TR201804760A2 - LED LIGHTING FIXTURE MONITORING SYSTEM AND METHOD - Google Patents
LED LIGHTING FIXTURE MONITORING SYSTEM AND METHOD Download PDFInfo
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- TR201804760A2 TR201804760A2 TR2018/04760A TR201804760A TR201804760A2 TR 201804760 A2 TR201804760 A2 TR 201804760A2 TR 2018/04760 A TR2018/04760 A TR 2018/04760A TR 201804760 A TR201804760 A TR 201804760A TR 201804760 A2 TR201804760 A2 TR 201804760A2
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- microcontroller
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- led lighting
- lighting fixture
- electronic circuit
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- 238000012544 monitoring process Methods 0.000 title claims abstract description 22
- 238000000034 method Methods 0.000 title claims abstract description 20
- 230000007257 malfunction Effects 0.000 description 2
- 238000004891 communication Methods 0.000 description 1
- 238000011161 development Methods 0.000 description 1
- 238000005265 energy consumption Methods 0.000 description 1
- 238000005516 engineering process Methods 0.000 description 1
- 238000005286 illumination Methods 0.000 description 1
- 238000009434 installation Methods 0.000 description 1
- 238000012423 maintenance Methods 0.000 description 1
- 238000005259 measurement Methods 0.000 description 1
Classifications
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- H—ELECTRICITY
- H05—ELECTRIC TECHNIQUES NOT OTHERWISE PROVIDED FOR
- H05B—ELECTRIC HEATING; ELECTRIC LIGHT SOURCES NOT OTHERWISE PROVIDED FOR; CIRCUIT ARRANGEMENTS FOR ELECTRIC LIGHT SOURCES, IN GENERAL
- H05B45/00—Circuit arrangements for operating light-emitting diodes [LED]
- H05B45/50—Circuit arrangements for operating light-emitting diodes [LED] responsive to malfunctions or undesirable behaviour of LEDs; responsive to LED life; Protective circuits
- H05B45/56—Circuit arrangements for operating light-emitting diodes [LED] responsive to malfunctions or undesirable behaviour of LEDs; responsive to LED life; Protective circuits involving measures to prevent abnormal temperature of the LEDs
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- H—ELECTRICITY
- H05—ELECTRIC TECHNIQUES NOT OTHERWISE PROVIDED FOR
- H05B—ELECTRIC HEATING; ELECTRIC LIGHT SOURCES NOT OTHERWISE PROVIDED FOR; CIRCUIT ARRANGEMENTS FOR ELECTRIC LIGHT SOURCES, IN GENERAL
- H05B45/00—Circuit arrangements for operating light-emitting diodes [LED]
- H05B45/10—Controlling the intensity of the light
- H05B45/18—Controlling the intensity of the light using temperature feedback
-
- H—ELECTRICITY
- H05—ELECTRIC TECHNIQUES NOT OTHERWISE PROVIDED FOR
- H05B—ELECTRIC HEATING; ELECTRIC LIGHT SOURCES NOT OTHERWISE PROVIDED FOR; CIRCUIT ARRANGEMENTS FOR ELECTRIC LIGHT SOURCES, IN GENERAL
- H05B45/00—Circuit arrangements for operating light-emitting diodes [LED]
- H05B45/20—Controlling the colour of the light
- H05B45/22—Controlling the colour of the light using optical feedback
-
- H—ELECTRICITY
- H05—ELECTRIC TECHNIQUES NOT OTHERWISE PROVIDED FOR
- H05B—ELECTRIC HEATING; ELECTRIC LIGHT SOURCES NOT OTHERWISE PROVIDED FOR; CIRCUIT ARRANGEMENTS FOR ELECTRIC LIGHT SOURCES, IN GENERAL
- H05B45/00—Circuit arrangements for operating light-emitting diodes [LED]
- H05B45/20—Controlling the colour of the light
