TWI782503B - Programmable burn-in system - Google Patents

Abstract

一種可程式化燒機系統，包含電子負載裝置、燒機板、轉接座、電源供應器、人機介面裝置與主控制器，電子負載裝置具有複數電子負載群組，各電子負載群組包含複數電子負載單元，燒機板表面具有複數負載區域，各負載區域的負載接點電連接各電子負載群組，轉接座可拆組的設置在燒機板，轉接座設有元件連接器，元件連接器電連接燒機板之負載區域的測試電源接點與負載接點，電源供應器電連接燒機板之負載區域的測試電源接點，主控制器控制電源供應器輸出測試電源、控制電子負載裝置的負載特性，以及從燒機板和該電子負載裝置接收及儲存量測數據。A programmable burn-in system includes an electronic load device, a burn-in board, an adapter seat, a power supply, a human-machine interface device, and a main controller. The electronic load device has a plurality of electronic load groups, and each electronic load group includes Multiple electronic load units, the surface of the burner board has multiple load areas, the load contacts of each load area are electrically connected to each electronic load group, the transfer base is detachable and set on the burner board, and the transfer base is equipped with component connectors , the component connector is electrically connected to the test power contact and the load contact of the load area of the burner board, the power supply is electrically connected to the test power contact of the load area of the burner board, and the main controller controls the power supply to output test power, Controlling the load characteristics of the electronic load device, and receiving and storing measurement data from the burn-in board and the electronic load device.

Description

可程式化燒機系統Programmable burn-in system

本發明係有關一種燒機系統，特別是指可程式化燒機系統。 The invention relates to a burn-in system, in particular to a programmable burn-in system.

為了確保電子元件(例如積體電路元件)到消費者手中的品質，在電子元件出廠前會經過燒機測試(burn/in)，傳統燒機測試手段係利用燒機板，請參考圖13與圖14，習知燒機板包含一電路板本體90，該電路板本體90設有兩電源連接器91以供分別電連接電源正極與電源負極，該電路板本體90的表面亦區分為複數測試區域，圖13係以四個測試區域900為例，每個測試區域900設有複數搖頭開關92、複數水泥電阻93、保險絲94、插針連接器95與指示燈96，一個搖頭開關92係對應電性串聯一個水泥電阻93。 In order to ensure the quality of electronic components (such as integrated circuit components) in the hands of consumers, electronic components will undergo a burn-in test (burn/in) before leaving the factory. The traditional burn-in test method uses a burn-in board. Please refer to Figure 13 and Fig. 14, the conventional burn-in board includes a circuit board body 90, the circuit board body 90 is provided with two power connectors 91 for electrically connecting the positive pole of the power supply and the negative pole of the power supply respectively, and the surface of the circuit board body 90 is also divided into plural tests Area, Figure 13 is an example of four test areas 900, each test area 900 is provided with a plurality of shaking head switches 92, a plurality of cement resistors 93, fuses 94, pin connectors 95 and indicator lights 96, one shaking head switch 92 is corresponding A cement resistor 93 is electrically connected in series.

進行燒機測試作業前，操作人員先將多個待測的電子元件(後稱待測元件97)的腳位(pin)逐一插設在每個測試區域900的插針連接器95，以及將電源連接器91接上一電源供應器。進行燒機測試作業時，針對每個測試區域900的待測元件97，操作人員必須手動撥動搖頭開關92以調整該待測元件97的負載量，並觀察該指示燈96的燈號(點亮或熄滅)以檢查待測元件97是否能輸出電壓。 Before carrying out the burn-in test operation, the operator first inserts the pins (pins) of a plurality of electronic components to be tested (hereinafter referred to as the components to be tested 97 ) in the pin connectors 95 of each test area 900 one by one, and inserts the The power connector 91 is connected to a power supply. When carrying out the burn-in test operation, for the DUT 97 in each test area 900, the operator must manually toggle the rocker switch 92 to adjust the load of the DUT 97, and observe the light signal of the indicator light 96 (dot on or off) to check whether the DUT 97 can output voltage.

然而，在進行測試時，電能通過水泥電阻93而轉為熱能，因此水泥電阻93的表面將出現高溫，又該等水泥電阻93是外露於環境中，導致操作人員恐誤觸發燙的水泥電阻93而增加燙傷風險。 However, during the test, electric energy is converted into heat energy through the cement resistor 93, so high temperature will appear on the surface of the cement resistor 93, and these cement resistors 93 are exposed to the environment, causing the operator to trigger the hot cement resistor 93 by mistake. and increase the risk of burns.

另從管理的角度來看，不同系列之待測元件97之間的用途、特性或功能彼此不同，故其所需測試的負載量也彼此不同，例如有些待測元件97所需測試的負載量並非市面上通用型電阻值，故為了滿足不同元件的測試需 求，廠商需針對每一種系列之待測元件97客製化訂製水泥電阻93。此外，操作人員還需將購入的水泥電阻93逐個組裝並焊接於電路板本體90，而除了水泥電阻93以外，還需組裝及焊接搖頭開關92與保險絲94…等電子零件，導致一塊燒機板的整體加工成本高，且不易精簡化。 In addition, from a management point of view, different series of DUTs 97 have different purposes, characteristics or functions, so the required test loads are also different. For example, some DUTs 97 require different loads. It is not a universal resistance value on the market, so in order to meet the test needs of different components Therefore, manufacturers need to customize cement resistors 93 for each series of DUTs 97 . In addition, the operator also needs to assemble and weld the purchased cement resistors 93 to the circuit board body 90 one by one. In addition to the cement resistors 93, electronic components such as the toggle switch 92 and the fuse 94 need to be assembled and welded, resulting in a burned-out board. The overall processing cost is high, and it is not easy to simplify.

另從倉儲的角度來看，一塊燒機板中除了包含待測元件97，燒機板的大部分區域被水泥電阻93與其他電子零件所佔據，導致燒機板整體面積的可縮減程度有限，又當待測元件97的數量多且系列多元，廠商需製造對應的燒機板，導致燒機板可能多達上百片，故廠商需提供相對應的空間環境才能存放該些燒機板，倉儲成本亦難降低。此外，水泥電阻93的重量比一般色碼電阻元件更重，導致燒機板的輕量化程度有限，當傳統以人力搬運燒機板時，操作人員甚至需搬運多片堆疊的燒機板，亦造成操作人員體力上的負擔。 In addition, from the perspective of storage, in addition to the component to be tested 97 in a burn-in board, most of the area of the burn-in board is occupied by cement resistors 93 and other electronic components, resulting in a limited reduction in the overall area of the burn-in board. And when the number of components 97 to be tested is large and the series is diverse, the manufacturer needs to manufacture corresponding burn-in boards, resulting in hundreds of burn-in boards, so the manufacturer needs to provide a corresponding space environment to store these burn-in boards. Storage costs are also difficult to reduce. In addition, the weight of the cement resistor 93 is heavier than that of ordinary color-coded resistor elements, which leads to a limited degree of lightness of the burn-in board. When the burn-in board is traditionally carried by manpower, the operator even needs to carry multiple stacked burn-in boards. Causing a physical burden on the operator.

有鑒於此，本發明的主要目的是提供一種可程式化燒機系統，以期克服利用傳統燒機板進行燒機測試的缺點，包含(1)水泥電阻發燙易導致操作人員燙傷的缺點；(2)客製化訂製水泥電阻與加工成本高的缺點；(3)傳統燒機板的倉儲成本難降低的缺點；以及(4)操作人員搬運傳統燒機板導致體力負擔的缺點以期克服前述缺點。 In view of this, the main purpose of the present invention is to provide a programmable burn-in system, in order to overcome the shortcomings of using the traditional burn-in board for burn-in testing, including (1) the shortcoming that the cement resistance is hot and easily causes burns to the operator; 2) The disadvantages of customized cement resistance and high processing costs; (3) The disadvantages of the storage cost of traditional burner boards are difficult to reduce; and (4) The disadvantages of physical burden caused by operators carrying traditional burner boards in order to overcome the aforementioned shortcoming.

本發明可程式化燒機系統包含：一電子負載裝置，具有複數電子負載群組，各該電子負載群組包含複數電子負載單元；一燒機板，其表面具有複數負載區域，各該負載區域設有複數測試電源接點與複數負載接點，各該負載區域的該複數負載接點分別電連接各該電子負載群組的該複數電子負載單元； 至少一轉接座，可拆組的設置在該燒機板，該至少一轉接座設有至少一元件連接器，該至少一元件連接器電連接該燒機板之負載區域的測試電源接點與負載接點；一電源供應器，電連接該燒機板之負載區域的測試電源接點；一人機介面裝置；以及一主控制器，電連接該電子負載裝置、該燒機板、該電源供應器與該人機介面裝置，該主控制器控制該電源供應器輸出測試電源、控制該電子負載裝置的負載特性，以及從該燒機板的負載接點和該電子負載裝置接收及儲存量測數據。 The programmable burn-in system of the present invention includes: an electronic load device with a plurality of electronic load groups, each of which includes a plurality of electronic load units; a burn-in board, with a plurality of load areas on its surface, each of the load areas A plurality of test power contacts and a plurality of load contacts are provided, and the plurality of load contacts in each load area are respectively electrically connected to the plurality of electronic load units in each of the electronic load groups; At least one adapter seat is detachably arranged on the burn-in board, and the at least one adapter base is provided with at least one component connector, and the at least one component connector is electrically connected to the test power connection in the load area of the burn-in board point and load contact; a power supply, electrically connected to the test power contact of the load area of the burner board; a man-machine interface device; and a main controller, electrically connected to the electronic load device, the burner board, the The power supply and the man-machine interface device, the main controller controls the power supply to output test power, controls the load characteristics of the electronic load device, and receives and stores from the load contacts of the burn-in board and the electronic load device measurement data.

