TW202341816A - Circuit configuration method for improving the efficacy of antibacterial lamps and voltage boost circuit - Google Patents

Circuit configuration method for improving the efficacy of antibacterial lamps and voltage boost circuit Download PDF

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TW202341816A
TW202341816A TW111112726A TW111112726A TW202341816A TW 202341816 A TW202341816 A TW 202341816A TW 111112726 A TW111112726 A TW 111112726A TW 111112726 A TW111112726 A TW 111112726A TW 202341816 A TW202341816 A TW 202341816A
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voltage
secondary side
primary side
circuit
antibacterial
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TW111112726A
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TWI835105B (en
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余宜璋
徐國鎧
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心田科技有限公司
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Priority to CN202310136592.9A priority patent/CN116782457A/en
Priority to US18/184,646 priority patent/US20230300960A1/en
Priority to JP2023050673A priority patent/JP7571959B2/en
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Abstract

A circuit configuration method for improving the efficacy of antibacterial lamps and a power conversion circuit are provided. The power conversion circuit includes a primary side, a first secondary side, and a second secondary side. The first secondary side and the primary side are capable of performing electromagnetic induction, so as to produce a first high voltage. The first secondary side includes a first connection terminal and a first ground terminal. The second secondary side is electrically coupled to the first ground terminal. The second secondary side and the primary side are capable of performing electromagnetic induction, so as to produce a second high voltage. The second high voltage is not equal to the first high voltage. The second secondary side includes a second connection terminal, and the second connection terminal and the first connection terminal can be used to connect a load, so as to provide a high voltage with a small load voltage difference.

Description

提升抗菌燈功效的電路配置方法及電壓提升電路Circuit configuration method and voltage boost circuit to improve antibacterial lamp efficacy

本發明涉及一種方法及電路,尤其涉及一種提升抗菌燈功效的電路配置方法及電壓提升電路。The present invention relates to a method and a circuit, and in particular, to a circuit configuration method and a voltage boosting circuit for improving the efficacy of an antibacterial lamp.

市面上其中一種常見的發光裝置是採用發光二極體(LED)作為光源。其中,前述發光裝置的配置方式是將多個發光二極體相互串接以形成一發光二極體串,並且前述發光二極體串的正端及負端連接於供電電路上,以實現發光之目的。One of the common light-emitting devices on the market uses light-emitting diodes (LEDs) as light sources. Wherein, the aforementioned light-emitting device is configured by connecting a plurality of light-emitting diodes in series to form a light-emitting diode string, and the positive and negative ends of the aforementioned light-emitting diode string are connected to the power supply circuit to achieve lighting. purpose.

然而,當發光裝置連接於現有供電電路時,其各發光二極體所接收到(或使用到)的電壓會依發光二極體串接數量而定,通常電壓是介於3至300伏特(即,串接發光二極體的總數量為100個),這使得其總串接工作電壓不高。間接地,當發光裝置存在「高壓電場」的需求時(例如:利用高壓電場激發奈米銀,以產生銀離子),會造成發光二極體無法達到「高壓電場」的效果。However, when a light-emitting device is connected to an existing power supply circuit, the voltage received (or used) by each light-emitting diode will depend on the number of light-emitting diodes connected in series. Usually the voltage is between 3 and 300 volts ( That is, the total number of series-connected light-emitting diodes is 100), which makes the total series-connected operating voltage not high. Indirectly, when the light-emitting device requires a "high-voltage electric field" (for example, using a high-voltage electric field to excite silver nanoparticles to produce silver ions), the light-emitting diode will not be able to achieve the effect of the "high-voltage electric field."

於是,本發明人認為上述缺陷可改善,乃特潛心研究並配合科學原理的運用,終於提出一種設計合理且有效改善上述缺陷的本發明。Therefore, the inventor believed that the above-mentioned defects could be improved, so he devoted himself to research and applied scientific principles, and finally proposed an invention that is reasonably designed and effectively improves the above-mentioned defects.

本發明所要解決的技術問題在於“如何提供原低電壓工作之發光二極體,具備有高電壓工作的特點”,針對現有技術的不足提供一種提升抗菌燈功效的電路配置方法及電壓提升電路。The technical problem to be solved by the present invention is "how to provide a light-emitting diode that originally operates at low voltage and has the characteristics of high-voltage operation." In view of the shortcomings of the existing technology, it provides a circuit configuration method and a voltage boosting circuit to improve the efficacy of the antibacterial lamp.