- H05B45/24—Controlling the colour of the light using electrical feedback from LEDs or from LED modules
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- H—ELECTRICITY
- H05—ELECTRIC TECHNIQUES NOT OTHERWISE PROVIDED FOR
- H05B—ELECTRIC HEATING; ELECTRIC LIGHT SOURCES NOT OTHERWISE PROVIDED FOR; CIRCUIT ARRANGEMENTS FOR ELECTRIC LIGHT SOURCES, IN GENERAL
- H05B45/00—Circuit arrangements for operating light-emitting diodes [LED]
- H05B45/20—Controlling the colour of the light
- H05B45/28—Controlling the colour of the light using temperature feedback
-
- H—ELECTRICITY
- H05—ELECTRIC TECHNIQUES NOT OTHERWISE PROVIDED FOR
- H05B—ELECTRIC HEATING; ELECTRIC LIGHT SOURCES NOT OTHERWISE PROVIDED FOR; CIRCUIT ARRANGEMENTS FOR ELECTRIC LIGHT SOURCES, IN GENERAL
- H05B47/00—Circuit arrangements for operating light sources in general, i.e. where the type of light source is not relevant
- H05B47/10—Controlling the light source
- H05B47/175—Controlling the light source by remote control
- H05B47/18—Controlling the light source by remote control via data-bus transmission
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- H—ELECTRICITY
- H05—ELECTRIC TECHNIQUES NOT OTHERWISE PROVIDED FOR
- H05B—ELECTRIC HEATING; ELECTRIC LIGHT SOURCES NOT OTHERWISE PROVIDED FOR; CIRCUIT ARRANGEMENTS FOR ELECTRIC LIGHT SOURCES, IN GENERAL
- H05B47/00—Circuit arrangements for operating light sources in general, i.e. where the type of light source is not relevant
- H05B47/20—Responsive to malfunctions or to light source life; for protection
- H05B47/21—Responsive to malfunctions or to light source life; for protection of two or more light sources connected in parallel
- H05B47/22—Responsive to malfunctions or to light source life; for protection of two or more light sources connected in parallel with communication between the lamps and a central unit
Abstract
Buluş, elektronik devre (1) üzerine yerleştirilen sıcaklık sensörü 1 (2) ve sıcaklık sensörü 2 (3) ile bölgesel ısı izlemeleri ve voltaj sensörü 1 (4) ve voltaj sensörü 2 (5) ile giriş/çıkış bölgelerindeki voltaj değerleri ayrıca mikro denetleyiciye (9) gelerek gözlenebilen ve yine aynı şekilde mikro denetleyici (9) üzerinden LED aydınlatma armatürü (A) ömrünün ne kadar kullanıldığı izlemesi yapılabilen, LED aydınlatma armatürünün (A) çalışıp çalışmadığı, seri numarası görüntüleme, DMX adresi görüntüleme gibi özellikleri izlenebilen ve gelen veriler doğrultusunda sunucuya (11) mail ile bilgilendirme ve verilere göre otomatik müdahaleler yapılabilen LED aydınlatma armatürü (A) izleme sistemi ve yöntemi ile ilgilidir.Invention, the temperature sensor 1 (2) and temperature sensor 2 (3) placed on the electronic circuit (1), the regional temperature monitors and the voltage sensor 1 (4) and the voltage sensor 2 (5) and the voltage values in the input / output regions are also provided to the microcontroller (9) can be observed by coming and, in the same way, the life of the LED lighting fixture (A) can be monitored through the microcontroller (9), the LED lighting fixture (A) is working, serial number display, DMX address display can be monitored and incoming data It is about the monitoring system and method of the LED lighting fixture (A), in which the server (11) can be notified by mail and automatically intervened according to the data.
