TW201633680A - High-power power supply apparatus capable of reducing volume of output inductor - Google Patents

High-power power supply apparatus capable of reducing volume of output inductor Download PDF

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TW201633680A
TW201633680A TW104107130A TW104107130A TW201633680A TW 201633680 A TW201633680 A TW 201633680A TW 104107130 A TW104107130 A TW 104107130A TW 104107130 A TW104107130 A TW 104107130A TW 201633680 A TW201633680 A TW 201633680A
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contact
diode
output inductor
output
secondary winding
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TW104107130A
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Chinese (zh)
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TWI577120B (en
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shun-de Zhang
Jia-Bin Chen
ming-hong Chen
Jia-An Ye
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Acbel Polytech Inc
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Abstract

Provided is a high-power power supply apparatus capable of reducing the volume of an output inductor, which comprises a transformer and a secondary side circuit, wherein the secondary side circuit is connected with a secondary side winding of the transformer. The secondary side circuit includes a power output end and an output inductor component. The output inductor component includes a permeability base, and a first coil and a second coil which are disposed on the permeability base. The first coil and the second coil are coupled to each other, and the magnetic fields generated by the first coil and the second coil are opposite in directions. As a result, direct-current components of the magnetic field generated by the first coil and the magnetic field generated by the second coil can be mutually counteracted at the permeability base, so that the overall magnetic flux of the permeability base is effectively reduced, and the volume of the output inductor component is favorably reduced.

Description

可縮小輸出電感體積的高功率電源供應裝置High-power power supply device capable of reducing output inductor volume

本創作是關於一種電源供應裝置,特別是指可縮小輸出電感體積的高功率電源供應裝置。The present invention relates to a power supply device, and more particularly to a high power power supply device that can reduce the volume of an output inductor.

請參考圖12,習知電源供應器的等效電路主要包含有一整流器40、一次側電路41、二次側電路42、一變壓器43與一回授電路44,該整流器40、一次側電路41、變壓器43與二次側電路42係依序連接,該二次側電路42連接該回授電路44的一輸入端,該一次側電路41連接該回授電路44的一輸出端。該整流器40具有一電源輸入端VAC以接收一市電電源,且該整流器40、一次側電路41、變壓器43與二次側電路42將該市電電源轉換為一直流電源後由一電源輸出端VDC輸出,其中,該二次側電路42包含有一輸出電感作為儲能元件。Referring to FIG. 12, the equivalent circuit of the conventional power supply mainly includes a rectifier 40, a primary side circuit 41, a secondary side circuit 42, a transformer 43 and a feedback circuit 44, the rectifier 40, the primary side circuit 41, The transformer 43 is sequentially connected to the secondary side circuit 42 which is connected to an input terminal of the feedback circuit 44, and the primary side circuit 41 is connected to an output terminal of the feedback circuit 44. The rectifier 40 has a power input terminal VAC for receiving a mains power supply, and the rectifier 40, the primary side circuit 41, the transformer 43 and the secondary side circuit 42 convert the mains power into a DC power source and then output from a power output terminal VDC. The secondary side circuit 42 includes an output inductor as an energy storage element.

請參考圖13,該變壓器43以中央抽頭變壓器為例,其二次側繞組430包含有一第一接點A、一第二接點B與一共同接點N,該二次側電路42包含有一第一二極體D1、一第二二極體D2、一輸出電感L與一電容C,該第一二極體D1與第二二極體D2的陰極分別連接該二次側繞組430的第一接點A與第二接點B,而陽極分別連接一接地端GND,該輸出電感L連接於該共同接點N與該電源輸出端VDC之間,該電容C連接在電源輸出端VDC與接地端GND之間。為了提升電源供應器的輸出功率,習知作法是提高該二次側電路42的輸出電流Io,另一方面,該輸出電感L需具有承受大功率輸出的能力。該輸出電感L的構造包含有一鐵芯與一線圈,該線圈係設於該鐵芯上並供該輸出電流Io通過。隨著該輸出電流Io的提高,所引起的磁通量也對應增加,因此該鐵芯的體積必需增大以擴展磁通路徑,避免磁通飽和,卻使得電源供應器的整體體積無法進一步縮小。Referring to FIG. 13 , the transformer 43 is exemplified by a central tapped transformer. The secondary winding 430 includes a first contact A, a second contact B and a common contact N. The secondary circuit 42 includes a a first diode D1, a second diode D2, an output inductor L and a capacitor C. The cathodes of the first diode D1 and the second diode D2 are respectively connected to the second winding 430. a contact A and a second contact B, and the anode is respectively connected to a ground GND, the output inductor L is connected between the common contact N and the power output VDC, the capacitor C is connected to the power output VDC and Between ground GND. In order to increase the output power of the power supply, it is conventional practice to increase the output current Io of the secondary side circuit 42. On the other hand, the output inductor L is required to withstand a large power output. The structure of the output inductor L includes a core and a coil, and the coil is disposed on the core and passes the output current Io. As the output current Io increases, the resulting magnetic flux also increases correspondingly, so the volume of the core must be increased to expand the magnetic flux path, avoiding magnetic flux saturation, but the overall volume of the power supply cannot be further reduced.

請參考圖14,另一習知電源供應器採用具有第一二次側繞組431與第二二次側繞組432的變壓器43,且該等二次側繞組431、432分別連接一第一二次側電路421與一第二二次側電路422,各二次側電路421、422的電路架構與圖13的二次側電路42相同,在此不贅述,而圖14之該第一二次側電路421的輸出端連接該第二二次側電路422的輸出端,使該等二次側電路421、422的輸出電流Io得以匯流,如此一來,該電源供應器的輸出電流It為該等二次側電路421、422輸出電流Io的總和,藉此提升電源供應器的輸出功率。因為電源供應器不是直接提高各二次側電路421、422的輸出電流Io,故不需增加各輸出電感L的體積。然而,此電源供應器具有兩個輸出電感L,該等輸出電感L設置電路板時,因分別配置在不同位置而仍佔用一定空間,不僅限制該電源供應器的整體體積的縮小程度,也提高元件成本。Referring to FIG. 14, another conventional power supply adopts a transformer 43 having a first secondary winding 431 and a second secondary winding 432, and the secondary windings 431 and 432 are respectively connected to a first time. The circuit structure of the side circuit 421 and the second secondary circuit 422 and the secondary circuits 421 and 422 are the same as those of the secondary circuit 42 of FIG. 13 , and will not be described herein, and the first secondary side of FIG. 14 . The output end of the circuit 421 is connected to the output end of the second secondary circuit 422, so that the output current Io of the secondary side circuits 421, 422 is converged, so that the output current It of the power supply is such The secondary side circuits 421, 422 output the sum of the currents Io, thereby boosting the output power of the power supply. Since the power supply does not directly increase the output current Io of each of the secondary side circuits 421 and 422, it is not necessary to increase the volume of each of the output inductors L. However, the power supply has two output inductors L. When the output inductors L are disposed on the circuit board, they still occupy a certain space because they are respectively disposed at different positions, which not only limits the degree of reduction of the overall volume of the power supply, but also increases Component cost.

