KR100986801B1 - Led traffic light - Google Patents

Abstract

PURPOSE: An LED traffic light is provided to prevent the malfunction of a peripheral circuit by shutting off the power supplied to the LED traffic light when the LED light is turned off. CONSTITUTION: A power supply circuit(100) for an LED traffic signal is combined with an AC input line. An LED module is combined with the output terminal of the power supply unit. The power supply circuit for the LED traffic signal controls the voltage at both ends of the AC input line. The power supply unit minimizes the response time of the LED module. An excess current / overvoltage filter(105) controls an overvoltage or an excess current inputted to an input unit. A rectifier(110) changes AC voltage into DC voltage. An excess power removing unit maintains the on state of the LED module.

Description

LED traffic light {LED TRAFFIC LIGHT}

The present invention relates to a LED traffic light, and more particularly to a traffic light using the LED.

In general, traffic lights for vehicles and pedestrians are installed around the road to smooth traffic flow. In the case of a traffic light, in the related art, the light of the traffic light is conventionally configured to perform only a flashing function by using an incandescent lamp of a filament type.

However, incandescent bulbs have a problem in that they need to be replaced frequently because of high power consumption and high maintenance costs, and short filaments inside the bulb.

Therefore, in order to solve such a problem, recently, a traffic light using an LED is widely used.

LED traffic light is a high-efficiency energy product with less than 10W of power consumption compared to incandescent traffic light, and has an energy saving effect of about 80 to 90% at the same brightness.

In general, the LED signal lamp according to the prior art improves the stability of the power supply through the SMPS circuit AC voltage applied from the traffic signal controller.

However, such a SMPS circuit has a problem in that a transformer, a capacitor and a resistor, etc. are very complicatedly mounted and thus a circuit is manufactured, and the manufacturing cost is increased, and the durability of the transformer or the capacitor is degraded by electrical fatigue load, and thus frequent maintenance is required. have.

In addition, since the SMPS circuit is complicated, there is a problem in that the response speed of the LED according to power application is reduced.

In addition, the conventional LED signal lamp is designed to be able to drive the LED even at a low voltage, the LED can be turned on by the leakage current applied from the traffic signal controller has a problem that the LED signal lamp malfunctions.

Korean Patent No. 10-523555 (name of the invention: light emitting diode driving device for traffic lights) is a driving device for driving a plurality of serially connected light emitting diodes for signal lights, the rectifying means for rectifying the AC power supply to convert to DC ; Constant current control means for controlling the direct current output by the rectifying means to be uniformly supplied to the light emitting diodes; and checking the presence or absence of disconnection between the series-connected light emitting diodes to turn on or off all or part of the rectifying means. Light-emitting diode driver for signal lamps to ensure safe operation of LED signals, regardless of voltage fluctuations and high voltages, including disconnection detection and control means to control the power supply, and to reduce power consumption due to overcurrent and leakage current even in external environments Is starting.

The present invention devised to solve the above problems is an object of the present invention to provide an LED signal lamp that can reduce the LED lighting time.

In addition, another object of the present invention is to provide a device for an LED signal lamp that can prevent the malfunction of the peripheral circuit by removing the unnecessary voltage applied when the signal lamp is turned off.

LED traffic light according to the invention, the power supply circuit for the LED signal light coupled to the AC input line; And an LED module coupled to an output end of the power supply circuit for the LED traffic light, wherein the power supply circuit for the LED traffic light is coupled in parallel to an input of the power supply circuit for the LED traffic light when the LED module is turned off. The voltage of both ends of the AC input line is controlled so that a walking light assist device using an LED does not operate abnormally, and the power supply circuit for the LED signal lamp, when the initial application of the supply voltage supplied to the input unit, Provide the power supply voltage of the PWM signal generator in the power supply circuit for the LED signal lamp, and when the supply voltage is normally applied, the output voltage of the transformer in the power supply circuit for the LED signal lamp is supplied to the PWM signal generator in the power supply circuit for the LED signal lamp. It is characterized by providing a voltage to minimize the lighting response time of the LED module.

Preferably, the power supply circuit for the LED signal lamp, the overcurrent / overvoltage filter for suppressing the overvoltage and / or overcurrent input to the input unit; A rectifier for converting an AC voltage applied through the overcurrent / overvoltage filter into a DC voltage; A temporary voltage removing unit maintaining a turn-off state when the LED module is turned on and maintaining a turn-on state when the LED module is turned off; A PWM signal generator for generating a PWM control signal using the output voltage and the output current of the secondary side of the transformer; And a power supply unit configured to generate an induced voltage at a transformer secondary side provided therein by switching a DC voltage applied from the rectifying unit using the PWM control signal.

The lighting response time compensation unit may further include a lighting response time compensation unit which minimizes the lighting response time of the LED module by directly providing a forward voltage applied in parallel with the temporary voltage removing unit as a power supply voltage of a controller in the PWM signal generating unit.

