KR980013539A - Dimming control circuit - Google Patents

Abstract

The dimming control circuit of the present invention includes a dimming voltage source for controlling the brightness of the lamp by controlling the voltage, a dimming resistor connected to the dimming voltage source and controlling the brightness of the lamp by adjusting the resistance value, A means for causing the current proportional to the current flowing through the dimming resistor to flow to the switching frequency generating means and a control means for controlling the brightness of the lamp according to the switching frequency .

According to another aspect of the present invention, there is provided a dimming control circuit including a plurality of lamps, a dimming voltage source for controlling the brightness of the plurality of lamps, and a dimming control circuit for controlling the brightness of the lamps, A switching frequency generating means for generating a switching frequency by sensing a current, a resistance, and a current; means for flowing the current proportional to a current flowing through the dimming resistor to the switching frequency generating means; And a control unit for controlling the lamp is provided for each of the plurality of lamps.

Description

Dimming control circuit

The present invention relates to a dimming control circuit, and more particularly to a dimming control circuit that is stable to temperature changes.

The control circuit for controlling the conventional ballast system simply changes the external resistance so that the control frequency inputted to the ballast system is varied and the controlled frequency is inversely proportional to the consumed power of the system, thereby adjusting the brightness of the lamp.

Fig. 1 is a block diagram of a conventional dimming control circuit, which comprises a control circuit 10, a ballast system 12, a lamp 14, a resistor Rd, and capacitors Ct and C.

The conventional dimming control circuit having such a configuration adjusts the brightness of the lamp 14 by adjusting the switching frequency fs input to the ballast system 12 by adjusting the value of the variable resistor Rd connected to the control circuit . The total current is charging the capacitor Ct is determined by the reference current iref and the dimming current id that provide the basic switching frequency fs and the switching frequency fs is proportional to the total current is .

Fig. 2 shows a resonance characteristic curve of the ballast system, which shows the relationship of the power P to the switching frequency fs. That is, as the switching frequency fs increases, the power P consumed decreases. In other words, when the switching frequency fs is increased, the consumption power is decreased, so that the brightness of the lamp 14 is decreased. When the switching frequency fs is decreased, the consumption power is increased.

As can be seen from the above description, the conventional dimming control circuit was able to control the brightness of the lamp by adjusting the variable resistor connected to the control circuit.

However, the configuration of the conventional dimming control circuit is vulnerable to external noise, and in the case of integrated dimming between different application sets, that is, control connected to each lamp during multi-dimming to control brightness of a plurality of lamps The resistance value Rd of the circuit must be individually adjusted and it is difficult to accurately adjust the brightness to a desired level.

Further, when the control circuit is integrated, there is a disadvantage in that stable dimming can not be maintained with respect to a change in temperature only by the resistor Rd.

It is an object of the present invention to provide a dimming control circuit which is stable against changes in temperature.

It is another object of the present invention to provide a dimming control circuit which can easily control dimming in the case of multi-dimming for adjusting the brightness of a plurality of lamps.

According to an aspect of the present invention, there is provided a dimming control circuit comprising: a dimming voltage source for controlling a brightness of a lamp by controlling a voltage; a dimming resistor connected to the dimming voltage source and controlling a brightness of the lamp by controlling a resistance value; A switching frequency generating means for generating a switching frequency by sensing a current, means for flowing the current proportional to the current flowing in the dimming resistor to the switching frequency generating means, means for controlling the brightness of the lamp according to the switching frequency, And a control means for controlling the control means.

According to another aspect of the present invention, there is provided a dimming control circuit including a plurality of lamps, a dimming voltage source for controlling the brightness of the plurality of lamps, and a dimming control circuit for controlling the brightness of the lamps, A switching frequency generating means for generating a switching frequency by sensing a current, a resistance, and a current; means for flowing the current proportional to a current flowing through the dimming resistor to the switching frequency generating means; And a control unit for controlling the lamp is provided for each of the plurality of lamps.

1 is a block diagram of a conventional dimming control circuit.

2 shows a resonance characteristic curve of the ballast system.

3 is a circuit diagram of the dimming control circuit of the present invention.

4 is a block diagram of a dimming control circuit for multi-dimming of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Reference will now be made in detail to the preferred embodiments of the present invention. The dimming control circuit of the present invention will now be described with reference to the accompanying drawings.