有鑒於此,本創作的主要目的是提供一種可縮小輸出電感體積的高功率電源供應裝置。In view of this, the main purpose of this creation is to provide a high-power power supply device that can reduce the volume of the output inductor.

本創作可縮小輸出電感體積的高功率電源供應裝置包含有: 一變壓器; 二次側電路,連接該變壓器的二次側繞組,該二次側電路包含有一電源輸出端與一輸出電感組件,該輸出電感組件包含有: 一導磁基座; 一第一線圈,設於該導磁基座,該第一線圈作為連接該電源輸出端的一第一輸出電感; 一第二線圈,設於該導磁基座並與該第一線圈耦合,該第二線圈作為連接該電源輸出端的一第二輸出電感,該第一線圈與第二線圈產生的磁場方向相反。The high-power power supply device capable of reducing the output inductor volume comprises: a transformer; a secondary circuit connected to the secondary winding of the transformer, the secondary circuit comprising a power output and an output inductor component, The output inductor component comprises: a magnetic conductive base; a first coil disposed on the magnetic base, the first coil as a first output inductor connected to the output end of the power source; a second coil disposed on the guide The magnetic base is coupled to the first coil, and the second coil serves as a second output inductor connected to the output end of the power source, and the first coil and the second coil generate a magnetic field opposite to each other.

根據本創作的結構,因為該第一線圈與第二線圈彼此耦合且產生的磁場方向相反,使該第一線圈產生的磁場與第二線圈產生的磁場之直流成份在該導磁基座彼此抵消,有效降低該導磁基座的整體磁通,以利縮小該導磁基座的厚度,進而縮小該輸出電感組件的體積,故本創作的輸出電感組件可在有限的體積下承受高功率輸出;此外,該輸出電感組件為單一構件,由單一構件就能等效出第一輸出電感與第二輸出電感,故相較於習知技術所述使用兩個電感,本創作僅需較少的空間來設置該輸出電感組件,綜上所述,本創作電源供應裝置的體積能有效縮小。According to the structure of the present invention, since the first coil and the second coil are coupled to each other and the direction of the generated magnetic field is opposite, the direct current component of the magnetic field generated by the first coil and the magnetic field generated by the second coil cancels each other on the magnetic base. Effectively reducing the overall magnetic flux of the magnetic pedestal to reduce the thickness of the magnetic pedestal, thereby reducing the volume of the output inductor component, so the output inductor component of the present invention can withstand high power output under a limited volume In addition, the output inductor component is a single component, and the first output inductor and the second output inductor can be equivalent by a single component, so that two inductors are used compared to the prior art, and the creation requires only a small amount. Space to set the output inductor component, in summary, the volume of the author of the power supply device can be effectively reduced.

請參考圖1,本創作電源供應裝置的等效電路包含有一整流器11、一變壓器12、一次側電路131、二次側電路132與一回授電路14。該變壓器12具有一次側繞組與二次側繞組,該一次側電路131連接於該整流器11與該變壓器12的一次側繞組之間,該整流器11與一次側電路131作為一交流/直流轉換電路,其中該一次側電路131包含有控制該變壓器12一次側繞組導通或開路的電子開關。該二次側電路132連接該變壓器12的二次側繞組,係作為一直流/直流轉換電路,該二次側電路132包含有一電源輸出端、一接地端與一輸出電感組件。該整流器11接收一市電電源VAC,該整流器11、一次側電路131、變壓器12與二次側電路132將該市電電源VAC轉換為一直流電源VDC,該直流電源VDC從該二次側電路132的電源輸出端輸出。該回授電路14的一輸入端與一輸出端分別連接該二次側電路132與一次側電路131,該回授電路14偵測該二次側電路132的電壓與電流,並將偵測結果回傳到該一次側電路131,該一次側電路131根據該偵測結果控制該電子開關的導通週期,以調整功率因數以及穩定輸出電壓、電流。Referring to FIG. 1, the equivalent circuit of the present power supply device includes a rectifier 11, a transformer 12, a primary side circuit 131, a secondary side circuit 132, and a feedback circuit 14. The transformer 12 has a primary side winding and a secondary side winding. The primary side circuit 131 is connected between the rectifier 11 and the primary side winding of the transformer 12. The rectifier 11 and the primary side circuit 131 function as an AC/DC conversion circuit. The primary side circuit 131 includes an electronic switch that controls the primary side winding of the transformer 12 to be turned on or open. The secondary side circuit 132 is connected to the secondary side winding of the transformer 12 as a DC/DC converter circuit. The secondary side circuit 132 includes a power output terminal, a ground terminal and an output inductor component. The rectifier 11 receives a mains power supply VAC, and the rectifier 11, the primary side circuit 131, the transformer 12 and the secondary side circuit 132 convert the mains power supply VAC into a DC power source VDC from the secondary side circuit 132. Power output output. An input end and an output end of the feedback circuit 14 are respectively connected to the secondary side circuit 132 and the primary side circuit 131. The feedback circuit 14 detects the voltage and current of the secondary side circuit 132, and detects the result. Returning to the primary side circuit 131, the primary side circuit 131 controls the conduction period of the electronic switch according to the detection result to adjust the power factor and stabilize the output voltage and current.