本發明實施例還公一種提升抗菌燈功效的電路配置方法,包括以下步驟:提供一交流電壓至一整流電路及一升壓電路;利用所述整流電路整流所述交流電壓為一直流電壓,並提供一第一電壓準位;利用所述升壓電路提高所述直流電壓至一第二電壓準位;結合所述第一電壓準位及所述第二電壓準位成一高壓準位,以提供一驅動電路驅動一抗菌燈。An embodiment of the present invention also discloses a circuit configuration method for improving the efficacy of an antibacterial lamp, which includes the following steps: providing an AC voltage to a rectifier circuit and a boost circuit; using the rectifier circuit to rectify the AC voltage into a DC voltage, and Provide a first voltage level; use the boost circuit to increase the DC voltage to a second voltage level; combine the first voltage level and the second voltage level to form a high voltage level to provide A driving circuit drives an antibacterial lamp.

本發明實施例還公開一種電壓提升電路,包括:一初級側;一第一次級側,電磁感應所述初級側以形成一第一高電壓,所述第一次級側包含一第一連接端及一第一接地端;以及一第二次級側,電性耦接所述第一接地端,所述第二次級側電磁感應所述初級側以形成一第二高電壓,所述第二高電壓不等於所述第一高電壓,所述第二次級側包含一第二連接端,並且所述第二連接端與所述第一連接端能用來連接一負載。An embodiment of the present invention also discloses a voltage boost circuit, including: a primary side; a first secondary side, the primary side is electromagnetically induced to form a first high voltage, and the first secondary side includes a first connection terminal and a first ground terminal; and a second secondary side, electrically coupled to the first ground terminal, the second secondary side electromagnetically induces the primary side to form a second high voltage, the The second high voltage is not equal to the first high voltage, the second secondary side includes a second connection terminal, and the second connection terminal and the first connection terminal can be used to connect a load.

綜上所述,本發明實施例所公開的提升抗菌燈功效的電路配置方法及電壓提升電路,能通過“第一次級側的所述第一接地端電性耦接所述第二次級側,並且所述第一次級側與所述第二次級側能電磁感應所述初級側以各別形成高壓電”以及“所述第一次級側與所述第二次級側能用來連接所述負載”的設計,使所述電壓提升電路能提供所述負載電壓差小的高電壓,以提升所述抗菌燈的抗菌功效。In summary, the circuit configuration method and voltage boosting circuit disclosed in the embodiments of the present invention for improving the efficacy of an antibacterial lamp can be electrically coupled to the second secondary through the first ground terminal on the first secondary side. side, and the first secondary side and the second secondary side can electromagnetically induce the primary side to respectively form a high voltage" and "the first secondary side and the second secondary side "The design can be used to connect the load" so that the voltage boosting circuit can provide a high voltage with a small voltage difference between the loads to enhance the antibacterial efficacy of the antibacterial lamp.

為使能更進一步瞭解本發明的特徵及技術內容,請參閱以下有關本發明的詳細說明與圖式,然而所提供的圖式僅用於提供參考與說明,並非用來對本發明加以限制。In order to further understand the features and technical content of the present invention, please refer to the following detailed description and drawings of the present invention. However, the drawings provided are only for reference and illustration and are not used to limit the present invention.

以下是通過特定的具體實施例來說明本發明所公開有關“提升抗菌燈功效的電路配置方法及電壓提升電路”的實施方式,本領域技術人員可由本說明書所公開的內容瞭解本發明的優點與效果。本發明可通過其他不同的具體實施例加以施行或應用,本說明書中的各項細節也可基於不同觀點與應用,在不悖離本發明的構思下進行各種修改與變更。另外,本發明的附圖僅為簡單示意說明,並非依實際尺寸的描繪,事先聲明。以下的實施方式將進一步詳細說明本發明的相關技術內容,但所公開的內容並非用以限制本發明的保護範圍。The following is a specific embodiment to illustrate the implementation of the "circuit configuration method and voltage boosting circuit for improving antibacterial lamp efficacy" disclosed in the present invention. Those skilled in the art can understand the advantages and advantages of the present invention from the content disclosed in this specification. Effect. The present invention can be implemented or applied through other different specific embodiments, and various details in this specification can also be modified and changed based on different viewpoints and applications without departing from the concept of the present invention. In addition, the drawings of the present invention are only simple schematic illustrations and are not depictions based on actual dimensions, as is stated in advance. The following embodiments will further describe the relevant technical content of the present invention in detail, but the disclosed content is not intended to limit the scope of the present invention.