根據本發明的可程式化燒機系統，對於各種不同系列的待測元件而言，本發明中的硬體至少有電子負載裝置與燒機板是共用的，本發明並能實現自動化燒機測試的目的，和先前技術相比，本發明達成的功效包含： According to the programmable burn-in system of the present invention, for various series of components to be tested, at least the electronic load device and the burn-in board of the hardware in the present invention are shared, and the present invention can realize automatic burn-in test The purpose, compared with prior art, the effect that the present invention reaches comprises:

(1)、本發明採用的電子負載裝置可透過參數的設定而模擬出並展現出各種負載特性，因此本發明的電子負載裝置可取代傳統水泥電阻，由電子負載裝置提供各種負載量以供進行燒機測試，本發明不採用水泥電阻，自然避免傳統水泥電阻在測試時因發熱而導致人員意外燙傷的問題。 (1), the electronic load device adopted in the present invention can simulate and display various load characteristics through parameter setting, so the electronic load device of the present invention can replace the traditional cement resistance, and the electronic load device provides various loads for carrying out For the burn-in test, the present invention does not use cement resistors, which naturally avoids the problem of accidental burns caused by the heating of traditional cement resistors during testing.

(2)、該電子負載裝置能模擬出各種負載特性，要切換不同的負載特性時，本發明僅需依據測試需求，例如由操作人員在該人機介面裝置設定負載量即可，和先前技術相比，本發明不需如先前技術所述製造客製化訂製水泥電阻，亦不需組裝及焊接水泥電阻、擺頭開關…等電子零件，故本發明自然避免傳統燒機板之加工成本高的問題。 (2) The electronic load device can simulate various load characteristics. When switching different load characteristics, the present invention only needs to be based on the test requirements, for example, the operator can set the load on the man-machine interface device, and the prior art In comparison, the present invention does not need to manufacture customized cement resistors as described in the prior art, nor does it need to assemble and weld electronic components such as cement resistors, swing switches, etc., so the present invention naturally avoids the processing costs of traditional burn-in boards high question.

(3)、本發明的電子負載裝置取代傳統水泥電阻，本發明的轉接座主要供設置待測元件，本發明的燒機板是共用的，故和傳統燒機板相比，本發明可透過更小面積的轉接座設置與燒機板相同數量或更多的待測元件，亦即 本發明的轉接座的整體面積已大幅縮減，使得轉接座的倉儲成本相對減輕，換言之，在相同的空間中，可容納更多的轉接座，且轉接座亦更易擺放且更好整理，進而改善空間利用率。另一方面，本發明對於轉接座也比傳統燒機板更容易加工，且加工時間更短。 (3), the electronic load device of the present invention replaces the traditional cement resistance, the adapter seat of the present invention is mainly used for setting the components to be tested, and the burn-in board of the present invention is shared, so compared with the traditional burn-in board, the present invention can Set the same number or more DUTs as the burn-in board through a smaller-area adapter seat, that is, The overall area of the adapter seat of the present invention has been greatly reduced, so that the storage cost of the adapter seat is relatively reduced. In other words, in the same space, more adapter seats can be accommodated, and the adapter seats are also easier to place and more compact Easy to organize and improve space utilization. On the other hand, the present invention is also easier to process the adapter seat than the traditional burn-in board, and the processing time is shorter.

(4)、本發明的轉接座主要供設置待測元件，和傳統燒機板相比，本發明的轉接座不需設置先前技術所述的水泥電阻與擺頭開關，故本發明的轉接座的整體體積與重量已大幅減輕，讓操作人員更容易且更省力去搬運及拿取轉接座。 (4), the adapter seat of the present invention is mainly for setting the component to be measured, compared with the traditional burner board, the adapter seat of the present invention does not need to be provided with cement resistance and swing head switch described in the prior art, so the present invention The overall size and weight of the adapter has been greatly reduced, making it easier and less labor-intensive for operators to carry and pick up the adapter.

10:電子負載裝置 10: Electronic load device

11:電子負載群組 11: Electronic load group

12:電子負載單元 12: Electronic load unit

121:電源輸入端 121: Power input terminal

122:信號輸入端 122: signal input terminal

123:信號輸出端 123: signal output terminal

13:多工器 13: Multiplexer

14:類比/數位轉換器 14: Analog/Digital Converter

15:數位/類比轉換器 15:Digital/analog converter

16:通訊介面 16: Communication interface

17:微控制器 17: Microcontroller

20:燒機板 20: Burn-in board

21:負載區域 21:Load area

211:測試電源接點 211: Test power contacts

212:負載接點 212: Load contact

22:插針座 22: pin seat

30:轉接座 30: adapter seat

300:待測元件 300: component under test

301:針腳 301: Pin

31:元件連接器 31: Component connector

32:端子台 32:Terminal block

40:電源供應器 40: Power supply

41:市電電源 41: Mains power supply

50:人機介面裝置 50: Human-machine interface device

60:主控制器 60: Main controller

61:儲存裝置 61: storage device

62:I/O控制介面 62: I/O control interface

70:電子開關 70: Electronic switch

701:第一端 701: first end

702:第二端 702: second end

703:控制端 703: control terminal

71:手動安全開關 71: Manual safety switch

80:多通道量測模組 80: Multi-channel measurement module

81:多工器 81: multiplexer

810:資料選擇接點 810: data selection contact

82:信號放大器 82: Signal amplifier

83:類比/數位轉換器 83:Analog/digital converter

84:通訊介面 84: Communication interface

85:微控制器 85: microcontroller

100:機櫃 100: cabinet

101:櫃身 101: cabinet body

102:托盤 102: tray

103:前板體 103: Front plate body

104:裝配空間 104: Assembly space

105:滑軌 105: slide rail

90:電路板本體 90: circuit board body

900:測試區域 900: test area

91:電源連接器 91: Power connector

92:搖頭開關 92: Toggle switch

93:水泥電阻 93: cement resistance

94:保險絲 94: fuse

95:插針連接器 95: pin connector

96:指示燈 96: indicator light

97:待測元件 97: Components under test

Data Bus-1:第一資料匯流排 Data Bus-1: the first data bus

Data Bus-2:第二資料匯流排 Data Bus-2: the second data bus

M1:電流量測數據 M1: current measurement data

M2:電壓量測數據 M2: voltage measurement data

M3:信號 M3: signal

L:火線 L: FireWire

N:中性線 N: neutral wire

圖1：本發明可程式化燒機系統之實施例的整體系統方塊示意圖。 Fig. 1: The overall system block diagram of the embodiment of the programmable burn-in system of the present invention.

圖2：本發明可程式化燒機系統之實施例中，主控制器與電子負載裝置的方塊示意圖。 Figure 2: A schematic block diagram of the main controller and electronic load device in the embodiment of the programmable burn-in system of the present invention.

圖3：本發明可程式化燒機系統之實施例中，燒機板與電子負載裝置的連接方塊示意圖。 Fig. 3: In the embodiment of the programmable burn-in system of the present invention, the schematic diagram of the connection between the burn-in board and the electronic load device.

圖4：本發明可程式化燒機系統之實施例中，多通道量測模組與主控制器的方塊示意圖。 Fig. 4: A schematic block diagram of the multi-channel measurement module and the main controller in the embodiment of the programmable burn-in system of the present invention.

圖5：本發明可程式化燒機系統之實施例的一使用情境示意圖。 Fig. 5: A schematic diagram of a usage scenario of an embodiment of the programmable burn-in system of the present invention.

圖6：對應於圖5的電路示意圖。 Figure 6: Circuit diagram corresponding to Figure 5.

圖7：本發明可程式化燒機系統之實施例的另一使用情境示意圖。 Fig. 7: A schematic diagram of another usage scenario of the embodiment of the programmable burn-in system of the present invention.

圖8：對應於圖7的電路示意圖。 Figure 8: Circuit diagram corresponding to Figure 7.

圖9：本發明可程式化燒機系統之實施例的再一使用情境示意圖。 Fig. 9: A schematic diagram of yet another usage scenario of the embodiment of the programmable burn-in system of the present invention.

圖10：本發明可程式化燒機系統之實施例的再一使用情境示意圖。 FIG. 10 : A schematic diagram of another usage scenario of the embodiment of the programmable burn-in system of the present invention.

圖11：本發明可程式化燒機系統之機櫃的外觀示意圖。 Figure 11: A schematic diagram of the appearance of the cabinet of the programmable burn-in system of the present invention.

圖12：本發明的機櫃中，其中之一托盤上的燒機板、轉接座與待測元件的示意圖。 Fig. 12: A schematic diagram of the burn-in board, the adapter seat and the components to be tested on one of the trays in the cabinet of the present invention.

圖13：傳統燒機板的俯視平面示意圖。 Figure 13: A top plan view of a traditional burn-in board.

圖14：傳統燒機板安裝待測元件的側視平面示意圖。 Figure 14: A schematic side view of a conventional burn-in board with a component under test installed.

請參考圖1，本發明可程式化燒機系統的實施例包含一電子負載裝置10、至少一燒機板20、至少一轉接座30、至少一電源供應器40、一人機介面(Human-Machine Interface,HMI)裝置50與一主控制器60，或可進一步包含至少一電子開關70及/或一手動安全開關71。 Please refer to FIG. 1 , an embodiment of the programmable burn-in system of the present invention includes an electronic load device 10, at least one burn-in board 20, at least one adapter 30, at least one power supply 40, and a human-machine interface (Human-Machine Interface). The Machine Interface (HMI) device 50 and a main controller 60 may further include at least one electronic switch 70 and/or a manual safety switch 71 .

