KR20090085919A - Lamp control apparatus using solid state relay - Google Patents

Abstract

A lamp control unit is provided to improve space efficiency by directly controlling the AC power for driving the lamp through an SSR(Solid State Relay). An AC power for driving a lamp is applied to an input contact point of a relay(31). The input contact point and the output contact point are shorted or opened according to a power supply control signal. One or more SSR drivers(32-1 to 32-n) turns on or off the SSR according to the lamp control signal to supply the power to the lamp or block the power. One or more feedback processors(33-1 to 33-n) sense the output state of the corresponding SSR by corresponding to the SSR driver. A lamp controller(34) transmits a lamp control signal to the SSR driver according to the indication of a master device. The lamp controller monitors the output state of the SSR and transmits the power supply control signal to the relay.

Description

Lamp Control Apparatus Using Solid State Relay

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a lamp control apparatus using a solid-state relay, and in particular, an industrial site such as a stop lamp for a fixed position used for a subway section and a lamp for notifying that the departure time of a train has elapsed. This is to enable more efficient control of the various lamps used in the system.

There are many examples in industrial sites where lamps are used to accomplish different purposes.

As an example, the subway system uses a stop lamp that informs the driver of the position so that the train can stop at a fixed position, and a dwell light that indicates when the train arrives. . In order to use a lamp as described above, a lamp control device capable of turning on or off a necessary lamp is essential.

Referring to Figure 1, it will be described with respect to the lamp control device 12 of the conventional subway system. Hereinafter, the term 'relay' means a contact relay.

In general, the lamp control unit 12-1 configured using a central processing unit (CPU) outputs a lamp control signal for turning on or off the lamp 13 according to the instruction of the master device 11. . In FIG. 1, for convenience of description, the lamp control device 12 is shown to control one lamp 13, but the lamp control device 12 controls several lamps.

The lamp control signal output from the lamp control unit 12-1 controls a corresponding component (eg, a transistor) of the relay control unit 12-2 so that DC 24V power, which is a relay driving signal, is supplied or cut off to the corresponding relay. .

Then, the relay of the relay unit 12-3 is in a short circuit or an open state. When the relay is short-circuited, the lamp driving AC power (eg, AC 110 V) is supplied to the lamp 13, and the lamp 13 is turned on. When the relay is open, the lamp driving AC power is not supplied and the lamp ( 13) is turned off.

Referring to FIG. 2, a process of driving the relay in detail will be described. When the lamp control unit 12-1 transmits a lamp control signal for a certain lamp to a high state (DATA '1'), a photocoupler is used. 21 is turned on to allow current to flow through the current limiting resistor R 22 and the photocoupler 21, thereby turning on the field effect transistor (FET).

Then, a DC 24V power supply is applied as a control signal of the relay 24 so that the lamp driving AC power supply (AC 110V) input contact of the relay 24 is connected to the output contact connected to the lamp to supply current to the lamp. The lamp lights up.

However, when the lamp control unit 12-1 transfers the lamp control signal for this lamp to the low state (DATA '0'), the lamp operation signal operating contact of the relay 24 for the lamp driving of the relay 24 is reversed. Since the silver is separated from the output contact connected to the lamp, current cannot be supplied to the lamp and the lamp is turned off.

The conventional lamp control apparatus 12 as described above requires a lot of wiring work because the relays 24 should be provided to correspond to each lamp one-to-one, and the relay itself requires a lot of space. As the size increases, space use becomes inefficient, resulting in additional costs.

Accordingly, the present invention has been made to solve the above problems, by replacing the relay for connecting or disconnecting the lamp driving AC power for each lamp using a solid-state relay (SSR), reducing the size of the device and wiring The purpose is to provide a lamp control device using a solid-state relay that can simplify the cost and reduce the cost.

In order to achieve the above object, in the lamp control apparatus using a contactless relay according to the present invention, an AC power source for driving a lamp is applied to an input contact point, and the input contact point and the output contact point are short-circuited or generated according to a power supply control signal. A relay to be opened; At least one solid-state relay driver to turn on / off a solid state relay (SSR) according to a lamp control signal to supply or cut off power applied to an output contact of the relay to a lamp connected thereto; At least one feedback processor for detecting an output state of the contactless relay in correspondence with each of the contactless relay driver; And transmitting the lamp control signal to each of the solid state relay driving units according to the instruction of the master device, and monitoring the output state of each of the solid state relays sensed through each of the feedback processing units to transmit the power supply control signal to the relay. It comprises a lamp control unit.

