200928387 九、發明說明: 【發明所屬之技術領域】 本發明涉及一種測試用電源裝置,尤其涉及一種裝設 於電子裝置中用以給待檢測電子裝置提供電能之測試用電 源裝置。 【先前技術】 隨著通訊事業之迅速發展,行動電話、個人數位助理 (personal digital assistant,PDA)等各種攜帶型電子裝置之 ®使用越來越普及。該等攜帶型電子裝置於組裝完成後,一 般都需要對其進行測試,以檢查該攜帶型電子裝置是否達 到規定要求。 對待測試之攜帶型電子裝置進行測試時,需卸下攜帶 型電子裝置之電池,使所述攜帶型電子裝置之電路板暴露 於外以對該攜帶型電子裝置進行測試。同時,於整個測試 過程中,應保證所述攜帶型電子裝置一直處於開機狀態。 0此時,如果使用攜帶型電子裝置自身配備之電池來提供電 源以使其開機的話,則所述電池會完全擋住攜帶型電子裝 置之電池容置槽内之電路板上之GPS(global positioning system,全球定位系統)測試端口、RF(radio frequency,射 頻)測試端口及藍牙(blue tooth)測試端口等測試端口,從而 無法從所述電路板上引出測試訊號線以對其進行測試。 【發明内容】 有鑒於此,有必要提供一種測試用電源裝置,其裝設 於待測試之電子裝置上以提供電源且不影響測試工作的進 6 200928387 行0 一種測試用電源裝置,其用於給待測試之電子裝置提 供電能;該電子裂置包括一電路板,其上佈設有至少:一測 試端口;所述測試用電源裝置上佈設有至少一缺口,該缺 口之佈設位置與待測試之電子裝置之電路板上之各測試端 口相對應。 所述測試用電源裝置裝設於一待測試之電子裝置上並 建立電性連接’給所述待測試之電子裝置提供電能以啟動 該電子裝置。1¾測試用電源裝置藉由其上佈設之分別盘所 述待測試之電子裝置之電路板上之各測試端口相對獻缺 :,使得所述待測試之電子裝置之電路板上之各測試端口' 露出於外而不被擋住,以利於對該電路板上之各测試端口 進行功能測試。 【實施方式】 請參閱圖1,所示為一應用本發明測試用電源裝置 ❾30(參閱圖2所示)之待測試之電子裝置1〇,其包括一前蓋 11、一後蓋12、一電路板13及一電池19。所述後蓋12 與所述前蓋11相互組裝於一起,該後蓋12之—端沿其表 面向下貫通開設形成一呈矩形之通孔14,從而於所^後蓋 12上形成一第一侧壁141、一第二側壁142、—第三側壁 143及一第四側壁144。所述第一側壁141與所述第三側壁 143相對設置。該第一侧壁141上佈設有電連接器端子Μ, 該電連接器端子15包括一正連接器端子151、—負連接器 端子 152 及一 iD(identificati〇n,identity,標識碼)連接器端 200928387 子153。所述第二侧壁142與所述第四側壁i44相對設置。 ' 所述祕板13 U於所述_叙電子U 10内, • f夾設於該電子褒置10之前蓋u與後蓋12之間。所述後 盍12上之通孔14與裝設於電子裝置1〇内之電路板u丘 同形成-大致矩形之電池容置槽(圖未標),以用於裳輯 述電池19。所述電路板13上佈設有至少一測試端口,以 便於對所述設置於電子裝置1〇之電路板13上之電路、電 子元件等進行測試。本實施财,所述電路板13上靠 述後蓋12之第一侧壁141及第四侧壁144圍成之角落位置 處佈》又有GPS(gl〇bal positioning system,全球定位系統) f試端口 16。所述電路板13上靠近後蓋12之通孔14之 第三侧壁143之二端角落位置處分別佈設有一 RF(radi〇 frequency,射頻)測試端口 17及一藍牙(b]lue比〇化)測試端 口 I8。所述電池19裝設於所述電子裝置10之電池容置槽 内’用以給所述電子裝置10提供電能。 〇 請參閱圖2及圖3 ’所述測試用電源裝置30呈矩形塊 狀’其外形尺寸大小與所述待測試電子裝置10之電池19 及電池容置槽之尺寸大小相當,以利於其裝設於所述待測 試之電子裝置1 〇之電池容置槽内。所述測試用電源褒置 30上佈設有至少一缺口(詳參下述)’其與所述待測試之電 子農置10之電路板13上之各測試端口相對應設置。所述 缺口貫通開設於所述測試用電源裝置30上,使得所述測試 用電源裝置30裝設於所述待測試之電子裝置10之電池容 置槽内時’該待測試之電子裝置10之電路板13上之各測 8 200928387 ·, 試端口可從所述測試用電源裝置30上相對應之缺口中露 出於外’而不被所述測試用電源裝置30擋住,以利於對該 電子裝置10進行功能測試。 請參閱圖2及圖3,所述測試用電源裝置30包括一基 座40、一變壓裝置5〇及一調節裝置8〇。所述基座4〇呈矩 形板狀’其具一上表面41。所述基座40之上表面41大致 中央位置處凹設形成一呈矩形凹腔狀之容納部42,以用於 裝设所述變壓裝置50。所述所述基座40之一側邊上間隔 ®地貫通開設有與所述容納部42相互連通之三個連通孔 43。所述基座4〇上鄰近所述三通孔43之一角被貫通切去 一小塊形成一呈矩形狀之缺口 45,該缺口 45對應於所述 電子裝置10之電路板13上之GPS測試端口 16,以使當 該測試用電源裝置30裝設於所述電子裝置1〇之電池容置 槽内時,所述電路板13上之GPS測試端口 16可從所述基 座40之缺口 45中露出於外而不被擔住。所述基座4〇上與 ❹所述二連通孔43所於側邊相對之另一側邊上間隔地凹設 有二裳配孔46及一螺孔48,所述螺孔48位於該二裝配孔 46之間。 所述變壓裝置50為一變壓器,其裝設於所述基座4〇 之谷納部42内。該變壓裝置50可將普通220V之交流電 源轉變為啟動所述待測試之電子裝置1()所需之直流電 源。所述變壓裝置50包括一主體部51、一電源輸入線53、 一插頭54及一輸出端56。所述變壓裝置5〇之主體部51 内裝ax有一變壓電路(圖未示出),其藉由所述電源輸入線 9 200928387 =及插頭54與外部之交流電源進行電性連接。所述輪出 鸲56為二連接銷,其與變壓裝置5()之主體部51内之變壓 電路之輪出部(圖未示出)電性連接。該輸出端56分別與所 述待測試電子裝置1〇之電連接器端子15電性連接。 凊一併參閱圖4,所述調節裝置8〇與所述基座4〇組 裝於起,其用於調節該電源裝置30之長度以使該電源裝 置30適用於不同尺寸之電池容置槽,增強該測試裝置3〇 ❹之通用性。該調節裝置8〇包括一調節板81、二導柱幻、 一彈性件85及一螺釘87。所述調節板81呈矩形板狀,其 具一側邊811,該側邊811上相鄰間隔地設有二缺口 812。 所述缺口 812貫通該調節板81之上下表面,其對應於所述 電子裝置10之電路板13上之RF測試端口 17及藍牙測試 端口 18,使得當該測試用電源裝置3()裝設於所述電子裝 置10之電池容置槽内時,所述電路板13上之RF測試端 口 17及藍牙測試端口 18可分別從所述調節板81之二缺口 ❹812中露出於外而不被擋住。所述調節板81之與側邊8ΐι 上之二相對之另一侧邊凹設形成有二導通孔815及一連接 通孔817。該導通孔815之孔徑尺寸大小與所述導柱83之 外徑尺寸大小相當。所述連接通孔817貫通所述調節板81 之側邊811,並位於二缺口 812之間,其由所述調節板81 之侧邊811朝向相對平行之另一侧邊貫通開設而成。該連 接通孔817之孔徑尺寸大小與所述螺釘87之尺寸大小相 §,以便於所述螺釘8 7從所述連接通孔817中穿過。 