KR19990038530A - Scanner lamp lighting control circuit - Google Patents

Abstract

In order to control the lighting of the lamp that generates the light to scan the original, when the temperature rises at the input terminal of the oscillator circuit which receives DC power and boosts it to high frequency AC voltage and outputs it, it forms a thermistor which decreases the resistance value and is applied to the lamp. Control the supply voltage.

Therefore, since the lighting of the lamp can be controlled at the input terminal of the oscillating transformer, it is not affected by the EMI generated by the high frequency lighting and a stable driving voltage is applied to the lamp, so that an optimum image can be obtained at the time of scanning. have.

Description

Scanner lamp lighting control circuit

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a scanner lamp lighting control circuit, and more particularly, to control the lighting control of a lamp that generates light in order to scan an original at a input terminal of an oscillation circuit that receives a DC power and outputs a high frequency AC voltage. It relates to a scanner lamp lighting control circuit to be lit.

Generally, a scanner, which is a device for scanning originals and obtaining image data, is added as a scanning function for transferring or copying originals from office automation equipment such as facsimile machines, multifunction machines, and copiers, or connected to a computer as a unit. Transfer the scanned image data to the connected computer.

The scanning method of a document in a scanner includes a CIS (Contact Image Sensor) method and a CCD (Charge Coupler Device) method according to the arrangement of the scanning elements. By reflecting the light from the light source onto the document and converting the reflected light into an electrical output value through an image reading sensor such as a field emission device (CCD) or a contact image sensor (CIS), it is transmitted or copied or It acts to be stored in a data storage device such as a hard disk.

A circuit for controlling lighting of a lamp for generating light for scanning an original in the conventional scanning method will be described with reference to FIG. 1 as follows.

As described above, the scanner is essentially provided with a light source lamp for projecting and reflecting a predetermined light onto the document. The lamp has a square wave pulse voltage of approximately 70V having a high frequency characteristic of 25 kHz to be set to perform a scanning operation.

When the preheating signal PREHEAT_L is input, a DC voltage is applied to turn on the transistor TR1 in the DC voltage switching unit 2 so that a voltage is applied to the oscillation circuit 3. In the oscillation circuit 3, the DC voltage is applied to the bases of the transistors TR3 and TR4 by the resistors R6 and R7, so that the transistors TR3 and TR4 are also turned on. Then, when current flows in the oscillation transformer 4 through the choke coil L1, the resonance of the oscillation transformer 4 and the resonance capacitor C1 of the oscillation circuit 3 starts and this voltage is applied to the winding on the base. The voltage difference between the emitters of the transistors TR3 and TR4 is generated to oscillate while both transistors are turned on in turn according to the voltage of the base winding. That is, when the transistor TR3 is turned on first, current flows through the choke coil L1 to the collector of the transistor TR3, and at the same time, the resonance capacitor C1 and the primary connected to both ends of the oscillation transformer 4 are primary. A resonance current flows between the windings NP1 and NP2. The resonance voltage is applied to the transistor TR4 by this resonance current. Since the resonance voltage maintains a voltage corresponding to the winding ratio induced by the feedback winding Nf, the constant voltage is fed back to the base of the transistor TR3. Thereafter, when the resonance voltage is lowered and becomes 0V, the transistor TR3 is turned off. When the resonant voltage is inverted to the negative side after 0V, the voltage is applied to the base of the transistor TR4. As described above, since the transistors TR3 and TR4 are turned on / off alternately, a high frequency voltage is generated at each winding of the oscillation transformer 4, and the lamp 1 is used to generate light by the output of the filament winding. Approved to start preheating. Next, when the lighting signal LAMP_L for performing the scanning operation is applied, the transistor TR2 of the AC voltage switching unit 5 is turned on while the output voltage of the secondary winding NS is applied to both ends of the lamp 1. It is on when it is applied and discharge starts.

At this time, since the high frequency drive voltage output from the oscillation transformer 4 is controlled in order to control the lighting of the lamp 1 in the AC voltage switching unit 5 connected to the output terminal of the oscillation transformer 4, the electromagnetic noise caused by the high frequency lighting. Electromagnetic interference (EMI) such as this occurs.

However, according to the circuit for controlling the lighting of the conventional scanner lamp as mentioned above, the following problems occur.

(1) Since the high frequency voltage output from the oscillation transformer is controlled in the on / off state for the lamp to be turned on, EMI such as electromagnetic noise due to the high frequency lighting is generated.

Accordingly, an object of the present invention is to solve the above problems, and an object of the present invention is to control an on / off state of a scanner lamp for controlling an on / off state for lighting a lamp at an input terminal of an oscillation circuit without controlling a high voltage output from an oscillating transformer. In providing a circuit.

1 is a control circuit diagram for turning on a scanner lamp according to the prior art,

2 is a control circuit diagram for turning on a scanner lamp according to the present invention.