The contactless relay driver may include: a contactless relay (SSR) for passing or blocking the lamp driving AC power applied through an output contact of the relay according to a control signal; And a photocoupler for driving in accordance with the lamp control signal applied through the current limiting resistor and applying an output signal as a control signal of the contactless relay.

The feedback processing unit includes an AC input photocoupler having an input terminal connected to an output terminal of the contactless relay through a current limiting resistor element, and transmitting the output signal to the lamp controller as an output state detection signal for the contactless relay. Can be configured.

In this embodiment, the lamp control apparatus using the contactless relay has at least one input terminal connected to an LED driving power supply through a current limiting resistance element, and an output terminal connected to an AC input photocoupler output terminal of each feedback processing unit. It may be configured to further include an LED (LED) for displaying the lamp status.

According to the present invention, since the AC power for driving the lamp is directly controlled by using a solid state relay (SSR), the size of the device is reduced compared to the conventional configuration of the lamp control device using a relay (contact relay). Efficient use and reduced wiring also reduce equipment costs and maintenance costs.

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

Referring to FIG. 3, a lamp control device (hereinafter, referred to as a lamp control device) using a solid state relay according to the present invention may include a relay 31, a solid state relay driver 32-1 to 32-n, and feedback. Processing sections 33-1 to 33-n, and lamp control section 34, respectively.

The relay 31 is configured by using a contact type relay, and an AC power source for driving a lamp (eg, AC 110V) is applied to an input contact point, and an output contact point is connected to each of the contactless relay drive units 32-1 to 32-n. Common connection.

The relay 31 is short-circuit or open in the input contact point and the output contact point according to the power supply control signal transmitted from the lamp control part 34. The lamp control part 34 of the relay 31 The power supply control signal for making the input contact and the output contact short-circuited is applied, and if not, the power supply control signal for making the input contact and output contact of the relay 31 open is applied.

The solid state relay drivers 32-1 to 32-n include a solid state relay (SSR), and one or more relays are provided corresponding to the number of lamps 13-1 to 13-n to be controlled. (Ie n is an integer of 1 or more).

Then, the contactless relay SSR is turned on or off according to the lamp control signal transmitted from the lamp controller 34.

Since each solid state relay (SSR) is connected to the output contact of the relay 31, when the solid state relay (SSR) is controlled in the on state when the relay 31 is kept short-circuited, it passes through the lamp driving AC power. When the contactless relay SSR is controlled to be in an off state, the AC power for driving the lamp is cut off.

The feedback processing units 33-1 to 33-n are provided in a one-to-one correspondence with each of the contactless relay driving units 32-1 to 32-n, and output of the contactless relay (SSR) included in the contactless relay driving unit. It detects a state and transmits the detected signal to the lamp control unit 34.

On the other hand, the lamp control unit 32 may interface in various ways, such as a serial communication interface, a Versa Module Eurocard Bus (VME) interface according to the connection structure with the master device 11, and according to the instructions from the master device 11 The lamp control signal is transmitted to each of the solid state relay driving units 32-1 to 32-n, and the output state of the solid state relay sensed through each of the feedback processing units 33-1 to 33-n is monitored.

If the current state of each lamp controlled according to the lamp control signal (that is, the output state of the contactless relay for each contactless relay driving unit) is different from the expected state, the relay 31 is considered to be in an open state in consideration of an abnormality. It transmits a power supply control signal to make it cut off the AC power for driving the lamp to be supplied to each of the solid-state relay driving unit (32-1 ~ 32-n).

For example, the lamp control unit 34 outputs a lamp control signal for extinguishing the lamp to a contactless relay driver 32-1, and at the output of the contactless relay to the contactless relay driver 32-1. When an AC power source for driving a lamp is detected, an abnormality has occurred and thus the relay 31 is controlled to be in an open state.

Referring to FIG. 4, a specific embodiment of configuring a contactless relay driver and a feedback processor will be described.

4 illustrates an example of driving four lamps, 'JI_PRI_HOF' is a terminal to which an AC power source for driving a lamp (eg, AC 110V) is input, and 'JI1_CON' to 'JI4_CON' are lamp control units 34. Terminals (not shown), 'ROUTE_1' to 'ROUTE_4' are connected to the lamp to supply AC power for driving the lamp, and 'JI1_IN' to 'JI4_IN' are output states detected from the feedback processor. A signal is a terminal input to the lamp control unit 34.

Since each component of the four lamps is the same, one contactless relay driver 32-1 and feedback processor 33-1 will be described.