請參考圖2與圖3,該二次側電路132之輸出電感組件20結構包含有一導磁基座21、一第一線圈221與一第二線圈222。該導磁基座21可為鐵芯或其他具導磁性材料製成的構件,其包含有一底板210、一第一側板211、一第二側板212、一第一柱體213與一第二柱體214,該第一側板211與第二側板212分別設於該底板210的相對兩側,該第一柱體213與第二柱體214並列設於該底板210的表面且位於該第一側板211與第二側板212之間;本較佳實施例中,該底板210可為矩形而包含有依序連接的一第一側邊201、一第二側邊202、一第三側邊203與一第四側邊204,該第一側板211與第二側板212分別設於該第一側邊201與第三側邊203,該第一柱體213靠近該第二側邊202,該第二柱體214靠近該第四側邊204。該第一線圈221繞設於該第一柱體213,該第二線圈222繞設於該第二柱體214並與該第一線圈耦合,需注意的是,通過該第一線圈221與第二線圈222的電流方向彼此相反,故所產生的磁場方向彼此相反。本較佳實施例中,該第一線圈221是以一第一方向從該第一柱體213的頂部繞設至底部,該第二線圈222是以一第二方向從該第二柱體214的頂部繞設至底部,該第一方向與第二方向相反,以圖3的上視圖為例說明,當該第一線圈221的第一方向為逆時針方向,則該第二線圈222的第二方向為順時針方向;反之,當該第一方向為順時針方向,則該第二方向為逆時針方向。該第一線圈221與第二線圈222的電流輸入端IN分別位於該第一柱體213與第二柱體214頂部,而其電流輸出端OUT分別位於該第一柱體213與第二柱體214底部,是以,通過該第一線圈221與第二線圈222的電流方向彼此相而產生相反的磁場。Referring to FIG. 2 and FIG. 3 , the output inductor assembly 20 of the secondary circuit 132 includes a magnetic base 21 , a first coil 221 and a second coil 222 . The magnetic base 21 can be a core or other member made of a magnetic material, and includes a bottom plate 210, a first side plate 211, a second side plate 212, a first column 213 and a second column. The first side plate 211 and the second side plate 212 are respectively disposed on opposite sides of the bottom plate 210. The first column 213 and the second column 214 are juxtaposed on the surface of the bottom plate 210 and located on the first side plate. 211 is disposed between the second side plate 212 and the second side plate 212. In the preferred embodiment, the bottom plate 210 can be rectangular and includes a first side 201, a second side 202, and a third side 203. The first side plate 211 and the second side plate 212 are respectively disposed on the first side edge 201 and the third side edge 203, and the first column body 213 is adjacent to the second side edge 202, the second side The cylinder 214 is adjacent to the fourth side 204. The first coil 221 is wound around the first cylinder 213. The second coil 222 is wound around the second cylinder 214 and coupled to the first coil. It should be noted that the first coil 221 and the first coil The current directions of the two coils 222 are opposite to each other, so that the directions of the generated magnetic fields are opposite to each other. In the preferred embodiment, the first coil 221 is wound from the top of the first cylinder 213 to the bottom in a first direction, and the second coil 222 is in a second direction from the second pillar 214. The top of the first coil is opposite to the second direction. The first view of FIG. 3 is taken as an example. When the first direction of the first coil 221 is counterclockwise, the second coil 222 is The second direction is a clockwise direction; conversely, when the first direction is a clockwise direction, the second direction is a counterclockwise direction. The current input terminals IN of the first coil 221 and the second coil 222 are respectively located at the top of the first column 213 and the second column 214, and the current output ends OUT are respectively located at the first column 213 and the second column. The bottom of 214 is such that the current directions through the first coil 221 and the second coil 222 are opposite to each other to generate an opposite magnetic field.

請參考圖4所示的第一較佳實施例,該變壓器12的二次側繞組120包含有一第一接點A與一第二接點B,該二次側電路132包含有一第一二極體D1、一第二二極體D2、一第一輸出電感L1、一第二輸出電感L2與一電容C。該第一二極體D1與第二二極體D2的陰極分別連接該第一接點A與第二接點B,而陽極分別連接該接地端GND,該第一輸出電感L1連接於該第一接點A與該電源輸出端VDC之間,該第二輸出電感L2連接於該第二接點B與該電源輸出端VDC之間,該電容C連接於該電源輸出端VDC與接地端GND之間。圖3所示的第一線圈221與第二線圈222分別等效於該第一輸出電感L1與第二輸出電感L2。Referring to the first preferred embodiment shown in FIG. 4, the secondary winding 120 of the transformer 12 includes a first contact A and a second contact B. The secondary circuit 132 includes a first diode. The body D1, the second diode D2, a first output inductor L1, a second output inductor L2 and a capacitor C. The cathodes of the first diode D1 and the second diode D2 are respectively connected to the first contact A and the second contact B, and the anodes are respectively connected to the ground GND, and the first output inductor L1 is connected to the first Between a contact A and the power output VDC, the second output inductor L2 is connected between the second contact B and the power output terminal VDC, and the capacitor C is connected to the power output terminal VDC and the ground GND between. The first coil 221 and the second coil 222 shown in FIG. 3 are equivalent to the first output inductor L1 and the second output inductor L2, respectively.

請參考圖5所示的第二較佳實施例,該變壓器12為中央抽頭式變壓器且具有一第一二次側繞組121與一第二二次側繞組122,各二次側繞組121、122包含有一第一接點A、一第二接點B與一共同接點N,該二次側電路132包含有一第一二極體D1、一第二二極體D2、一第三二極體D3、一第四二極體D4、一第一輸出電感L1、一第二輸出電感L2與一電容C,該第一二極體D1與第二二極體D2的陰極分別連接該第一二次側繞組121的第一接點A與第二接點B,該第三二極體D3與第四二極體D4的陰極分別連接該第二二次側繞組122的第一接點A與第二接點B,該等二極體D1~D4的陽極連接該接地端GND,該第一輸出電感L1連接於該第一二次側繞組121的共同接點N與該電源輸出端VDC之間,該第二輸出電感L2連接於該第二二次側繞組122的共同接點N與該電源輸出端VDC之間,該電容C連接於該電源輸出端VDC與接地端GND之間。圖3所示的第一線圈221與第二線圈222分別等效於該第一輸出電感L1與第二輸出電感L2。Referring to the second preferred embodiment shown in FIG. 5, the transformer 12 is a center-tapped transformer and has a first secondary winding 121 and a second secondary winding 122, and each secondary winding 121, 122 A first contact A, a second contact B and a common contact N are included. The secondary circuit 132 includes a first diode D1, a second diode D2, and a third diode. D3, a fourth diode D4, a first output inductor L1, a second output inductor L2 and a capacitor C. The cathodes of the first diode D1 and the second diode D2 are respectively connected to the first two The first contact A and the second contact B of the secondary winding 121, the cathodes of the third diode D3 and the fourth diode D4 are respectively connected to the first contact A of the second secondary winding 122 and The second contact B, the anodes of the diodes D1 D D4 are connected to the ground GND, the first output inductor L1 is connected to the common contact N of the first secondary winding 121 and the power output VDC The second output inductor L2 is connected between the common contact N of the second secondary winding 122 and the power output terminal VDC. The capacitor C is connected to the power output terminal VDC and ground. Between the ends GND. The first coil 221 and the second coil 222 shown in FIG. 3 are equivalent to the first output inductor L1 and the second output inductor L2, respectively.

請參考圖6所示的第三較佳實施例,該變壓器12具有一第一二次側繞組121與一第二二次側繞組122,各二次側繞組121、122包含有一第一接點A與一第二接點B。該二次側電路132包含有一第一二極體D1、一第二二極體D2、一第三二極體D3、一第四二極體D4、一第一輸出電感L1、一第二輸出電感L2與一電容C,該第一二極體D1與第二二極體D2的陽極分別連接該第一二次側繞組121的第一接點A與第二接點B,而陰極彼此連接,該第三二極體D3與第四二極體D4的陽極分別連接該第二二次側繞組122的第一接點A與第二接點B,而陰極彼此連接,該第一、第二二次側繞組121、122的第二接點B分別連接該接地端GND,該第一輸出電感L1連接於該第一與第二二極體D1、D2的陰極與該電源輸出端VDC之間,該第二輸出電感L2連接在該第三、第四二極體D3、D4的陰極與該電源輸出端VDC之間,該電容C連接於該電源輸出端VDC與接地端GND之間。圖3所示的第一線圈221與第二線圈222分別等效於該第一輸出電感L1與第二輸出電感L2。Referring to the third preferred embodiment shown in FIG. 6, the transformer 12 has a first secondary winding 121 and a second secondary winding 122. Each secondary winding 121, 122 includes a first contact. A and a second contact B. The secondary side circuit 132 includes a first diode D1, a second diode D2, a third diode D3, a fourth diode D4, a first output inductor L1, and a second output. The inductor L2 and a capacitor C, the anodes of the first diode D1 and the second diode D2 are respectively connected to the first contact A and the second contact B of the first secondary winding 121, and the cathodes are connected to each other. The anodes of the third diode D3 and the fourth diode D4 are respectively connected to the first contact A and the second contact B of the second secondary winding 122, and the cathodes are connected to each other, the first and the first The second contacts B of the second and second side windings 121 and 122 are respectively connected to the ground GND. The first output inductor L1 is connected to the cathodes of the first and second diodes D1 and D2 and the power output terminal VDC. The second output inductor L2 is connected between the cathodes of the third and fourth diodes D3 and D4 and the power output terminal VDC. The capacitor C is connected between the power output terminal VDC and the ground GND. The first coil 221 and the second coil 222 shown in FIG. 3 are equivalent to the first output inductor L1 and the second output inductor L2, respectively.

