JP2023152898A5 - - Google Patents
Download PDFInfo
- Publication number
- JP2023152898A5 JP2023152898A5 JP2023050673A JP2023050673A JP2023152898A5 JP 2023152898 A5 JP2023152898 A5 JP 2023152898A5 JP 2023050673 A JP2023050673 A JP 2023050673A JP 2023050673 A JP2023050673 A JP 2023050673A JP 2023152898 A5 JP2023152898 A5 JP 2023152898A5
- Authority
- JP
- Japan
- Prior art keywords
- primary
- circuit
- high voltage
- voltage level
- electromagnetic induction
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Granted
Links
- 230000000844 anti-bacterial effect Effects 0.000 claims 5
- 230000005674 electromagnetic induction Effects 0.000 claims 5
- 238000000034 method Methods 0.000 claims 5
- 239000002103 nanocoating Substances 0.000 claims 2
- 230000005684 electric field Effects 0.000 claims 1
Claims (6)
整流回路および昇圧回路に交流電圧を供給するステップと、
前記整流回路を使用して交流電圧を直流電圧に整流し、負荷にエネルギーを供給するための第1の電圧レベルを提供するステップと、
前記負荷は直列に接続された発光ダイオードで構成される抗菌灯であり、該抗菌灯にはナノコーティングが施されており、
前記昇圧回路を使用して直流電圧を第2の電圧レベルに上げるステップと、
該第2の電圧レベルは、前記負荷へのエネルギーの供給には関与せず、
IC制御モジュールを使用して前記第1の電圧レベルと前記第2の電圧レベルとを組み合わせて高電圧レベルを形成し、
前記昇圧回路によって昇圧された素子によって提供される高電圧電場を通して、前記ナノコーティングを励起するステップと、
を含む回路構成方法。 A circuit configuration method for improving the efficacy of an antibacterial lamp, the method comprising:
supplying alternating current voltage to the rectifier circuit and the booster circuit;
rectifying an alternating current voltage to a direct current voltage using the rectifier circuit to provide a first voltage level for supplying energy to a load ;
The load is an antibacterial lamp consisting of light emitting diodes connected in series, the antibacterial lamp is provided with a nano-coating,
increasing the DC voltage to a second voltage level using the boost circuit;
the second voltage level is not involved in supplying energy to the load;
combining the first voltage level and the second voltage level to form a high voltage level using an IC control module ;
exciting the nanocoating through a high voltage electric field provided by an element boosted by the boost circuit ;
A circuit configuration method including
前記昇圧回路によって昇圧される構成要素には回路が含まれる、回路構成方法。 A circuit configuration method for improving the efficacy of the antibacterial lamp according to claim 1, comprising:
A circuit configuration method , wherein the components boosted by the booster circuit include a circuit .
一次側と、
第1の接続端子および第1の接地端子を含む第1の二次側であって、前記第1の二次側と前記一次側との間に電磁誘導によって第1の高電圧が生成される第1の二次側と、
前記第1の接地端子に電気的に結合された第2の二次側であって、電磁誘導によって前記第2の二次側と前記一次側との間に第1の高電圧と等しくない第2の高電圧を生成する第2の二次側と、を含み、
前記第2の二次側は、第2の接続端子を含み、前記第2の接続端子と前記第1の接続端子は、負荷との接続に使用されるように構成される、
昇圧回路。 A boost circuit used to provide an antibacterial lamp, comprising:
the primary side,
a first secondary side including a first connection terminal and a first ground terminal, wherein a first high voltage is generated by electromagnetic induction between the first secondary side and the primary side; a first secondary;
a second secondary electrically coupled to the first ground terminal, the first high voltage being unequal to the first high voltage between the second secondary and the primary by electromagnetic induction; a second secondary generating a high voltage of 2;
The second secondary side includes a second connection terminal, and the second connection terminal and the first connection terminal are configured to be used for connection with a load.
Boost circuit.
