KR20170140875A - Control circuit of light switch - Google Patents

Abstract

A control circuit of a lamp switch includes: a lamp-on circuit unit for receiving a pulse signal for turning on the lamp and supplying power to two power terminals of a latching relay to turn on a switch element included in the latching relay; and a lamp-off circuit unit for receiving a pulse signal for turning off the lamp and supplying the power to the two power terminals of the latching relay to turn off the switch elements included in the latching relay. The power of the lamp-on circuit unit and the lamp-off circuit unit is supplied by using a battery. According to the control circuit of the lamp switch, the usage time of the battery can be maximized by minimizing a current consumed in the control circuit.

Description

CONTROL CIRCUIT OF LIGHT SWITCH [0002]

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a control circuit of a light switch using a battery, and more particularly, to a control circuit of a light switch using a battery that can optimize power consumption while using a battery.

The manner of supplying power to the control circuit of the light switch varies depending on whether the AC signal is a two-wire type or a three-wire type.

Generally, in the case of a two-wire type, the driving power of the control circuit of the light switch is obtained from a lamp. In this case, there is no need to add a separate power line, which is relatively simple to install, but has the following problems.

① If the capacity of the lamp (WATTS) is small, that is, less than about 30 watts (WATT), the control circuit can not be supplied with enough necessary current, and a separate component such as a capacitor should be added to the lamp.

② It may be affected by the power state of the area and cause malfunction.

③ It may be affected by the power circuit of the lamp and cause malfunction.

④ AC power and DC power are not separated and there is a danger in handling.

In addition, in the case of a three-wire type, a separate power source is used to obtain driving power for the control circuit of the light switch. In this case, since the power source is separate, it is not affected by the influence of the peripheral power source or the power circuit of the electric power source. However, the power source needs to be supplied separately, and additional construction is required.

Alternatively, the battery may be used to supply power to the control circuit of the light switch in another manner. When the battery is used, it is possible to avoid all of the problems of the design by the two-wire type and the three-wire type described above, so that it is possible to perform installation without any additional work. However, Separation and battery usage time need to be considered.

Domestic Registration No. 10-1015649: RF Switch Controller Power Supply (February 10, 2011)

An object of the present invention is to provide a control circuit of a light switch capable of minimizing a current consumed in a control circuit and maximizing a use time of the battery. have.

A control circuit of a light switch according to a preferred embodiment of the present invention receives a pulse signal for turning on a lamp and supplies power to two power terminals of the latching relay to switch the switch elements included in the latching relay A lighting on circuit for turning on; And a lamp off circuit part for receiving a pulse signal for turning off the lamp and supplying power to two power terminals of the latching relay to turn off the switch elements included in the latching relay. In addition, the power source of the lamp on-circuit unit and the lamp off-circuit unit is supplied using a battery.

Further, the control circuit of the light switch of the present invention may further include: a display element unit including at least one display element, wherein the latching relay includes: a first power terminal connected to the lamp turn-on circuit unit and the lamp turn-off circuit unit; A second power terminal connected to the lamp-on circuit part and the lamp-off circuit part; A first switch terminal connected to one side of the display element portion; And a second switch terminal connected to the other side of the display element part. In addition, the switch element is connected between the first switch terminal and the second switch terminal.

Specifically, the light-on circuit unit receives a pulse signal for turning on a lamp, and the first power source terminal is brought into a HIGH state and the second power source terminal is brought into a LOW state. do. In addition, it is preferable that the lamp off-circuit unit receives a pulse signal to turn off the lamp, the first power source terminal is brought into a LOW state, and the second power source terminal is brought into a HIGH state .

In addition, in the present stage, a pulse signal for turning on or off the electric lamp is inputted, and after the signals of the first power source terminal and the second power source terminal are brought into a LOW state or a HIGH state, In the next step, the switch device receives a pulse signal for turning off or on the electric lamp, and before the states of the signals of the first power source terminal and the second power source terminal become opposite to the current step, Is maintained in the ON or OFF state in the step of FIG.

Preferably, the first switch terminal is connected to the AC line signal, the second switch terminal is connected to one side of the lamp, and the other side of the lamp is connected to the AC neutral signal. When a pulse signal for turning on a lamp is inputted, it is preferable that the switch element is turned on and the display element of the display element part is turned off. Further, when a pulse signal for turning off the lamp is inputted, the switching element is turned off, and the display element of the display element unit is turned on.

According to the control circuit of the light switch of the present invention, the current consumed in the control circuit is minimized, and the use time of the battery can be maximized.