3 is a circuit diagram of the dimming control circuit of the present invention. The voltage source Vd, the resistor Rex, the photocoupler 22, the diodes D1 and D2, the current sources i1 and i2 for controlling the switching frequency fs, A ballast system 12, a lamp 14, and a capacitor C, each of which has a sensing section 24 for sensing a current i1 and a current i3. Which is integrated into a portion indicated by 20 in the control circuit.

It is possible to adjust the dimming voltage (Vd), adjust the resistance (Rex), or adjust the dimming current altogether.

First, the dimming voltage is adjusted. When the dimming voltage Vd is increased, the currents ip1 and ip2 are increased. At this time, the current i3 is decreased. When the dimming current i3 is sensed by the sensing unit 24 and the dimming current is input to the whole current in inverse proportion, the total current increases and the dimming function can be performed. Conversely, when the dimming voltage Vd is lowered, the currents ip1 and ip2 decrease, and at this time, the current i3 increases. When the sensing unit 24 detects the increasing current i3 and inputs it to the whole current in inverse proportion to the dimming current, the entire current can perform the dimming function.

Next, the case of adjusting the resistance Rex will be described. When the resistance Rex is decreased, the currents ip1 and ip2 are increased and the current i3 is decreased. That is, the same operation as in the case of increasing the dimming voltage Vd is performed. Conversely, if the resistance Rex is increased, the same operation as in the case of decreasing the dimming voltage Vd is performed.

That is, the current i3 has an inversely proportional relationship with the dimming current. Although the circuit shown in Fig. 3 shows the detection of the current i3, the circuit may be configured to detect the current i2 and generate a dimming current proportional to the current i2.

The externally determined currents ip1 and ip2 have no influence on the internal temperature characteristics. Therefore, if the current i3 is independent of the temperature characteristic of the internal circuit, and the switching frequency fs is sensed by sensing the current, the constant current i3 provides a constant frequency to the temperature if the reference current iref is constant.

That is, when Vd and Rex are constant, i3 = il-i2 and i2 is equal to ip2, so i3 = i1-ip2. That is, the current i3 obtained by subtracting the current ip2, which has no influence on the temperature, from the constant current source i1 with temperature becomes a value which does not affect the temperature naturally.

Figure 4 is a block diagram of a dimming control circuit for multi-dimming of the invention, the dimming power source (Vd), the n number of lamps connected to the dimming power source _{(Vd) (14 1, 14} 2, ...., 14 n _N ), _n control circuits 20 ₁ , 20 ₂ , ..., 20 _n for controlling the dimming of the ballast system (12 ₁ , 12 ₂ , ..., 12 _n ) ₍₁ Rex, Rex _2, ..., _n Rex), and photo-coupler (22 _1, 22 _2, ..., 22 _n), and the n lamps (14 _1, 14 _2, ..., 14 _n ) and n capacitors C1, C2, ....., Cn connected to n ramps, respectively.

In other words, the circuit shown in FIG. 4 can control the dimming of n lamps by adjusting only the voltage value of the dimming power source Vd by varying the values of the n resistors.

Therefore, the conventional dimming control circuit controls the brightness of the lamp by accurately adjusting the resistance values connected to the respective control circuits. However, the dimming control circuit of the present invention is constructed by varying the values of the respective resistances and only the external dimming voltage The brightness of the lamp is adjusted by varying the brightness. Thus, dimming of a plurality of lamps can be controlled more simply.

The dimming control circuit of the present invention can easily control the brightness by adjusting the dimming voltage when adjusting the brightness of a plurality of lamps.

In addition, stable brightness can be maintained with respect to temperature changes.

Claims (4)

A dimming voltage source for controlling the brightness of the lamp by voltage regulation; A dimming resistor coupled to the dimming voltage source and for controlling the brightness of the lamp by adjusting a resistance value; A switching frequency generating means for generating a switching frequency by sensing a current; Means for flowing the current proportional to the current flowing in the dimming resistor to the switching frequency generating means; And control means for controlling the brightness of the lamp according to the switching frequency. 2. The dimming control means according to claim 1, wherein said means is a photocoupler. A plurality of lamps; A dimming voltage source for controlling the brightness of the plurality of lamps; A dimming resistor coupled to the dimming voltage source and for controlling the brightness of the lamp by adjusting a resistance value; A switching frequency generating means for generating a switching frequency by sensing a current; Means for flowing the current proportional to the current flowing in the dimming resistor to the switching frequency generating means; And a control means for controlling the brightness of the lamp in accordance with the switching frequency, in each of the plurality of lamps. The dimming control circuit according to claim 3, wherein said means is a photocoupler. ※ Note: It is disclosed by the contents of the first application.