The solid-state relay driver 32-1 may include a photocoupler U22 that operates by receiving a lamp control signal through a current limiting resistor R17. That is, when the lamp control signal is high, the photocoupler U22 is turned on, and the solid state relay SSR1 is turned on, and the lamp driving AC power input through the relay 31 is output through the solid state relay SSR1. do.

Then, this lamp driving AC power is applied to the corresponding lamp through the 'ROUTE_1' terminal and the lamp is turned on.

In addition, the lamp driving AC power output from the contactless relay SSR1 is input to the feedback processing unit 33-1, and the lamp driving AC power output from the contactless relay SSR1 is connected through the current limiting resistors R21 and R22. Turn coupler U24 on. The photocoupler U24 is an alternating current (AC) input photocoupler and operates both when the input signal is positive and negative.

When the photocoupler U24 is turned on, a low output detection signal is input to the lamp controller 34 through the 'JI1_IN' terminal. At this time, in order to balance the voltage level due to the AC power supply, a capacitor C9 is provided at both ends of the output terminal of the photocoupler U24.

However, when the lamp control signal is in a low state, the photocoupler U22 is turned off and the solid state relay SSR1 does not conduct, and the lamp driving AC power input through the relay 31 is connected to the output terminal of the solid state relay SSR1. Does not appear

Then, the lamp connected to the 'ROUTE_1' terminal is turned off.

In addition, since the solid state relay SSR1 is in the off state, no current flows through the current limiting resistors R21 and R22, and the photocoupler U24 is turned off. When the photocoupler U24 is turned off, the output detection signal of the high state is input to the lamp controller 34 through the 'JI1_IN' terminal.

On the other hand, the lamp control device 30 according to the present invention may be configured to include one or more LED (Light Emitting Diode) to visually inform the operating state of each lamp.

In this case, the LED is connected to the LED driving power supply (eg, DC 5V) through the current limiting resistor R15, and the output terminal of the LED coupler U24 of the feedback processor 33-1. It can be configured to be connected to the output stage. Then, when the photocoupler U24 is turned on, a current flows through the corresponding LED (LED), thereby visually informing the state of the corresponding lamp.

Each embodiment described above is intended to help the understanding of the present invention, the present invention is not limited to the above embodiments and can be variously modified and implemented by those skilled in the art without departing from the technical spirit of the present invention. Of course.

1 is an example of a conventional lamp control apparatus,

2 is a specific example of a circuit for controlling a lamp by a relay;

3 is an embodiment of a lamp control apparatus using a contactless relay according to the present invention,

4 is a specific embodiment of a lamp control apparatus using a contactless relay according to the present invention.

* Explanation of symbols for main parts of the drawings

11: master unit 12: lamp control unit

12-1: Lamp Control Unit 12-2: Relay Control Unit

12-3: Relay Unit 13,13-1 to 13-n: Lamp

21: photocoupler 22: resistor

23: FET 24, 31: relay

30: lamp control unit

32-1 to 32-n: solid-state relay driver 33-1 to 33-n: feedback processor

34: lamp control unit

Claims (4)

A relay to which an AC power source for driving a lamp is applied to an input contact, and the input contact and the output contact are short-circuited or open according to a power supply control signal; At least one solid-state relay driver to turn on / off a solid state relay (SSR) according to a lamp control signal to supply or cut off power applied to an output contact of the relay to a lamp connected thereto; At least one feedback processor for detecting an output state of the contactless relay in correspondence with each of the contactless relay driver; And The lamp control signal is transmitted to each of the solid state relay driving units according to the instruction of the master device, and the power supply control signal is transmitted to the relay by monitoring the output state of each of the solid state relays sensed through the respective feedback processing units. Lamp control apparatus using a solid-state relay comprising a lamp control unit. The contactless relay driver of claim 1, wherein the contactless relay driver A solid state relay (SSR) for passing or blocking the lamp driving AC power applied through an output contact of the relay according to a control signal; And And a photocoupler for driving according to the lamp control signal applied through the current limiting resistor and applying an output signal as a control signal of the contactless relay. . The method of claim 1, wherein the feedback processing unit The input terminal is connected to the output terminal of the contactless relay through a current limiting resistor element, and comprises an AC input photocoupler for transmitting the output signal to the lamp control unit as an output state detection signal for the contactless relay. Lamp control device using a solid-state relay. The method of claim 3, wherein The input terminal is connected to the LED driving power supply through the current limiting resistor element, and the output terminal further comprises one or more lamp status display LED (LED) connected to the AC input photocoupler output terminal of each feedback processing unit. Lamp control apparatus using a solid-state relay, characterized in that.

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