KR20090006646A - Lamp driving circuit - Google Patents

Abstract

A lamp operating circuit is provided to reduce noise generated in a transformer by operating an output level in order not to be completely discharged from a low section of output current. A PWM feed port supplies a PWM dimming signal to a control part. According to the PWM dimming signal, the control part(12) controls the operation of a lamp. A minimum level maintaining unit(13) provides the minimum level signal higher than 0 level for a driving signal output part(FB) in order to generate output current in the section in which output current is not generated. The minimum level maintaining unit comprises a resistor string, a transistor 1 and a transistor 2. The resistor string(13a) is used in order to input current regularly as a specific value. An operating signal is input to the transistor 1(13b) from the resistor string. The transistor 1 is turned on/off according to the operating signal. The transistor 2(13c) is turned on/off according to the conduction of the transistor 1. When the transistor 2 is turned on, the input signal is provided to the driving signal output part.

Description

Lamp driving circuit {LAMP DRIVING CIRCUIT}

1 is a block diagram briefly showing an output side circuit of a conventional lamp driving circuit;

2 is a waveform diagram showing output characteristics of a conventional lamp driving circuit.

3 is a block diagram schematically showing a configuration according to an embodiment of the present invention.

4 is a circuit diagram showing in more detail the configuration according to an embodiment of the present invention.

5 is a waveform diagram showing output characteristics according to an embodiment of the present invention;

6 is a typical ramp (CCFL) current waveform diagram at the time of PWM DIMMING.

<Description of Signs of Major Parts of Drawings>

10: lamp driving circuit 11: PWM supply unit

12: control unit 13: the lowest level holding unit

13a: resistor group 13b, c: transistor 1,2

T: Transformer L: Lamp

The present invention relates to a lamp driving circuit.

In general, an inverter is a reverse conversion device that converts DC power into AC power, and is used for backlight power supplies of LCDs and other display devices, fluorescent power supplies for automobiles, emergency power supplies for power outages, mobile AC power supplies, and the like.

The dimming method of the controller for a backlight inverter currently in use includes analog dimming, PWM dimming, complex dimming, and the like, and the circuit configuration varies according to each operation.

The conventional backlight inverter dimming circuit to which the PWM dimming method is applied includes a PWM unit for supplying a PWM signal to the controller and a controller for controlling a lamp operation by receiving a signal from the PWM unit. At this time, the signal output from the control unit is supplied to the lamp through the transformer.

In the conventional backlight inverter dimming circuit as described above, when the PWM DIMMING signal is supplied from the PWM unit, the controller drives the lamp in a normal state, and outputs an output signal for controlling the brightness at the time of turning on and off while repeating On / Off. Which is transformed through the transformer and provided to the lamp.

Here, a lamp control IC (typically, a drive IC) for controlling a lamp as shown in FIG. 1 is disposed at the end of the controller, and the lamp control IC has a current feedback amount and an amount of output current. The comparison is controlled via an internal comparator.

At this time, the minimum voltage of the FB stage shown in Figure 1 is 0V level, the voltage value of the FB stage is adjusted to the current feedback voltage value input to the IS stage (The 0V level means that there is no output current. .)

In this case, as shown in FIG. 2, the waveform of the FB signal swings from 0 V to 2.5 V, and the output does not appear in the section in which the FB terminal is OV. At this time, when discharging up to 0V, but when not completely discharged, there is a problem that a strong noise occurs in the transformer due to the nature.

The present invention reduces the occurrence of noise in the transformer.

The present invention provides a lamp driving circuit that outputs a lamp driving signal swinging at a zero level and a high level while comparing and controlling an amount of a current feedback signal and an output current input through a comparator, wherein a zero level is provided at a driving signal output terminal of the lamp driving circuit. And a lowest level holding unit for providing the above lowest level signal.

Here, the lamp driving circuit of the present invention may be an inverter, the configuration of the inverter, in one embodiment, the PWM supply unit for supplying a PWM dimming signal to the control unit and receives a signal from the PWM supply unit to control the operation of the lamp It can be configured to include a control unit.

At this time, the PWM supply unit includes an oscillator for generating a PWM dimming signal, by comparing the output signal of the oscillator and the inverter DIMMING signal to discharge and charge the soft start capacitor, a predetermined time during the initial start of the lamp and PWM dimming start It may include a start time adjustment unit for providing a slope, and an inverter drive unit for providing an inverter drive signal to the switching element by comparing the output signal of the oscillator and the output signal of the start time adjustment unit.

In addition, the control unit compares and regulates the amount of current feedback and the amount of output current through the internal comparator, the minimum voltage of the FB stage is 0V level, the voltage value of the FB stage is adjusted to the current feedback voltage value input to IS It can include a drive IC.

On the other hand, the lowest level holding unit of the present invention is connected to the FB terminal of the drive IC, the resistance group for inputting a constant constant input current; A transistor 1 receiving and operating an operation signal from the resistor group; The transistor 2 may include a transistor 2 that operates according to the conduction state of the transistor 1 and outputs the input signal to the FB terminal.

In this case, the resistor group may be resistors 1, 2, and 3 connected in series between the base terminals of the transistor 1, and the emitter of the transistor 1 may be connected to the base of the transistor 2.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

3 is a block diagram schematically showing a configuration according to an embodiment of the present invention, Figure 4 is a circuit diagram showing a configuration according to an embodiment of the present invention in more detail, Figure 5 is an embodiment of the present invention Fig. 6 is a waveform diagram showing output characteristics according to the present invention, and Fig. 6 is a waveform diagram of a typical lamp (CCFL) current during PWM DIMMING.

