KR100397460B1 - Fluorescent lamp lightness adjusted device - Google Patents

Abstract

An object of the present invention is to provide a normal operation even if the dimming ballast for adjusting the brightness of the fluorescent lamp is adjusted to about 1% of the low light or maximum brightness.

Means for achieving the present invention, including the power supply means and the resonant circuit so that the external user receives the dimming signal controlled by the dimming control means for adjusting the brightness of the fluorescent lamp to adjust the brightness of the fluorescent lamp by the lamp operation unit An apparatus for adjusting brightness of a fluorescent lamp comprising: a brightness controller for compensating a temperature value of a fluorescent lamp ambient temperature according to a dimming signal of a fluorescent lamp brightness adjusted by the dimming control unit to a predetermined value or less; A lamp abnormality detection unit for detecting a power supply voltage supplied to the fluorescent lamp by the lamp operation unit and detecting a lamp abnormality and outputting a control signal to control a bias power supply of the fluorescent lamp; It characterized in that it comprises a control unit for controlling the brightness of the fluorescent lamp by controlling the brightness of the fluorescent lamp by the signal output from the brightness control unit and the lamp abnormality detection unit, and the filament power control unit.

Description

Fluorescent lamp lightness adjusted device

The present invention relates to a fluorescent lamp brightness control device, and more particularly, the fluorescent lamp whose brightness is controlled by the dimming signal to adjust the brightness of the fluorescent lamp compensates for abnormal operation below a certain temperature and at the same time automatically the brightness of the fluorescent lamp according to the ambient brightness The present invention relates to a fluorescent lamp brightness adjusting device for detecting an abnormality of the fluorescent lamp by inducing a current flowing through the fluorescent lamp.

In general, a device for adjusting the brightness of a fluorescent lamp has been used to adjust the brightness by varying the power supply voltage of the power supply means supplied to the fluorescent lamp by the dimming ballast, or adjust the brightness of the fluorescent lamp through phase control.

However, since the fluorescent lamp brightness control device as described above has a lower ambient temperature of the fluorescent lamp, the voltage for lighting the lamp goes up and the filament voltage increases accordingly. In particular, the thinner the tube of the fluorescent tube, the more difficult the dimming control was implicated.

In order to solve the above problems, the present invention is to compensate for the temperature value detected by the temperature sensor for detecting the ambient temperature of the fluorescent lamp, it is possible to adjust the brightness up to about 1% of the maximum brightness at a low ambient temperature The purpose is to make it.

1 is a block diagram showing the configuration of a fluorescent lamp brightness control apparatus according to the present invention.

Figure 2 is a detailed circuit diagram of the fluorescent lamp brightness control unit according to the present invention.

3 is a detailed circuit diagram of a fluorescent lamp driving unit according to the present invention.

4 is a detailed circuit diagram of a fluorescent lamp abnormality detection unit according to the present invention.

* Description of the symbols for the main parts of the drawings *

10: power factor correction circuit 20: control unit

30: resonant circuit 40: lamp operation unit

50: lamp abnormality detection unit 60: power supply means

70: brightness control

Means for achieving the present invention, including the power supply means and the resonant circuit so that the external user receives the dimming signal controlled by the dimming control means for adjusting the brightness of the fluorescent lamp to adjust the brightness of the fluorescent lamp by the lamp operation unit An apparatus for adjusting brightness of a fluorescent lamp comprising: a brightness controller for compensating a temperature value of a fluorescent lamp ambient temperature according to a dimming signal of a fluorescent lamp brightness adjusted by the dimming control unit to a predetermined value or less; A lamp abnormality detection unit for detecting a power supply voltage supplied to the fluorescent lamp by the lamp operation unit and detecting a lamp abnormality and outputting a control signal to control a bias power supply of the fluorescent lamp; It characterized in that it comprises a control unit for controlling the brightness of the fluorescent lamp at the same time to adjust the brightness of the fluorescent lamp by the signal output from the brightness control unit and the lamp abnormality detection unit.

Hereinafter, a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

1 is a block diagram showing the configuration of a fluorescent lamp brightness control apparatus according to the present invention.

