KR200246377Y1 - Street Light and Security Light Controlling Receiver Using FM DARC Signal - Google Patents

Abstract

The present invention relates to a streetlight and security control receiver using the FM dark signal, FM tuner unit for receiving a signal transmitted to the FM DARC; A decoder for converting the analog FM DARC signal received by the FM tuner into a digital signal; A microprocessor unit for analyzing and processing various pieces of information DATA converted by the decoder unit; Means for storing a general control signal in RAM and transmitting time information to the RTC to correct the time; A DIP switch unit for selecting a frequency and selecting a function; A control unit controlled according to the processing of the microprocessor; A constant light relay and a differential relay for selectively performing an output of the controller; And a W.D.T unit for automatically resetting the system when the microprocessor stops operating due to external factors.

According to the device according to the present invention, simply install the control receiver without installing the transmitter locally, it can automatically select the frequency, can control the whole country, and operate by the internal RTC and receive the radio wave when the deafness occurs In case of switching to automatic mode and using the broadcasting tower of transmission tower, there is no installation cost or maintenance cost to enter the transmission tower.

Description

Street Light and Security Light Controlling Receiver Using FM DARC Signal}

The present invention relates to a control receiver for a street lamp and security lamp, and more particularly, selecting a DARC (Data Radio Channel) channel in an FM broadcast wave and transmitting data including a control code at 76 Khz at a selected frequency and transmitting the transmitted data. The present invention relates to a control receiver for a street lamp and a security lamp that receives a signal, detects a control code included in the data, and executes the control code.

In general, when looking at the development of the streetlight, security light system, the manager turned on the streetlight and security light, or detected it at night and night, and turned it on. However, this method is inefficient due to the administrator's mistake or detection of the wrong illumination, the method of calculating and controlling the latitude or longitude by the program, by installing the transmitter in the area and according to the area code in the wireless receiver Remote control methods such as a control method, a wireless method of transmitting data using a beeper, and the like have been introduced, and now there is a method of controlling a street lamp in both directions.

The device for remotely controlling the street lamp and the security has the following problems.

First, the conventional remote control device transmits a control signal by wire or wirelessly. In this case, there is a problem that a separate transmitter must be separately installed. Since a separate transmitter must be installed to control the street light, it is expensive and difficult to maintain.

Second, since the conventional remote control apparatus receives the control signal in advance and executes the control signal at a predetermined time through the time information of the RTC, there is a problem that a malfunction may occur when there is a problem in the RTC. The existing remote control method transmits only control information and time information for executing the control, and information about the time of turning on and off is provided from the RTC and does not provide information for correcting the time information.

In order to solve the problems of the prior art as described above, the present invention proposes a control receiver capable of controlling street lights and security using the frequency of the FM DARC channel without the need for a separate transmitter.

Another object of the present invention is to provide a control receiver for streetlights and security lamps that can reduce errors by providing standard time information along with control signals to automatically correct the date and time.

Another object of the present invention is to propose a streetlight and security control receiver that can operate continuously in the case of difficult reception of the signal by operating in the manual mode when the reception of the FM DARC frequency is difficult.

1 is a configuration diagram of a streetlight and security light control receiver according to a preferred embodiment of the present invention,

2A to 2C show an example of selecting a frequency according to a setting on a DIP switch, and FIG. 2D shows an example of selecting a function according to a setting on a DIP switch,

3 is a flowchart illustrating the operation of a control receiver according to a preferred embodiment of the present invention.

In order to achieve the above object, a street light and security light control receiver using the FM DARC signal according to the present invention is a receiver for controlling a street light, security light by receiving a control signal transmitted from the broadcasting station to FM DARC, FM DARC FM tuner unit for receiving a signal transmitted to the; A decoder for converting the analog FM DARC signal received by the FM tuner into a digital signal; A microprocessor unit for analyzing and processing various pieces of information DATA converted by the decoder unit; Means for storing a general control signal in RAM and transmitting time information to the RTC to correct the time; A DIP switch unit for selecting a frequency and selecting a function; A control unit controlled according to the processing of the microprocessor; A constant light relay and a differential relay for selectively performing an output of the controller; And a W.D.T unit for automatically resetting the system when the microprocessor stops operating due to external factors.