所述二導柱83呈圓形柱狀,其一端分別固接於所述基 200928387 座40之二裝配孔46中,另一端分別容置於所述調節板81 之導通孔815中。所述彈性件85為一螺旋彈簧。所述螺釘 87包括一螺帽871、一螺柱872及一螺紋部875,所述螺 柱872之一端與所述螺帽871固接,其外徑尺寸與所述連 接通孔817之内徑尺寸大小相當。所述螺紋部875設置於 所述螺柱872上遠離所述螺帽871之一端,該螺紋部875 之尺寸大小與所述基座40上之螺孔48之内徑尺寸大小相 當0 〇 組裝所述測試用電源裝置30時,首先,將所述變壓裝 置50之輸出端56對準並穿過所述基座4〇之連通孔幻, 同時將該變壓裝置50固定裝設於所述基座4〇之容納部芯 内。然後,將所述二導柱83分別固定裝設於所述基座4〇 二-裝配孔46中。接下來’將所述調節板81之二導通孔 二導對甬準所述二導柱83 ’該二導柱83分別沿調節板81之 述調2 815插入其中。最後’將所述螺釘87依次穿過所 〇之=81之連接通孔817及彈性件85,並將該螺釘87 =螺部875與基座4〇上之螺孔4M目互螺接,從而 疋成所述測試用電源裝置3〇 ” 電源裝置30之調節裝置8〇之螺二;^旋轉所述測試用 試用電源裝置30之長度。於可調整所述整個測 所述調節板81於彈性件85之彈螺釘87之過程中, 藉由其上之二導通孔815與二導柱= 用下’該調節板以 對所述測試用電源裝置3〇之長度之8^互配合滑移,實現 請參閱圖5所示,對所述待測試之Ϊηηο進行測 11 200928387 • 之測試用電源裝置3〇之輸出端56朝 向電子裝置10之容納部42内之第一側壁141裝机 .所述測試用電源裝置30之輸出端56分別與第^辟141 接:其端子15相對應電連接;同時,所述測試用電 源裝置30之基座4〇上之缺口 45剛好位於電路板υ上之 ⑽測試端口 16上方,從而使得該㈣輯端口 μ暴露 於外而不會被測試用電源襄置3〇難。接下來,旋轉制 试用電源裝置30之調節裝置8〇之螺釘87 ❹ 〇用電源裝置30之長度以使其剛好容置於所述電子二二 之容納部42内。使所述測試用電源裝置%之調節板μ 上之二缺口 812分別與電路板13上之砂測試端口 口及 藍牙測試端口 18相對應,從而使得該贝1?測試端口 口及 藍牙測試端口 18暴露於外而不會被測試用電源裝置如擋 住。接下來,將所述測試用電源裝置3〇之變壓裝置卯之 插頭54與外接交流電源電性連接,藉由所述變麗裝置% I壓後從其輸出端56輸出一可啟動所述電子裝置⑺之 電源’從而啟動所述待測試電子I置1()。啟動所述電子裝 置10後,可藉由測試訊號線與電路板13上各功能測試端 口電性連接以對其進行測試。 可以理解,所述二導柱83亦可與所述基座40 一體製 成,其間隔地凸設於所述基座40之側邊上。 可以理解’所述調節裝置8G並不限於本實施例中所述 之結構’其亦可以僅為—彈性件85,該彈性件裝設於 所述電子裴置10之電池容置槽内並抵持於該測試用電源 12 200928387 裝置30之基座40與電池容置槽之侧壁之間。 可以理解’所述彈性件85亦並不限於本實施例中所述 之螺旋彈簧’其亦可以為板簧、橡膠或軟性墊等彈性材質 製成之物質’當所述測試用電源裝置3〇裝設於所述電子裝 置10之電池容置槽中時’其被裝設於所述測試用電源裝置 30與電子装置10之電池容置槽之侧壁間或被裝設於測試 用電源裝置30之調節板81與基座40之間,以使該測試用 ❹電源裝置30定位、容置於電池容置槽中。 可以理解,所述二導柱83亦可以省略,而直接藉由所 述螺釘87進行調整所訴調節板81與基座之間之距離, 從而調整整個測試用電源裝置3〇之長度。 可以理解’所述電路板13上之測試端口並不限於本實 施例中所述之GPS測試端口 16、RF測試端口 17及藍牙測 試端口 18,其還可以包括其他測試端口。所述各測試端口 之佈設位置亦不限於本實施例中所述之佈設位置,其亦可 ❹以佈設於電路板13上之其他位置處。 可以理解,所述測試用電源裝置3〇亦並不限於本實施 例中所述之結構,其亦可以為一與所述待測試用之電子裝 置10相配合使用之電池,於該電池上對應於所述電子裝置 10之電路板13上之各測試端口位置處貫通開設形成有對 應之缺口,使得該電池裝設於所述待測試之電子裝置1〇 之電池容置槽内時,該待測試之電子裝置1〇之電路板13 上之各測試端口可從所述電池上相對應之缺口中露出於 外,而不被所述電源擋住,以利於對該待測試之電子裝置 13 200928387 10之電路板13上之各賴端口進行功能測試。 、所❹m用電源裝置3㈣由_變壓裝置5G將外 •流電源轉變為啟動所述待測試之電子裝置ι〇所需之直士 電源。同時,該測試用電源裝置3〇藉由其基座4〇上之二 口 45及調節裳置80之調節板81上< 二缺口 812’使、 測試用電源裝置30裝設於所述待測試之電子裝置之= 裝設部内時,該電子裝置之電路板上之各測試端 被 測試用電源裝置30擋住。 攸 ® 職測試用電㈣置%裝設於—待測試之電子 10之電池容置射並建立電性連接,給所述待測試之電子 裝置7提供電能以啟動該電子裝置1G。該測試用電源裝 置10藉由其上佈設之分別與所述待測試之電子裝置忉之 電路板13上之各測試端口相對應之複數缺口,使得所 測試之電子裝置i 〇之電路板i 3上之各職端口露出於外 Ο 而不被擋住’以利於對該電路板13上之各測試端口 能測試。 疋订力 综上所述,本發明符合發明專利要件,爰依法提出專利 2請。惟,以上所述者僅為本發明之較佳實施例,本發明之 範圍並不以上述實施例為限,舉凡熟悉本案技藝之人:援依 本發明之精神所作之等效修飾或變化,皆應涵蓋於以下申請 【圖式簡單說明】 電子裝置 圖1為應用本發明測試用電源裝置之待測試 之立體示意圖; 200928387 圖2為本發明測試用電源裝置較佳實施 圖; j <立體示意 圖3為圖2所示測試用電源裝置之立體分立 圖4為圖2所示測試用電源裝置之另—示思圖, 解示意圖; 方向之立體分 圖5為本發明測試用電源裝置較佳實施例裝設於待測 試電子裝置上之立體示意 圖。 【主要元件符號說明】 ©電子裝置 10 、r· 别蓋 11 後蓋 12 電路板 13 通孔 14 第一侧壁 141 第二側壁 142 第三側壁 143 第四側壁 144 電連接器端子 15 正連接器端子 151 負連接益端子 152 ID連接器端子 153 測試端口 16,17,18 ❾測試用電源裝置 30 基座 40 上表面 41 容納部 42 連通孔 43 缺口 45,812 襄配孔 46 螺孔 48 變壓裝置 50 主體部 51 電源、輸入線 53 插頭 54 輪出端 56 調節裝置 80 調節板 81 侧邊 811 導通孔 815 連接通孔 817 15 200928387 導柱 83 彈性件 85 螺釘 87 螺帽 871 螺柱 872 螺紋部 875 ❹ 〇 16BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a test power supply device, and more particularly to a test power supply device installed in an electronic device for supplying electric