Description
TARIFNAME LED AYDINLATMA ARMATÜRÜ IZLEME SISTEMI VE YÖNTEMI Bulusun ilgili oldugu teknik saha Bulus, LED içeren aydinlatma armatürlerinin üzerine yerlestirilen sensörler vasitasi ile DMX ve RDM protokolü üzerinden armatürün izlenmesini saglayan, LED aydinlatma armatürü izleme sistemi ve yöntemi ile ilgilidir. DESCRIPTION LED LIGHTING LUMINAIRE MONITORING SYSTEM AND METHOD The technical field to which the invention relates The invention is through sensors placed on lighting fixtures containing LEDs. LED, which enables the luminaire to be monitored over DMX and RDM protocol with It is about the lighting fixture monitoring system and method.
Teknigin bilinen durumu Günümüzde LED lambalar uzun ömürlü olmasi ve düsük enerji tüketimi saglamasindan dolayi kullanimlarinin yayginlasmaya baslamasi ile LED aydinlatma armatürleri, aydinlatma sektöründe büyük yer edinmistir. State of the art Today, LED lamps have a long life and low energy consumption. LED lighting, with the widespread use of luminaires have taken a great place in the lighting sector.
Bilinen teknikteki uygulamalarda LED aydinlatma armatürlerine sadece enerji ve sinyal gönderimi yapilabilmektedir. Gönderilen bu sinyal ile LED'II aydinlatma armatürüne verilen bilgilere göre nasil çalismasi gerektigi bildirilmekte fakat geri bildirim ile çalisip çalismadiginin gözlenebilmesi mümkün olmamaktadir. In prior art applications, only energy and signal can be sent. Illumination of the LED with this sent signal According to the information given to the luminaire, it is reported how it should work, but it is returned. It is not possible to observe whether it works with the notification.
LED aydinlatma armatürleri birçok kapsamli elektronik devre ile çalistirilabilmektedir ve bu elektronik devreler, muhtemel isi kaynagi ve yangin riski tasimaktadir. LED lighting fixtures can be operated with many comprehensive electronic circuits. and these electronic circuits carry a potential heat source and fire risk.
Dolayisiyla izlenemeyen armatürden ancak çalismadiginda, bozulup kapandiginda ya da herhangi bir yangina sebep oldugunda bilgi sahibi olunmaktadir. Herhangi bir ariza durumunda ancak göz ile çalisip çalisilmadigi tespit edilebilmektedir. Örnegin; bir tesiste bulunan binlerce armatürün tek tek kontrol edilmesi, çalisip çalismadiginin kontrolü yapilmasi imkânsiz oldugundan, ancak sikayet vasitasi ile bakim ve onarimindan sorumlu teknik ekibin haberi olmaktadir. Bunun disinda LED ömrü tükendiginde, isiklar söndügünde ya da azaldiginda bilgi sahibi olunmakta, önceden bir bütçe ve enerji verimlilik gözlemlemesi yapilamamaktadir. Therefore, from the untraceable armature only when it does not work, breaks down and is closed. In case of any fire, you are informed. any In the event of a malfunction, it can only be determined whether it is working visually or not. For example; checking thousands of fixtures in a facility one by one, checking whether they are working or not. Since it is impossible to control, maintenance and The technical team responsible for the repair is informed. Other than that, LED life When the lights go out, when the lights go out or decrease, information is obtained, a budget and energy efficiency monitoring cannot be made.
Bilinen teknikteki mevcut sistemlerde armatürlerin kaç watt enerji tükettigi Iinye bazinda tespit edilirken, her armatürün ayri ayri detayli incelemesi gözlenememektedir. How many watts of energy is consumed by the luminaires in the existing systems of the known technique? detailed examination of each luminaire separately. cannot be observed.
Sonuç olarak yukaridaki problemlerin varligi ve mevcut çözümlerin yetersizligi LED aydinlatma armatürleri ile ilgili teknik alanda bir gelistirme yapmayi zorunlu kilmistir. As a result, the existence of the above problems and the inadequacy of the existing solutions It has made it necessary to make a development in the technical field related to lighting fixtures.
Bulusun amaçlari Teknigin bilinen durumundan yola çikarak bulusun ana amaci, teknigin bilinen durumundaki dezavantajlarin ortadan kaldirilarak avantajlar saglandigi LED aydinlatma armatürü izleme sistemi ve yöntemi elde etmektir. objects of the invention Starting from the known state of the technique, the main purpose of the invention is to determine the known state of the technique. LED, in which advantages are provided by eliminating the disadvantages of is to obtain the lighting fixture monitoring system and method.