In addition, the present invention is characterized in that it further comprises a latch unit to be maintained in the ON state when the system is reset by the W.D.T unit, the ON state when the output light is instantaneously turned ON from OFF, and to be maintained OFF when OFF.

The FM tuner unit may be manually selected according to the setting of the DIP switch unit using the PLL method, and may automatically select all frequencies by automatically scanning DARC signals by automatically scanning all frequencies (88 to 108 MHz).

Resetting of the DARC data signal frequency is characterized in that the automatic scanning every hour.

In addition, the present invention is to detect the DARC data in real time, if there is no DARC data transmission, the last control data and time information transmitted to the RTC set to be processed into the sunset, sunrise data stored in the microprocessor through the set time It is characterized in that it further comprises means for operating in the manual mode, the automatic mode when the DARC data is normally received.

The present invention may further include a serial unit for monitoring serial data to detect a state in which the microprocessor does not operate and transmitting a reset signal to the WDT unit when the serial data is not detected for a predetermined time. do.

Hereinafter, with reference to the accompanying drawings will be described in detail a preferred embodiment of a streetlight and security lamp control receiver using the FM DARC signal according to the present invention.

1 is a block diagram of a street light and security light control receiver according to an embodiment of the present invention.

As shown in FIG. 1, the streetlight and security lamp control receiver according to the present invention includes an FM tuner unit 10, a PLL (Phased Lock Loop) 11, a decoder 12, a microprocessor 13, and an RTC 14. ), A DIP switch unit 15, a control unit 16, a constant light relay 17, a differential relay 18, a serial unit 19, a WDT unit 20, and a latch unit 21.

The FM tuner unit 10 serves to receive data including a control signal transmitted through the DARC frequency band. When the FM tuner unit 10 receives data, the PLL 11 performs a function of fixing a phase of a signal received.

The decoder 12 demodulates the analog signal received by the FM tuner and converts the analog signal into a digital signal.

The microprocessor 13 functions to analyze and process data modulated by the decoder 12. According to a preferred embodiment of the present invention, not only the control code for controlling the street light through the FM DARC channel but also additional information such as time information, stock quotes, exchange rates, and traffic information. The microprocessor 13 determines whether the received signal is a control signal, time information or additional information, and generates a corresponding control code in the case of the control signal and corrects the time according to the received time in the case of the time information. In case of additional information, command code for processing the corresponding data is generated.

The RTC 14 functions to provide time information to the microprocessor. In the present invention, the RTC is not essential because the control signal is transmitted in real time through the FM DARC channel and the control signal is not received and the control signal is executed at a predetermined time. However, when the FM frequency signal is not transmitted due to a communication failure, the present invention operates from the automatic mode to the manual mode. When the control receiver according to the present invention operates in the manual mode, it is controlled according to the time information provided by the RTC (14).

The DIP switch unit 15 serves to select a frequency to receive and to set the function of the control receiver. 2A to 2C show an example of selecting a frequency according to the setting of the DIP switch, and FIG. 2D shows an example of selecting a function according to the setting of the DIP switch. The user can select the desired frequency and function by changing the setting of the DIP switch 15. According to a preferred embodiment of the present invention, the broadcasting frequency may be manually set according to the setting of the DIP switch unit, and the frequency is automatically scanned when the DARC data is included and the reception sensitivity is 40% or more by sequentially scanning the 88 to 108 MHz band. It can also be set. In this case, the microprocessor transmits data to the PLL unit to automatically change the frequency in sequence and scans every predetermined time to detect DARC data.

The controller 16 controls the operation of the street lamp control receiver according to the command code output from the microprocessor 13.

The constant light relay 17 and the differential relay 18 serve to perform the output of the controller. The differential relay 18 selects the differential by the DIP switch unit and performs control only when the differential signal is transmitted from the broadcasting station. If the differential relay 18 does not transmit the differential signal, the differential relay 18 does not perform the differential control. According to a preferred embodiment of the present invention, in the case of every other day, it is preferable that the even days operate the constant light relay and the odd days operate the light relay to maintain the same use of the lamp to make the bulb life the same.

The serial unit 19 receives data detected from the microprocessor 13, monitors whether the microprocessor operates correctly, and provides the received data to an external computer so that the state of the control receiver can be checked. .