應當可以理解的是,雖然本文中可能會使用到“第一”、“第二”、“第三”等術語來描述各種元件或者信號,但這些元件或者信號不應受這些術語的限制。這些術語主要是用以區分一元件與另一元件,或者一信號與另一信號。另外,本文中所使用的術語“或”,應視實際情況可能包括相關聯的列出項目中的任一個或者多個的組合。It should be understood that although terms such as “first”, “second” and “third” may be used herein to describe various elements or signals, these elements or signals should not be limited by these terms. These terms are primarily used to distinguish one component from another component or one signal from another signal. In addition, the term "or" used in this article shall include any one or combination of more of the associated listed items depending on the actual situation.

另外,於以下說明中,如有指出請參閱特定圖式或是如特定圖式所示,其僅是用以強調於後續說明中,所述的相關內容大部份出現於該特定圖式中,但不限制該後續說明中僅可參考所述特定圖式。In addition, in the following description, if it is pointed out that please refer to a specific figure or as shown in a specific figure, it is only used to emphasize that in the subsequent description, most of the relevant content described appears in the specific figure. , but this does not limit the subsequent description to only refer to the specific drawings.

[第一實施例][First Embodiment]

參閱圖1所示,本實施例提供一種提升抗菌燈功效的電路配置方法,本實施例所提供的電路配置方法是應用於一抗菌燈200(如圖2及圖3所示)。其中,本發明所指的抗菌燈200為「通過發光二極體產生的高壓電場激發奈米塗層(例如:銀離子)達到抗菌效果」的燈具,並且前述抗菌燈200以目前實驗數據而言,當所述抗菌燈200的發光二極體提供之電壓越高時,其激發奈米塗層進行抗菌的效果越好。所述電路配置方法包括步驟S101及步驟S107。需說明的是,上述多個步驟的其中任一個步驟能夠視設計者的需求而省略或是以合理的變化方式取代。Referring to FIG. 1 , this embodiment provides a circuit configuration method for improving the efficacy of an antibacterial lamp. The circuit configuration method provided by this embodiment is applied to an antibacterial lamp 200 (as shown in FIGS. 2 and 3 ). Among them, the antibacterial lamp 200 referred to in the present invention is a lamp that "excites the nano-coating (such as silver ions) through the high-voltage electric field generated by the light-emitting diode to achieve the antibacterial effect", and the aforementioned antibacterial lamp 200 is based on current experimental data. , when the voltage provided by the light-emitting diode of the antibacterial lamp 200 is higher, the antibacterial effect of stimulating the nanocoating is better. The circuit configuration method includes step S101 and step S107. It should be noted that any one of the above steps can be omitted or replaced with reasonable changes according to the designer's needs.

步驟S101:提供一交流電壓至一整流電路及一升壓電路。Step S101: Provide an AC voltage to a rectifier circuit and a boost circuit.

步驟S103:利用所述整流電路整流所述交流電壓為一直流電壓,並提供一第一電壓準位。Step S103: Use the rectifier circuit to rectify the AC voltage into a DC voltage and provide a first voltage level.

步驟S105:利用所述升壓電路提高所述直流電壓至一第二電壓準位。Step S105: Use the boost circuit to increase the DC voltage to a second voltage level.

步驟S107:結合所述第一電壓準位及所述第二電壓準位成一高壓準位,以提供一驅動電路驅動一抗菌燈。Step S107: Combine the first voltage level and the second voltage level to form a high voltage level to provide a driving circuit to drive an antibacterial lamp.

據此,如圖2及圖3所示,所述抗菌燈200的串發光二極體210(即,串聯的多個發光二極體201)能在極少數量下產生高壓電場,從而進一步地通過高壓電場激發所述抗菌燈200的奈米塗層220產生抗菌離子(例如:銀離子)。Accordingly, as shown in FIGS. 2 and 3 , the series of light-emitting diodes 210 (that is, multiple light-emitting diodes 201 connected in series) of the antibacterial lamp 200 can generate a high-voltage electric field in a very small number, thereby further passing through The high-voltage electric field excites the nanocoating 220 of the antibacterial lamp 200 to generate antibacterial ions (for example, silver ions).

換句話說,以「能提供相同高壓電場」的兩個抗菌燈而言,採用本發明所提供電路配置方法的抗菌燈能相較於另一抗菌燈具有更少的發光二極體數量即可達到高壓電場,亦即採用所述電路配置方法的抗菌燈效能被提升。In other words, for two antibacterial lamps that "can provide the same high-voltage electric field", the antibacterial lamp using the circuit configuration method provided by the present invention can have a smaller number of light-emitting diodes than the other antibacterial lamp. When a high-voltage electric field is reached, the efficiency of the antibacterial lamp using the circuit configuration method is improved.