energy to an electronic device to be detected. [Prior Art] With the rapid development of the communication industry, the use of various portable electronic devices such as mobile phones and personal digital assistants (PDAs) has become more and more popular. After the assembly of the portable electronic device, it is generally required to test it to check whether the portable electronic device meets the specified requirements. When testing the portable electronic device to be tested, the battery of the portable electronic device is removed, and the circuit board of the portable electronic device is exposed to test the portable electronic device. At the same time, during the entire test process, it should be ensured that the portable electronic device is always turned on. 0 At this time, if the battery equipped with the portable electronic device is used to provide power to turn it on, the battery completely blocks the GPS on the circuit board in the battery receiving slot of the portable electronic device (global positioning system) , Global Positioning System) Test port, RF (radio frequency) test port and Bluetooth (blue tooth) test port and other test ports, so that the test signal line can not be pulled out from the board to test it. SUMMARY OF THE INVENTION In view of the above, it is necessary to provide a test power supply device that is installed on an electronic device to be tested to provide power and does not affect the test work. 200928387 Line 0 A test power supply device for Providing electrical energy to the electronic device to be tested; the electronic device includes a circuit board on which at least one test port is disposed; the test power supply device is provided with at least one notch, and the position of the notch is set to be tested Each test port on the circuit board of the electronic device corresponds to. The test power supply unit is mounted on an electronic device to be tested and establishes an electrical connection to provide power to the electronic device to be tested to activate the electronic device. The test power supply device is relatively deficient by the test ports on the circuit board of the electronic device to be tested respectively disposed on the disk: the test ports on the circuit board of the electronic device to be tested Exposed to the outside without being blocked to facilitate functional testing of each test port on the board. [Embodiment] Please refer to FIG. 1 , which shows an electronic device 1 to be tested which is applied to the test power supply device 30 (see FIG. 2 ) of the present invention, and includes a front cover 11 , a rear cover 12 , and a The circuit board 13 and a battery 19. The rear cover 12 and the front cover 11 are assembled with each other, and the end of the rear cover 12 extends downwardly along the surface thereof to form a rectangular through hole 14 to form a first surface on the rear cover 12. A sidewall 141, a second sidewall 142, a third sidewall 143, and a fourth sidewall 144. The first sidewall 141 is disposed opposite to the third sidewall 143. An electrical connector