KR20050115352A - Signal control circuit for electronic dimmable ballasts - Google Patents

Abstract

In the dimming ballast comprising a power source 20, a lamp (LP) lit by the power supply, and an adjusting unit for dimming the lamp, the adjusting unit includes a transistor (50). It provides a control signal control circuit of the dimmer ballast characterized in that to adjust the circulating current between the emitter (E) and the collector (C) according to the voltage input to the base (B).

As such, the present invention does not perform dimming control according to the difference between the conventional external dimming control voltage and the internal dimmer voltage and adjusts the microcurrent of the dimming control voltage of the dimmer ballast using the internal voltage of the dimmer ballast (approximately 10 V). It is possible to configure the circuit, and thus it is possible to control a plurality of dimming ballast, there is an effect that the smooth dimming control is possible within the adjustment range.

Description

SIGNAL CONTROL CIRCUIT FOR ELECTRONIC DIMMABLE BALLASTS}

The present invention relates to a control signal control circuit of a light control ballast, and a control signal control circuit of a light control ballast such that dimming is performed smoothly while reducing manufacturing costs with a simple structure.

In general, in a dimmer, a dimming switch (usually 500 W) is used, and in the case of a fluorescent lamp, dimming is performed using an electronic dimmable ballast. This dimming ballast 10, as shown in Figure 1a, the power is supplied from the normal power supply 20, the dimming control signal in the range of 1 to 10V DC from the dimming control signal input terminal 30 of + and- Is input and dimming of the lamp LP which is a fluorescent lamp is performed. In addition, since the potentiometer (40) as shown in FIG. 1B is connected to the input terminal 30 via the + and − terminals 41, the dimming control signal is 1 to 10V (maximum at the minimum brightness). Brightness).

By the way, the voltage divider resistor 40 can be used by connecting only one or two dimming ballasts per resistor, there is a problem that the dimming made according to the variable of the voltage divider resistor 40 is not made smoothly. .

In addition, in the case of using a general dimmer, a signal converter (not shown) for converting the output of the dimmer ballast power supply 20 into a direct current dimming control signal power source (not shown) has a problem that the dimmer ballast becomes expensive. Due to problems, the use of dimmers has tended to be limited to luxury homes.

Accordingly, the present invention has been made in view of the above-mentioned problems, and an object thereof is to provide a control signal control circuit of a light control ballast, in which a manufacturing cost is reduced by using a transistor and light control is performed linearly according to a control signal. do.

In order to achieve the above object, the present inventors have analyzed the control signal input unit of the dimmer ballast, and as a result, a dimmer ballast capable of using a voltage divider resistor is generated with a voltage of about 10 V inside the dimmer ballast. When the dimming control voltage of is applied, the current decreases in the dimming ballast internal circuit by the difference of the applied voltage from the dimming ballast internal generated voltage to the externally applied control voltage. It was detected that the dimming ballast was dimmed.

Therefore, the present inventors have constructed a circuit in which the microcurrent of the dimming control voltage of the dimming ballast is adjusted by using the internal voltage of the dimming ballast (approximately 10 V).

The present invention provides a dimming ballast comprising a power source, a lamp lit by the power supply, and an adjusting unit for dimming control of the lamp, wherein the adjusting unit is formed of the transistor 50, and is provided on the base B of the transistor. It provides a control signal control circuit of the light control ballast characterized in that the circulating current between the emitter (E) and the collector (C) is adjusted according to the input voltage.

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

FIG. 2 is a diagram illustrating a dimming control signal adjusting unit of a dimming ballast according to the present invention. The terminal 51 of + and-connected to the dimming control signal input terminal 30 of + and-shown in FIG. The transistor 50 and the zener diode D are provided. Here, the emitter E of the transistor 50 is connected to the terminal 51 of +, and the collector C is connected to the terminal 51 of-, and control of 1 to 10V DC to the base B is performed. A signal is configured to be input. In addition, a zener diode B is connected between the emitter E and the collector C of the transistor 50.