Bulusun bir diger ana amaci, bir tesiste, sehirde ya da ülkede bir ariza bildirim merkezi kurulmasinin saglanmasi ile her LED aydinlatma armatürün ayri ayri izlenebilmesidir. Another main object of the invention is to report a malfunction in a facility, city or country. By providing central installation, each LED lighting fixture can be installed separately. is traceable.
Bulusun bir diger ana amaci, enerji verimliligi, ariza bildirimleri ve izlemelerin eszamanli olarak yapilmasi ile gerekli önlemlerin alinmasi ve sorunlara çözüm saglanmasidir. Another main purpose of the invention is energy efficiency, failure notifications and monitoring. taking the necessary precautions and solving the problems is to provide.
Bulusun bir diger ana amaci, önceden tespit edilebilen LED ömür Ölçümleri sayesinde armatür degisimleri bütçesinin yapilabilmesi ve sürpriz bir sekilde LED ömrü tükendiginde armatürlerin degismesi gerekliliginin ortadan kaldirilmasidir. Another main aim of the invention is to provide predictable LED lifetime measurements. budget for fixture replacements and surprisingly LED life It is to eliminate the necessity of changing the luminaires when they are exhausted.
Bulusun bir diger ana amaci, uzaktan müdahale ile DMX ve RDM protokolü üzerinden armatür adreslerinin degistirilebilir olmasi ve degisen armatüre sirali olarak otomatik adres verilebilmesidir. Another main object of the invention is the DMX and RDM protocol with remote intervention. The fact that the luminaire addresses can be changed via the automatic addressing.
Bulusun bir diger ana amaci, armatürün kisisellestirilebilmesi ile armatürün kaç piksel ve hangi moda çalistirilacagina karar verilebilmesi ve çalisip çalismadiginin izlenebilmesidir. Another main aim of the invention is to customize the armature and how many times the armature can be customized. pixel and in which mode it can be decided and whether it works or not. is traceable.
Sekillerin kisa açiklamasi Burada kisa açiklamalari sunulmus olan sekiller, yalnizca mevcut bulusun daha iyi anlasilmasini amaçlamakta olup, hedeflenen koruma kapsamini veya bu koruma kapsaminin baglamini, bulusun ayrintili açiklamasini dikkate almaksizin anlasilabilecek sekilde tanimlama amaci tasimamaktadir. Brief description of figures The figures whose brief descriptions are presented here are only for better use of the present invention. It aims to understand the intended scope of protection or that protection. without considering the context of its scope, the detailed description of the invention It is not intended to describe in an understandable way.
Sekil 1 LED aydinlatma armatürünün resmidir. Figure 1 is the picture of the LED lighting fixture.
Sekil 2 LED aydinlatma armatürünün patlatilmis resmidir. Figure 2 is an exploded picture of the LED luminaire.
Sekil 3 LED aydinlatma armatürü izleme yönteminin sematik resmidir. Figure 3 is a schematic picture of the LED luminaire monitoring method.
Sekil 4 LED aydinlatma armatürü izleme yönteminin islem adimlarinin resmidir. Figure 4 is a picture of the process steps of the LED luminaire monitoring method.
