KR101754974B1 - Drive control system of LED based precision approach path indicator - Google Patents

Abstract

The present invention relates to a driving system (100) comprising a constant current regulator (CCR) for supplying current and a driving unit connected to the constant current regulator and adapted to drive a precise entry path indicator lamp in response to a current received from the constant current regulator, The main power unit included in each of the driving units always monitors whether or not the power of the other driving unit is normally supplied. If there is no power, the power of the driving unit is supplied And the relay operation can be performed so that the relay operation can be performed.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a drive control system

[0001] The present invention relates to a drive system for an LED precise entry path indicator lamp, and more particularly, it relates to a drive system for an LED precise entry path indicator lamp, which comprises two drive units on a precise entry path indicator (PAPI), mutually monitoring each microprocessor included in each drive unit, The present invention relates to a drive system of an LED precise entry route indicator lamp which can always supply stable power by allowing two power sources to be automatically driven from a power source supplied from another CCR even when the power supply of one connected CCR is interrupted will be.

The Precision approach path indicator (PAPI) is an aerial equalization that tells the pilot of an aircraft approaching the runway the visual level of the elevation angle of the entry angle. Using the current source, By making the output of the light, the airplane coordinator plays the role of keeping the height of the airplane landing properly when watching this light, and it plays a very important role in the safety of the airplane.

So you should always be on when the plane landing and always be prepared for the power source as it should work correctly.

Accordingly, it is an object of the present invention to provide a driving system of an LED precise entry path indicator lamp, which enables a safe power supply by doubling the power source so that even if one power source is not supplied, it can be automatically supplied to another power source.

European Patent Application Publication No. 10191768.0

SUMMARY OF THE INVENTION The present invention has been made in order to solve the above problems, and it is an object of the present invention to provide a two- The two driving parts monitor each other to check whether the power is normally supplied, and if there is no power, the relay can be operated so that the power can be supplied from the other part. .

According to an aspect of the present invention, there is provided a method of driving a light emitting device including a constant current regulator (CCR) for supplying a current and a driving unit connected to the constant current regulator, The driving system 100 is inserted into the precision entry path indicating lamp so that the power can be supplied in a double manner and the main power unit included in each of the driving units always monitors whether the power of the other driving unit is normally supplied, The relay operation can be performed so that the power of the driving unit can be supplied.

A main power supply unit for monitoring the power of the other drive system and supplying power to the system; a microcomputer for adjusting the brightness of the LED; a power supply unit for supplying power to the system; And an LED driver that receives the PWM control signal supplied from the microcomputer and controls the LED current to have an appropriate brightness.

In the above, the power source (PFC (Power)) performs a constant voltage regulating function in the MOSFET to change the input current to a voltage so that the phase of the voltage and current does not change and the power factor is improved. .

The LED is supplied with current from the constant current regulator CCR. The LED driver needs to adjust the output of the LED driver in such a manner that a current corresponding to each step is received and a suitable level of light is output. Accordingly, when a current of 6.6 A is input, the brightness of the lamp is adjusted to be 100%, and the brightness of the lamp must be adjusted to be within the minimum brightness and the maximum brightness according to the input current.

As described above, according to the drive system of the LED precise entry route indicator lamp of the present invention, two drive units are formed inside the precision entry route indicator lamp, so that the two drive units are normally supplied with power, The driving unit of the power supply unit monitors each other and checks whether the power supply is normally supplied. If there is no power supply, the relay is operated so that the power supply can be supplied from the other power supply unit.

FIG. 1 is a view schematically showing a drive system of an LED precise entry path indicator lamp according to an embodiment of the present invention,
FIG. 2 is a view schematically showing a current dimming curve applied to a white lamp of a driving system of an LED precision entry path indicator lamp according to an embodiment of the present invention,
3 is a schematic view showing a current dimming curve applied to a color lamp of a driving system of an LED precise entry path indicator lamp according to an embodiment of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, a driving system of a LED precise entry path indicator lamp according to the present invention will be described in detail with reference to the accompanying drawings. It is to be noted that like elements in the drawings are represented by the same reference numerals as possible. In the following description, well-known functions or constructions are not described in detail since they would obscure the invention in unnecessary detail.

FIG. 1 is a view schematically showing a drive system of an LED precise entry path indicator lamp according to an embodiment of the present invention. FIG. 2 is a cross- FIG. 3 is a schematic view of a current dimming curve applied to a color lamp of a driving system of an LED precise entry path indicator lamp according to an embodiment of the present invention. Referring to FIG.

As shown in FIGS. 1 and 2, the present invention includes a constant current regulator (CCR) 1 for supplying a current, a constant current regulator 1 connected to the constant current regulator 1, Even if one drive system 100 does not receive power by inserting two drive systems 100 including the drive unit 2 for driving the path indicator lights inside the precision entry path indicator lamp, '), So that a safe power supply can be always provided.

The constant current regulator 1 supplies current to the driving unit 2 in a constant current type. When a general commercial power source is supplied in parallel in a precise entry path indicating light installed over a long distance, a voltage drop occurs at the terminal It can be made in a constant current type, and the size of the current is usually 6.6A, and the capacity is selected by giving a little margin to the second load. On the other hand, the reason why the power supplied from the constant current regulator 1 is connected in series is that if all of the bulbs of the circuit have the same luminous intensity and the cables of the circuit can be used in the same thickness regardless of the load, One point is that even if a ground fault occurs, there is no influence on lighting of the bulb.

An isolation transformer is provided between the constant current regulator 1 and the drive unit 2, and the ratio of turns used is 1: 1. In the steady state, when the unit is magnetically unsaturated or the secondary circuit is open, It is magnetically saturated for safety of the circuit, and it is in a no-load state when the secondary circuit is short-circuited.