較佳地,所述提升抗菌燈功效的電路配置方法還能包含有步驟:利用一IC控制模組5控制所述第一電壓準位結合所述第二電壓準位(例如:圖6及圖8所示)。據此,使用者能經由所述IC控制模組5控制第一電壓準位與所述第二電壓準位之間的結合關係,從而進一步地控制所述高壓準位的產生(即,控制所述抗菌燈200激發所述奈米塗層220)。Preferably, the circuit configuration method for improving the efficacy of the antibacterial lamp can also include the step of using an IC control module 5 to control the first voltage level combined with the second voltage level (for example: Figure 6 and Figure shown in 8). Accordingly, the user can control the combination relationship between the first voltage level and the second voltage level through the IC control module 5, thereby further controlling the generation of the high voltage level (ie, controlling all The antibacterial lamp 200 excites the nanocoating 220).

另外,額外說明的是,所述電路配置方法雖是由交流電轉換為直流電,但實務上,也可以是直接提供直流電進行後續步驟。是以,本領域技術人員可以依據情況改由直接輸入直流電。In addition, it should be noted that although the circuit configuration method converts alternating current into direct current, in practice, direct current can also be directly provided for subsequent steps. Therefore, those skilled in the art can directly input direct current according to the situation.

[第二實施例][Second Embodiment]

參閱圖4所示,本實施例提供一種電壓提升電路100,所述電壓提升電路100是採用第一實施例的提升抗菌燈功效的電路配置方法的發明精神。所述電壓提升電路100包含一整流模組1、電性耦接所述整流模組1的一初級側2、一第一次級側3、及電性耦接所述第一次級側3的一第二次級側4。Referring to FIG. 4 , this embodiment provides a voltage boosting circuit 100 . The voltage boosting circuit 100 adopts the inventive spirit of the circuit configuration method for improving the efficacy of the antibacterial lamp in the first embodiment. The voltage boosting circuit 100 includes a rectifier module 1, a primary side 2 electrically coupled to the rectifier module 1, a first secondary side 3, and an electrically coupled first secondary side 3 A second secondary side 4.

所述整流模組1於本實施例中為一全波整流器,並且所述整流模組1能用來電性耦接一交流電源以整流為一直流電源,但本發明不受限於此。舉例來說,所述電壓提升電路100也可替換所述整流模組1為半波整流器、或倍壓整流器,並且用來供電性耦接所述交流電源。The rectifier module 1 is a full-wave rectifier in this embodiment, and the rectifier module 1 can be electrically coupled to an AC power source to rectify it into a DC power source, but the invention is not limited thereto. For example, the voltage boosting circuit 100 can also replace the rectifier module 1 with a half-wave rectifier or a voltage doubler rectifier, and be used to power-couple the AC power supply.

所述初級側2於本實施例中為單一元件,並且所述初級側2能經由所述整流模組1取得所述直流電源,意即所述初級側2於本實施例中為單一個繞組(或線圈)配合作為磁路的一鐵芯。當然,本發明於其他未繪示的實施例中,所述初級側2取得的電源可以是所述交流電源,意即所述電壓提升電路100是可以視情況省略所述整流模組1。The primary side 2 is a single component in this embodiment, and the primary side 2 can obtain the DC power supply through the rectifier module 1, which means that the primary side 2 is a single winding in this embodiment. (or coil) cooperates with an iron core as a magnetic circuit. Of course, in other not-shown embodiments of the present invention, the power source obtained by the primary side 2 may be the AC power source, which means that the voltage boosting circuit 100 may omit the rectifier module 1 as appropriate.

所述第一次級側3於本實施例中設置於所述初級側2的一側,並且所述第一次級側3電磁感應所述初級側2以形成一第一高電壓V1,意即所述第一次級側3的繞組是鄰近但不接觸所述初級側2的繞組。於實際應用中,所述第一次級側3的電路具有二極體、及電容等元件(即,整流電路),並且能與所述初級側2發生電磁感應。The first secondary side 3 is disposed on one side of the primary side 2 in this embodiment, and the first secondary side 3 electromagnetically induces the primary side 2 to form a first high voltage V1, meaning That is, the winding of the first secondary side 3 is adjacent to but not in contact with the winding of the primary side 2 . In practical applications, the circuit of the first secondary side 3 has components such as diodes and capacitors (ie, a rectifier circuit), and can generate electromagnetic induction with the primary side 2 .

更細地來看,所述第一次級側3包含一第一連接端及一第一接地端,所述第一連接端能用來連接所述一負載Load(即,所述抗菌燈200的串發光二極體210)的其中一連接端(例如:正極端),所述第一接地端則電性耦接所述第二次級側4。也就是說,所述第一連接端與所述負載Load之間連接位置為節點P1,所述第一接地端與所述第二次級側4之間連接位置為節點P2。Looking at it in more detail, the first secondary side 3 includes a first connection end and a first ground end. The first connection end can be used to connect the load (ie, the antibacterial lamp 200 One of the connection terminals (for example, the positive terminal) of the string of light-emitting diodes 210 ), the first ground terminal is electrically coupled to the second secondary side 4 . That is to say, the connection position between the first connection terminal and the load Load is node P1, and the connection position between the first ground terminal and the second secondary side 4 is node P2.