Referanslarin açiklanmasi: PARÇA ADI Elektronik devre Sicaklik sensörü 1 Sicaklik sensörü 2 Voltaj sensörü 1 Voltaj sensörü 2 Çalisma sayaci Durum izleyicisi l`.000\lC`iU'l-ßU~JI\JIH Mikro denetleyici RS 485 ara yüzü A LED aydinlatma armatürü üzerinde bulunan sicaklik sensörü 1 (2) vasitasiyla elektronik devre (1) yüzeyindeki sicakligin ölçülmesi ve analog olarak mikro denetleyiciye (9) gönderilmesi 101 Mikro denetleyicinin (9) sicaklik sensörü 1'den (2) aldigi bu analog veriyi, gerekli matematiksel islemlerin ardindan degerlendirmesi ve sunucu (11) tarafindan talep edildikçe bu sicaklik degerinin sunucuya (11) gönderilmesi 102 Ölçülen sicaklik degerinin belirlenen aralik disina çiktiginda sunucuya (11) için hayati önem tasiyan güç kaynagi ünitesinin (PSU-regülatör) sicakliginin, sicaklik sensörü 2 (3) vasitasiyla mikro denetleyiciye (9) aktarilarak anlik olarak takip edilmesi ve sunucuya (11) gönderilmesi 104 Sicaklik degeri belirlenen aralik disina çiktiginda sunucuya (11) gerekli mesajin gönderilmesi tarafindan ölçülmesi ve mikro denetleyiciye (9) iletilmesi 106 Elektronik devre (1) içinde bulunan güç kaynagi ünitesi çikisindan mikro denetleyiciye (9) uygulanan gerilimin voltaj sensörü 2 (5) ile ölçülmesi ve mikro denetleyici (9) tarafindan takip edilmesi 107 Giris gerilimi ve mikro denetleyiciye (9) uygulanan gerilimin mikro denetleyici (9) tarafindan sürekli olarak takip edilmesi ve belirlenen araligin disinda bir gerilim tespit edildiginde sunucuya (11) gerekli 'hata' mesajlarinin gönderilmesi üzerinden DMX512 protokolü ile gelen verilerin, mikro denetleyici (9) tarafindan degerlendirilmesi ve istenen parlaklik degeri LED'Iere (6) uygulanmasi rengi ve parlakligi kontrol edilmesi kaç saat çalistigi, kaç kez kapatilip açildigi, LED'lerin (6) kaç saat çalistigina dair bilgilerin çalisma sayaci (7) ile takip edilmesi ve sunucuya (11) gönderilmesi üzerinde gerçeklesen tüm islemlerin durum izleyicisi (8) tarafindan takip ve kayit edilmesi ve olusan hata ve uyarilarin kayit altina alinarak sunucuya (11) gönderilmesi Bulusun ayrintili açiklamasi Bu detayli açiklamada, LED aydinlatma armatürü izleme sistemi ve yönteminin tercih edilen yapilanmalari, sadece konunun daha iyi anlasilmasina yönelik olarak ve hiçbir sinirlayici etki olusturmayacak sekilde açiklanmaktadir. Explanation of references: TRACK NAME Electronic circuit temperature sensor 1 Temperature sensor 2 voltage sensor 1 voltage sensor 2 run counter status monitor l`.000\lC`iU'l-ßU~JI\JIH microcontroller RS 485 interface A LED luminaire on the temperature on the surface of the electronic circuit (1) by means of the temperature sensor 1 (2) located in the It is measured and sent to the microcontroller (9) as analog. 101 This analog data that the microcontroller (9) receives from temperature sensor 1 (2), After the necessary mathematical operations, it is evaluated and sent by the server (11). Sending this temperature value to the server (11) as requested 102 When the measured temperature value goes out of the specified range, it is sent to the server (11). of the power supply unit, which is vital for (PSU-regulator) temperature to microcontroller (9) via temperature sensor 2 (3) to be transferred to the server (11) and to be followed instantly 104 When the temperature value goes out of the specified range, the required message is sent to the server (11). sending It is measured by the microcontroller and transmitted to the microcontroller (9). 106 From the output of the power supply unit in the electronic circuit (1), the micro measuring the voltage applied to the controller (9) with the voltage sensor 2 (5) and being followed by the controller (9) 107 The input voltage and the voltage applied to the microcontroller (9) (9) and a voltage outside the specified range sending necessary 'error' messages to server (11) when detected The data coming via DMX512 protocol over the micro evaluated by the controller (9) and the desired brightness value is set to the LEDs (6). implementation Checking the color and brightness how many hours it works, how many times it is turned off and on, Monitoring the information about how many hours the LEDs (6) have been working with the operation counter (7) and send to server (11) status of all transactions performed on monitoring and recording by the monitor (8) and recording the errors and warnings that occur. received and sent to the server (11) Detailed description of the invention In this detailed explanation, the choice of LED luminaire monitoring system and method The structurings provided are only for a better understanding of the subject and without any It is explained in a way that does not have a restrictive effect.