terminal 布 is disposed on the first sidewall 141, and the electrical connector terminal 15 includes a positive connector terminal 151, a negative connector terminal 152, and an iD (identificati〇n, identity) connector. End 200928387 Sub 153. The second sidewall 142 is disposed opposite to the fourth sidewall i44. The secret plate 13 U is disposed in the electronic device U 10 , and the f is sandwiched between the cover u and the rear cover 12 before the electronic device 10 . The through hole 14 in the rear cymbal 12 forms a substantially rectangular battery accommodating groove (not shown) with the circuit board ub formed in the electronic device 1 for use in the battery 19. At least one test port is disposed on the circuit board 13 to facilitate testing of the circuit, electronic component, and the like disposed on the circuit board 13 of the electronic device 1 . In the implementation of the present invention, the circuit board 13 is surrounded by the first side wall 141 and the fourth side wall 144 of the rear cover 12, and has a GPS (global positioning system) f Try port 16. An RF (radius frequency) test port 17 and a Bluetooth (b]lue ratio are respectively disposed on the circuit board 13 at two corners of the third side wall 143 of the through hole 14 of the rear cover 12. ) Test port I8. The battery 19 is installed in a battery receiving slot of the electronic device 10 to supply power to the electronic device 10. Referring to FIG. 2 and FIG. 3, the test power supply device 30 has a rectangular block shape, and its external size is equivalent to the size of the battery 19 and the battery receiving slot of the electronic device 10 to be tested, so as to facilitate its loading. It is disposed in the battery receiving slot of the electronic device 1 to be tested. The test power supply unit 30 is provided with at least one notch (see below) which is disposed corresponding to each test port on the circuit board 13 of the electronic farm 10 to be tested. The gap is formed in the test power supply device 30, so that the test power supply device 30 is installed in the battery receiving slot of the electronic device 10 to be tested. Each test 8 on the circuit board 13 200928387 can be exposed from the corresponding gap in the test power supply device 30 without being blocked by the test power supply device 30 to facilitate the electronic device 10 for functional testing. Referring to Figures 2 and 3, the test power supply unit 30 includes a base 40, a transformer unit 5A, and an adjustment unit 8''. The base 4 has a rectangular plate shape and has an upper surface 41. The upper surface 41 of the base 40 is recessed at a substantially central position to form a rectangular recessed receiving portion 42 for mounting the pressure transforming device 50. Three communication holes 43 communicating with the accommodating portion 42 are formed through the side of the susceptor 40 at intervals. A corner of the pedestal 4 adjacent to the three through holes 43 is cut through a small piece to form a rectangular notch 45 corresponding to the GPS test on the circuit board 