請參考圖2，該電子負載裝置10具有複數電子負載群組11，各該電子負載群組11包含複數電子負載單元(Electrical Load Unit,ELU)12，一般而言，各該電子負載單元12基本上是由電晶體(例如MOSFET)組成的電路，透過控制電晶體的導通/截止以達到模擬電阻、電感、電容、電壓、電流、短路、開路、滿載、輕載、重載、空載、穩態、暫態...等負載電性特徵，亦即各該電子負載單元12可接收不同的參數設定而模擬出不同的負載電性特性。是以，每個電子負載單元12具一定的加載能力，該複數電子負載單元12的加載能力可彼此相同、彼此不同或部分相同而部分不同，所述加載能力是指各該電子負載單元12所模擬出的負載量的功率上限，例如每個電子負載單元12的加載能力(模擬出的負載量)可為25瓦特(W)。為簡化說明，圖2所示的各電子負載群組11具有三個電子負載單元12，也就是說，每個電子負載群組11的加載能力可為75瓦特(W)。 Please refer to FIG. 2, the electronic load device 10 has a plurality of electronic load groups 11, and each of the electronic load groups 11 includes a plurality of electronic load units (Electrical Load Unit, ELU) 12, generally speaking, each of the electronic load units 12 is basically The above is a circuit composed of transistors (such as MOSFETs). By controlling the on/off of the transistors, it can simulate resistance, inductance, capacitance, voltage, current, short circuit, open circuit, full load, light load, heavy load, no load, and steady state. state, transient state, etc., that is, each of the electronic load units 12 can receive different parameter settings to simulate different load electrical characteristics. Therefore, each electronic load unit 12 has a certain loading capacity, and the loading capacity of the plurality of electronic load units 12 may be the same, different from each other, or partly the same and partly different. The power upper limit of the simulated load, for example, the load capacity (simulated load) of each electronic load unit 12 may be 25 watts (W). To simplify the description, each electronic load group 11 shown in FIG. 2 has three electronic load units 12 , that is, the loading capacity of each electronic load group 11 may be 75 watts (W).

請參考圖3與圖12，該燒機板20基本上可由印刷電路板(PCB)組成，該燒機板20的表面包含一頂面與一底面，該燒機板20的頂面區分為包含複數負載區域21，該複數負載區域21的位置彼此分開且可為矩陣式排列，其中， 該複數負載區域21的數量可等於該複數電子負載群組11的數量，且可為一對一的對應關係(即：一個負載區域21對應一個電子負載群組11)。各該負載區域21設有複數測試電源接點211與複數負載接點212，各該負載區域21的測試電源接點211供接收測試電源，所述測試電源可為交流電源或直流電源。在彼此對應的負載區域21與電子負載群組11之間，該負載區域21的該複數負載接點212分別電連接該電子負載群組11的該複數電子負載單元12，亦即一個負載接點212電連接一個電子負載單元12，各該負載接點212與各該電子負載單元12也可為一對一的連接關係。 Please refer to FIG. 3 and FIG. 12 , the burner board 20 can basically be composed of a printed circuit board (PCB), the surface of the burner board 20 includes a top surface and a bottom surface, and the top surface of the burner board 20 is divided into two parts: The plurality of load areas 21, the positions of the multiple load areas 21 are separated from each other and can be arranged in a matrix, wherein, The number of the plurality of load areas 21 may be equal to the number of the plurality of electronic load groups 11 , and may be in a one-to-one correspondence (that is, one load area 21 corresponds to one electronic load group 11 ). Each load area 21 is provided with a plurality of test power contacts 211 and a plurality of load contacts 212. The test power contacts 211 of each load area 21 are used to receive test power, and the test power can be AC power or DC power. Between the corresponding load area 21 and the electronic load group 11, the plurality of load contacts 212 of the load area 21 are respectively electrically connected to the plurality of electronic load units 12 of the electronic load group 11, that is, a load contact 212 is electrically connected to one electronic load unit 12 , and each of the load contacts 212 and each of the electronic load units 12 may also be in a one-to-one connection relationship.

該至少一轉接座30可拆組的設置在該燒機板20，換言之，該燒機板20可供設置一個或多個轉接座30。該轉接座30設有至少一元件連接器31(如圖5與圖7所示)，該元件連接器31供連接一待測元件300，該待測元件300可為積體電路元件(Integrated Circuit,IC)，例如直流/直流電源轉換器或交流/直流電源轉換器的IC產品。對於每個轉接座30設置在該燒機板20時，其元件連接器31透過轉接座30上的電路布局(PCB layout)電連接該燒機板20之負載區域21的測試電源接點211與負載接點212。 The at least one adapter base 30 is detachably disposed on the burn-in board 20 , in other words, the burn-in board 20 can be provided with one or more adapter bases 30 . The adapter base 30 is provided with at least one component connector 31 (as shown in FIGS. 5 and 7 ), and the component connector 31 is used for connecting a component under test 300, which can be an integrated circuit component (Integrated Circuit) Circuit, IC), such as IC products of DC/DC power converters or AC/DC power converters. When each transfer base 30 is arranged on the burn-in board 20, its component connector 31 is electrically connected to the test power contact of the load area 21 of the burn-in board 20 through the circuit layout (PCB layout) on the transfer base 30 211 and load contact 212.

舉例來說，請參考圖12，該轉接座30基本上可由印刷電路板(PCB)組成，該轉接座30上的元件連接器31可為複數端子柱或導電彈性夾片，其中，各該端子柱為具導電性的中空圓柱體，各該端子柱或導電彈性夾片豎立在該轉接座30的頂面，該複數端子柱的位置係對應該待測元件300的針腳301(pin)位置；該轉接座30與該燒機板20的結合方式可透過插針(pin)與端子台，例如可在該轉接座30的底面設置電連接該元件連接器31的端子台32，在該燒機板20的每個負載區域21的頂面設置有電連接其測試電源接點211與複數負載接點212的插針座22，該轉接座30上的端子台32可拆組的連接該燒機板20上的插針座22，使插針座22的插針能***端子台32的插孔。是以，透過上述連接架 構，當該轉接座30設置在該燒機板20時，該轉接座30的元件連接器31即可電連接該燒機板20之負載區域21的測試電源接點211與負載接點212。又當該待測元件300設置在該轉接座30的元件連接器31時，該待測元件300能透過該轉接座30而電連接該燒機板20之負載區域21的測試電源接點211與負載接點212。 For example, referring to FIG. 12 , the adapter base 30 can basically be composed of a printed circuit board (PCB), and the component connectors 31 on the adapter base 30 can be a plurality of terminal columns or conductive elastic clips, wherein each The terminal posts are conductive hollow cylinders, and each of the terminal posts or conductive elastic clips is erected on the top surface of the adapter base 30, and the positions of the plurality of terminal posts are corresponding to the pins 301 (pins) of the DUT 300. ) position; the combination of the adapter base 30 and the burner board 20 can be through the pin (pin) and the terminal block, for example, a terminal block 32 electrically connected to the component connector 31 can be provided on the bottom surface of the adapter base 30 , the top surface of each load area 21 of the burn-in board 20 is provided with a pin seat 22 electrically connected to its test power contact 211 and a plurality of load contacts 212, and the terminal block 32 on the adapter seat 30 is detachable Connect the pin base 22 on the burner board 20 in groups so that the pins of the pin base 22 can be inserted into the jacks of the terminal block 32 . Yes, through the above connector structure, when the adapter base 30 is set on the burn-in board 20, the component connector 31 of the adapter base 30 can be electrically connected to the test power contact 211 and the load contact of the load area 21 of the burn-in board 20 212. And when the device under test 300 is arranged on the component connector 31 of the adapter base 30, the device under test 300 can be electrically connected to the test power contact of the load area 21 of the burner board 20 through the adapter base 30 211 and load contact 212.

請參考圖1，該電源供應器40的電源輸入端供電連接市電電源41，另請參考圖3，該電源供應器40的電源輸出端電連接該燒機板20之該複數負載區域21的測試電源接點211，該電源供應器40可受控將該市電電源41轉換為所述測試電源給測試電源接點211。藉此，當該待測元件300設置在該轉接座30的元件連接器31時，該待測元件300可接收所述測試電源並據以接受測試。其中，圖1所示的電源供應器40係以電連接一個燒機板20為例，於其他實施例中，該電源供應器40亦可電連接複數燒機板以提供測試電源給複數燒機板。 Please refer to FIG. 1, the power input terminal of the power supply 40 is connected to the mains power supply 41 for power supply, please refer to FIG. The power supply contact 211 , the power supply 40 can be controlled to convert the mains power 41 into the test power supply to the test power contact 211 . Thereby, when the DUT 300 is disposed on the component connector 31 of the adapter 30 , the DUT 300 can receive the test power and be tested accordingly. Wherein, the power supply 40 shown in FIG. 1 is an example of electrically connecting one burn-in board 20. In other embodiments, the power supply 40 can also be electrically connected to multiple burn-in boards to provide test power for multiple burn-in boards. plate.

該人機介面裝置50可為觸控顯示裝置，但不以此為限，該人機介面裝置50可顯示資訊供操作人員觀看，以及接收操作人員所輸入的資料，操作人員的輸入資料例如可為程式碼、啟動指令及/或測試參數(例如負載、測試電壓或測試電流)。進一步而言，在燒機測試的進行中，操作人員亦可透過該人機介面裝置50動態調整該電子負載裝置10的負載量與測試時程，例如負載量不斷的變化，或滿載燒機4小時再空載燒機1小時，或產品連續開機關機...等。 The man-machine interface device 50 can be a touch display device, but not limited thereto. The man-machine interface device 50 can display information for the operator to watch, and receive data input by the operator. The input data of the operator can be, for example, are codes, start-up commands and/or test parameters (such as load, test voltage or test current). Furthermore, during the burn-in test, the operator can also dynamically adjust the load and test schedule of the electronic load device 10 through the man-machine interface device 50, such as the load is constantly changing, or the burn-in 4 is fully loaded. Hours and then no-load burn-in for 1 hour, or the product is turned on and off continuously...etc.