When no data is detected in the serial unit 19, the serial unit notifies the W.D.T unit 20 of the state where no data is detected, and the W.D.T unit resets the system so that the microprocessor can operate normally.

The latch unit 21 maintains the on state if the current state is ON and the off state if the output light is momentarily turned on from the on state when the WDT unit is reset. It prevents instant flicker.

3 is a flowchart illustrating the operation of a control receiver according to a preferred embodiment of the present invention.

As shown in FIG. 3, it is first determined whether data transmitted from a broadcasting station can be received through a DARC channel (S300).

If the control receiver is located in the deafness region or cannot receive data through the DARC channel due to a communication error or the like, the last control data and time information transmitted are set in the RTC (S301).

If the control data and time information is set in the RTC, it operates in the manual mode by using the time information of the RTC (S302).

When the data can be received through the DARC channel, it operates in an automatic mode controlled in real time by a control signal from a broadcasting station without referring to the time information of the RTC. When operating in the automatic mode, a process of receiving data through the FM tuner unit 10, modulating the received data and converting it into digital data is performed (S303). As described above, the data received includes not only control signals but also additional information such as time information and securities.

The converted data is processed by the microprocessor 13, and it is determined by the serial unit 19 whether the microprocessor is normal (S304).

If the operation of the microprocessor is not normal, the W.D.T unit resets the system so that the microprocessor operates in a normal state (S305). As described above, when the system reset, the latch unit 21 operates to prevent flicker of the street lamp and the security lamp.

If the microprocessor is normal, the converted data is processed (S306). The microprocessor 13 determines whether the received signal is a control signal, time information or additional information, and generates a corresponding control code in the case of the control signal and corrects the time according to the received time in the case of the time information. In case of additional information, command code for processing the corresponding data is generated.

The control unit 16 performs the control according to the processing of the microprocessor, and the constant light relay 17 and the differential relay 18 perform an operation of turning on and off the street lamp under the control of the control unit.

As described above, according to the control receiver of the street lamp and security lamp using the FM dark signal according to the present invention, it is controlled according to the setting of the receiver and simply installs the control receiver without installing the transmitter locally, and automatically sets the frequency. It is possible to select and control the whole country, and when there is a hearing loss area, it operates by internal RTC, and when it receives radio waves, it switches to automatic mode and uses the broadcasting station's transmission tower, so there is no installation or maintenance cost to enter the transmission tower. Is large.

Claims (6)

In the receiver for receiving a control signal transmitted from the broadcasting station to the FM DARC to control the street light, security, etc., An FM tuner unit for receiving a signal transmitted to the FM DARC; A decoder for converting the analog FM DARC signal received by the FM tuner into a digital signal; A microprocessor unit for analyzing and processing various pieces of information DATA converted by the decoder unit; Means for storing a general control signal in RAM and transmitting time information to the RTC to correct the time; A DIP switch unit for selecting a frequency and selecting a function; A control unit controlled according to the processing of the microprocessor; A constant light relay and a differential relay for selectively performing an output of the controller; And Street light and security light control receiver using FM DARC signal, characterized in that the microprocessor includes a W.D.T that automatically resets the system when it stops operating due to external factors The method of claim 1, When the system is reset by the WDT unit, a latch unit for maintaining an ON state when the output is instantaneously turned ON from OFF to ON and OFF when the OFF further comprises using the FM DARC signal, characterized in that Street light and security light control receiver The method of claim 1, wherein the FM tuner unit can be manually selected according to the setting of the DIP switch unit in the PLL method, and can automatically select all the frequencies by automatically scanning the DARC signal by scanning all frequencies (88 ~ 108Mhz) Street light and security light control receiver using FM DARC signal The method of claim 3, wherein Resetting of DARC data signal frequency is done by automatic scanning every hour. The method of claim 1, When the DARC data is detected in real time and there is no DARC data transmission, in the manual mode, the last transmitted control data and time information are set in the RTC and processed into sunset and sunrise data stored in the microprocessor unit through a set time. And a means for operating in an automatic mode when the DARC data is normally received. The method of claim 1, And a serial unit configured to monitor serial data to detect a state in which the microprocessor does not operate and to transmit a reset signal to the WDT unit when the serial data is not detected for a predetermined time. Streetlight and security light control receiver.