13 of the electronic device 10. The port 16 is such that when the test power supply device 30 is installed in the battery receiving slot of the electronic device 1 , the GPS test port 16 on the circuit board 13 can be from the gap 45 of the base 40 The middle is exposed and not taken. Two base holes 46 and a screw hole 48 are recessed on the other side of the base 4 opposite to the side opposite to the side of the two communicating holes 43. The screw holes 48 are located at the second side. Between the mounting holes 46. The transformer device 50 is a transformer that is mounted in the valley portion 42 of the base 4〇. The transformer device 50 converts a normal 220V AC power source into a DC power source required to activate the electronic device 1 to be tested. The transformer device 50 includes a main body portion 51, a power input line 53, a plug 54, and an output end 56. The main body portion 51 of the transformer device 5 has a transformer circuit (not shown), and the power input line 9 200928387 = and the plug 54 are electrically connected to an external AC power source. The wheel rim 56 is a two-connecting pin that is electrically connected to a turn-out portion (not shown) of the transformer circuit in the body portion 51 of the transformer device 5 (). The output end 56 is electrically connected to the electrical connector terminal 15 of the electronic device 1 to be tested. Referring to FIG. 4 together, the adjusting device 8 is assembled with the base 4〇 for adjusting the length of the power supply device 30 to make the power supply device 30 suitable for battery receiving slots of different sizes. Enhance the versatility of the test device. The adjusting device 8 includes an adjusting plate 81, two guiding columns, an elastic member 85 and a screw 87. The adjusting plate 81 has a rectangular plate shape and has a side 811. The side 811 is provided with two notches 812 adjacent to each other. The notch 812 extends through the upper upper surface of the adjusting board 81, and corresponds to the RF test port 17 and the Bluetooth test port 18 on the circuit board 13 of the electronic device 10, so that when the test power supply device 3() is installed When the battery of the electronic device 10 is received in the slot, the RF test port 17 and the Bluetooth test port 18 on the circuit board 13 can be respectively exposed from the two notches 812 of the adjusting board 81 without being blocked. The other side of the adjusting plate 81 opposite to the side of the side edge 8 is recessed to form a second through hole 815 and a connecting through hole 817. The size of the aperture of the via 815 is comparable to the size of the outer diameter of the pillar 83. The connecting through hole 817 extends through the side 811 of the adjusting plate 81 and is located between the two notches 812. The side edges 811 of the adjusting plate 81 are formed to extend toward the other side of the parallel side. The size of the aperture of the connecting hole 817 is the same as the size of the screw 87 so that the screw 87 passes through the connecting through hole 