前記昇圧回路は、前記一次側に電気的に結合された整流モジュールを含み、
前記整流モジュールは、交流電源に電気的に結合され、前記一次側に直流電源を出力可能に構成される、昇圧回路。 The booster circuit according to claim 3,
The booster circuit includes a rectifier module electrically coupled to the primary side,
The rectifier module is a step-up circuit that is electrically coupled to an AC power source and configured to be able to output DC power to the primary side.
前記一次側は、前記整流モジュールに電気的に接続された第1の子一次側と第2の子一次側とを含み、
前記第1の子一次側は、前記第1の二次側の片側に配置され、前記第1の一次側と前記第1の二次側との間に電磁誘導を発生させ、
前記第2の子一次側は、前記第2の二次側の片側に配置され、前記第2の一次側と前記第2の二次側との間に電磁誘導を発生させる
、請求項4に記載の昇圧回路。 The booster circuit according to claim 4,
The primary side includes a first child primary and a second child primary electrically connected to the rectifier module,
the first child primary is disposed on one side of the first secondary and generates electromagnetic induction between the first primary and the first secondary;
5. The second child primary is disposed on one side of the second secondary and generates electromagnetic induction between the second primary and the second secondary. The booster circuit described.
前記一次側が単一の部品で構成され、
前記第1の二次側および前記第2の二次側が前記一次側の一方の側に配置され、同時に前記一次側との間で電磁誘導が発生する、
昇圧回路。
The booster circuit according to claim 3,
the primary side is composed of a single part;
The first secondary side and the second secondary side are arranged on one side of the primary side, and electromagnetic induction is simultaneously generated between the first secondary side and the primary side.
Boost circuit.
Applications Claiming Priority (2)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| TW111112726A TWI835105B (en) | 2022-04-01 | 2022-04-01 | Circuit configuration method for improving the efficacy of antibacterial lamps and voltage boost circuit |
| TW111112726 | 2022-04-01 |
Publications (3)
| Publication Number | Publication Date |
|---|---|
| JP2023152898A JP2023152898A (en) | 2023-10-17 |
| JP2023152898A5 true JP2023152898A5 (en) | 2024-02-21 |
| JP7571959B2 JP7571959B2 (en) | 2024-10-23 |
Family
ID=
Similar Documents
| Publication | Publication Date | Title |
|---|---|---|
| JP5076106B2 (en) | High efficiency AC LED drive circuit | |
| KR101221479B1 (en) | Ac led lamp | |
| ES2856193T3 (en) | Low Voltage Input Single Stage DC / AC Inverter | |
| JP2015012805A (en) | Boost type direct current electric energy output control circuit device | |
| CN101749551B (en) | Hand-operated rechargeable lamp | |
| TWI551025B (en) | Lighting power conversion device | |
| JP2023152898A5 (en) | ||
| JP6070049B2 (en) | LED lighting device and LED lighting apparatus | |
| Chan et al. | Design of electronic ballast for short-arc xenon lamp with interleaved half-wave rectifier | |
| KR20140018802A (en) | Single stage forward-flyback converter, power supplying apparatus and power suppying apparatus for light emitting diode | |
| US9125264B2 (en) | Lighting device | |
| JP6382286B2 (en) | LED voltage drive circuit | |
| RU127545U1 (en) | PULSE SECONDARY POWER SUPPLY | |
| JP2012029534A (en) | Power supply device, and illumination device having the same | |
| JP7571959B2 (en) | Circuit configuration method and boost circuit for improving the effect of antibacterial lamp | |
| US9241378B2 (en) | Hybrid constant current LED lamp | |
| US11974367B2 (en) | Lighting device | |
| TWI835105B (en) | Circuit configuration method for improving the efficacy of antibacterial lamps and voltage boost circuit | |
| US8749156B2 (en) | Electric lighting driver circuit | |
| CN217904277U (en) | Special dc-to-ac converter of car as a house | |
| TWI477044B (en) | Step-down rectifier | |
| JP2004357493A (en) | Power supply, discharge lamp lighting apparatus, and illumination apparatus | |
| JP5385815B2 (en) | Lighting device and lighting fixture using the same | |
| US10743383B2 (en) | LED lighting device driven by boosting alternating current | |
| RU185192U1 (en) | POWER CORRECTOR |