Preferably, the voltage feedback unit for feeding back the output voltage to the PWM signal generator by dividing the output voltage of the secondary side of the transformer using a voltage divider; A current feedback unit feeding back the output current flowing through the LED module to the PWM signal generator; And a temperature compensating part connected in series with the current feedback part and disposed near the LED module to compensate for brightness of the LED module according to temperature.

Preferably, the temperature compensator uses a negative temperature coefficient thermistor whose resistance value decreases as the temperature increases.

According to the present invention, the lighting time of the LED signal lamp can be reduced. In addition, according to the present invention, it is possible to prevent the malfunction of the walking light auxiliary device and / or the acoustic signal by removing the unnecessary voltage applied when the traffic light is turned off.

1 is an overall block diagram of an LED traffic light apparatus according to the present invention, and
2 is a detailed circuit diagram of a power supply circuit for an LED signal lamp according to the present invention.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. Prior to this, terms or words used in the specification and claims should not be construed as having a conventional or dictionary meaning, and the inventors should properly explain the concept of terms in order to best explain their own invention. Based on the principle that can be defined, it should be interpreted as meaning and concept corresponding to the technical idea of the present invention. Therefore, the embodiments described in the specification and the drawings shown in the drawings are only one of the most preferred embodiments of the present invention and do not represent all of the technical idea of the present invention, various modifications that can be replaced at the time of the present application It should be understood that there may be equivalents and variations.

1 is an overall block diagram of an LED traffic light apparatus according to the present invention.

LED traffic light device according to the present invention is connected to any one of the AC input line AC control switching element 210 for controlling the flow of current, snubber circuit 220 coupled in parallel to the AC control switching element, AC input line Walking light auxiliary device coupled in parallel to the input terminal of the power supply circuit for LED traffic light 100, LED module 300 coupled to the output terminal of the power supply circuit for LED signal light ( 400, the sound signal 500 is coupled in parallel to the input terminal of the power supply circuit 100 for LED traffic lights.

Here, the AC control switching element 210 and the snubber circuit 220 is a configuration that is provided in the traffic signal controller, AC control switching element 210 is a triac (TRIAC), anti-parallel coupled bipolar junction transistor (BJT) Anti-parallel coupled field effect transistors (FETs), parallel coupled SCRs, SSRs, and the like, and the snubber circuit 220 may be a series of resistor-capacitor combinations.

The pedestrian light assisting device 400 according to the present invention is located next to the pedestrian light, and may be a 7-segment device 410 or an inverted triangular LED device 420 displaying the remaining time.

On the other hand, the walking light auxiliary device 400 and the acoustic signal 500 may operate as the LED module 300 according to the present invention on and off.

2 is a detailed circuit diagram of a power supply circuit for an LED signal lamp according to the present invention.

The power supply circuit 100 for the LED signal lamp according to the present invention includes an input unit 102, an overcurrent / overvoltage filter 105, a rectifier 110, an applied voltage removing unit 115, a lighting response time compensation unit 120, and a PWM. The signal generator 125, the power supply 130, the voltage feedback unit 135, the current feedback unit 140, the temperature compensation unit 145, and the output unit 150, the operation of each component The effect will be described in detail as follows.

Daytime 220V and nighttime 110V may be applied to the input unit 102 from the traffic signal controller.

The overcurrent / overvoltage filter 105 includes a varistor and a line filter, and the varistor sends a surge input from the AC power source to ground, and the line filter of the reactance component suppresses the overcurrent component.

The rectifier 110 may convert an AC voltage applied through the overcurrent / overvoltage filter 105 into a DC voltage, for example, using a bridge diode.

The applied voltage removing unit 115 maintains a turn-off state when the LED module 300 is turned on and maintains a turn-on state when the LED module 300 is turned off. In detail, when the LED module 300 is turned on, the voltage between both ends of the temporary voltage removing unit 115 is lower than or equal to a predetermined level so that the cascaded first and second transistors Q1 and Q2 maintain a turn-off state. On the other hand, when the LED module 300 is turned off, the voltage between both ends of the temporary voltage removing unit 115 rises above a predetermined level so that the cascaded first and second transistors Q1 and Q2 are kept turned on. Accordingly, the voltage applied through the rectifier 110 may be lowered. For example, when the LED module 300 is turned off, the voltage across the input unit 102 may be maintained within 5 volts AC.

The lighting response time compensator 120 is coupled in parallel with the applied voltage removing unit 115 to minimize the response time when the LED module 300 is turned on. Specifically, the DC voltage applied through the rectifier 110 turns on the fourth transistor Q4 and is supplied to the power supply voltage terminal of the PWM signal generator 125. Subsequently, when the secondary output voltage of the transformer is generated, the third transistor Q3 is turned on and the fourth transistor Q4 is turned off. That is, the lighting response time compensator 120 turns on the fourth transistor Q4 during the initial operation to supply a forward voltage to the power supply voltage terminal of the PWM signal generator 125, and the PWM signal generator 125 during the normal operation. Supply output voltage of secondary side of transformer to power supply voltage terminal of). This is because the response speed is high when the forward voltage is used, but a large amount of heat is generated in the collector-side resistance of the fourth transistor Q4, which is easy to damage.