所述第二次級側4於本實施例中設置於所述初級側2的一側,並且所述第二次級側4電磁感應所述初級側2以形成一第二高電壓V2,意即所述第二次級側4的繞組是鄰近但不接觸所述初級側2的繞組。於實際應用中,所述第二次級側4的電路具有二極體、及電容等元件(即,LC電路),並且所述第二次級側4與所述第一次級側3是同時與所述初級側2發生電磁感應。其中,所述第二次級側4的匝數是不等於所述第一次級側3的匝數,使所述第二高電壓V2的值是不等於所述第一高電壓V1的值。The second secondary side 4 is disposed on one side of the primary side 2 in this embodiment, and the second secondary side 4 electromagnetically induces the primary side 2 to form a second high voltage V2, meaning That is, the winding of the second secondary side 4 is adjacent to but not in contact with the winding of the primary side 2 . In practical applications, the circuit of the second secondary side 4 has components such as diodes and capacitors (ie, LC circuit), and the second secondary side 4 and the first secondary side 3 are At the same time, electromagnetic induction occurs with the primary side 2 . Wherein, the number of turns of the second secondary side 4 is not equal to the number of turns of the first secondary side 3, so that the value of the second high voltage V2 is not equal to the value of the first high voltage V1 .

進一步地說,所述第二次級側4包含一第二連接端及一第二接地端,並且所述第二連接端能用來連接所述負載Load的另一連接端(例如:負極端),所述第二接地端為系統的地之電位參考點。也就是說,所述第二連接端與所述負載Load之間連接位置為節點P3,所述第二接地端與所述系統的地之電位參考點位置為節點P4。Furthermore, the second secondary side 4 includes a second connection terminal and a second ground terminal, and the second connection terminal can be used to connect another connection terminal of the load (for example, the negative terminal). ), the second ground terminal is the ground potential reference point of the system. That is to say, the connection position between the second connection terminal and the load Load is node P3, and the potential reference point position between the second ground terminal and the ground of the system is node P4.

據此,所述電壓提升電路100通過上述的技術特徵,從而能讓所述負載Load所獲得的能量為電壓差小的高電壓。為了便於理解,以下將以舉一例子說明,但本發明不受限於此。Accordingly, the voltage boost circuit 100 uses the above technical features to enable the energy obtained by the load to be a high voltage with a small voltage difference. For ease of understanding, an example will be given below for description, but the present invention is not limited thereto.

假設所述負載Load為一發光裝置,所述發光裝置是由多個發光二極體所相互串接,並且存在「通過1200伏特的高壓電場激發奈米銀,以形成銀離子進行殺菌」的需求。因此,所述初級側2與所述第一次級側3的匝數比會被設計在升壓為100伏特(即,所述節點P1的電壓為100伏特),所述初級側2與所述第二次級側4的匝數比會被設計在升壓為1100伏特(即,所述節點P3的電壓為1100伏特),所以當所述第一次級側3與所述第二次級側4彼此串接時的電源的總電壓會是1200伏特。Assume that the load is a light-emitting device. The light-emitting device is composed of multiple light-emitting diodes connected in series, and there is a need to "excit nanosilver through a high-voltage electric field of 1,200 volts to form silver ions for sterilization." . Therefore, the turns ratio between the primary side 2 and the first secondary side 3 is designed to boost the voltage to 100 volts (that is, the voltage of the node P1 is 100 volts). The turns ratio of the second secondary side 4 will be designed to boost the voltage to 1100 volts (that is, the voltage of the node P3 is 1100 volts), so when the first secondary side 3 is connected to the second The total voltage of the power supply when the stages 4 are connected in series with each other will be 1200 volts.

當所述發光裝置的正極端、與負極端各別通過所述節點P1、P3連接所述第一次級側3及所述第二次級側4時,所述發光裝置接地的參考電壓會是1100伏特的高電位,所述發光裝置所取得電源的總電壓為1200伏特,意即所述電壓提升電路100提供所述發光裝置的電源為電壓差100伏特的高電壓。據此,所述發光裝置的多個所述發光二極體由正極端至負極端各取得電源的電壓會是介於1200伏特至1100伏特之間,從而實現高壓電場的效果。When the positive terminal and the negative terminal of the light-emitting device are respectively connected to the first secondary side 3 and the second secondary side 4 through the nodes P1 and P3, the reference voltage of the grounded light-emitting device will is a high potential of 1100 volts, and the total voltage of the power source obtained by the light-emitting device is 1200 volts, which means that the voltage boost circuit 100 provides the power source of the light-emitting device with a high voltage with a voltage difference of 100 volts. Accordingly, the plurality of light-emitting diodes of the light-emitting device each receive a power supply voltage from the positive terminal to the negative terminal between 1200 volts and 1100 volts, thereby achieving the effect of a high-voltage electric field.