1 is a configuration diagram of a control circuit of a light switch according to a preferred embodiment of the present invention.
BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a control circuit of a light switch,
3 is a timing diagram of a main signal of the present invention;

Hereinafter, a control circuit of a light switch according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

It should be understood that the following embodiments of the present invention are only for embodying the present invention and do not limit or limit the scope of the present invention. It will be understood by those of ordinary skill in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims.

First, FIG. 1 shows a configuration diagram of a control circuit 100 of a light switch according to a preferred embodiment of the present invention. 2 shows an example of connection between a control circuit 100 of a light switch of the present invention and a lamp (LP).

The present invention will be described in detail below with reference to Figs. 1 and 2. Fig.

The control circuit 100 of the light switch according to the preferred embodiment of the present invention includes a lamp ON circuit part 110, a lamp off circuit part 120, a protection circuit part 130 and a display device part 140. [

It is preferable that power is supplied from the battery when the power supply is required, such as the lamp on-circuit unit 110, the lamp turn-off circuit unit 120, and the protection circuit unit 130. That is, the power supply (V (BAT)) of the control circuit 100 of the light switch of the present invention is supplied from the battery.

However, since the display element 141 of the display element unit 140 operates by receiving the power from the AC power source, not by receiving the power from the battery, the power consumption of the battery is minimized.

The latching relay (LR) serves to connect the control circuit 100 of the light switch of the present invention to the lamp (LP), and corresponds to a light switch. The latching relay LR is a relay having a characteristic of maintaining the state of latching, that is, latching, once the switch element SW has been switched over before receiving the next switching signal. Particularly, in the present invention, it is preferable to use a one-coil latching relay using one coil CL.

The latching relay LR of the present invention is provided with a first power terminal T11 connected to the lamp on-circuit unit 110 and the lamp turn-off circuit unit 120, a second power terminal T11 connected to the lamp turn-on circuit unit 110, A power source terminal T12, a first switch terminal T21 connected to one side of the display element unit 140 and a second switch terminal T22 connected to the other side of the display element unit 140 . In the latching relay LR, a switch element SW is connected between the first switch terminal T21 and the second switch terminal T22, and between the first power supply terminal T11 and the second power supply terminal T12, The coil CL is connected.

The lamp on-circuit unit 110 receives a pulse signal L (ON) for turning on the lamp LP and supplies power to the two power terminals T11 and T12 of the latching relay LR, And turns on the switch element SW included in the latching relay LR. The lamp turn-off circuit 120 receives a pulse signal L (OFF) for turning off the lamp LP and supplies power to the two power terminals T11 and T12 of the latching relay LR, And serves to turn off the switch element SW included in the latching relay LR.

Further, by configuring the light-on circuit unit 110 and the light-off circuit unit 120 to be switched by an input pulse signal by a passive element including a transistor and a resistor, consumption current can be minimized.

The pulse signals L (ON) and L (OFF) for turning on or off the electric lamp LP can be a signal inputted from the user, which is a signal transmitted by pressing the button of the electric light switch or wirelessly.

The protection circuit 130 serves to prevent a malfunction such as surge which may be applied to the battery from the latching relay LR.

The display element unit 140 includes at least one display element 141 and serves to display the ON or OFF state of the lamp LP. Specifically, it is preferable that the display element 141 included in the display element unit 140 is turned off when the lamp LP is on and turned on when the lamp LP is off.

3 shows a timing diagram of the main signal of the present invention. The operation of the main signal of the control circuit 100 of the light switch of the present invention will be described in detail with reference to FIG.

The lamp on-circuit unit 110 receives a pulse signal L (ON) for turning on the lamp LP so that the first power terminal T11 is in the HIGH state and the second power terminal T12 ) To be in the LOW state. The lamp turn-off circuit 120 receives the pulse signal L (OFF) for turning off the lamp LP so that the first power terminal T11 is in a LOW state, (T12) to be in the HIGH state.

That is, among the first power supply terminal T11 and the second power supply terminal T12, a pulse signal L (ON) which turns on the lamp LP is inputted to the terminal which becomes the HIGH state, And a terminal that receives a pulse signal L (OFF) for turning off a high level signal is a terminal that is different from each other.

The switch element SW included in the latching relay LR performs the latching operation as follows.

At the present stage, when the signals of the first power supply terminal T11 and the second power supply terminal T12 are low (L (ON), L (OFF)) by receiving the pulse signals L LOW state, or HIGH state. In the next step, a pulse signal for turning off or on the lamp LP (i.e., a pulse signal opposite to the current step) is received and the states of the signals of the first power supply terminal T11 and the second power supply terminal T12 are The switch element SW maintains the on or off state at the present stage before the state is reversed to the present step.