該主控制器60可包含一處理核心以負責程式執行，該處理核心可例如為中央處理器(CPU)或數位信號處理器(DSP)，但不以此為限。該主控制器是可程式化的(programmable)，透過程式的編輯而能據以執行一測試排程。該主控制器60電連接該電子負載裝置10、該燒機板20、該電源供應器40與該人機介面裝置50。該主控制器60可控制該人機介面裝置50顯示資訊及從該人機介面裝置50接收資料及指令。該主控制器60能控制該電源供應器40輸出所述測試電源，舉例來說，當該主控制器60執行該測試排程時，該主控制器60可控制該 電源供應器40動態地輸出不同大小的測試電源給該燒機板20，亦可控制該電源供應器40輸出固定大小的測試電源給該燒機板20。該主控制器60能控制該電子負載裝置10的負載特性，舉例來說，當該主控制器60執行該測試排程時，該主控制器60可控制該電子負載裝置10動態地改變負載特性，亦可控制該電子負載裝置10保持固定的負載特性。該主控制器60能從該燒機板20的各負載接點212接收及儲存量測數據，舉例而言，該主控制器60可將所述量測數據儲存在一儲存裝置61，該儲存裝置61例如可為傳統硬碟(HDD)、固態硬碟(SSD)、記憶體或記憶卡，但不以此為限。 The main controller 60 may include a processing core responsible for program execution. The processing core may be, for example, a central processing unit (CPU) or a digital signal processor (DSP), but not limited thereto. The main controller is programmable, and can execute a test schedule through program editing. The main controller 60 is electrically connected to the electronic load device 10 , the burn-in board 20 , the power supply 40 and the man-machine interface device 50 . The main controller 60 can control the human-machine interface device 50 to display information and receive data and instructions from the human-machine interface device 50 . The main controller 60 can control the power supply 40 to output the test power, for example, when the main controller 60 executes the test schedule, the main controller 60 can control the The power supply 40 dynamically outputs test power of different sizes to the burn-in board 20 , and can also control the power supply 40 to output a fixed size of test power to the burn-in board 20 . The main controller 60 can control the load characteristics of the electronic load device 10. For example, when the main controller 60 executes the test schedule, the main controller 60 can control the electronic load device 10 to dynamically change the load characteristics. , the electronic load device 10 can also be controlled to maintain a constant load characteristic. The main controller 60 can receive and store measurement data from each load contact 212 of the burn-in board 20, for example, the main controller 60 can store the measurement data in a storage device 61, the storage The device 61 can be, for example, a conventional hard disk (HDD), solid state disk (SSD), memory or memory card, but not limited thereto.

請參考圖1，本發明為了對該電源供應器40實施開關操作，可更包含一電子開關70及/或一手動安全開關71，圖1為同時包含該電子開關70與該手動安全開關71的實施例。該電子開關70可為固態繼電器(Solid State Relay,SSR)，其具有一第一端701、一第二端702與一控制端703，該電子開關70的第一端701供電連接該市電電源41，該電子開關70的第二端702供電連接該電源供應器40的電源輸入端，該電子開關70的控制端703供電連接該主控制器60，藉此，該電子開關70能受控於該主控制器60，亦即該主控制器60可控制該電子開關70為導通或開路，當該電子開關70為導通狀態，該電源供應器40可接收該市電電源41並據以轉換為所述測試電源而輸出，相對的，當該電子開關70為開路狀態，該電源供應器40未收到市電電源41而停止輸出所述測試電源。該手動安全開關71可為(但不限於)旋鈕式切換開關，該手動安全開關71電連接在該市電電源41與該電源供應器40的電源輸入端之間，該手動安全開關71供使用者手動導通或切斷該電源供應器40與該市電電源41的連接。如圖1所示，本發明的實施例同時包含該電子開關70與該手動安全開關71，該手動安全開關71與該電子開關70串聯，故能兼具手動與自動控制。另一方面，如圖1所示的電子開關70有數個，以分別對應連接數個電源供應器40，各該電子開關70的控制端703可 通過一第一資料匯流排(Data Bus-1)電連接該主控制器60；具體而言，該主控制器60可透過輸入/輸出(I/O)控制介面62電連接該第一資料匯流排(Data Bus-1)。 Please refer to FIG. 1 , in order to implement switching operations on the power supply 40, the present invention may further include an electronic switch 70 and/or a manual safety switch 71. FIG. Example. The electronic switch 70 can be a solid state relay (Solid State Relay, SSR), which has a first terminal 701, a second terminal 702 and a control terminal 703, and the first terminal 701 of the electronic switch 70 is connected to the mains power supply 41 for power supply. , the second end 702 of the electronic switch 70 is connected to the power input end of the power supply 40, and the control end 703 of the electronic switch 70 is connected to the main controller 60, whereby the electronic switch 70 can be controlled by the The main controller 60, that is, the main controller 60 can control the electronic switch 70 to be on or open. When the electronic switch 70 is in the on state, the power supply 40 can receive the commercial power 41 and convert it to the The test power is output. On the contrary, when the electronic switch 70 is in an open state, the power supply 40 does not receive the commercial power 41 and stops outputting the test power. The manual safety switch 71 can be (but not limited to) a rotary switch, the manual safety switch 71 is electrically connected between the mains power supply 41 and the power input end of the power supply 40, and the manual safety switch 71 is provided for the user to Manually turn on or cut off the connection between the power supply 40 and the mains power supply 41 . As shown in FIG. 1 , the embodiment of the present invention includes both the electronic switch 70 and the manual safety switch 71 , and the manual safety switch 71 is connected in series with the electronic switch 70 , so manual and automatic control can be performed. On the other hand, there are several electronic switches 70 as shown in FIG. The main controller 60 is electrically connected through a first data bus (Data Bus-1); specifically, the main controller 60 can be electrically connected to the first data bus through an input/output (I/O) control interface 62 Row (Data Bus-1).

請參考圖2與圖3，本發明的實施例中，各該電子負載單元12包含一電源輸入端121、一信號輸入端122與一信號輸出端123，由該電源輸入端121電連接該燒機板20之各該負載區域21的負載接點212。該電子負載裝置10包含複數多工器13、複數類比/數位轉換器(ADC)14、複數數位/類比轉換器(DAC)15、一通訊介面16與一微控制器17，該複數多工器13分別對應各該電子負載群組11中的該複數電子負載單元12，該複數類比/數位轉換器14分別對應各該電子負載群組11中的該複數電子負載單元12，該複數數位/類比轉換器15分別對應各該電子負載群組11中的該複數電子負載單元12；故以圖2為例，每個電子負載群組11具有三個電子負載單元12，對應的，所述多工器13、類比/數位轉換器14與數位/類比轉換器15的數量亦為三個。在對應的各該多工器13、各該類比/數位轉換器14與各該電子負載單元12之中，各該多工器13的輸入端電連接該複數電子負載單元12的信號輸出端123，各該類比/數位轉換器14的類比輸入端電連接該多工器13的輸出端。在對應的各該數位/類比轉換器15與各該電子負載單元12之中，各該數位/類比轉換器15的類比輸出端電連接各該電子負載單元12的信號輸入端122。該通訊介面16電連接該主控制器60，其中，該電子負載裝置10的通訊介面16可通過一第二資料匯流排(Data Bus-2)電連接該主控制器60，以進行雙向資料傳輸。該微控制器17電連接該通訊介面16、該複數多工器13的資料選擇接點(圖中未示)、該複數類比/數位轉換器14的數位輸出端與該複數數位/類比轉換器15的數位輸入端；該微控制器17根據該主控制器60的控制指令控制該複數電子負載單元12的負載特性。 Please refer to FIG. 2 and FIG. 3, in the embodiment of the present invention, each of the electronic load units 12 includes a power input terminal 121, a signal input terminal 122 and a signal output terminal 123, and the power input terminal 121 is electrically connected to the burner. The load contact 212 of each load region 21 of the main board 20 . The electronic load device 10 includes a complex multiplexer 13, a complex analog/digital converter (ADC) 14, a complex digital/analog converter (DAC) 15, a communication interface 16 and a microcontroller 17, the complex multiplexer 13 respectively correspond to the plurality of electronic load units 12 in each of the electronic load groups 11, the complex analog/digital converters 14 respectively correspond to the plurality of electronic load units 12 in each of the electronic load groups 11, the complex digital/analog The converters 15 are respectively corresponding to the plurality of electronic load units 12 in each of the electronic load groups 11; therefore, taking FIG. 2 as an example, each electronic load group 11 has three electronic load units 12. Correspondingly, the multiplex The number of the device 13, the analog/digital converter 14 and the digital/analog converter 15 is also three. Among the corresponding multiplexers 13, the analog/digital converters 14 and the electronic load units 12, the input terminals of each multiplexer 13 are electrically connected to the signal output terminals 123 of the plurality of electronic load units 12. , the analog input end of each analog/digital converter 14 is electrically connected to the output end of the multiplexer 13 . Among the corresponding digital/analog converters 15 and the electronic load units 12 , the analog output terminals of the digital/analog converters 15 are electrically connected to the signal input terminals 122 of the electronic load units 12 . The communication interface 16 is electrically connected to the main controller 60, wherein the communication interface 16 of the electronic load device 10 can be electrically connected to the main controller 60 through a second data bus (Data Bus-2) for bidirectional data transmission. . The microcontroller 17 is electrically connected to the communication interface 16, the data selection contact (not shown in the figure) of the complex multiplexer 13, the digital output end of the complex analog/digital converter 14 and the complex digital/analog converter 15; the microcontroller 17 controls the load characteristics of the complex electronic load unit 12 according to the control instruction of the main controller 60.