<Description of the code | symbol about the principal part of drawing>

1: lamp 6: DC voltage switching unit

7: temperature sensing unit 8: oscillation circuit

9: Oscillating Trans TH1: Thermistor

A feature of the present invention for achieving the above objects is a control circuit for controlling the lighting of a lamp in a lamp that generates light to perform a scanning operation of an original: power supply for the scanning operation DC voltage switching unit is switched depending on whether or not; A temperature sensing unit outputting a voltage applied from the DC voltage switching unit according to the sensed temperature; A high frequency oscillation circuit unit oscillating to generate a high frequency voltage for driving the lamp by applying a voltage from the temperature sensing unit; And an oscillation transformer for applying a voltage from the temperature sensing unit to resonate with the oscillation circuit and boosting a DC voltage to an alternating voltage.

Preferably, the temperature sensing unit is configured to include a thermistor for applying a voltage to the oscillating circuit unit and the oscillating transformer when the temperature rises and the resistance value decreases.

Hereinafter, the scanner lamp lighting control circuit according to the present invention will be described in detail with reference to the accompanying drawings.

2 is a circuit diagram for controlling the lighting of the scanner lamp according to the present invention.

Lamp 1 for generating light for performing the scanning operation, DC voltage switching unit 6 is switched according to whether or not the power supply for the scanning operation, thermistor for applying a voltage to increase the resistance value by increasing the temperature ( A voltage is applied from the temperature sensing section 7 composed of TH1, the oscillation circuit section 8 for oscillating at high frequency for driving the lamp 1, and the temperature sensing section to resonate with the oscillation circuit 8, thereby reducing the DC voltage. It consists of the oscillation transformer part 9 which boosts by AC voltage.

Referring to the operation of the lamp is lit by the present invention as follows.

When the lighting signal LAMPON_L is applied, the transistor TR5 configured in the DC voltage switching unit 6 is turned on and the DC voltage input thereto is applied to the thermistor TH1 of the temperature sensing unit 7. Since the resistance value of the thermistor resistor TH1 decreases as temperature increases, a current is applied to the resistors R10 and R11 of the oscillation circuit 8 so that a voltage is applied to the bases of the transistors TR6 and TR7. At this time, the transistors TR6 and TR7 are turned on and collector current flows through the windings NP1 and NP2 of the oscillation transformer 9 through the choke coil L2. Thereafter, resonance between the oscillation transformer 9 and the resonance capacitor C6 of the oscillation circuit 8 starts, and this voltage is induced in the winding Nf at the base so that the transistor TR6 and the transistor ( The voltage difference between the emitters of TR7 is generated to oscillate while the transistors TR6 and TR7 are alternately turned on according to the voltage of the base winding. That is, when the transistor TR6 is turned on first, current flows through the choke coil L2 to the collector of the transistor TR6, and at the same time, the resonant capacitor C6 connected to both ends of the oscillation transformer 9 and one. A resonance current flows between the secondary windings NP1 and NP2. The resonance voltage is applied to the transistor TR7 by this resonance current. Since the resonance voltage maintains the voltage according to the turns ratio in the feedback winding Nf of the base, the constant voltage is fed back to the base of the transistor TR6. Next, when the resonance voltage is lowered and reaches 0V, the transistor TR6 is turned off. After that, when the resonance voltage is reversed to negative after 0V, the voltage is applied to the base of the transistor TR7. . As described above, the transistors TR6 and TR7 are alternately turned on / off so that high-frequency voltages are generated at each of the windings of the oscillation transformer 9, and the electrodes of the lamp 1 are output by the output from the output stage winding NH. When this preheating is started and the output voltage of the secondary winding NS is applied across the lamp 1, the discharge starts and the lamp 1 is turned on.

Therefore, a thermistor whose resistance value decreases when the temperature for controlling the lighting of a lamp that generates light for scanning an original at the input terminal of the oscillation transformer increases is formed, so that the resistance of the thermistor decreases and a DC voltage is applied to the oscillation circuit. In this case, the driving voltage for turning on the lamp may be applied to the lamp by boosting to a high frequency AC voltage, thereby controlling the lighting of the lamp for performing the scanning operation.

As a result, the scanning lamp lighting control circuit according to the present invention has the following advantages.

(1) Since the lighting of the lamp can be controlled at the input terminal of the oscillating transformer, it is not affected by the EMI generated by the high frequency lighting control, and stable driving voltage is applied to the lamp, so that an optimum image can be obtained during scanning. .

Claims (2)

In a lamp that generates light to perform a scanning operation of an original, in a control circuit for controlling the lighting of the lamp: A DC voltage switching unit switched according to whether power is applied for the scanning operation; A temperature sensing unit outputting a voltage applied from the DC voltage switching unit according to the sensed temperature; A high frequency oscillation circuit unit oscillating to generate a high frequency voltage for driving the lamp by applying a voltage from the temperature sensing unit; And, And an oscillation transformer for applying a voltage from the temperature sensing unit to resonate with the oscillation circuit and for boosting a DC voltage to an alternating voltage. The method of claim 1, wherein the temperature sensing unit, A scanner lamp lighting control circuit comprising a generator and a thermistor for applying a voltage to the oscillating transformer when the temperature rises and the resistance decreases.