請參考圖7所示的第四較佳實施例,該變壓器12具有一第一二次側繞組121與一第二二次側繞組122,各二次側繞組121、122包含有一第一接點A與一第二接點B。該二次側電路132包含有一第一全橋整流電路133、一第二全橋整流電路134、一第一輸出電感L1、一第二輸出電感L2與一電容C,該第一全橋整流電路133的第一輸入端a1與第二輸入端a2分別連接該第一二次側繞組121的第一接點A與第二接點B,該第一輸出電感L1連接在該第一全橋整流電路133的第一輸出端b1與該電源輸出端VDC之間,該第二全橋整流電路134的第一輸入端a1與第二輸入端a2分別連接該第二二次側繞組122的第一接點A與第二接點B,該第二輸出電感L2連接在該第二全橋整流電路134的第一輸出端b1與該電源輸出端VDC之間,該第一與第二全橋整流電路133、134的第二輸出端b2分別連接該接地端GND,該電容C連接於該電源輸出端VDC與接地端GND之間。圖3所示的第一線圈221與第二線圈222分別等效於該第一輸出電感L1與第二輸出電感L2。Referring to the fourth preferred embodiment shown in FIG. 7, the transformer 12 has a first secondary winding 121 and a second secondary winding 122. Each secondary winding 121, 122 includes a first contact. A and a second contact B. The secondary side circuit 132 includes a first full bridge rectifier circuit 133, a second full bridge rectifier circuit 134, a first output inductor L1, a second output inductor L2, and a capacitor C. The first full bridge rectifier circuit The first input end a1 and the second input end a2 of the 133 are respectively connected to the first contact A and the second contact B of the first secondary winding 121, and the first output inductor L1 is connected to the first full bridge rectification. Between the first output terminal b1 of the circuit 133 and the power output terminal VDC, the first input end a1 and the second input end a2 of the second full bridge rectifier circuit 134 are respectively connected to the first of the second secondary windings 122 The second output inductor L2 is connected between the first output terminal b1 of the second full bridge rectifier circuit 134 and the power output terminal VDC, and the first and second full bridge rectifiers are connected. The second output terminal b2 of the circuit 133, 134 is respectively connected to the ground GND, and the capacitor C is connected between the power output terminal VDC and the ground GND. The first coil 221 and the second coil 222 shown in FIG. 3 are equivalent to the first output inductor L1 and the second output inductor L2, respectively.

請參考圖8所示的第五較佳實施例,該變壓器12具有一第一二次側繞組121與一第二二次側繞組122,各二次側繞組121、122包含有一第一接點A、一第二接點B與一共同接點N。該二次側電路132包含有一第一二極體D1、一第二二極體D2、一第三二極體D3、一第四二極體D4、一第一輸出電感L1、一第二輸出電感L2、一第一電容C1與一第二電容C2,該第一二極體D1與第二二極體D2的陰極分別連接該第一二次側繞組121的第一接點A與第二接點B,該第三二極體D3與第四二極體D4的陰極分別連接該第二二次側繞組122的第一接點A與第二接點B,該等二極體D1~D4的陽極分別連接該接地端GND,該第一輸出電感L1連接於該第一二次側繞組121的共同接點N與該電源輸出端VDC之間,該第二輸出電感L2連接於該第二二次側繞組122的共同接點N與該電源輸出端VDC之間,該第一電容C1與第二電容C2分別連接於該電源輸出端VDC與接地端GND之間。圖3所示的第一線圈221與第二線圈222分別等效於該第一輸出電感L1與第二輸出電感L2。Referring to the fifth preferred embodiment shown in FIG. 8, the transformer 12 has a first secondary winding 121 and a second secondary winding 122. Each secondary winding 121, 122 includes a first contact. A, a second contact B and a common contact N. The secondary side circuit 132 includes a first diode D1, a second diode D2, a third diode D3, a fourth diode D4, a first output inductor L1, and a second output. The inductor L2, a first capacitor C1 and a second capacitor C2, the cathodes of the first diode D1 and the second diode D2 are respectively connected to the first contacts A and the second of the first secondary winding 121 The second B1 and the second diode D4 are respectively connected to the first contact A and the second contact B of the second secondary winding 122, and the diode D1 is connected to the second diode D3. The anode of the D4 is connected to the ground GND, and the first output inductor L1 is connected between the common contact N of the first secondary winding 121 and the power output VDC, and the second output inductor L2 is connected to the first The first capacitor C1 and the second capacitor C2 are respectively connected between the power output terminal VDC and the ground GND, respectively, between the common contact N of the secondary winding 122 and the power output VDC. The first coil 221 and the second coil 222 shown in FIG. 3 are equivalent to the first output inductor L1 and the second output inductor L2, respectively.