對於每個電子負載單元12來說，透過其信號輸出端123回饋工作當下的電流訊號給該微控制器17，因為該燒機板20上之各該負載接點212與各 該電子負載單元12的電源輸入端121對應連接，故各該電子負載單元12輸出的電流訊號能反映該燒機板20上之待測元件300的輸出電流。該微控制器17接收(收集)該複數電子負載單元12的電流訊號後，再彙整成資料封包並傳送至該主控制器60，以供該主控制器16得到待測元件300的電流量測數據M1。其中，該主控制器60可透過輪詢(Polling)方式與該複數電子負載裝置10的微控制器17進行溝通，由各該微控制器17透過該多工器13實施該複數電子負載單元12的逐一切換，進而逐一接收來自每個電子負載單元12的電流量測數據M1。因為採用輪詢方式，故該主控制器60能根據電流量測數據M1的排序判斷電流量測數據M1是來自哪個電子負載裝置10、電子負載群組11及電子負載單元12。 For each electronic load unit 12, it feeds back the working current signal to the microcontroller 17 through its signal output terminal 123, because each of the load contacts 212 on the burn-in board 20 and each The power input terminals 121 of the electronic load units 12 are correspondingly connected, so the current signal output by each electronic load unit 12 can reflect the output current of the DUT 300 on the burn-in board 20 . After the microcontroller 17 receives (collects) the current signals of the plurality of electronic load units 12, they are assembled into data packets and sent to the main controller 60, so that the main controller 16 can obtain the current measurement of the DUT 300 Data M1. Wherein, the main controller 60 can communicate with the microcontrollers 17 of the plurality of electronic load devices 10 through polling, and each of the microcontrollers 17 implements the plurality of electronic load units 12 through the multiplexer 13. Switch one by one, and then receive the current measurement data M1 from each electronic load unit 12 one by one. Because the polling method is adopted, the main controller 60 can determine which electronic load device 10 , electronic load group 11 and electronic load unit 12 the current measurement data M1 comes from according to the sorting of the current measurement data M1 .

對於每個電源供應器40、每個電子負載裝置10與每個燒機板20的連接結構，請參考圖3，該燒機板20的該複數負載區域21分別對應該電子負載裝置10個該複數電子負載群組11，且在彼此對應的負載區域21和電子負載群組11之間，該負載區域21的各該負載接點212與各該電子負載單元12的電源輸入端121為一對一的連接結構，故以圖3為例，每個電子負載群組11具有三個電子負載單元12，對應的，該燒機板20的每個負載區域21設有包含三個負載接點212，且為一對一的電連接結構。該電源供應器40的電源輸出端電連接該複數負載區域21的測試電源接點211，以提供測試電源給該複數負載區域21，另一方面，因為該主控制器60電連接該電源供應器40，故該主控制器60能控制該電源供應器40輸出不同大小的測試電源。 For the connection structure of each power supply 40, each electronic load device 10 and each burn-in board 20, please refer to FIG. A plurality of electronic load groups 11, and between the load areas 21 corresponding to each other and the electronic load groups 11, each of the load contacts 212 of the load areas 21 and the power input ends 121 of each of the electronic load units 12 are a pair One connection structure, so taking FIG. 3 as an example, each electronic load group 11 has three electronic load units 12, correspondingly, each load area 21 of the burn-in board 20 is provided with three load contacts 212 , and is a one-to-one electrical connection structure. The power output end of the power supply 40 is electrically connected to the test power contact 211 of the plurality of load areas 21 to provide test power to the plurality of load areas 21. On the other hand, because the main controller 60 is electrically connected to the power supply. 40, so the main controller 60 can control the power supply 40 to output test power of different sizes.

對於該主控制器60與該燒機板20之間的連接結構，請參考圖1與圖4，本發明可包含至少一多通道量測模組80，也就是說，該主控制器60通過該多通道量測模組80而電連接該燒機板20的該複數負載區域21的負載接點212，其目的是要量測各該負載區域21上之待測元件300的某一腳位的電壓，藉此，該主控制器60能接收從所述負載接點212輸出的信號並儲存為電壓量測數 據M2。本發明的實施例中，該多通道量測模組80是要量測各該負載區域21上之待測元件300的輸出腳位的輸出電壓，但不以此為限。 For the connection structure between the main controller 60 and the burn-in board 20, please refer to FIG. 1 and FIG. The multi-channel measurement module 80 is electrically connected to the load contacts 212 of the plurality of load areas 21 of the burn-in board 20, and its purpose is to measure a certain pin position of the DUT 300 on each of the load areas 21 voltage, whereby the main controller 60 can receive the signal output from the load contact 212 and store it as a voltage measurement value According to M2. In the embodiment of the present invention, the multi-channel measurement module 80 is to measure the output voltage of the output pins of the DUT 300 on each of the load areas 21 , but not limited thereto.

該多通道量測模組80包含一多工器81、一信號放大器82、一類比/數位轉換器(ADC)83、一通訊介面84與一微控制器85，該多工器81的複數輸入端分別電連接該燒機板20的該複數負載區域21的該複數負載接點212，該信號放大器82的輸入端電連接該多工器81的輸出端，該類比/數位轉換器83的類比輸入端電連接該信號放大器82的輸出端，該通訊介面84電連接該主控制器60，其中，該多通道量測模組80的通訊介面84可通過該第二資料匯流排(Data Bus-2)電連接該主控制器60，以進行雙向資料傳輸。該微控制器85電連接該通訊介面84、該多工器81的資料選擇接點810以及該類比/數位轉換器83的數位輸出端；該微控制器85根據該主控制器60的控制指令，透過該多工器81而從該燒機板20的該複數負載區域21的負載接點212逐一接收信號M3，所述信號M3通過信號放大器82與類比/數位轉換器83成為數位信號以供該微控制器85轉換為所述電壓量測數據M2，該微控制器85透過該通訊介面84將所述電壓量測數據M2傳送到該主控制器60以進行儲存，其中，該主控制器60可透過輪詢(Polling)方式與該複數多通道量測模組80的微控制器85進行溝通，由該微控制器85透過該多工器81實施各通道的逐一切換，進而逐一接收來自每個負載接點212的信號M3。因為採用輪詢方式，故該主控制器60能根據電壓量測數據M2的排序判斷電壓量測數據M2是來自哪個燒機板20，以及根據信號M3的排序判斷信號M3是來自哪個負載接點212。 The multi-channel measurement module 80 includes a multiplexer 81, a signal amplifier 82, an analog/digital converter (ADC) 83, a communication interface 84, and a microcontroller 85. The complex input of the multiplexer 81 terminals are respectively electrically connected to the complex load contacts 212 of the complex load areas 21 of the burn-in board 20, the input end of the signal amplifier 82 is electrically connected to the output end of the multiplexer 81, and the analog to digital converter 83 The input end is electrically connected to the output end of the signal amplifier 82, and the communication interface 84 is electrically connected to the main controller 60, wherein the communication interface 84 of the multi-channel measurement module 80 can pass through the second data bus (Data Bus- 2) Electrically connect to the main controller 60 for two-way data transmission. The microcontroller 85 is electrically connected to the communication interface 84, the data selection contact 810 of the multiplexer 81 and the digital output of the analog/digital converter 83; Through the multiplexer 81, the load contacts 212 of the multiple load areas 21 of the burn-in board 20 receive the signal M3 one by one, and the signal M3 becomes a digital signal through the signal amplifier 82 and the analog/digital converter 83 for The microcontroller 85 converts the voltage measurement data M2, and the microcontroller 85 transmits the voltage measurement data M2 to the main controller 60 through the communication interface 84 for storage, wherein the main controller 60 can communicate with the microcontroller 85 of the complex multi-channel measurement module 80 through polling (Polling), and the microcontroller 85 implements switching of each channel one by one through the multiplexer 81, and then receives signals from Signal M3 for each load contact 212 . Because the polling method is adopted, the main controller 60 can determine which burn-in board 20 the voltage measurement data M2 comes from according to the order of the voltage measurement data M2, and which load contact the signal M3 comes from according to the order of the signal M3. 212.

綜合圖2至圖4所示，該多通道量測模組80的「通道(channel)」即對應該燒機板20的該複數負載區域21的負載接點212，通道編號可以Chij示之，其中，Ch代表通道，i代表對應之電子負載群組11的編號，j代表各該電子負載群組11中的電子負載單元12的編號，故如各圖所示，該主控制器60從Ch1.1 取得的量測數據是對應於一第一電子負載群組的一第一電子負載單元，從Ch1.2取得的量測數據是對應於該第一電子負載群組的一第二電子負載單元，從Ch2.1取得的量測數據是對應於一第二電子負載群組的一第一電子負載單元，依此類推。 As shown in FIGS. 2 to 4, the “channel” of the multi-channel measurement module 80 corresponds to the load contact 212 of the plurality of load areas 21 of the burn-in board 20, and the channel number can be indicated by Chij. Wherein, Ch represents the channel, i represents the serial number of the corresponding electronic load group 11, and j represents the serial number of the electronic load unit 12 in each electronic load group 11, so as shown in each figure, the main controller 60 starts from Ch1 .1 The obtained measurement data is corresponding to a first electronic load unit of a first electronic load group, and the measurement data obtained from Ch1.2 is corresponding to a second electronic load unit of the first electronic load group, The measurement data obtained from Ch2.1 is corresponding to a first electronic load unit of a second electronic load group, and so on.

請參考圖1，電源供應器40與電子負載裝置10的數量有數個且同時運作，也就是說，設置在每個轉接座30的待測元件300是同時受測，當該主控制器60執行該測試排程時，該主控制器60可透過輪詢(Polling)方式與複數個多通道量測模組80的微控制器85和複數個電子負載裝置10的微控制器17分別進行溝通，進而逐一接收並儲存在不同測試電壓與不同負載特性下的所述電流量測數據M1以及電壓量測數據M2。進一步，該主控制器60可根據彼此對應之所述電流量測數據M1以及電壓量測數據M2計算出該燒機板20上之待測元件300的功率P，即P=M1×M2，功率P的高低可用以判斷待測元件300是良品或不良品。 Please refer to FIG. 1 , there are several power supply units 40 and electronic load devices 10 and they operate simultaneously. When executing the test schedule, the main controller 60 can communicate with the microcontrollers 85 of the plurality of multi-channel measurement modules 80 and the microcontrollers 17 of the plurality of electronic load devices 10 through polling. , and then receive and store the current measurement data M1 and the voltage measurement data M2 under different test voltages and different load characteristics one by one. Further, the main controller 60 can calculate the power P of the DUT 300 on the burn-in board 20 according to the corresponding current measurement data M1 and voltage measurement data M2, that is, P=M1×M2, power The level of P can be used to determine whether the DUT 300 is a good product or a defective product.