[第三實施例][Third Embodiment]

如圖5所示,其為本發明的第三實施例,本實施例的電壓提升電路100類似於上述第二實施例的電壓提升電路100,兩個實施例的相同處則不再加以贅述,而本實施例的電壓提升電路100’與第二實施例的差異主要在於:所述初級側2於本實施例中非單一元件。As shown in Figure 5, it is a third embodiment of the present invention. The voltage boost circuit 100 of this embodiment is similar to the voltage boost circuit 100 of the second embodiment. The similarities between the two embodiments will not be described again. The main difference between the voltage boosting circuit 100' of this embodiment and the second embodiment is that the primary side 2 is not a single component in this embodiment.

具體來說,所述初級側2’於本實施例中包含電性耦接所述整流模組1的一第一子初級側21及一第二子初級側22,意即所述初級側2’具有兩個繞組。Specifically, the primary side 2' in this embodiment includes a first sub-primary side 21 and a second sub-primary side 22 that are electrically coupled to the rectifier module 1, which means that the primary side 2 'Has two windings.

於實際應用中,所述第一子初級側21設置於所述第一次級側3的一側,並且所述第一子初級側21與所述第一次級側3產生電磁感應,所述第二子初級側22設置於所述第二次級側4的一側,並且所述第二子初級側22與所述第二次級側4產生電磁感應。也就是說,所述第一子初級側21的繞組是鄰近但不接觸所述第一次級側3的繞組,所述第二子初級側22的繞組是鄰近但不接觸所述第二次級側4的繞組。In practical applications, the first sub-primary side 21 is disposed on one side of the first secondary side 3, and the first sub-primary side 21 and the first secondary side 3 generate electromagnetic induction, so The second sub-primary side 22 is disposed on one side of the second secondary side 4 , and the second sub-primary side 22 and the second secondary side 4 generate electromagnetic induction. That is to say, the winding of the first sub-primary side 21 is adjacent to but not in contact with the winding of the first secondary side 3, and the winding of the second sub-primary side 22 is adjacent to but not in contact with the second secondary side 3. Winding of stage side 4.

於實務上,所述第一子初級側21的匝數是配合所述第一次級側3的匝數,所述第二子初級側22的匝數是配合所述第二次級側4的匝數,所以所述第一子初級側21與所述第二子初級側22的匝數可以依據設計者需求被設計為相同或不相同。In practice, the number of turns of the first sub-primary side 21 is matched with the number of turns of the first secondary side 3 , and the number of turns of the second sub-primary side 22 is matched with the number of turns of the second secondary side 4 The number of turns, so the number of turns of the first sub-primary side 21 and the second sub-primary side 22 can be designed to be the same or different according to the designer's needs.

需額外說明的是,基於第一實施例至第三實施例的發明精神,於其他實際應用中,所述抗菌燈200可以是採用如圖6、圖8、及圖10所示的電壓提升電路100A、100B、100C,並且這樣的電壓提升電路100A、100B、100C能經由一IC控制模組5控制第一電壓準位與第二電壓準位相互結合以產生高壓準位,從而達到第二實施例至第三實施例的效果。其中,圖6、圖8、及圖10中的升壓迴路Z是用以提升電壓之迴路,並且可以是由第二實施例與第三實施例的的所述初級側、所述第一次級側與所述第二次級側所實現,但本發明不受限於此。It should be additionally noted that based on the inventive spirit of the first to third embodiments, in other practical applications, the antibacterial lamp 200 may use the voltage boost circuit as shown in FIG. 6, FIG. 8, and FIG. 10. 100A, 100B, 100C, and such voltage boost circuits 100A, 100B, 100C can control the first voltage level and the second voltage level to combine with each other to generate a high voltage level through an IC control module 5, thereby achieving the second implementation For example, the effect of the third embodiment. Among them, the boost circuit Z in Figure 6, Figure 8, and Figure 10 is a circuit used to boost the voltage, and can be composed of the primary side, the first primary side of the second embodiment and the third embodiment. The primary side and the second secondary side are implemented, but the invention is not limited thereto.