請參考圖9所示的第六較佳實施例,該變壓器12具有一第一二次側繞組121、一第二二次側繞組122、一第三二次側繞組123與一第四二次側繞組124,該等二次側繞組121~124分別具有一第一接點A與一第二接點B。該二次側電路132包含有一第一二極體D1、一第二二極體D2、一第三二極體D3、一第四二極體D4、一第一輸出電感L1、一第二輸出電感L2與一電容C,該第一二極體D1的陰極連接該第一二次側繞組121的第一接點A,該第二二極體D2的陰極連接該第三二次側繞組123的第一接點A,該第三二極體D3的陰極連接該第二二次側繞組122的第二接點B,該第四二極體D4連接該第四二次側繞組124的第二接點B,該等二極體D1~D4的陽極分別連接該接地端GND,該第一輸出電感L1連接該第二、第四二次側繞組122、124的第一接點A與該電源輸出端VDC之間,該第二輸出電感L2連接於該第一、第三二次側繞組121、123的第二接點B與該電源輸出端VDC之間,該電容C連接於該電源輸出端VDC與接地端GND之間。圖3所示的第一線圈221與第二線圈222分別等效於該第一輸出電感L1與第二輸出電感L2。Referring to the sixth preferred embodiment shown in FIG. 9, the transformer 12 has a first secondary winding 121, a second secondary winding 122, a third secondary winding 123, and a fourth secondary The side windings 124, the secondary side windings 121-124 have a first contact A and a second contact B, respectively. The secondary side circuit 132 includes a first diode D1, a second diode D2, a third diode D3, a fourth diode D4, a first output inductor L1, and a second output. The inductor L2 is coupled to a capacitor C. The cathode of the first diode D1 is connected to the first junction A of the first secondary winding 121, and the cathode of the second diode D2 is connected to the third secondary winding 123. The first contact A, the cathode of the third diode D3 is connected to the second contact B of the second secondary winding 122, and the fourth diode D4 is connected to the fourth secondary winding 124. The second contact B, the anodes of the diodes D1 D D4 are respectively connected to the ground GND, and the first output inductor L1 is connected to the first contact A of the second and fourth secondary windings 122, 124 and the The second output inductor L2 is connected between the second contact B of the first and third secondary windings 121, 123 and the power output VDC, and the capacitor C is connected to the power supply. Between the output terminal VDC and the ground terminal GND. The first coil 221 and the second coil 222 shown in FIG. 3 are equivalent to the first output inductor L1 and the second output inductor L2, respectively.

以圖4~圖9所示的第一~第六實施例而言,當本創作電源供應裝置運作時,經由該第一輸出電感L1輸出一第一電流I1,經由該第二輸出電感L2輸出一第二電流I2,因該第一輸出電感L1與第二輸出電感L2皆連接該電源輸出端VDC,故該第一電流I1與第二電流I2得以匯流,如此一來,該電源供應裝置的總輸出電流I3為該第一電流I1與第二電流I2的總和,藉此提升電源供應裝置的輸出功率。In the first to sixth embodiments shown in FIG. 4 to FIG. 9 , when the present power supply device operates, a first current I1 is output through the first output inductor L1, and is output through the second output inductor L2. a second current I2, because the first output inductor L1 and the second output inductor L2 are both connected to the power output terminal VDC, so the first current I1 and the second current I2 are converged, and thus, the power supply device The total output current I3 is the sum of the first current I1 and the second current I2, thereby increasing the output power of the power supply device.

請參考圖3,根據本創作該輸出電感組件20的結構,該第一線圈221與第二線圈222設置在同一個導磁基座21上,當本創作電源供應裝置運作時,該第一線圈221與第二線圈222係同時激磁,且具有相同相位,該第一線圈221與第二線圈222彼此耦合且產生的磁場方向相反。請配合參考圖10,為該第一線圈221與第二線圈222在第一側板211產生磁場強度的示意圖,該第二側板212的磁場現象可以類推。圖10所示的箭號長度代表磁場強度,該第一線圈221的第一磁場31的方向是由上而下,且強度隨著遠離該第一線圈221而遞減,相對地,該第二線圈222的第二磁場32的方向是由下而上,且強度隨著遠離該第二線圈222而遞減。由此可見,本創作中該第一磁場31與第二磁場32中磁通量的直流成份(dc term)可在該導磁基座21的第一側板211與第二側板212彼此抵消,有效降低該導磁基座21在該第一側板211與第二側板212的整體磁通量。Referring to FIG. 3, according to the structure of the output inductor assembly 20, the first coil 221 and the second coil 222 are disposed on the same magnetic base 21, and when the present power supply device operates, the first coil The second coil 222 is simultaneously excited and has the same phase, and the first coil 221 and the second coil 222 are coupled to each other and generate a magnetic field in the opposite direction. Referring to FIG. 10 , a schematic diagram of the magnetic field strength of the first coil 221 and the second coil 222 on the first side plate 211 is generated. The magnetic field phenomenon of the second side plate 212 can be analogized. The length of the arrow shown in FIG. 10 represents the strength of the magnetic field, the direction of the first magnetic field 31 of the first coil 221 is from top to bottom, and the intensity decreases as moving away from the first coil 221, and the second coil is oppositely The direction of the second magnetic field 32 of 222 is from bottom to top, and the intensity decreases as it moves away from the second coil 222. It can be seen that the DC component of the magnetic flux in the first magnetic field 31 and the second magnetic field 32 in the present invention can cancel each other at the first side plate 211 and the second side plate 212 of the magnetic pedestal 21, thereby effectively reducing the The magnetic flux of the magnetic base 21 on the first side plate 211 and the second side plate 212.

請配合參考附件一,係本創作該輸出電感組件20的磁通量模擬結果,該第一側板211與第二側板212確實有較低的磁通量(藍色分布)且沒有發生飽和;請參考附件二,係該第一線圈221與第二線圈222產生相同磁場方向的模擬結果,可見該第一側板211與第二側板212的磁通量相當高而飽和(紅色分布)。對照附件一與附件二可見,本創作藉由該第一線圈221與第二線圈222產生相反方向的磁場,確實可降低該第一側板211與第二側板212的整體磁通量。Please refer to Appendix I for the magnetic flux simulation result of the output inductor assembly 20. The first side plate 211 and the second side plate 212 do have a lower magnetic flux (blue distribution) and are not saturated; please refer to Appendix II. The first coil 221 and the second coil 222 generate simulation results of the same magnetic field direction. It can be seen that the magnetic fluxes of the first side plate 211 and the second side plate 212 are relatively high and saturated (red distribution). As can be seen from the comparison of the first and second attachments, the first coil 221 and the second coil 222 generate a magnetic field in the opposite direction, which can reduce the overall magnetic flux of the first side plate 211 and the second side plate 212.

如前所述,因為該第一磁場31與第二磁場32中磁通量的直流成份(dc term)在該導磁基座21的第一側板211與第二側板212彼此抵消而降低整體磁通量,故能對應縮減該第一側板211與第二側板212的厚度(或供磁力線通過的截面積),使該輸出電感組件20的體積能有效地縮小化,故該輸出電感組件20可在有限的體積下承受高功率輸出。此外,因為本創作使該第一磁場31與第二磁場32中磁通量的直流成份在該第一側板211與第二側板212相消而不會外洩,故該輸出電感組件20不影響周邊元件的運作。As described above, since the DC component of the magnetic flux in the first magnetic field 31 and the second magnetic field 32 cancels each other at the first side plate 211 and the second side plate 212 of the magnetic pedestal 21, the overall magnetic flux is reduced. The thickness of the first side plate 211 and the second side plate 212 (or the cross-sectional area through which the magnetic lines pass) can be reduced correspondingly, so that the volume of the output inductor component 20 can be effectively reduced, so the output inductor component 20 can be in a limited volume. Understand high power output. In addition, because the present invention causes the DC component of the magnetic flux in the first magnetic field 31 and the second magnetic field 32 to be eliminated in the first side plate 211 and the second side plate 212 without leaking, the output inductor component 20 does not affect the peripheral components. Operation.