對於每個燒機板20及設置在其上的轉接座30，可包含以下實施態樣： For each burn-in board 20 and the adapter seat 30 arranged thereon, the following implementation aspects can be included:

1、態樣一 1. State one

請參考圖5，該至少一轉接座30為複數轉接座30，該複數轉接座30的數量與該燒機板20之該複數負載區域21的數量相同，舉例來說，該複數轉接座30的數量可為八個，該燒機板20之該複數負載區域21的數量亦為八個，以形成一對一的對應連接，即一個轉接座30設置在一個負載區域21，此外，每個轉接座30的元件連接器31電連接其對應之負載區域21的測試電源接點211與負載接點212。 Please refer to FIG. 5, the at least one adapter 30 is a plurality of adapters 30, the number of the plurality of adapters 30 is the same as the number of the plurality of load areas 21 of the burner board 20, for example, the plurality of turns The number of sockets 30 can be eight, and the number of the plurality of load areas 21 of the burner board 20 is also eight, so as to form a one-to-one corresponding connection, that is, one adapter seat 30 is arranged on one load area 21, In addition, the component connector 31 of each adapter base 30 is electrically connected to the test power contact 211 and the load contact 212 of the corresponding load area 21 .

如前所述，每個轉接座30可設有一個或多個元件連接器31，請參考圖5，當每個轉接座30設有單一個元件連接器31時，該元件連接器31供設置一待測元件300，該待測元件300透過該轉接座30和該燒機板20而與該電源供 應器40、該電子負載裝置10、該多通道量測模組80與該主控制器60構成訊號連接，使該待測元件300能接受測試；另舉例而言，透過該轉接座30上的電路布局(PCB layout)，該待測元件300與其對應的電子負載群組11的電性連接電路可參考圖6，是以，以圖6所示的實施例而言，當每個電子負載群組11的加載能力為75瓦特(W)，最高可提供75瓦特(W)的負載量給該待測元件300。 As mentioned above, each adapter base 30 can be provided with one or more component connectors 31, please refer to FIG. 5, when each adapter base 30 is provided with a single component connector 31, the component connector 31 A device under test 300 is provided, and the device under test 300 is connected to the power supply through the adapter 30 and the burner board 20 The responder 40, the electronic load device 10, the multi-channel measurement module 80 and the main controller 60 form a signal connection so that the DUT 300 can be tested; The circuit layout (PCB layout), the electrical connection circuit of the component under test 300 and its corresponding electronic load group 11 can refer to FIG. 6, so, in terms of the embodiment shown in FIG. 6, when each electronic load The load capacity of the group 11 is 75 watts (W), and can provide a maximum load of 75 watts (W) to the device under test 300 .

另一方面，於其他實施例中，當各該轉接座30設有複數元件連接器31時，請參考圖7為例，每個轉接座30設有三個元件連接器31時，其分別供設置待測元件300，各該待測元件300透過該轉接座30和該燒機板20而與該電源供應器40、該電子負載裝置10、該多通道量測模組80與該主控制器60構成訊號連接，使各該待測元件300能接受測試；另舉例而言，透過該轉接座30上的電路布局(PCB layout)，該等待測元件300與其對應的電子負載群組11的電性連接電路可參考圖8，是以，以圖8所示的實施例而言，當每個電子負載群組11的加載能力為75瓦特(W)，故最高可提供75瓦特(W)的負載量給該等待測元件300，每個待測元件300相當於分配到25瓦特(W)的負載量。 On the other hand, in other embodiments, when each adapter base 30 is provided with a plurality of component connectors 31, please refer to FIG. For setting the DUT 300, each DUT 300 is connected to the power supply 40, the electronic load device 10, the multi-channel measurement module 80 and the main unit through the adapter 30 and the burner board 20 The controller 60 forms a signal connection so that each of the DUTs 300 can be tested; another example, through the circuit layout (PCB layout) on the adapter 30, the DUTs 300 and their corresponding electronic load groups The electrical connection circuit of 11 can refer to FIG. 8, so, in the embodiment shown in FIG. 8, when the loading capacity of each electronic load group 11 is 75 watts (W), it can provide up to 75 watts ( A load of W) is given to the DUT 300, and each DUT 300 is equivalent to a load of 25 watts (W).

2、態樣二 2. Pattern 2

該至少一轉接座30為複數轉接座30，各該轉接座30的元件連接器31電連接該燒機板20之部分負載區域21的測試電源接點211與負載接點212，亦即一個轉接座30可對應設置在多個負載區域21，而為一對多的設置結構。請參考圖9為例，每個轉接座30可設有單一個元件連接器31以設置一個待測元件300，每個轉接座30設置在兩個負載區域21，是以，當每個電子負載群組11的加載能力為75瓦特(W)，故最高可提供150瓦特(W)的負載量給該待測元件300。 The at least one adapter 30 is a plurality of adapters 30, and the component connector 31 of each adapter 30 is electrically connected to the test power contact 211 and the load contact 212 of the partial load area 21 of the burner board 20, and also That is to say, one adapter 30 can be correspondingly installed in multiple load areas 21 , which is a one-to-many arrangement structure. Please refer to FIG. 9 as an example, each adapter 30 can be provided with a single element connector 31 to set a DUT 300, and each adapter 30 is arranged on two load areas 21, so when each The load capacity of the electronic load group 11 is 75 watts (W), so it can provide a maximum load of 150 watts (W) to the device under test 300 .

3、態樣三 3. Pattern three

該至少一轉接座30為單一轉接座30，該轉接座30的元件連接器31電連接該燒機板20之所有複數負載區域21的測試電源接點211與負載接點 212，亦即一個轉接座30可對應設置在所有負載區域21，而為一對多的設置結構。請參考圖10為例，該轉接座30可設有單一個元件連接器31以設置一個待測元件300，各該轉接座30所具有的負載區域21一共有三個，是以，當每個電子負載群組11的加載能力為75瓦特(W)，故最高可提供225瓦特(W)的負載量給該待測元件300。 The at least one adapter 30 is a single adapter 30, and the component connector 31 of the adapter 30 is electrically connected to the test power contact 211 and the load contact of all the multiple load areas 21 of the burn-in board 20 212 , that is, one adapter 30 can be correspondingly arranged in all load areas 21 , and it is a one-to-many arrangement structure. Please refer to FIG. 10 as an example, the adapter base 30 can be provided with a single element connector 31 to set a device under test 300, and each adapter base 30 has a total of three load areas 21, so when The load capacity of each electronic load group 11 is 75 watts (W), so a maximum load of 225 watts (W) can be provided to the DUT 300 .

需說明的是，前述態樣的電路架構僅為範例，實際應用時，各該轉接座30上的電路布局(PCB layout)可因應測試需求及各式待測元件300的屬性而有多元、彈性設計。此外，在態樣二與態樣三之中，各該轉接座30的尺寸及其底面設有對應數量與對應位置的端子台32，以供能對應插設在多個負載區域21的插針座22。 It should be noted that the above-mentioned circuit structure is only an example, and in actual application, the circuit layout (PCB layout) on each of the adapters 30 can be varied according to the test requirements and the properties of the various components 300 to be tested. Flexible design. In addition, in the second aspect and the third aspect, the size of each adapter seat 30 and its bottom surface are provided with a corresponding number and a corresponding position of the terminal block 32, so as to provide energy for correspondingly inserting the sockets in the multiple load areas 21. Needle seat 22.

請參考圖11與圖12，本發明可程式化燒機系統可包含一機櫃100，如前所述的電子負載裝置10、燒機板20、轉接座30、電源供應器40、人機介面裝置50、多通道量測模組80、主控制器60、電子開關70與手動安全開關71可整合設置在該機櫃100，該機櫃100包含一櫃身101與至少一托盤102，圖11是以複數托盤102為例，該櫃身101包含一前板體103與一裝配空間104，人機介面裝置50與手動安全開關71設置在該前板體103，該裝配空間104設置在該前板體103的旁側，例如當操作人員面對該前板體103時，該裝配空間104可位於該前板體103的左側或右側，但不以此為限，圖11所示的實施例中，該裝配空間104位於該前板體103的左側。所述電子負載裝置10、電源供應器40、多通道量測模組80與主控制器60可設置在該櫃身101內部，該複數托盤102可間隔設置在該裝配空間104中，且各該托盤102可相對該櫃身101前後滑移，如圖11所示，該複數托盤102係上下間隔設置在該裝配空間104中，其中，該櫃身101於該裝配空間104的側壁面設有複數滑軌105，各該托盤102設置在兩滑軌105之間，故 各該托盤102可相對該櫃身101前後滑移。操作時，操作人員可拉出該機櫃100的托盤102，即可進行待測元件300及轉接座30的替換作業。 Please refer to FIG. 11 and FIG. 12 , the programmable burn-in system of the present invention may include a cabinet 100, the electronic load device 10, the burn-in board 20, the adapter base 30, the power supply 40, and the man-machine interface as mentioned above. The device 50, the multi-channel measurement module 80, the main controller 60, the electronic switch 70 and the manual safety switch 71 can be integrated in the cabinet 100. The cabinet 100 includes a cabinet body 101 and at least one tray 102, as shown in FIG. 11 Take multiple pallets 102 as an example, the cabinet body 101 includes a front panel 103 and an assembly space 104, the human-machine interface device 50 and the manual safety switch 71 are arranged on the front panel 103, and the assembly space 104 is arranged on the front panel 103, for example, when the operator faces the front plate body 103, the assembly space 104 can be located on the left or right side of the front plate body 103, but not limited thereto. In the embodiment shown in FIG. 11, The assembly space 104 is located on the left side of the front board body 103 . The electronic load device 10, the power supply 40, the multi-channel measurement module 80 and the main controller 60 can be arranged inside the cabinet body 101, and the plurality of trays 102 can be arranged in the assembly space 104 at intervals, and each of the The tray 102 can slide back and forth relative to the cabinet body 101. As shown in FIG. Slide rail 105, each this pallet 102 is arranged between two slide rails 105, so Each tray 102 can slide back and forth relative to the cabinet body 101 . During operation, the operator can pull out the tray 102 of the cabinet 100 to replace the DUT 300 and the adapter base 30 .