The driving unit 2 includes a power unit 21 that receives power from the constant current controller 1 and supplies power to the system and a power unit 21 that monitors or monitors the power of another driving system 100 ' A main power supply unit 22, a microcomputer 23 for adjusting the LED brightness, and an LED driver 24 for receiving the PWM control signal from the microcomputer and controlling the LED current to have an appropriate brightness.

The power supply unit 21 supplies power to the system by receiving the current supplied from the constant current regulator 1 and adjusts the phase difference between the supplied current and voltage to improve the power factor value, .

In addition, the power supply unit 21 (PFC (Power)) performs a constant voltage regulating function for converting input current into voltage. When the voltage is adjusted in the MOSFET, the voltage and current do not change in phase So that the power factor is improved.

The main power supply unit 22 is formed so as to be able to automatically supply power by the microcomputer control when it is detected by a power module connected to the other CCR when power supply is interrupted due to the inability of the one constant current regulator 1 to operate, The main power supply unit 22 is connected to the main power supply unit 22 'of the other drive system 100' so as to monitor the mutual power supply status. If the main power supply unit 22 ' The power supply unit 21 supplies the current supplied through the power supply unit 21 to the other drive system 100 'so that the LED can be normally driven.

On the other hand, the precision entry path indicator is mainly divided into the first to fifth levels by using the current source. Since the current flowing in each step is different, the brightness of the LED must be controlled accordingly. Therefore, when supplying power from the one main power supply unit 22 to the other main power supply unit 22 ', it is necessary to transmit information about the present stage. Therefore, it is necessary to supply power from one side to the other and to transmit the current state information through UART communication.

The microcomputer 23 controls the LED brightness. The microcomputer 23 receives the intensity of the current input through the isolation transformer and adjusts the LED brightness by adjusting the current of the LED driver by PWM. In case of failure of one constant current regulator 1, it is possible to supply current to the other drive system 100 'and to exchange current intensity information between the two power boards through RS-232 communication for adjusting the LED brightness.

The LED driver 24 receives the PWM control signal supplied from the microcomputer and controls the LED current to have an appropriate brightness.

The LED is supplied with current from the constant current regulator CCR. The LED driver 24 should adjust the LED driver 24 so that the LED driver 24 receives the current according to each step, When the current of A is inputted, the brightness of the lamp should be adjusted so that the brightness of the lamp is set to 100% and the minimum brightness and the maximum brightness range according to the input current.

Thus, the White lamp has a luminous intensity range as shown in Table 1 according to each current, which is adjusted in accordance with the dimming curves shown in FIG.

LAMP CURRENT % MINIMUM INTENSITY % MAXIMUM INTENSITY 6.6 100 n / a 5.5 23.9 44.1 5.2 16.9 31.3 4.8 10.4 19.2 4.1 3.9 7.3 3.4 1.0 2.0 2.8 0.15 0.7

The color lamp (lamp except White) has a luminous intensity range as shown in Table 2 according to each current, which is adjusted according to the dimming curve shown in Fig.

LAMP CURRENT % MINIMUM INTENSITY % MAXIMUM INTENSITY 6.6 100 n / a 5.5 30.0 51.0 5.2 16.8 39.75 4.8 10.0 19.0 4.1 5.0 10.0 3.4 1.2 3.0 2.8 0.15 1.65

As a method of controlling the dimming curve according to each current as described above, the brightness can be adjusted by adjusting the ratio of pulses in the micro-controller according to the brightness by PWM (Pulse Width Modulation).

The present invention uses two driving units, and each of the two power supplies always monitors whether or not the other power source is being output. This allows the user to check whether the power is sensed by the hardware output or whether the light is visible or not. If not, the power is automatically supplied to the turned-off power by the relay operation. If the LED is blinking about 25%, the power of the driving unit can be blinked.

While the present invention has been described in connection with what is presently considered to be practical exemplary embodiments, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, Should be interpreted as falling within the scope of.

1: constant current regulator 2:
100: drive system

Claims (4)

And a drive unit (2) connected to the constant current regulator (1) and adapted to receive a current from the constant current regulator and to drive a precise entry path indicator lamp, wherein the constant current regulator (1) (100) is inserted into the precise entry path indicating lamp so that power can be supplied from the other drive system (100 ') even if one of the drive systems (100) is not supplied with power,
The main power unit included in each of the driving units 2 always monitors whether or not the power of the other driving unit 2 'is normally supplied. In the absence of the power source, the relay operation can be performed so that the power of the driving unit 2 can be supplied However,
The driving unit 2 includes a power unit 21 that receives power from the constant current controller 1 and supplies power to the system and a power unit 21 that monitors or monitors the power of another driving system 100 ' A main power supply unit 22, a microcomputer 23 for adjusting the LED brightness in five steps from one level, and an LED driver 24 for controlling the LED current in response to a PWM control signal supplied from the microcomputer In addition,
At this time, when power is supplied from one of the main power supply units 22 to the other main power supply unit 22 ', information on which one of the first to fifth steps is supplied together with UART communication and,
When one of the constant current regulators 1 fails, information on the current intensity is exchanged between the two power boards through RS-232 communication for power supply to the other drive system 100 '
The power supply unit 21 (PFC (Power)) performs a constant voltage regulating function in the MOSFET to change the input current to a voltage so that the phase of the voltage and the current is output unchanged,
The LED is supplied with current from the constant current regulator CCR. The LED driver 24 receives the current according to each step. The LED driver 24 adjusts the current according to the dimming curve. Wherein the brightness of the lamp is adjusted so that the brightness of the lamp is within the minimum brightness and the maximum brightness according to the input current when the brightness of the lamp is set to 100%. delete delete delete

Images