另一方面,該第一線圈221與第二線圈222因彼此耦合而產生漏電感(leakage inductance),此漏電感對本創作電源供應裝置有所助益。以第六較佳實施例為例,請配合參考圖11,該輸出電感組件20產生一第一漏電感La與一第二漏電感Lb,該第一輸出電感L1串聯該第一漏電感La,該第二輸出電感L2串聯該第二漏電感Lb,使該二次側電路132整體輸出電感提高。基於二次側電路132之電感電流隨時間變化關係是連續的特性,使一次側電路131的電子開關進行切換時有柔切(soft switching)的功效,讓電子開關的開關動作更有效率。On the other hand, the first coil 221 and the second coil 222 are coupled to each other to generate leakage inductance, which is beneficial to the present power supply device. Taking the sixth preferred embodiment as an example, please refer to FIG. 11 , the output inductor component 20 generates a first leakage inductance La and a second leakage inductance Lb, and the first output inductor L1 is connected in series with the first leakage inductance La, The second output inductor L2 is connected in series with the second leakage inductance Lb to increase the overall output inductance of the secondary side circuit 132. The relationship between the inductance current and the time-dependent relationship of the secondary side circuit 132 is continuous, so that the electronic switching of the primary side circuit 131 has a function of soft switching, which makes the switching operation of the electronic switch more efficient.

11‧‧‧整流器
12‧‧‧變壓器
120‧‧‧二次側繞組
121‧‧‧第一二次側繞組
122‧‧‧第二二次側繞組
123‧‧‧第三二次側繞組
124‧‧‧第四二次側繞組
131‧‧‧一次側電路
132‧‧‧二次側電路
133‧‧‧第一全橋整流電路
134‧‧‧第二全橋整流電路
14‧‧‧回授電路
20‧‧‧輸出電感組件
21‧‧‧導磁基座
201‧‧‧第一側邊
202‧‧‧第二側邊
203‧‧‧第三側邊
204‧‧‧第四側邊
210‧‧‧底板
211‧‧‧第一側板
212‧‧‧第二側板
213‧‧‧第一柱體
214‧‧‧第二柱體
221‧‧‧第一線圈
222‧‧‧第二線圈
31‧‧‧第一磁場
32‧‧‧第二磁場
40‧‧‧整流器
41‧‧‧一次側電路
42‧‧‧二次側電路
421‧‧‧第一二次側電路
422‧‧‧第二二次側電路
43‧‧‧變壓器
430‧‧‧二次側繞組
431‧‧‧第一二次側繞組
432‧‧‧第二二次側繞組
44‧‧‧回授電路
11‧‧‧Rectifier
12‧‧‧Transformers
120‧‧‧secondary winding
121‧‧‧First secondary winding
122‧‧‧second secondary winding
123‧‧‧ Third secondary winding
124‧‧‧ fourth secondary winding
131‧‧‧primary circuit
132‧‧‧secondary circuit
133‧‧‧First full bridge rectifier circuit
134‧‧‧Second full bridge rectifier circuit
14‧‧‧Return circuit
20‧‧‧Output inductor components
21‧‧‧magnetic base
201‧‧‧ first side
202‧‧‧Second side
203‧‧‧ third side
204‧‧‧ fourth side
210‧‧‧floor
211‧‧‧First side panel
212‧‧‧Second side panel
213‧‧‧First cylinder
214‧‧‧Second cylinder
221‧‧‧First coil
222‧‧‧second coil
31‧‧‧First magnetic field
32‧‧‧second magnetic field
40‧‧‧Rectifier
41‧‧‧primary circuit
42‧‧‧secondary circuit
421‧‧‧First secondary circuit
422‧‧‧second secondary circuit
43‧‧‧Transformers
430‧‧‧secondary winding
431‧‧‧First secondary winding
432‧‧‧second secondary winding
44‧‧‧Return circuit

圖1:本創作電源供應裝置的電路方塊示意圖。 圖2:本創作中輸出電感組件的導磁基座立體外觀示意圖。 圖3:本創作中輸出電感組件的俯視平面示意圖。 圖4:本創作電源供應裝置之第一較佳實施例中變壓器與二次側電路的電路示意圖。 圖5:本創作電源供應裝置之第二較佳實施例中變壓器與二次側電路的電路示意圖。 圖6:本創作電源供應裝置之第三較佳實施例中變壓器與二次側電路的電路示意圖。 圖7:本創作電源供應裝置之第四較佳實施例中變壓器與二次側電路的電路示意圖。 圖8:本創作電源供應裝置之第五較佳實施例中變壓器與二次側電路的電路示意圖。 圖9:本創作電源供應裝置之第六較佳實施例中變壓器與二次側電路的電路示意圖。 圖10:本創作中輸出電感組件的第一線圈與第二線圈磁場分布示意圖。 圖11:本創作電源供應裝置之第六較佳實施例中二次側電路產生第一漏電感與第二漏電感的電路示意圖。 圖12:習知電源供應器的電路方塊示意圖。 圖13:習知電源供應器中變壓器與二次側電路的電路示意圖(一)。 圖14:習知電源供應器中變壓器與二次側電路的電路示意圖(二)。Figure 1: Schematic block diagram of the power supply device of the present invention. Figure 2: Schematic diagram of the stereoscopic appearance of the magnetic base of the output inductor assembly in this creation. Figure 3: A top plan view of the output inductor assembly in this creation. Figure 4 is a circuit diagram showing the transformer and the secondary side circuit in the first preferred embodiment of the present power supply device. Fig. 5 is a circuit diagram showing a transformer and a secondary side circuit in a second preferred embodiment of the present power supply device. Figure 6 is a circuit diagram showing a transformer and a secondary side circuit in a third preferred embodiment of the present power supply device. Fig. 7 is a circuit diagram showing a transformer and a secondary side circuit in a fourth preferred embodiment of the present power supply device. Figure 8 is a circuit diagram showing a transformer and a secondary side circuit in a fifth preferred embodiment of the present power supply device. Figure 9 is a circuit diagram showing a transformer and a secondary side circuit in a sixth preferred embodiment of the present power supply device. Figure 10: Schematic diagram of the magnetic field distribution of the first coil and the second coil of the output inductor assembly in the present invention. Figure 11 is a circuit diagram showing the first leakage inductance and the second leakage inductance of the secondary side circuit in the sixth preferred embodiment of the present power supply device. Figure 12: Schematic block diagram of a conventional power supply. Figure 13: Circuit diagram of a transformer and secondary circuit in a conventional power supply (1). Figure 14: Circuit diagram of the transformer and secondary circuit in the conventional power supply (2).