此外,圖7為所述抗菌燈採用所述電壓提升電路100A時的基板與串發光二極體之示意圖,圖9為所述抗菌燈採用所述電壓提升電路100B時的基板與串發光二極體之示意圖。由圖7及圖9所示可以看出來,圖7的所述串發光二極體210能直接地被升壓而提供高壓電場及照明等功能,圖9的所述串發光二極體僅能提供照明,而高壓電場則是經由所述串發光二極體210一旁邊被所述升壓迴路Z所升壓的元件C(也可以是線路)所提供。In addition, Figure 7 is a schematic diagram of the substrate and string of light-emitting diodes when the antibacterial lamp adopts the voltage boost circuit 100A. Figure 9 is a schematic diagram of the substrate and string of light-emitting diodes when the antibacterial lamp adopts the voltage boost circuit 100B. Schematic diagram of the body. It can be seen from Figures 7 and 9 that the string of light-emitting diodes 210 in Figure 7 can be directly boosted to provide high-voltage electric field and lighting functions, while the string of light-emitting diodes in Figure 9 can only Illumination is provided, and the high-voltage electric field is provided through the string of light-emitting diodes 210 and the component C (which can also be a line) boosted by the boost circuit Z next to it.

[本發明實施例的技術效果][Technical effects of the embodiments of the present invention]

綜上所述,本發明實施例所公開的電壓提升電路,能通過“第一次級側的所述第一接地端電性耦接所述第二次級側,並且所述第一次級側與所述第二次級側能電磁感應所述初級側以各別形成高壓電”以及“所述第一次級側與所述第二次級側能用來連接所述負載”的設計,使所述電壓提升電路能提供所述負載電壓差小的高電壓。To sum up, the voltage boost circuit disclosed in the embodiment of the present invention can be electrically coupled to the second secondary side through the first ground terminal of the first secondary side, and the first secondary side The primary side and the second secondary side can electromagnetically induce the primary side to form high voltages respectively, and the first secondary side and the second secondary side can be used to connect the load. Designed so that the voltage boost circuit can provide a high voltage with a small voltage difference between the loads.

以上所公開的內容僅為本發明的優選可行實施例,並非因此侷限本發明的申請專利範圍,所以凡是運用本發明說明書及圖式內容所做的等效技術變化,均包含於本發明的申請專利範圍內。The contents disclosed above are only preferred and feasible embodiments of the present invention, and do not limit the scope of the patent application of the present invention. Therefore, all equivalent technical changes made by using the description and drawings of the present invention are included in the application of the present invention. within the scope of the patent.

100、100’、100A、100B、100C:電壓提升電路 1:整流模組 2、2’:初級側 21:第一子初級側 22:第二子初級側 3:第一次級側 4:第二次級側 5:IC控制模組 V1:第一高電壓 V2:第二高電壓 Load:負載 P1、P2、P3、P4:節點 200:抗菌燈 210:串發光二極體 201:發光二極體 220:奈米塗層 C:線路 Z:升壓迴路 S101~S107:步驟 100, 100’, 100A, 100B, 100C: voltage boost circuit 1: Rectifier module 2. 2’: Primary side 21: First sub-primary side 22: Second sub-primary side 3: First secondary side 4: Second secondary side 5:IC control module V1: the first high voltage V2: The second highest voltage Load: load P1, P2, P3, P4: nodes 200: Antibacterial lamp 210:String of LEDs 201:Light emitting diode 220:Nano coating C: Line Z: Boost circuit S101~S107: steps

圖1為本發明第一實施例的提升抗菌燈功效的電路配置方法的步驟流程圖。FIG. 1 is a flow chart of a circuit configuration method for improving the efficacy of an antibacterial lamp according to the first embodiment of the present invention.

圖2為本發明第一實施例的電路配置方法所應用的抗菌燈的示意圖。FIG. 2 is a schematic diagram of an antibacterial lamp applied to the circuit configuration method of the first embodiment of the present invention.

圖3為本發明第一實施例的電路配置方法所應用的抗菌燈的另一示意圖。Figure 3 is another schematic diagram of an antibacterial lamp applied to the circuit configuration method of the first embodiment of the present invention.

圖4為本發明第二實施例的電壓提升電路的電路示意圖。FIG. 4 is a schematic circuit diagram of a voltage boost circuit according to a second embodiment of the present invention.

圖5為本發明第三實施例的電壓提升電路的電路示意圖。FIG. 5 is a schematic circuit diagram of a voltage boost circuit according to the third embodiment of the present invention.

圖6為本發明第三實施例的電壓提升電路另一態樣的電路示意圖。FIG. 6 is a circuit schematic diagram of another aspect of the voltage boosting circuit according to the third embodiment of the present invention.