Here, the terminal 51 of + connected to the emitter E of the pnp-type transistor 50 and the terminal 51 of-connected to the collector C are connected to the dimming control signal terminal 30 of the dimming ballast 10. Since it is connected, about 10V of the generated voltage of the light control ballast 10 is applied. In addition, the zener diode D may have a voltage greater than or equal to about 10 volts generated from an internal voltage generated by the dimming ballast 10 to be induced by electromagnetic induction due to wire line construction or the like, or a reverse voltage may be applied to prevent the transistor 50 from being burned out. It was used for.

Therefore, when the voltage applied between the transistor emitter E and the collector C is applied to the input terminal (eg, the base B) of the transistor 50, the current flows between the emitter E and the collector C. The current is at zero state, whereby the dimming brightness can be minimized. When 0 V is applied to the input terminal, the current flowing between the emitter E and the collector C flows through the entire current (about 2 mA in the initial stage) emitted by the dimming ballast, and thus the dimming brightness can be maximized. That is, the dimming ballast 10 internal circulating current flows between the emitter E and the collector C by adjusting the base B terminal voltage of the pnp transistor 50 to adjust the dimming ballast internal circulating current. .

3A is a circuit diagram of an embodiment for supplying a direct current to the input terminal (base B) of the transistor shown in FIG.

In the drawing, the voltage of the input power source AC is used as the charge / discharge principle of the protection resistor R0 and the capacitor C0, and the zener diode D2 is clamped over the required voltage, and the rectifying silicon D1 is used. The voltage is applied to the base B of the transistor 40 by converting the pulsed components into the storage capacitor C1 through direct current) to obtain a voltage applied to the base B of the transistor 40. The voltage of the transistor 40 is controlled by the volume VR1. Since it is input to (B), the dimming current of the light control ballast 10 is adjusted and flows.

In the figure, the positions of the resistor R0 and the capacitor C0 may be interchanged with each other, and the zener diode D2 may be constituted by the storage capacitor C1 and a parallel circuit.

3B is a circuit diagram of another embodiment for supplying a direct current to the input terminal (base B) of the transistor 40 shown in FIG.

In the drawing, the input power supply AC is insulated and down with the required voltage by using the transformer T1, and the pulsating component is charged to the storage capacitor C1 through the rectifying diode D1. By converting the voltage into a direct current to obtain a voltage to be applied to the transistor base B, and adjusting the voltage to the volume VR1 as shown in FIG. 3A, the dimming ballast dimming current is controlled by adjusting the voltage of the transistor base B.

In addition, this circuit can be applied to the output stage circuit of the signal converter for the light control ballast as it is.

Meanwhile, in FIG. 3, the AC power source and the power source 10 may be used in common or independently.

As described above, according to the present invention, the control of the dimming control voltage of the dimming ballast is performed by using the internal voltage (approximately 10 V) of the dimming ballast, instead of controlling the dimming according to the difference between the conventional external dimming control voltage and the internally generated voltage of the dimmer. It is possible to configure a circuit to adjust the micro-current, thereby controlling a large number of dimming ballasts, there is an effect that smooth dimming control is possible within the adjustment range.

1A is a schematic connection diagram of a general dimmer ballast;

1b is a view schematically showing a volume (variable resistor for a voltage divider) used in a general dimmer ballast;

2 is a view showing a dimming control signal adjusting unit of the dimming ballast according to the present invention;

3A is a circuit diagram of an embodiment for supplying a direct current to the dimming control signal adjusting unit shown in FIG. 2;

FIG. 3B is a circuit diagram of another embodiment for supplying a direct current to the dimming control signal adjusting unit shown in FIG. 2.

[Description of Reference Code]

LP-lamp, 10-dimming ballast,

20-power, 30-input,

41,51-output stage, 50-pnp transistor,

C0-Storage Capacitor, D, D2-Zener Diode,

D1-diode, VR1-volume,

T1-trans.

Claims (2)

Power supply, A lamp lit by the power supply, In the dimming ballast comprising an adjusting unit for dimming the lamp, The control unit is made of a transistor 50, the circulating current between the emitter (E) and the collector (C) is adjusted according to the voltage input to the base (B) of the transistor control signal control of the dimmer Circuit. The method of claim 1, wherein the base (B) of the transistor (50) is provided with an alternating current from a variable resistor (VR1) for input current control, a zener diode (D) for protecting the transistor (50), and a power source (AC input). Control signal control circuit of the dimming ballast characterized in that it further comprises a rectifying circuit for rectifying.