817. The two guide posts 83 have a circular column shape, and one end of each of the two guide posts 83 is fixed in the two mounting holes 46 of the base of the base 12228, and the other end is respectively received in the through hole 815 of the adjusting plate 81. The elastic member 85 is a coil spring. The screw 87 includes a nut 871, a stud 872 and a threaded portion 875. One end of the stud 872 is fixed to the nut 871, and an outer diameter thereof and an inner diameter of the connecting through hole 817. The size is equivalent. The threaded portion 875 is disposed on the stud 872 away from one end of the nut 871. The threaded portion 875 is sized to be equal to the inner diameter of the screw hole 48 on the base 40. When the test power supply device 30 is described, first, the output end 56 of the pressure transformation device 50 is aligned and passed through the communication hole of the base 4, and the transformer device 50 is fixedly mounted on the The pedestal 4 〇 is in the core of the housing. Then, the two guide posts 83 are fixedly mounted in the base 4 - mounting holes 46, respectively. Next, the two via holes of the adjusting plate 81 are aligned to the two guiding posts 83', and the two guiding posts 83 are respectively inserted along the adjusting plate 81 to be adjusted 2 815. Finally, the screw 87 is sequentially passed through the connecting through hole 817 of the yoke 81 and the elastic member 85, and the screw 87 = screw portion 875 is screwed with the screw hole 4M of the base 4 ,, thereby The test power supply device 3 〇" the adjustment device 8 of the power supply device 30 螺 screw 2; ^ rotates the length of the test test power supply device 30. The adjustment of the entire adjustment of the adjustment plate 81 can be adjusted During the process of the spring screw 87 of the member 85, the two conductive vias 815 and the two guide posts = use the adjustment plate to slide the length of the test power supply device 3, Referring to FIG. 5, the output end 56 of the test power supply device 3 is mounted toward the first sidewall 141 in the receiving portion 42 of the electronic device 10. The output end 56 of the test power supply device 30 is respectively connected to the first 141: the terminal 15 thereof is electrically connected; at the same time, the notch 45 on the base 4 of the test power supply device 30 is located on the circuit board. (10) Test port 16 above, so that the (4) port μ is exposed and will not be tested. It is difficult to use the power supply device 3. Next, the screw 87 of the adjusting device 8 of the test power supply device 30 is used to lengthen the power supply device 30 so that it is just accommodated in the housing portion 42 of the electronic device The two notches 812 on the adjusting board μ of the test power supply device are respectively corresponding to the sand test port and the blue test port 18 on the circuit board 13, so that the test port and the Bluetooth test port are enabled. 