12‧‧‧變壓器 12‧‧‧Transformers

121‧‧‧第一二次側繞組 121‧‧‧First secondary winding

122‧‧‧第二二次側繞組 122‧‧‧second secondary winding

132‧‧‧二次側電路 132‧‧‧secondary circuit

Claims (12)

一種可縮小輸出電感體積的高功率電源供應裝置,包含有: 一變壓器; 二次側電路,連接該變壓器的二次側繞組,該二次側電路包含有一電源輸出端與一輸出電感組件,該輸出電感組件包含有: 一導磁基座; 一第一線圈,設於該導磁基座,該第一線圈作為連接該電源輸出端的一第一輸出電感; 一第二線圈,設於該導磁基座並與該第一線圈耦合,該第二線圈作為連接該電源輸出端的一第二輸出電感,該第一線圈與第二線圈產生的磁場方向相反。A high-power power supply device capable of reducing an output inductor volume, comprising: a transformer; a secondary side circuit connecting a secondary side winding of the transformer, the secondary side circuit comprising a power output end and an output inductor component, The output inductor component comprises: a magnetic conductive base; a first coil disposed on the magnetic base, the first coil as a first output inductor connected to the output end of the power source; a second coil disposed on the guide The magnetic base is coupled to the first coil, and the second coil serves as a second output inductor connected to the output end of the power source, and the first coil and the second coil generate a magnetic field opposite to each other. 如請求項1所述可縮小輸出電感體積的高功率電源供應裝置,該輸出電感組件產生一第一漏電感與一第二漏電感,該第一輸出電感串聯該第一漏電感,該第二輸出電感串聯該第二漏電感。The high-power power supply device capable of reducing the output inductor volume according to claim 1, wherein the output inductor component generates a first leakage inductance and a second leakage inductance, the first output inductance being connected in series with the first leakage inductance, the second The output inductor is connected in series with the second leakage inductance. 如請求項2所述可縮小輸出電感體積的高功率電源供應裝置,該導磁基座包含有一底板、一第一側板、一第二側板、一第一柱體與一第二柱體,該底板為矩形而包含有依序連接的一第一側邊、一第二側邊、一第三側邊與一第四側邊,該第一側板與第二側板分別設於該第一側邊與第三側邊而為相對設置,該第一柱體與第二柱體並列設於該底板的表面且位於該第一側板與第二側板之間,其中該第一柱體靠近該第二側邊,該第二柱體靠近該第四側邊; 該第一線圈繞設於該第一柱體,該第二線圈繞設於該第二柱體。The high-power power supply device capable of reducing the output inductor volume according to claim 2, the magnetic base includes a bottom plate, a first side plate, a second side plate, a first column and a second column, The bottom plate is rectangular and includes a first side edge, a second side edge, a third side edge and a fourth side edge. The first side plate and the second side plate are respectively disposed on the first side edge. The first column and the second column are juxtaposed on the surface of the bottom plate and located between the first side plate and the second side plate, wherein the first column is adjacent to the second side. The second cylinder is adjacent to the fourth side; the first coil is wound around the first cylinder, and the second coil is wound around the second cylinder. 如請求項3所述可縮小輸出電感體積的高功率電源供應裝置,該第一線圈是以一第一方向從該第一柱體的頂部繞設至底部,該第二線圈是以一第二方向從該第二柱體的頂部繞設至底部,該第一方向與第二方向相反,該第一線圈與第二線圈的電流輸入端分別位於該第一柱體與第二柱體頂部,而電流輸出端分別位於該第一柱體與第二柱體底部。A high-power power supply device capable of reducing an output inductor volume as claimed in claim 3, wherein the first coil is wound from a top of the first cylinder to a bottom in a first direction, and the second coil is a second The direction is from the top of the second cylinder to the bottom, the first direction is opposite to the second direction, and the current input ends of the first coil and the second coil are respectively located at the top of the first cylinder and the second cylinder. The current output ends are respectively located at the bottom of the first cylinder and the second cylinder. 如請求項4所述可縮小輸出電感體積的高功率電源供應裝置,該第一方向為逆時針方向,該第二方向為順時針方向。The high power power supply device capable of reducing the output inductor volume as claimed in claim 4, wherein the first direction is a counterclockwise direction and the second direction is a clockwise direction. 如請求項4所述可縮小輸出電感體積的高功率電源供應裝置,該第一方向為順時針方向,該第二方向為逆時針方向。The high-power power supply device capable of reducing the output inductor volume as claimed in claim 4, wherein the first direction is a clockwise direction and the second direction is a counterclockwise direction. 如請求項1至6中任一項所述可縮小輸出電感體積的高功率電源供應裝置,該變壓器的二次側繞組包含有一第一接點與一第二接點; 該二次側電路包含有一第一二極體、一第二二極體、該第一輸出電感、該第二輸出電感與一電容,該第一二極體與第二二極體的陰極分別連接該第一接點與第二接點,而陽極分別連接一接地端,該第一輸出電感連接於該第一接點與該電源輸出端之間,該第二輸出電感連接於該第二接點與該電源輸出端之間,該電容連接於該電源輸出端與該接地端之間。The high-power power supply device capable of reducing the output inductor volume according to any one of claims 1 to 6, wherein the secondary side winding of the transformer includes a first contact and a second contact; the secondary circuit includes a first diode, a second diode, the first output inductor, the second output inductor and a capacitor, wherein the first diode and the cathode of the second diode are respectively connected to the first contact And a second contact, wherein the anode is respectively connected to a ground, the first output inductor is connected between the first contact and the power output, the second output inductor is connected to the second contact and the power output Between the terminals, the capacitor is connected between the power output end and the ground. 如請求項1至6中任一項所述可縮小輸出電感體積的高功率電源供應裝置,該變壓器具有一第一二次側繞組與一第二二次側繞組,各二次側繞組包含有一第一接點、一第二接點與一共同接點; 該二次側電路包含有一第一二極體、一第二二極體、一第三二極體、一第四二極體、該第一輸出電感、該第二輸出電感與一電容,該第一二極體與第二二極體的陰極分別連接該第一二次側繞組的第一接點與第二接點,該第三二極體與第四二極體的陰極分別連接該第二二次側繞組的第一接點與第二接點,該第一至第四二極體的陽極連接一接地端,該第一輸出電感連接於該第一二次側繞組的共同接點與該電源輸出端之間,該第二輸出電感連接於該第二二次側繞組的共同接點與該電源輸出端之間,該電容連接於該電源輸出端與該接地端之間。A high-power power supply device capable of reducing an output inductor volume according to any one of claims 1 to 6, the transformer having a first secondary winding and a second secondary winding, each secondary winding having a a first contact, a second contact, and a common contact; the secondary circuit includes a first diode, a second diode, a third diode, and a fourth diode. The first output inductor, the second output inductor and a capacitor, the first diode and the cathode of the second diode are respectively connected to the first contact and the second contact of the first secondary winding, The cathodes of the third diode and the fourth diode are respectively connected to the first contact and the second contact of the second secondary winding, and the anodes of the first to fourth diodes are connected to a ground. a first output inductor is connected between the common contact of the first secondary winding and the power output, and the second output inductor is connected between the common contact of the second secondary winding and the power output The capacitor is connected between the output end of the power supply and the ground. 