voltage sensing operation is performed using a magnetic element, the abnormal voltage sensing characteristic is improved, thereby protecting the inverter circuit of the ballast from accidental abnormal voltage. Since it is not affected by the surrounding thermal environment at all, the response characteristics of the system can be improved.

Claims (1)

A die solution 7 for switching an input voltage from an input unit 8 for supplying a power supply voltage, an oscillation transformer 9 for performing a voltage oscillation operation by receiving an operating voltage from the die solution 7, and an oscillation transformer ( 9) In the inverter circuit of the high voltage ballast having an inverter transformer (1) is applied to the oscillation voltage to induce high voltage, it is connected to the auxiliary coil (2) of the inverter transformer (1) to rectify the input voltage Grounded abnormal voltage in accordance with the triggered signal of the magnetic switch 4 and the magnetic switch 4 which is switched according to the condition of the voltage input from the diode 3, and generates the trigger signal. Inverter protection circuit of the high-pressure ballast, characterized in that consisting of the SCR (5) to be sent to the flow.