18 is exposed to the outside without being blocked by the power supply device for testing. Next, the plug 54 of the transformer device 3 of the test power supply device is electrically connected to the external AC power source, and the device is replaced by the external device. After the I I voltage is outputted from its output terminal 56, a power source that can activate the electronic device (7) is activated to activate the electronic device 1 to be tested. After the electronic device 10 is activated, the signal line and the circuit can be tested. The functional test ports on the board 13 are electrically connected to test them. It can be understood that the two guide posts 83 can also be integrally formed with the base 40, and are spaced apart from the side of the base 40. On the side. Can understand The device 8G is not limited to the structure described in the embodiment. It may also be only the elastic member 85. The elastic member is installed in the battery receiving groove of the electronic device 10 and resists the test. The power supply 12 200928387 is between the base 40 of the device 30 and the side wall of the battery receiving groove. It can be understood that the elastic member 85 is not limited to the coil spring described in the embodiment, and may also be a leaf spring or a rubber. Or a material made of an elastic material such as a soft pad, when the test power supply device 3 is mounted in the battery receiving groove of the electronic device 10, is mounted on the test power supply device 30 and the electronic device. The side wall of the battery receiving slot of the device 10 is disposed between the adjusting plate 81 of the test power supply device 30 and the base 40, so that the test power supply device 30 is positioned and accommodated in the battery receiving slot. in. It can be understood that the two guide posts 83 can also be omitted, and the distance between the adjustment plate 81 and the base is directly adjusted by the screw 87, thereby adjusting the length of the entire test power supply device 3〇. It will be understood that the test port on the circuit board 13 is not limited to the GPS test port 16, the RF test port 17, and the Bluetooth test port 18 described in this embodiment, and may include other test ports. The arrangement positions of the test ports are not limited to the arrangement positions described in the embodiment, and may be disposed at other positions on the circuit board 13. It can be understood that the test power supply device 3 is not limited to the structure described in this embodiment, and may also be a battery used in conjunction with the electronic device 10 to be tested, corresponding to the battery. When the battery is installed in the battery receiving slot of the electronic device 1 to be tested, the corresponding gap is formed in the position of each test port on the circuit board 13 of the electronic device 10, so that the battery is installed in the battery receiving slot of the electronic device 1 to be tested. The test ports on the circuit board 13 of the tested electronic device 1 can be exposed from the corresponding gaps on the battery without being blocked by the power source to facilitate the electronic