Bulus, LED aydinlatma armatürü (A) izleme sistemi ile ilgilidir. Söz konusu sistem; LED aydinlatma armatürü (A) içerisinde bulunan elektronik devre (1), elektronik devre (1) üzerinde yer alan ve PCB üzerindeki isi seviyesini mikro denetleyiciye (9) bildiren sicaklik sensörü 1 (2), LED aydinlatma armatüründeki (A) islemci ve LEDIeri (6) besleyen güç kaynagi ünitesi bölgesinde yer alan ve LED aydinlatma armatürü (A) içerisindeki güç kaynagi ünitesi (PSU-regülatör) bölgesindeki isi seviyesini mikro denetleyiciye (9) aktaran sicaklik sensörü 2 (3), elektronik devre (1) üzerinde yer alan ve elektronik devreye (1) giren voltajin seviyesini mikro denetleyiciye (9) bildiren voltaj sensörü 1 (4), elektronik devre (1) üzerinde yer alan ve mikro denetleyiciye (9) giren voltaj seviyesini mikro denetleyiciye (9) bildiren voltaj sensörü 2 (5), elektronik devre (1) üzerinde isik yayan diyot LED (6), elektronik devre (1) üzerinde yer alan ve LED aydinlatma armatürünün (A) kaç defa açilip kapandigi ve kaç saat çalistigini sayan çalisma sayaci (7), elektronik devre (1) üzerinde yer alan ve LED aydinlatma armatüründe (A) olusan uyarilari, hatalari izleyen ve sunucuya (11) bildiren durum izleyicisi gelen bilgilerin degerlendirilip DMX sinyali üzerinden RDM protokolü ile sunucuya (11) geri bildirimini yapan, sicaklik sensörü 1 (2), sicaklik sensörü 2 (3), voltaj sensörü 1 (4) ve voltaj sensörü 2'yi (5) okuyan ve gerekli yönetim islemlerini yerine getirerek matematiksel islemleri yapan mikro denetleyici (9), - LED aydinlatma armatürlerinin (A) çalismasi ve durumu ile ilgili bilgilerin gönderildigi DMX ve RDM sinyallerinin iletildigi RS 485 ara yüzü (10), - LED aydinlatma armatürü (A) üzerinde gerçeklesen tüm islemlerin durum izleyicisi (8) ve RS 485 ara yüzü (10) tarafindan iletilmesi suretiyle takibinin saglandigi sunucu (11) unsurlarini içermektedir. The invention relates to the LED luminaire (A) monitoring system. The system in question; Electronic circuit (1) in the LED lighting fixture (A), the heat level on the PCB (1) on the electronic circuit (1). temperature sensor 1 (2), which reports to the microcontroller (9), The processor in the LED luminaire (A) and the power that feeds the LEDs (6) LED lighting fixture (A) located in the area of \u200b\u200bthe source unit heat level in the power supply unit (PSU-regulator) region inside temperature sensor 2 (3), which transfers it to the microcontroller (9), located on the electronic circuit (1) and entering the electronic circuit (1) voltage sensor 1 (4), which reports the level of voltage to the microcontroller (9), located on the electronic circuit (1) and entering the microcontroller (9) voltage sensor 2 (5), which reports the voltage level to the microcontroller (9), light emitting diode LED (6) on the electronic circuit (1), LED lighting fixture (A) located on the electronic circuit (1) working counter (7), which counts how many times it is opened and closed and how many hours it has worked, located on the electronic circuit (1) and in the LED lighting fixture (A) status monitor, which monitors warnings, errors and notifies the server (11) by evaluating the incoming information and using the RDM protocol over the DMX signal. temperature sensor 1 (2), which gives feedback to the server (11), reading sensor 2 (3), voltage sensor 1 (4), and voltage sensor 2 (5), and performing mathematical operations by performing the necessary management procedures microcontroller (9), - Information on the operation and status of LED lighting fixtures (A) RS 485 interface (10), where DMX and RDM signals are transmitted, - Status of all operations performed on the LED lighting fixture (A) transmitted by the monitor (8) and the RS 485 interface (10). server where tracking is provided (11) contains the elements.