For reference, at the present stage, the pulse signals L (ON) and L (OFF) for turning on or off the lamp LP are received and the signals of the first power supply terminal T11 and the second power supply terminal T12 The first power supply terminal T11 and the second power supply terminal T12 are brought into the floating state after the power supply voltage is turned to the LOW state or the HIGH state.

It is preferable that the first switch terminal T21 is connected to an AC line signal also referred to as an AC hot line signal and the second switch terminal T22 is connected to one side of the lamp LP. The other side of the lamp LP is connected to an AC Neutral signal. When the pulse signal L (ON) for turning on the lamp (LP) is inputted by this connection, the switch element SW is turned on so that the lamp LP is turned on so that all of the AC line signals LP, and the display element 141 of the display element unit 140 is turned off. When the pulse signal L (OFF) for turning off the lamp LP is input, the switch element SW is turned off and the display element 141 of the display element section 140 is turned on. That is, when a pulse signal L (OFF) for turning off the lamp LP is input, an AC signal is applied to both terminals of the switch element SW even if the switch element SW is turned off, The display element 141 is turned on.

In this manner, the display element 141 of the display element unit 140 operates by receiving the power from the AC power source, not by receiving the power from the battery, so that the power consumption of the battery is minimized.

In general, when a tree switch is used as a light switch, current consumption is continuously generated in a state where the tree switch is on. On the other hand, according to the present invention, a signal is input in an INTERRUPT manner by a pulse signal L (ON), L (OFF)) which turns on or off a lamp LP using a latching relay LR, It is possible to control the switch element (SW) in real time and minimize current consumption.

In addition, according to the present invention, the consumption current can be further reduced by driving the one-coil latching relay LR using passive elements such as transistors and resistors.

As described above, according to the control circuit 100 of the light switch of the present invention, it is understood that the current consumed by the control circuit 100 is minimized, and the use time of the battery can be maximized.

100: Control circuit of the light switch
110: lamp on circuit part 120: lamp off circuit part
130: protection circuit part 140: display element part
141: Display element
LR: latching relay LP: light
SW: Switch element CL: Coil
T11: first power terminal T12: second power terminal
T21: first switch terminal T22: second switch terminal

Claims (7)

In a control circuit of a light switch,
A lamp on-circuit unit receiving a pulse signal for turning on a lamp and supplying power to two power terminals of the latching relay to turn on a switch element included in the latching relay; And
And a lamp off circuit part for receiving a pulse signal for turning off the lamp and supplying power to the two power terminals of the latching relay to turn off the switch elements included in the latching relay,
And the power supply of the lamp-on circuit part and the lamp-off circuit part is supplied using a battery. The method according to claim 1,
The control circuit of the light switch includes:
And a display element portion including at least one display element,
The latching relay includes:
A first power source terminal connected to the lamp turn-on circuit part and the lamp turn-off circuit part;
A second power terminal connected to the lamp-on circuit part and the lamp-off circuit part;
A first switch terminal connected to one side of the display element portion; And
And a second switch terminal connected to the other side of the display element portion,
And the switch element is connected between the first switch terminal and the second switch terminal. 3. The method of claim 2,
The light-
The first power terminal is brought into a HIGH state and the second power terminal is brought into a LOW state by receiving a pulse signal for turning on a lamp,
The light-off-
Wherein the control circuit receives a pulse signal for turning off the lamp so that the first power terminal is in a LOW state and the second power terminal is in a HIGH state. The method of claim 3,
The method of claim 1, further comprising: receiving a pulse signal for turning on or off the lamp at a current stage, and after a signal of the first power source terminal and the second power source terminal is in a LOW state or a HIGH state,
In the next step, a pulse signal for turning off or on the lamp is inputted. Before the state of the signals of the first power source terminal and the second power source terminal becomes opposite to the current step,
Wherein the switch element maintains the on or off state at the present stage. The method of claim 3,
The first switch terminal is connected to the AC line signal,
The second switch terminal is connected to one side of the lamp,
And the other side of the lamp is connected to an AC neutral signal. 6. The method of claim 5,
When a pulse signal for turning on the lamp is input,
The switch element is turned on and the display element of the display element part is turned off. 6. The method of claim 5,
When a pulse signal for turning off the lamp is input,
The switch element is turned off, and the display element of the display element part is turned on.

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