請參考圖12，燒機板20設置在托盤102的頂面，燒機板20之各負載區域21的頂面設有一轉接座30，圖12可見轉接座30的頂面設有元件連接器31(即端子柱)，轉接座30的底面設有兩端子台32，對應的，燒機板20的頂面的各負載區域21設有兩插針座22，藉此使待測元件300可拆組的設置在轉接座30的元件連接器31，且轉接座30底面的端子台32亦可拆組的連接在燒機板20頂面的插針座22，使轉接座30與燒機板20形成電連接。其中，各負載區域21的兩插針座22中，其中之一插針座22電連接其測試電源接點211，另一插針座22電連接其負載接點212，因此待測元件300可透過轉接座30電連接燒機板20的各負載區域21的測試電源接點211與負載接點212。另外，電子負載裝置10、燒機板20、電源供應器40、人機介面裝置50、多通道量測模組80、主控制器60、電子開關70與手動安全開關71之間亦可透過實體信號線或排線彼此電連接，構成如圖1所示的電連接架構。 Please refer to FIG. 12, the burn-in board 20 is arranged on the top surface of the tray 102, and an adapter seat 30 is provided on the top surface of each load area 21 of the burn-in board 20. As shown in FIG. 12, the top surface of the adapter seat 30 is provided with component connections. device 31 (i.e. terminal column), the bottom surface of the adapter seat 30 is provided with two terminal platforms 32, and correspondingly, each load area 21 on the top surface of the burn-in board 20 is provided with two pin sockets 22, thereby making the component under test 300 is detachably arranged on the component connector 31 of the adapter base 30, and the terminal block 32 on the bottom surface of the adapter base 30 is also detachably connected to the pin holder 22 on the top surface of the burner board 20, so that the adapter base 30 forms an electrical connection with the burn-in board 20 . Wherein, among the two pin sockets 22 of each load area 21, one of the pin sockets 22 is electrically connected to its test power contact 211, and the other pin socket 22 is electrically connected to its load contact point 212, so the DUT 300 can be The test power contact 211 and the load contact 212 of each load area 21 of the burn-in board 20 are electrically connected through the transfer base 30 . In addition, the electronic load device 10, the burn-in board 20, the power supply 40, the human-machine interface device 50, the multi-channel measurement module 80, the main controller 60, the electronic switch 70 and the manual safety switch 71 can also pass through physical The signal wires or flat wires are electrically connected to each other to form an electrical connection structure as shown in FIG. 1 .

綜上所述，本發明的電子負載裝置10可透過參數的設定而模擬出各種負載特性，且透過該人機介面裝置50亦可供操作人員輸入資料或編輯程式，如此一來，本發明僅需透過設定即可測試不同系列的待測元件300。本發明的電子負載裝置10取代傳統燒機板的水泥電阻，且使該複數待測元件300共用該電子負載裝置10，故本發明的轉接座30不需設置水泥電阻與擺頭開關，本發明的轉接座30的整體面積已大幅縮減，轉接座30具有易於加工、改善空間利用率與易於搬運的優點。 To sum up, the electronic load device 10 of the present invention can simulate various load characteristics through the setting of parameters, and the human-machine interface device 50 can also be used by the operator to input data or edit programs. In this way, the present invention only Different series of DUTs 300 can be tested through setting. The electronic load device 10 of the present invention replaces the cement resistors of the traditional burner board, and makes the plurality of components under test 300 share the electronic load device 10, so the adapter base 30 of the present invention does not need to be provided with cement resistors and swing switches. The overall area of the inventive adapter seat 30 has been greatly reduced, and the adapter seat 30 has the advantages of easy processing, improved space utilization and easy transport.

此外，本發明的主控制器60透過多通道量測模組80與電子負載裝置10自動讀取及儲存待測元件300的量測數據，所述量測數據例如可包含電壓量測數據M2與電流量測數據M1，其為具體的電壓量測值或電流量測值，故 本發明可有具體的量測數據供深入評估待測元件300的元件特性，例如計算待測元件300的功率以評估其特性。和先前技術相比，傳統燒機板只能供操作人員並觀察指示燈的燈號判斷待測元件是否能輸出電壓，惟傳統燒機板無法提供其具體量測數據，無法深入分析待測元件的特性。是以，本發明的測試成果及精確度更優於傳統燒機板。 In addition, the main controller 60 of the present invention automatically reads and stores the measurement data of the DUT 300 through the multi-channel measurement module 80 and the electronic load device 10. The measurement data may include voltage measurement data M2 and The current measurement data M1 is a specific voltage measurement value or current measurement value, so The present invention can have specific measurement data for in-depth evaluation of the device characteristics of the DUT 300 , for example, calculating the power of the DUT 300 to evaluate its characteristics. Compared with the previous technology, the traditional burn-in board can only be used by the operator to observe the light signal of the indicator light to judge whether the component under test can output voltage, but the traditional burn-in board cannot provide its specific measurement data and cannot deeply analyze the component under test characteristics. Therefore, the test results and accuracy of the present invention are better than traditional burn-in boards.

另一方面，傳統燒機板的點檢作業是由操作人員手持三用電表逐個量測水泥電阻並於簿冊抄寫記錄其量測值，因為傳統燒機板數量多，更不用說水泥電阻的數量，可見傳統燒機板的點檢作業相當耗時間且耗人力。和傳統燒機板的點檢作業相比，因為本發明的主控制器60是可程式化的，故主控制器60可藉由程式的編輯而能據以實施系統診斷排程，透過該系統診斷排程自動檢查該電子負載裝置10、該人機介面裝置50與該多通道量測模組80的功能是否異常，不需人工介入其檢查，故本發明可大幅改善傳統燒機板的點檢作業的耗時間且耗人力的缺點。 On the other hand, in the spot inspection of traditional burn-in boards, the operator uses a three-purpose electric meter to measure the cement resistance one by one and record the measured values in a book, because the traditional burn-in boards have a large number, not to mention the cement resistance. It can be seen that the spot inspection of traditional burn-in boards is quite time-consuming and labor-intensive. Compared with the spot check operation of the traditional burn-in board, because the main controller 60 of the present invention is programmable, the main controller 60 can implement system diagnosis and scheduling by editing the program. Through this system The diagnostic schedule automatically checks whether the functions of the electronic load device 10, the human-machine interface device 50, and the multi-channel measurement module 80 are abnormal, without manual intervention in the inspection, so the present invention can greatly improve the traditional burn-in board. The shortcomings of time-consuming and manpower-consuming inspection operations.

10:電子負載裝置 20:燒機板 30:轉接座 300:待測元件 40:電源供應器 41:市電電源 50:人機介面裝置 60:主控制器 61:儲存裝置 62:I/O控制介面 70:電子開關 701:第一端 702:第二端 703:控制端 71:手動安全開關 80:多通道量測模組 Data Bus-1:第一資料匯流排 Data Bus-2:第二資料匯流排 M1:電流量測數據 M2:電壓量測數據 M3:信號 L:火線 N:中性線 10: Electronic load device 20: Burn-in board 30: adapter seat 300: component under test 40: Power supply 41: Mains power supply 50: Human-machine interface device 60: Main controller 61: storage device 62: I/O control interface 70: Electronic switch 701: first end 702: second end 703: control terminal 71: Manual safety switch 80: Multi-channel measurement module Data Bus-1: the first data bus Data Bus-2: the second data bus M1: current measurement data M2: voltage measurement data M3: signal L: FireWire N: neutral wire

Claims (17)