Sekil 1'de sistemin sematik görünümü verilmistir. LED aydinlatma armatürü (A) üzerinde bulunan mikro denetleyici (9) birimi tüm girdi ve çiktilari tek bir merkezden kontrol ederek sistemin çalismasini saglamaktadir. LED aydinlatma armatürü (A) ve sunucu (11) arasindaki tüm haberlesme, elektriksel RS 485 ara yüzü (10) üzerinden gerçeklestirilmektedir. Figure 1 shows the schematic view of the system. LED luminaire (A) The microcontroller (9) unit on it provides all inputs and outputs from a single center. It ensures that the system works by controlling it. LED luminaire (A) and All communication between the server (11) is via the electrical RS 485 interface (10). is carried out.
Bulus ayni zamanda LED aydinlatma armatürü (A) izleme yöntemi ile ilgilidir. Söz konusu LED aydinlatma armatürü (A) izleme yönteminin islem adimlari su sekildedir; LED aydinlatma armatürü (A) içerisindeki elektronik devre (1) üzerinde bulunan sicaklik sensörü 1 (2), elektronik devre (1) yüzeyindeki sicakligi ölçer ve analog olarak mikro denetleyiciye (9) gönderir (100). The invention also relates to a method of monitoring LED luminaire (A). Promise The process steps of the subject LED lighting fixture (A) monitoring method are as follows; located on the electronic circuit (1) in the LED lighting fixture (A). The temperature sensor 1 (2) measures the temperature on the surface of the electronic circuit (1) and analogously sends (100) to the microcontroller (9).
Mikro denetleyici (9) sicaklik sensörü 1'den (2) aldigi bu analog veriyi, gerekli matematiksel islemlerin ardindan degerlendirir ve sunucu (11) tarafindan talep edildikçe bu sicaklik degerini sunucuya (11) gönderir (101). Ölçülen sicaklik degeri belirlenen aralik disina çiktiginda sunucuya (11) 'hata' mesaji göndererek gerekli uyarilarin (e-posta, alarm vs. sekilde) yapilmasi saglanir (102). Microcontroller (9) receives this analog data from temperature sensor 1 (2), It evaluates after mathematical operations and is requested by the server (11). As it is set, it sends this temperature value to the server (11) (101). Measured temperature value required by sending an 'error' message to the server (11) when it goes outside the specified range. warnings (in the form of e-mail, alarm, etc.) are provided (102).
LED aydinlatma armatürü (A) için hayati önem tasiyan güç kaynagi ünitesinin (PSU- regülatör) sicakligi, sicaklik sensörü 2 (3) vasitasiyla mikro denetleyiciye (9) aktarilarak anlik olarak takip edilir ve sunucuya (11) gönderilir (103). Sicaklik degeri belirlenen aralik disina çiktiginda sunucuya (11) gerekli mesajlar gönderilir (104). The power supply unit (PSU-) which is vital for the LED luminaire (A) regulator) temperature to the microcontroller (9) via temperature sensor 2 (3) It is transferred to the server (11) and sent to the server (103). temperature value When it goes out of the specified range, necessary messages are sent to the server (11) (104).
LED aydinlatma armatürü (A) girisine uygulanan gerilim voltaj sensörü 1 (4) tarafindan ölçülür ve mikro denetleyiciye (9) iletilir (105). Voltage applied to the input of the LED luminaire (A) voltage sensor 1 (4) It is measured by the microcontroller (9) and transmitted to the microcontroller (105).