如請求項1至6中任一項所述可縮小輸出電感體積的高功率電源供應裝置,該變壓器具有一第一二次側繞組與一第二二次側繞組,各二次側繞組包含有一第一接點與一第二接點; 該二次側電路包含有一第一二極體、一第二二極體、一第三二極體、一第四二極體、該第一輸出電感、該第二輸出電感與一電容,該第一二極體與第二二極體的陽極分別連接該第一二次側繞組的第一接點與第二接點,而陰極彼此連接,該第三二極體與第四二極體的陽極分別連接該第二二次側繞組的第一接點與第二接點,而陰極彼此連接,該第一、第二二次側繞組的第二接點分別連接一接地端,該第一輸出電感連接於該第一、第二二極體的陰極與該電源輸出端之間,該第二輸出電感連接在該第三、第四二極體的陰極與該電源輸出端之間,該電容連接於該電源輸出端與該接地端之間。A high-power power supply device capable of reducing an output inductor volume according to any one of claims 1 to 6, the transformer having a first secondary winding and a second secondary winding, each secondary winding having a a first contact and a second contact; the secondary circuit includes a first diode, a second diode, a third diode, a fourth diode, and the first output inductor The second output inductor and a capacitor, the anodes of the first diode and the second diode are respectively connected to the first contact and the second contact of the first secondary winding, and the cathodes are connected to each other, The anodes of the third diode and the fourth diode are respectively connected to the first contact and the second contact of the second secondary winding, and the cathodes are connected to each other, and the first and second secondary windings are connected The two contacts are respectively connected to a ground end, the first output inductor is connected between the cathodes of the first and second diodes and the power output end, and the second output inductor is connected to the third and fourth poles Between the cathode of the body and the output end of the power source, the capacitor is connected to the output end of the power source and the ground end . 如請求項1至6中任一項所述可縮小輸出電感體積的高功率電源供應裝置,該變壓器具有一第一二次側繞組與一第二二次側繞組,各二次側繞組包含有一第一接點與一第二接點; 該二次側電路包含有一第一全橋整流電路、一第二全橋整流電路、該第一輸出電感、該第二輸出電感與一電容,該第一全橋整流電路的一第一輸入端與一第二輸入端分別連接該第一二次側繞組的第一接點與第二接點,該第一輸出電感連接在該第一全橋整流電路的一第一輸出端與該電源輸出端之間,該第二全橋整流電路的一第一輸入端與一第二輸入端分別連接該第二二次側繞組的第一接點與第二接點,該第二輸出電感連接在該第二全橋整流電路的一第一輸出端與該電源輸出端之間,該第一、第二全橋整流電路的一第二輸出端分別連接一接地端,該電容連接於該電源輸出端與該接地端之間。A high-power power supply device capable of reducing an output inductor volume according to any one of claims 1 to 6, the transformer having a first secondary winding and a second secondary winding, each secondary winding having a a first contact and a second contact; the secondary circuit includes a first full bridge rectifier circuit, a second full bridge rectifier circuit, the first output inductor, the second output inductor and a capacitor, the first A first input end and a second input end of a full bridge rectifier circuit are respectively connected to the first contact and the second contact of the first secondary winding, and the first output inductor is connected to the first full bridge rectification Between a first output end of the circuit and the power output end, a first input end and a second input end of the second full bridge rectifying circuit are respectively connected to the first contact point and the second second side winding a second contact, the second output inductor is connected between a first output end of the second full bridge rectifier circuit and the power output end, and a second output end of the first and second full bridge rectifier circuits are respectively connected a ground terminal, the capacitor is connected to the power output end and the connection End between. 如請求項1至6中任一項所述可縮小輸出電感體積的高功率電源供應裝置,該變壓器具有一第一二次側繞組與一第二二次側繞組,各二次側繞組包含有一第一接點、一第二接點與一共同接點; 該二次側電路包含有一第一二極體、一第二二極體、一第三二極體、一第四二極體、該第一輸出電感、該第二輸出電感、一第一電容與一第二電容,該第一二極體與第二二極體的陰極分別連接該第一二次側繞組的第一接點與第二接點,該第三二極體與第四二極體的陰極分別連接該第二二次側繞組的第一接點與第二接點,該第一至第四二極體的陽極分別連接一接地端,該第一輸出電感連接於該第一二次側繞組的共同接點與該電源輸出端之間,該第二輸出電感連接於該第二二次側繞組的共同接點與該電源輸出端之間,該第一電容與第二電容分別連接於該電源輸出端與該接地端之間。A high-power power supply device capable of reducing an output inductor volume according to any one of claims 1 to 6, the transformer having a first secondary winding and a second secondary winding, each secondary winding having a a first contact, a second contact, and a common contact; the secondary circuit includes a first diode, a second diode, a third diode, and a fourth diode. The first output inductor, the second output inductor, a first capacitor and a second capacitor, the first diode and the cathode of the second diode are respectively connected to the first contact of the first secondary winding And the second contact, the cathodes of the third diode and the fourth diode are respectively connected to the first contact and the second contact of the second secondary winding, and the first to fourth diodes The anode is respectively connected to a ground end, the first output inductor is connected between the common contact of the first secondary winding and the power output end, and the second output inductor is connected to the common connection of the second secondary winding Between the point and the power output end, the first capacitor and the second capacitor are respectively connected to the power output end and Ground terminal. 如請求項1至6中任一項所述可縮小輸出電感體積的高功率電源供應裝置,該變壓器具有一第一二次側繞組、一第二二次側繞組、一第三二次側繞組與一第四二次側繞組,該第一至第四二次側繞組分別具有一第一接點與一第二接點; 該二次側電路包含有一第一二極體、一第二二極體、一第三二極體、一第四二極體、該第一輸出電感、該第二輸出電感與一電容,該第一二極體的陰極連接該第一二次側繞組的第一接點,該第二二極體的陰極連接該第三二次側繞組的第一接點,該第三二極體的陰極連接該第二二次側繞組的第二接點,該第四二極體連接該第四二次側繞組的第二接點,該第一至第四二極體的陽極分別連接一接地端,該第一輸出電感連接該第二、第四二次側繞組的第一接點與該電源輸出端之間,該第二輸出電感連接於該第一、第三二次側繞組的第二接點與該電源輸出端之間,該電容連接於該電源輸出端與該接地端之間。The high-power power supply device capable of reducing the output inductor volume according to any one of claims 1 to 6, the transformer having a first secondary winding, a second secondary winding, and a third secondary winding And a fourth secondary winding, the first to fourth secondary windings respectively have a first contact and a second contact; the secondary circuit includes a first diode, a second a pole body, a third diode, a fourth diode, the first output inductor, the second output inductor and a capacitor, the cathode of the first diode is connected to the first secondary winding a contact, a cathode of the second diode is connected to a first contact of the third secondary winding, and a cathode of the third diode is connected to a second contact of the second secondary winding, the first a fourth diode is connected to the second junction of the fourth secondary winding, the anodes of the first to fourth diodes are respectively connected to a ground, and the first output inductor is connected to the second and fourth secondary sides Between the first contact of the winding and the output of the power supply, the second output inductor is coupled to the first and third secondary windings Two junction between the output terminal and the power supply, the power supply capacitor is connected between the output terminal and the ground terminal.
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