device to be tested 13 200928387 10 The respective ports on the circuit board 13 are functionally tested. The power supply device 3 (4) is used by the _ transformer device 5G to convert the external power source into the power supply for starting the electronic device to be tested. At the same time, the test power supply unit 3 is equipped with the test power supply unit 30 by the two ports 45 on the base 4 and the adjustment plate 81 of the adjustment skirt 80. When the electronic device of the test is in the mounting portion, the test terminals on the circuit board of the electronic device are blocked by the test power supply device 30.攸 ® 职 test power (4) is installed in the battery of the electronic device 10 to be tested and establishes an electrical connection, and the electronic device 7 to be tested is supplied with electric energy to activate the electronic device 1G. The test power supply device 10 causes the tested electronic device i to be mounted on the circuit board i 3 by a plurality of gaps respectively disposed on the test boards on the circuit board 13 of the electronic device to be tested. The various ports on the top are exposed to the outside without being blocked 'to facilitate testing of the test ports on the board 13. In summary, the present invention is in accordance with the requirements of the invention patent, and the patent is filed according to law. However, the above-mentioned embodiments are merely preferred embodiments of the present invention, and the scope of the present invention is not limited to the above-described embodiments, and those skilled in the art will be able to make equivalent modifications or variations in accordance with the spirit of the present invention. The following is a description of the following: [Simplified description of the drawings] Electronic device FIG. 1 is a perspective view of a test power supply device to which the present invention is applied; 200928387 FIG. 2 is a preferred embodiment of a power supply device for testing according to the present invention; j < 3 is a three-dimensional discrete view of the test power supply device shown in FIG. 2. FIG. 4 is another schematic diagram of the test power supply device shown in FIG. 2, and a schematic diagram of the same; A perspective view of an embodiment mounted on an electronic device to be tested. [Main component symbol description] © Electronic device 10, r· Cover 11 Back cover 12 Circuit board 13 Through hole 14 First side wall 141 Second side wall 142 Third side wall 143 Fourth side wall 144 Electrical connector terminal 15 Positive connector Terminal 151 Negative connection FX terminal 152 ID connector terminal 153 Test port 16, 17, 18 ❾ Test power supply unit 30 Base 40 Upper surface 41 accommodating part 42 Communication hole 43 Notch 45, 812 襄 Matching hole 46 Screw hole 48 Transformer 50 Main body 51 Power supply, input line 53 Plug 54 Wheel end 56 Adjustment device 80 Adjustment plate 81 Side 811 Via hole 815 Connection through hole 817 15 200928387 Guide post 83 Elastic member 85 Screw 87 Nut 871 Stud 872 Threaded part 875 ❹ 〇16