一種可程式化燒機系統，包含： 一電子負載裝置，具有複數電子負載群組，各該電子負載群組包含複數電子負載單元； 一燒機板，其表面具有複數負載區域，各該負載區域設有複數測試電源接點與複數負載接點，各該負載區域的該複數負載接點分別電連接各該電子負載群組的該複數電子負載單元； 至少一轉接座，可拆組的設置在該燒機板，該至少一轉接座設有至少一元件連接器，該至少一元件連接器電連接該燒機板之負載區域的測試電源接點與負載接點； 一電源供應器，電連接該燒機板之負載區域的測試電源接點； 一人機介面裝置；以及 一主控制器，電連接該電子負載裝置、該燒機板、該電源供應器與該人機介面裝置，該主控制器控制該電源供應器輸出測試電源、控制該電子負載裝置的負載特性，以及從該燒機板的負載接點和該電子負載裝置接收及儲存量測數據。 A programmable burn-in system, including: An electronic load device having a plurality of electronic load groups, each of which includes a plurality of electronic load units; A burn-in board, the surface of which has a plurality of load areas, and each of the load areas is provided with a plurality of test power contacts and a plurality of load contacts, and the plurality of load contacts in each of the load areas are respectively electrically connected to the electronic load groups. Multiple electronic load units; At least one adapter seat is detachably arranged on the burn-in board, and the at least one adapter base is provided with at least one component connector, and the at least one component connector is electrically connected to the test power connection in the load area of the burn-in board point and load contact; A power supply, electrically connected to the test power contact of the load area of the burn-in board; a human machine interface device; and a main controller electrically connected to the electronic load device, the burn-in board, the power supply and the human-machine interface device, the main controller controls the power supply to output test power, and controls the load characteristics of the electronic load device, And receive and store measurement data from the load contact of the burn-in board and the electronic load device. 如請求項1所述的可程式化燒機系統，其中，該至少一轉接座為複數轉接座，該複數轉接座的數量與該燒機板之該複數負載區域的數量相同，該複數轉接座的元件連接器分別電連接該燒機板之該複數負載區域的測試電源接點與負載接點。The programmable burn-in system according to claim 1, wherein the at least one adapter base is a plurality of adapter bases, the number of the plurality of adapter bases is the same as the number of the plurality of load areas of the burn-in board, and the The component connectors of the plurality of adapters are respectively electrically connected to the test power contacts and the load contacts of the plurality of load areas of the burn-in board. 如請求項2所述的可程式化燒機系統，其中，各該轉接座的該至少一元件連接器為複數元件連接器。The programmable burn-in system as claimed in claim 2, wherein the at least one component connector of each adapter base is a plurality of component connectors. 如請求項2所述的可程式化燒機系統，其中，各該轉接座的該至少一元件連接器為單一元件連接器。The programmable burn-in system as claimed in claim 2, wherein the at least one component connector of each adapter base is a single component connector. 如請求項1所述的可程式化燒機系統，其中，該至少一轉接座為複數轉接座，各該轉接座的元件連接器電連接該燒機板之部分負載區域的測試電源接點與負載接點。The programmable burn-in system according to claim 1, wherein the at least one adapter base is a plurality of adapter bases, and the component connectors of each adapter base are electrically connected to the test power supply in the partial load area of the burn-in board contacts and load contacts. 如請求項1所述的可程式化燒機系統，其中，該至少一轉接座為單一轉接座，該轉接座的元件連接器電連接該燒機板之該複數負載區域的測試電源接點與負載接點。The programmable burn-in system according to claim 1, wherein the at least one adapter base is a single adapter base, and the component connector of the adapter base is electrically connected to the test power supply of the plurality of load areas of the burn-in board contacts and load contacts. 如請求項1所述的可程式化燒機系統，其中，該主控制器通過一多通道量測模組電連接該燒機板的該複數負載區域的負載接點，該多通道量測模組包含： 一多工器，其複數輸入端分別電連接該燒機板的該複數負載區域的負載接點； 一信號放大器，其輸入端電連接該多工器的輸出端； 一類比/數位轉換器，其類比輸入端電連接該信號放大器的輸出端； 一通訊介面，電連接該主控制器；以及 一微控制器，電連接該通訊介面、該多工器的資料選擇接點以及該類比/數位轉換器的數位輸出端；該微控制器根據該主控制器的控制指令，透過該多工器的操作而從該燒機板的該複數負載區域的負載接點逐一接收量測數據，並透過該通訊介面將量測數據傳送到該主控制器。 The programmable burn-in system as described in claim 1, wherein the main controller is electrically connected to the load contacts of the multiple load areas of the burn-in board through a multi-channel measurement module, and the multi-channel measurement module Group contains: a multiplexer, the multiple input terminals of which are respectively electrically connected to the load contacts of the multiple load areas of the burn-in board; A signal amplifier, its input terminal is electrically connected to the output terminal of the multiplexer; An analog/digital converter, the analog input end of which is electrically connected to the output end of the signal amplifier; a communication interface electrically connected to the master controller; and A microcontroller, electrically connected to the communication interface, the data selection contact of the multiplexer, and the digital output terminal of the analog/digital converter; The measurement data is received one by one from the load contacts of the plurality of load areas of the burn-in board through the operation of the burn-in board, and the measurement data is transmitted to the main controller through the communication interface. 如請求項1所述的可程式化燒機系統，其中，各該電子負載單元包含一電源輸入端、一信號輸入端與一信號輸出端，由該電源輸入端電連接各該負載區域的負載接點； 該電子負載裝置包含： 複數多工器，分別對應各該電子負載群組中的該複數電子負載單元； 複數類比/數位轉換器，分別對應各該電子負載群組中的該複數電子負載單元； 複數數位/類比轉換器，分別對應各該電子負載群組中的該複數電子負載單元； 在對應的各該多工器、各該類比/數位轉換器與各該電子負載單元之中，各該多工器的輸入端電連接該複數電子負載單元的信號輸出端，各該類比/數位轉換器的類比輸入端電連接該多工器的輸出端； 在對應的各該數位/類比轉換器與各該電子負載單元之中，各該數位/類比轉換器的類比輸出端電連接各該電子負載單元的信號輸入端； 一通訊介面，電連接該主控制器；以及 一微控制器，電連接該通訊介面、該複數多工器的資料選擇接點、該複數類比/數位轉換器的數位輸出端與該複數數位/類比轉換器的數位輸入端；該微控制器根據該主控制器的控制指令控制該複數電子負載單元的負載特性，並透過該複數多工器的操作而透過該通訊介面逐一將該複數電子負載單元的量測數據傳送到該主控制器。 The programmable burn-in system as described in claim 1, wherein each of the electronic load units includes a power input terminal, a signal input terminal and a signal output terminal, and the power input terminal is electrically connected to the load in each load area contact; The electronic load device contains: a plurality of multiplexers respectively corresponding to the plurality of electronic load units in each of the electronic load groups; A plurality of analog/digital converters respectively corresponding to the plurality of electronic load units in each of the electronic load groups; a plurality of digital/analog converters respectively corresponding to the plurality of electronic load units in each of the electronic load groups; Among the corresponding multiplexers, analog/digital converters and electronic load units, the input ends of each multiplexer are electrically connected to the signal output ends of the complex electronic load units, and the analog/digital The analog input terminal of the converter is electrically connected to the output terminal of the multiplexer; In each corresponding digital/analog converter and each electronic load unit, the analog output end of each digital/analog converter is electrically connected to the signal input end of each electronic load unit; a communication interface electrically connected to the main controller; and A microcontroller electrically connected to the communication interface, the data selection contact of the complex multiplexer, the digital output terminal of the complex analog/digital converter and the digital input terminal of the complex digital/analog converter; the microcontroller The load characteristics of the plurality of electronic load units are controlled according to the control command of the main controller, and the measurement data of the plurality of electronic load units are sent to the main controller one by one through the communication interface through the operation of the plurality of multiplexers. 如請求項1所述的可程式化燒機系統，更包含一電子開關，該電子開關具有一第一端與、一第二端與一控制端； 該電子開關的第一端電連接市電電源； 該電子開關的第二端電連接該電源供應器的輸入端； 該電子開關的控制端電連接該主控制器。 The programmable burn-in system as described in Claim 1 further includes an electronic switch, and the electronic switch has a first terminal, a second terminal and a control terminal; The first end of the electronic switch is electrically connected to the mains power supply; The second end of the electronic switch is electrically connected to the input end of the power supply; The control end of the electronic switch is electrically connected to the main controller. 如請求項1所述的可程式化燒機系統，更包含一手動安全開關，該手動安全開關電連接在市電電源與該電源供應器的電源輸入端之間。The programmable burn-in system as described in Claim 1 further includes a manual safety switch, and the manual safety switch is electrically connected between the mains power supply and the power input terminal of the power supply. 如請求項9所述的可程式化燒機系統，更包含一手動安全開關，該手動安全開關與該電子開關串聯。The programmable burn-in system as described in Claim 9 further includes a manual safety switch connected in series with the electronic switch. 如請求項7所述的可程式化燒機系統，其中，該多通道量測模組的通訊介面通過資料匯流排電連接該主控制器。The programmable burn-in system according to claim 7, wherein the communication interface of the multi-channel measurement module is electrically connected to the main controller through a data bus. 如請求項8所述的可程式化燒機系統，其中，該電子負載裝置的通訊介面通過資料匯流排電連接該主控制器。The programmable burn-in system according to claim 8, wherein the communication interface of the electronic load device is electrically connected to the main controller through a data bus. 如請求項9所述的可程式化燒機系統，其中，該電子開關的控制端通過資料匯流排電連接該主控制器。The programmable burn-in system according to claim 9, wherein the control end of the electronic switch is electrically connected to the main controller through a data bus. 如請求項1所述的可程式化燒機系統，更包含一機櫃，該機櫃包含： 一櫃身，包含一前板體與一裝配空間，該人機介面裝置設置在該前板體，該裝配空間設置在該前板體的旁側，該電子負載裝置、該電源供應器與該主控制器設置在該櫃身內部；以及 一托盤，設置在該裝配空間中，該燒機板設置在該托盤的頂面。 The programmable burn-in system as described in claim 1 further includes a cabinet, which includes: A cabinet body, including a front panel body and an assembly space, the human-machine interface device is arranged on the front panel body, the assembly space is arranged on the side of the front panel body, the electronic load device, the power supply and the the main controller is arranged inside the cabinet; and A tray is arranged in the assembly space, and the burn-in board is arranged on the top surface of the tray. 如請求項15所述的可程式化燒機系統，其中，該至少一轉接座的頂面設有該至少一元件連接器，該至少一轉接座的底面設有端子台，該燒機板的頂面的各該負載區域設有插針座，所述插針座電連接其負載區域的測試電源接點與負載接點，所述端子台可拆組的連接所述插針座。The programmable burn-in system according to claim 15, wherein the at least one component connector is provided on the top surface of the at least one transfer base, and the terminal block is provided on the bottom surface of the at least one transfer base. Each load area on the top surface of the board is provided with a pin seat, and the pin seat is electrically connected to the test power contact and the load contact point of the load area, and the terminal block is detachably connected to the pin seat. 如請求項15所述的可程式化燒機系統，其中，該櫃身於該裝配空間的側壁面設有滑軌，該托盤設置在滑軌。The programmable burn-in system according to claim 15, wherein the cabinet body is provided with slide rails on the side wall of the assembly space, and the tray is arranged on the slide rails.

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