3 and 4, the lamp driving circuit outputs a lamp driving signal swinging at a zero level and a high level while comparing and adjusting an amount of an output current and a current feedback signal input through a comparator. The low level holding unit 13 provides a low level signal of 0 level or more to the drive signal output terminal FB of the lamp driving circuit 10 so that the output current is generated even in a section in which no output current is generated. do.

Here, the lamp driving circuit 10 of the present invention is a control unit for controlling the operation of the lamp (L) by receiving a signal from the PWM supply unit 11 and the PWM supply unit 11 for supplying a PWM dimming signal to the control unit It is comprised including 12.

At this time, the PWM supply unit 11 includes an oscillator for generating a PWM dimming signal, by comparing the output signal of the oscillator and the inverter dimming signal to discharge and charge the soft start capacitor, the initial start of the lamp (L) and PWM At the time of dimming start, a start time adjusting unit for providing a predetermined time slope and an inverter driving unit for comparing the output signal of the oscillator and the output signal of the starting time adjusting unit and providing an inverter driving signal to the switching element.

In addition, the control unit 12 compares and regulates the amount of current feedback with the amount of output current through an internal comparator, the minimum voltage of the FB stage is 0V level, the voltage value of the FB stage is a current feedback voltage input to IS Drive IC adjusted by value.

The lamp driving circuit 10 is a method of controlling the brightness by controlling the ratio of the ON time and the OFF time of the lamp through the PWM signal output from the PWM supply unit 11, the concept of PWM and the like used in the switching regulator It is called PWM dimming because it is similar, and it is different from PWM control.

6 is a typical ramp (CCFL) current waveform diagram during PWM DIMMING.

PWM dimming controls the brightness by adjusting the ratio of T1 and T2 in the waveform as shown in FIG. That is, as the ratio of T2 increases, the brightness decreases, and it operates while repeating ON and OFF at a frequency corresponding to 1 / (T1 + T2) independently of the driving frequency of the lamp.

The PWM supply unit 11 inputs a signal of the waveform as described above to the control unit 12, the control unit 12 outputs a drive signal to operate the MOS-FET, the signal output from the MOS-FET Is transformed through the transformer T, and the lamp L operates.

On the other hand, the lowest level holding unit 13 of the present invention is connected to the FB terminal of the drive IC, the resistance group (13a) for constantly inputting the input current to a specific value; A transistor 1 (13b) which operates by receiving an operation signal from the resistor group (13a); And transistor 2 (13c) which operates according to the conduction state of transistor 1 (13b) to output the input signal and inputs to the drive signal output terminal (FB stage).

In this case, the resistor group 13a may be resistors 1, 2, and 3 (R1) (R2) and (R3) connected in series between the base terminal of the transistor 1 (13b), and the emitter of the transistor 1 (13b) is a transistor. 2 (13c) is connected to the base.

In this case, the resistor group 13a drops the power input thereto, and inputs a specific value, that is, 0.6V as the driving signal of the transistor 1 (13b).

Then, the transistor 1 (13b) is in a conductive state, and the transistor 2 (13c) having a base connected to the emitter is in a conductive state by the conduction, and thus the transistor 1 (13b) is in a conductive state. Is input to the drive signal output terminal (FB stage).

Hereinafter, the present invention will be described as follows.

First, when the voltage at the A stage shown in FIG. 4 is set to about 0.6V, the voltage at the B stage is always maintained, and this voltage is input to the drive signal output terminal FB stage. That is, when the power supply to which the resistor group 13a is input is voltage-falled, 0.6V is input as the drive signal of the transistor 1 13b, and the transistor 1 13b is in a conductive state, the transistor 2 (with a base connected to the emitter side) 13c) receives the drive signal, becomes conductive state, outputs 0.6V to the emitter end, and inputs the drive signal output terminal (FB end) of the drive IC.

As a result, the signal of the driving signal output terminal FB stage is floated unlike the conventional one, and a waveform compared with the conventional one is generated by the output voltage. That is, as shown in FIG. 5, the output current of 0.6 V is also present in the section where the output current of the output signal of the drive signal output terminal FB stage should not be present, as in the description of the conventional configuration. When discharging, it is possible to eliminate the occurrence of not fully discharged to 0V in advance, thereby reducing the noise generated by the characteristic transformer.

While the invention has been described and illustrated in connection with a preferred embodiment for illustrating the principles of the invention, the invention is not limited to the configuration and operation as such is shown and described. Rather, those skilled in the art will appreciate that many modifications and variations of the present invention are possible without departing from the spirit and scope of the appended claims. Accordingly, all such suitable changes and modifications and equivalents should be considered to be within the scope of the present invention.

According to the present invention, the output current of 0.6 V is also present in the section where the output current of the output signal of the drive signal output terminal should not be present, thereby eliminating the occurrence of the case where the output level is not completely discharged to zero in advance. Noise can be reduced in the transformer.

Claims (4)

In the lamp driving circuit for outputting the lamp driving signal swinging to the 0 level and the HIGH level while comparing and adjusting the amount of the current feedback signal and the output current input through the comparator, And a low level holding unit for providing a low level signal of 0 level or more to a drive signal output terminal of the lamp driving circuit. The method of claim 1, wherein the lowest level holding unit A resistor group connected to the driving signal output terminal and configured to constantly input an input current to a specific value; A transistor 1 receiving and operating an operation signal from the resistor group; And a transistor 2 which operates according to the conduction state of the transistor 1 and outputs the input signal to the driving signal output terminal. The resistance group of claim 2, wherein And resistors 1, 2, and 3 connected in series between the base end of transistor 1, wherein the emitter of transistor 1 is connected to the base of transistor 2. The method of claim 1, And the lowest level holding part generates an output current in a section in which no output current is generated by providing a minimum level signal of 0 level or more to the driving signal output terminal.

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