As shown in Figure 1, the fluorescent lamp brightness control device is operated by the power supply voltage supplied from the power supply means 60, the power factor correction circuit 10 for compensating the power factor of the power supply voltage, and the fluorescent lamp brightness state and Control unit 20 for controlling the operation according to the abnormality of the lamp, the resonant circuit 30 for operating the fluorescent lamp by the output signal of the control unit 20, and the operating power supplied from the resonant circuit 30 Lamp operation unit 40 for lighting the fluorescent lamp by the lamp, lamp abnormality detection unit 50 for detecting abnormality of the fluorescent lamp, and brightness control unit for compensating the dimming signal and temperature of the brightness of the fluorescent lamp input from the outside ( 70).

In addition, the inside of the fluorescent lamp brightness control device is supplied by converting AC power to DC power by a constant voltage circuit (see Fig. 3) for operating an electronic circuit element.

The brightness controller 70 is a temperature detector 72 for detecting the ambient temperature of the fluorescent lamp by the signal detected by the temperature sensor 71 for detecting the ambient temperature of the fluorescent lamp, and a dimming circuit controlled by an external user Abnormal operation and ambient due to the ambient temperature by the signal converter 73 for converting the dimming signal of the brightness of the fluorescent lamp adjusted by the electric signal to the electrical signal, and the temperature detector 72 and the signal converter 73 It consists of an add-on amplifier 74 for correcting the error according to the brightness.

Then, the lamp abnormality detection unit 50 is operated by the lamp output detection unit 51 for detecting the operating power supplied to the fluorescent lamp of the lamp operation unit 40 and the operating power detected by the lamp output detection unit 51. The lamp presence detection unit 52 for detecting the presence or absence of the fluorescent lamp, the lamp break detection unit 53 for detecting whether the fluorescent lamp is damaged by the signal detected by the lamp presence detection unit 52, and the lamp presence detection unit 52 The lamp replacement decision unit 54 determining whether to replace the lamp by the detected signal and the switching element 55 to invert the output signal when the fluorescent lamp is replaced by the signal detected by the lamp replacement decision unit 54. And a lamp operation control unit 56 which outputs a point-off signal of a fluorescent lamp by the signal switched by the switching element 55.

The operation of the fluorescent lamp brightness control device is to increase the power factor of the power voltage by the power factor correction circuit 10 for compensating the power factor of the power voltage supplied from the power supply means 60, and then control the stable power supply voltage 20 and Supply to the bias power supply of the resonant circuit 30.

The control unit 20 supplies an operation signal for operating the resonance circuit 30 by the power supply voltage supplied through the power factor correction circuit 10, and the resonance circuit 30 is input from the control unit 20. The fluorescent signal of the lamp operation unit 40 is operated through the RLC resonance. Since the coils L1 and L2 of the resonant circuit 30 require high power when the fluorescent lamp is turned on, the impedance is sharply lowered when the current supplied by a predetermined current or more is optimized by optimizing the core saturation characteristics of the coils L1 and L2. The capacitors C1 and C2 are configured to shift the phase of the power supply voltage to prevent the light from shaking in low light, and to block the overcurrent supplied to the low light filament.

When the fluorescent lamp of the lamp operation unit 40 does not operate, the abnormality of the fluorescent lamp is detected by the lamp abnormality detection unit 50 for detecting the operating power supplied to the fluorescent lamp.

That is, when the resonant circuit 30 is operated, the operating power of the fluorescent lamp is detected by the lamp driving power detector 51 which detects the fluorescent lamp operating power supplied to the lamp operating unit 40. Next, the presence or absence of the fluorescent lamp is detected by the lamp presence detecting unit 52 which detects the presence or absence of the fluorescent lamp.

When it is detected that there is no fluorescent lamp by the signal detected by the lamp presence detecting unit 52, the output of the lamp presence detecting unit 52 inputs an "L" signal to the lamp operation control unit 56. The output of the lamp operation control unit 56 outputs an "H" signal to block the operation of the resonance circuit 30 to turn off the fluorescent lamp of the lamp operation unit 40.

Subsequently, since the lamp replacement decision unit 54 determines that the fluorescent lamp is not replaced, the "L" signal is output and the bias power of the switching element 55 is cut off. In addition, since the lamp break detection unit 53 determines that the fluorescent lamp is broken, the lamp break detection unit 53 outputs an "L" signal to cut off the driving power of the switching element 55. In addition, since the output of the switching element 55 is cut off, the lamp operation control unit 56 maintains the state in which the fluorescent lamp is turned off.