Elektronik devre (1) içinde bulunan güç kaynagi ünitesi çikisindan mikro denetleyiciye (9) uygulanan gerilim voltaj sensörü 2 (5) ile ölçülür ve mikro denetleyici (9) tarafindan takip edilir (106). Giris gerilimi ve mikro denetleyiciye (9) uygulanan gerilim sürekli olarak takip edilir ve belirlenen araligin disinda bir gerilim tespit edildiginde sunucuya (11) gerekli 'hata' mesajlari gönderilir (107). From the output of the power supply unit in the electronic circuit (1), the micro The voltage applied to the controller (9) is measured by the voltage sensor 2 (5) and the micro it is followed (106) by the controller (9). Input voltage and microcontroller (9) The applied voltage is continuously monitored and a voltage outside the specified range When detected, necessary 'error' messages (107) are sent to the server (11).
RS485 ara yüzü (9) üzerinden DMX512 protokolü ile gelen veriler, mikro denetleyici (9) tarafindan degerlendirilir ve istenen parlaklik degeri LED'Iere (6) uygulanir (108). Data coming with DMX512 protocol over RS485 interface (9), microcontroller (9) and the desired brightness value is applied to the LEDs (6) (108).
Sunucu (11) tarafindan her bir LED'in (6) rengi ve parlakligi kontrol edilebilir (109). The color and brightness of each LED (6) can be controlled (109) by the server (11).
Ayni zamanda LED aydinlatma armatürünün (A) kaç saat çalistigi, kaç kez kapatilip açildigi, LED'Ierin (6) kaç saat çalistigi gibi bilgiler, çalisma sayaci (7) ile takip edilir ve sunucuya (11) gönderilir ( üzerinde gerçeklesen tüm islemler durum izleyicisi (8) tarafindan takip ve kayit edilir ve olusan hata ve uyarilar kayit altina alinarak sunucuya (11) gönderilir (111). Örnegin; LED aydinlatma armatürüne (A) 50 dereceye geldiginde uyari maili göndermesi, 60 dereceye geldiginde ise kendini kapatmasi ya da 50.000 saat kullanima gelindiginde mail yoluyla bilgilendirilme istenilebilir. At the same time, how many hours the LED lighting fixture (A) works, how many times it is turned off and on. information such as when it is turned on, how many hours the LEDs (6) work is followed by the operation counter (7) and sent to server (11) ( All transactions are tracked and recorded by the status monitor (8) and any errors and errors that occur are recorded. warnings are recorded and sent to the server (11) (111). For example; Warning e-mail when it reaches 50 degrees to the LED lighting fixture (A) sends itself, when it reaches 60 degrees, it turns itself off or 50,000 hours When it comes to use, it may be requested to be informed via e-mail.
Bulusa konu LED aydinlatma armatürü (A) izleme sistemi ve yöntemi, tüm LED aydinlatma armatürlerinin (A) izlenmesinde kullanilabilir. Örnegin; dis cephe aydinlatma armatürleri, eglence ve sahne teknolojilerinde kullanilan aydinlatmalar, sokak aydinlatma armatürleri, peyzaj armatürleri olmak üzere genel olarak is ve dis mekan aydinlatma armatürlerinin tamami kullanim alanlari Içerisindedir. The LED lighting fixture (A) monitoring system and method, which is the subject of the invention, It can be used to monitor lighting fixtures (A). For example; exterior lighting fixtures, lighting used in entertainment and stage technologies, street lighting fixtures, landscape fixtures, in general business and outdoor All of the space lighting fixtures are within the usage areas.
Claims (3)
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TR2018/04760A TR201804760A2 (en) | 2018-04-04 | 2018-04-04 | LED LIGHTING FIXTURE MONITORING SYSTEM AND METHOD |
PCT/TR2019/050204 WO2020013783A2 (en) | 2018-04-04 | 2019-03-28 | Led lighting fixture monitoring system and method |
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