圖7為圖6所示的態樣應用於抗菌燈時的示意圖。Figure 7 is a schematic diagram when the aspect shown in Figure 6 is applied to the antibacterial lamp.

圖8為本發明第三實施例的電壓提升電路另一態樣的電路示意圖。FIG. 8 is a circuit schematic diagram of another aspect of the voltage boost circuit according to the third embodiment of the present invention.

圖9為圖8所示的態樣應用於抗菌燈時的示意圖。Figure 9 is a schematic diagram when the aspect shown in Figure 8 is applied to an antibacterial lamp.

圖10為本發明第三實施例的電壓提升電路又另一態樣的電路示意圖。FIG. 10 is a schematic circuit diagram of another aspect of the voltage boosting circuit according to the third embodiment of the present invention.

S101~S107:步驟 S101~S107: Steps

Claims (6)

一種提升抗菌燈功效的電路配置方法,包括以下步驟: 提供一交流電壓至一整流電路及一升壓電路; 利用所述整流電路整流所述交流電壓為一直流電壓,並提供一第一電壓準位; 利用所述升壓電路提高所述直流電壓至一第二電壓準位; 結合所述第一電壓準位及所述第二電壓準位成一高壓準位,以提供一驅動電路驅動一抗菌燈。 A circuit configuration method for improving the efficacy of antibacterial lamps, including the following steps: Provide an AC voltage to the rectifier circuit and a boost circuit; Using the rectifier circuit to rectify the AC voltage into a DC voltage and provide a first voltage level; Using the boost circuit to increase the DC voltage to a second voltage level; The first voltage level and the second voltage level are combined into a high voltage level to provide a driving circuit to drive an antibacterial lamp. 如請求項1所述的提升抗菌燈功效的電路配置方法,其中,利用一IC控制模組控制所述第一電壓準位結合所述第二電壓準位。The circuit configuration method for improving the efficacy of an antibacterial lamp as claimed in claim 1, wherein an IC control module is used to control the combination of the first voltage level and the second voltage level. 一種電壓提升電路,以用來提供一抗菌燈,所述電壓提升電路包括: 一初級側; 一第一次級側,電磁感應所述初級側以形成一第一高電壓,所述第一次級側包含一第一連接端及一第一接地端;以及 一第二次級側,電性耦接所述第一接地端,所述第二次級側電磁感應所述初級側以形成一第二高電壓,所述第二高電壓不等於所述第一高電壓,所述第二次級側包含一第二連接端,並且所述第二連接端與所述第一連接端能用來連接一負載。 A voltage boost circuit used to provide an antibacterial lamp, the voltage boost circuit includes: a primary side; a first secondary side that electromagnetically induces the primary side to form a first high voltage, the first secondary side including a first connection terminal and a first ground terminal; and A second secondary side is electrically coupled to the first ground terminal. The second secondary side electromagnetically induces the primary side to form a second high voltage. The second high voltage is not equal to the first ground terminal. A high voltage, the second secondary side includes a second connection terminal, and the second connection terminal and the first connection terminal can be used to connect a load. 如請求項3所述的電壓提升電路,其中,所述電壓提升電路包含電性耦接所述初級側的一整流模組,所述整流模組用來電性耦接一交流電源以輸出一直流電源至所述初級側。The voltage boost circuit of claim 3, wherein the voltage boost circuit includes a rectifier module electrically coupled to the primary side, and the rectifier module is electrically coupled to an AC power source to output a DC power to the primary side. 如請求項4所述的電壓提升電路,其中,所述初級側包含電性耦接所述整流模組的一第一子初級側及一第二子初級側,所述第一子初級側設置於所述第一次級側的一側,並且所述第一子初級側與所述第一次級側產生電磁感應;所述第二子初級側設置於所述第二次級側的一側,並且所述第二子初級側與所述第二次級側產生電磁感應。The voltage boost circuit of claim 4, wherein the primary side includes a first sub-primary side and a second sub-primary side electrically coupled to the rectifier module, and the first sub-primary side is configured on one side of the first secondary side, and the first sub-primary side and the first secondary side generate electromagnetic induction; the second sub-primary side is arranged on a side of the second secondary side side, and the second sub-primary side and the second secondary side generate electromagnetic induction. 如請求項3所述的電壓提升電路,其中,所述初級側為單一元件,所述第一次級側與所述第二次級側設置於所述初級側的一側,並且同時電磁感應所述初級側。The voltage boosting circuit of claim 3, wherein the primary side is a single component, the first secondary side and the second secondary side are disposed on one side of the primary side, and electromagnetic induction is carried out simultaneously the primary side.
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