On the other hand, the brightness of the fluorescent lamp and temperature compensation, first, when the external user to adjust the brightness of the fluorescent lamp as a means for adjusting the brightness of the fluorescent lamp dimming signal of the brightness of the fluorescent lamp is input to the signal converter 73, the signal The converter 73 converts the fluorescent lamp brightness information according to the dimming signal of the fluorescent lamp brightness into an electrical signal by the dimming signal and supplies it to the input of the subtractor 74. In addition, the temperature signal detected by the temperature sensor 71 for detecting the ambient temperature of the fluorescent lamp is input to the temperature detector 72, the temperature detector 72 supplies the fluorescent lamp ambient temperature value to the input of the adder and subtractor 74. do.

The adder / subtracter 74 compensates the temperature value according to the fluorescent lamp brightness signal input from the signal converter 73 and compensates the temperature value through the adder / depressor 75 and is input to the control unit 20.

Accordingly, the control unit 20 adjusts the brightness of the fluorescent lamp according to the dimming signal of the fluorescent lamp brightness by the input signal.

With reference to the accompanying drawings, a detailed configuration of the fluorescent lamp brightness control apparatus according to the present invention will be described.

2 is a detailed circuit diagram of a fluorescent lamp brightness compensation circuit according to the present invention.

As shown in FIG. 2, the fluorescent lamp brightness adjusting unit 50 may first have a resistance value corresponding to a temperature value by a temperature sensor 71 whose storage value changes with temperature, such as a thermistor. ) Is entered.

In addition, the temperature detector 72 is input to one side of the amplifier A1 of the temperature detector 72 at a temperature value preset by the variable terminal of the variable resistor VR1 and is input from the temperature sensor 71. Are compared to provide the output according to the current temperature value to the input of the subtractor 74.

When the user adjusts the brightness of the fluorescent lamp by means of adjusting the brightness of the fluorescent lamp, the adjusted dimming signal is input to the signal converter 73. In addition, the signal converter 73 controls the operation of the photodetector PT for detecting the ambient light of the fluorescent lamp through the dimming signal, corrects the ambient light of the fluorescent lamp, and provides it as an input / subtractor input.

The adder / subtractor 74 compares the two input signals and is amplified by an amplifier A2 that amplifies and amplifies the input signal so as to compensate for the temperature value and the ambient brightness by the compared signal, and the control unit 20 Input the brightness signal of fluorescent lamp to.

3 is a detailed circuit diagram of a fluorescent lamp operating unit according to the present invention.

As shown in FIG. 3, the control unit 20 determines the brightness of the dimming controller 21 that determines the brightness level of the fluorescent lamp by the fluorescent lamp brightness signal inputted from the adder-subtracter 74, and receives a corresponding dimming signal. The output dimming signal is provided to the input of the resonant circuit 30 through the transformer T1 of the control unit 20.

The dimming signal input to the resonant circuit 30 is induced to the choke coil C, and the dimming signal induced to the choke coil C is alternating by the coils L1 and L2 and the capacitors C1 and C2. The phase control of the power source, to prevent the interference of AC power and the flow of overcurrent and then input to the lamp operating unit 40 to operate the fluorescent lamp is to control the brightness of the fluorescent lamp. Here, the high power required when the fluorescent lamp is turned on, the impedance is lowered due to the saturation characteristics of the coils (L1, L2) to supply a high power, and when the dimming control in low light when the frequency is increased during the dimming control coil Impedance is increased by the characteristics of (L1, L2) to control the power flowing into the fluorescent operation unit 40, so that the erection can be controlled regardless of the thickness of the fluorescent tube.

4 is a detailed circuit diagram of the lamp abnormality detection unit according to the present invention.

As shown in Figure 4, the lamp abnormality detection unit 50 for detecting the abnormality of the fluorescent lamp induces a current flowing through both ends of the fluorescent lamp to detect the abnormality of the lamp. That is, the lamp abnormality detection unit 50 induces the "H" signal when the fluorescent lamp is turned on by the lamp output detection unit 51 (see Fig. 3), and induces the "L" signal when the fluorescent lamp is turned off.