The PWM signal generator 125 receives the output voltage and the output current of the transformer secondary from the voltage feedback unit 135 to provide a PWM control signal to the control terminal of the fifth transistor Q5.

The power supply unit 130 generates an induced voltage on the secondary side of the transformer provided by switching the DC voltage applied from the rectifying unit 110 by using the switching of the fifth transistor Q5 and rectifies using a diode.

The voltage feedback unit 135 is guided to the secondary side of the transformer and feeds back the output voltage by dividing the output voltage of the rectified power supply unit 130 using a voltage divider resistor.

The current feedback unit 140 feeds back an output current flowing through the output unit 150 using a feedback resistor.

The temperature compensator 145 is connected in series with the current feedback unit 140 and is disposed near the LED module 145 to compensate for the brightness of the LED module 300 according to the temperature. The negative temperature coefficient thermistor coupled in parallel in the temperature compensator 145 decreases as the temperature increases. As the resistance value decreases, the combined resistance value of the parallel-coupled negative temperature coefficient thermistor becomes smaller, and the reference voltage provided to the controller in the PWM signal generator 125 also becomes smaller.

When the reference voltage provided to the controller in the PWM signal generator 125 decreases, the turn-on time of the controller increases, and the pulse width of the controller expands to increase the output voltage applied to the transformer output terminal.

As a result, according to the LED signal lamp according to the related art, since the leakage current flows through the snubber circuit 220 even when the LED module 300 is turned off because the temporary voltage removing unit 115 does not exist, both ends of the input unit 102 are connected. Significant alternating voltage is applied unnecessarily. Accordingly, there is a problem that the walk light auxiliary device 400 and / or the acoustic signal signal 500 coupled to the input unit 102 are abnormally operated. In addition, the traffic signal controller may not determine that the LED module is turned off. However, according to the present invention, it is possible to solve the problem that the walking light auxiliary device 400 and / or the acoustic signal 500 is coupled to the input unit 102 in parallel to eliminate the temporary voltage, traffic signal controller Can accurately determine whether the LED module is on or off.

In addition, according to the LED signal of the prior art, since the voltage applied through the transformer is used as the power supply voltage of the controller in the PWM signal generator 125, there is a problem that the LED module does not turn on quickly, but according to the present invention, Since the forward voltage is directly used as the power supply voltage of the controller in the PWM signal generator 125, the lighting response time of the LED module can be minimized.

The present invention described above is not limited to the above-described embodiments and the accompanying drawings, and various substitutions, modifications, and changes within the scope not departing from the technical spirit of the present invention are possible in the art. It will be evident to those who have knowledge of.

LED traffic light of the present invention can be used as a traffic light using the LED.

100: power supply circuit for the LED traffic light
210: AC control switching element 220: snubber circuit
300: LED module 400: walk light auxiliary device
500: sound signal

Claims (5)

A power supply circuit for an LED signal lamp coupled to an AC input line; And
An LED module coupled to the output terminal of the power supply circuit for the LED traffic light,
The power supply circuit for the LED traffic light is coupled to the input of the power supply circuit for the LED traffic light when the LED module is extinguished, so that the pedestrian light assist device using the LED does not operate abnormally at both ends of the AC input line. To control voltage,
The power supply circuit for the LED signal lamp may provide the supply voltage as a power supply voltage of the PWM signal generator in the power supply circuit for the LED signal lamp when the supply voltage supplied to the input unit is initially applied, and when the supply voltage is normally applied. And providing a transformer output voltage in the power supply circuit for the LED signal lamp as a power supply voltage of the PWM signal generator in the power supply circuit for the LED signal lamp to minimize a lighting response time of the LED module. The power supply circuit for the LED signal lamp according to claim 1,
An overcurrent / overvoltage filter for suppressing overvoltage or overcurrent input to the input unit;
A rectifier for converting an AC voltage applied through the overcurrent / overvoltage filter into a DC voltage;
A temporary voltage removing unit maintaining a turn-off state when the LED module is turned on and maintaining a turn-on state when the LED module is turned off;
A PWM signal generator for generating a PWM control signal using the output voltage and the output current of the secondary side of the transformer; And
Power supply unit for generating an induced voltage to the secondary side of the transformer provided by switching the DC voltage applied from the rectifying unit using the PWM control signal
LED traffic light comprising a. The method of claim 2,
LED signal lamp, characterized in that for providing a forward voltage applied in parallel with the applied voltage removing unit directly to the power supply voltage of the controller in the PWM signal generator. The method of claim 3,
A voltage feedback unit feeding back the output voltage to the PWM signal generator by dividing the output voltage of the secondary side of the transformer by using a voltage divider;
A current feedback unit feeding back the output current flowing through the LED module to the PWM signal generator; And
A temperature compensator connected in series with the current feedback part and disposed near the LED module to compensate for the brightness of the LED module according to temperature;
LED traffic light further comprising. The method of claim 4, wherein
And the temperature compensator uses a negative temperature coefficient thermistor whose resistance value decreases as temperature increases.

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