When the current induced by the lamp output detection unit 51 induces the "H" signal, the diodes D1 and D2 across the lamp presence detection unit 52 are energized, and at the same time, the bias power supply of the lamp operation control unit 56 is applied. Is supplied to the transistor Q1 to operate the dimming controller 21 of the control unit 20 to the "H" signal to keep the fluorescent lamp lit. At this time, the fluorescent lamp is lit or the lamp is removed (one side Or both sides), when the current induced by the lamp output detection unit 51 is induced by the "L" signal, the diodes D1 and D2 at both ends of the lamp presence detection unit 52 are blocked, and at the same time, the lamp operation control unit 56 Supply a bias power supply to the dimming controller 21 of the control unit 20 connected to the collector of the transistor Q1 to output a " L " signal to confirm that the fluorescent lamp is removed. The ram if the lamp is broken. The switching element 55 is operated by operating the inverting amplifier A3 of the lamp replacement / determination section 54 which detects whether the lamp is broken due to a voltage higher than the normal state due to a large amount of current induced by the output detector 51. The transistor Q1 of the lamp operation control unit 56 is turned on to block the overcurrent state of the ballast due to lamp failure.

In addition, when the user replaces the fluorescent lamp, the signal from "L" to "H" is supplied to the input of the lamp presence detection unit 52 so as not to operate the transistor Q1 of the lamp operation control unit 56 so that the control unit 20 ) Is input to maintain the status of fluorescent lamps.

However, the "L" signal is supplied to the lamp replacement decision unit 53 so that the output of the inverting amplifier A3 is inverted and outputted, and thus the switching element 55 is not operated so that the lamp operation control unit 56 is released. Transistor Q1 maintains the " H " signal state, so that the fluorescent lamp is turned on through the control unit 20.

As described above, the present invention has an effect that the dimming stabilizer for adjusting the brightness of the fluorescent lamp is normally operated even if the low lighting fluorescent lamp lighting defect or the 1% of the maximum brightness is adjusted. In addition, the fluorescent lamp is automatically turned on when the fluorescent lamp is replaced due to breakage of the fluorescent lamp, and the brightness compensation can be controlled at low temperatures even at low temperatures such as in winter, thereby protecting the ballast.

Claims (3)

In the fluorescent lamp brightness adjusting device comprising a power supply means and a resonant circuit so that an external user receives a dimming signal controlled by the dimming control means for adjusting the brightness of the fluorescent lamp to adjust the brightness of the fluorescent lamp by the lamp operation unit, A brightness controller 70 for compensating a temperature value of a fluorescent lamp ambient temperature according to a dimming signal of the fluorescent lamp brightness adjusted by the dimming control unit to a predetermined value or less; A lamp abnormality detection unit 50 for detecting a power supply voltage supplied to the fluorescent lamp by the lamp operation unit 40 and detecting a lamp abnormality to output a control signal to control the bias power of the fluorescent lamp; Fluorescent lamp brightness, characterized in that it comprises a control unit 20 for controlling the fluorescent light brightness by controlling the brightness of the fluorescent lamp by the signal output from the brightness control unit 70 and the lamp abnormality detection unit 40 Regulator. According to claim 1, Erection control unit 70 has a signal converter 73 for converting a dimming control signal in which the brightness of the fluorescent lamp is adjusted by an external user into an electrical signal, A temperature detector 72 for detecting an ambient temperature value at a temperature detected by the temperature sensor 71 for detecting an ambient temperature of the fluorescent lamp; And a subtractor 74 for compensating the temperature value by subtracting a temperature value according to a dimming signal in which the brightness of the fluorescent lamp is adjusted from the signals input from the temperature detector 72 and the signal converter 73. Fluorescent lamp brightness control device. The lamp output detection unit (51) of claim 1, further comprising: a lamp output detection unit (51) for detecting a power supply voltage supplied to a fluorescent lamp of the lamp operation unit (40); A lamp presence detection unit 52 for detecting the presence or absence of a lamp based on the signal detected by the lamp output detection unit 51; A lamp damage determining unit (53) for determining whether the lamp is damaged or not based on the signal detected by the lamp presence detecting unit (52); A lamp replacement determining unit (54) for determining whether to replace the lamp based on the signal detected by the lamp presence detecting unit (52); Switching element 55 for outputting a signal for supplying and blocking the power supplied to the fluorescent lamp by the signal determined by the lamp failure determination unit 53 and the lamp replacement determination unit 54, And a lamp operation control unit (56) which outputs a control signal for turning on / off the fluorescent lamp by the signal output from the lamp presence detecting unit (52) and the switching element (55).