TWM510463U - Probe card - Google Patents

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Publication number
TWM510463U
TWM510463U TW104205551U TW104205551U TWM510463U TW M510463 U TWM510463 U TW M510463U TW 104205551 U TW104205551 U TW 104205551U TW 104205551 U TW104205551 U TW 104205551U TW M510463 U TWM510463 U TW M510463U
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Taiwan
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power
electrically connected
probe card
tested
copper
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TW104205551U
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Chinese (zh)
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Wei-Cheng Ku
Jun-Liang Lai
Chih-Hao Ho
Hao Wei
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Mpi Corp
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Priority to TW104205551U priority Critical patent/TWM510463U/en
Publication of TWM510463U publication Critical patent/TWM510463U/en

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Description

探針卡Probe card

本創作係與探針卡有關;特別是指一種各電源線路阻抗具有一致性的探針卡。This creation is related to the probe card; in particular, a probe card with uniform impedance across the power lines.

按,用以檢測電子產品之各精密電子元件間的電性連接是否確實的方法,是以一探針卡作為一檢測機與該待測電子物件之間的電源訊號之傳輸介面。而該待測電子元件通常係接收來自該檢測機之電源訊號,藉以供應該待測電子元件所需之電源。According to the method for detecting whether the electrical connection between the precision electronic components of the electronic product is true, a probe card is used as a transmission interface of a power signal between the detecting machine and the electronic object to be tested. The electronic component to be tested generally receives a power signal from the detector to supply the power required by the electronic component to be tested.

另外,為了提升探針卡檢測待測電子元件的效率,以一組探針卡同時測試多個待測電子元件是目前最有效果的檢測手段之一。然而,在以一探針卡同時測試多個待測電子元件時,若傳輸予各待測電子物件的電源訊號是不一致的,換言之,若各個待測電子物件係於不同測試條件下進行檢測,那麼將會影響待測電子物件所檢測出來的結果,進而降低了測試的準確性。In addition, in order to improve the efficiency of the probe card for detecting the electronic component to be tested, simultaneously testing a plurality of electronic components to be tested with a set of probe cards is one of the most effective detection means at present. However, when a plurality of electronic components to be tested are simultaneously tested by a probe card, if the power signals transmitted to the electronic objects to be tested are inconsistent, in other words, if the electronic objects to be tested are tested under different test conditions, Then it will affect the results detected by the electronic object to be tested, thereby reducing the accuracy of the test.

有鑑於此,本創作之主要目的在於提供一種探針卡,在同時測試多個待測電子物件時,使各個待測電子物件處於近乎一致的測試條件。In view of this, the main purpose of the present invention is to provide a probe card that allows each electronic object to be tested to be in nearly uniform test conditions when simultaneously testing a plurality of electronic objects to be tested.

緣以達成上述目的,本創作所提供之探針卡係用以將一檢測機之電源訊號傳輸予二個待測電子物件,藉以 透過該電源訊號供應電源予該二待測電子物件進行電性檢測;該探針卡包含有二根訊號針、二電源線路以及至少一匹配件。該二訊號針以導電材料製成,且其一端分別用以點觸該二待測電子物件;該二電源線路一端與該檢測機電性連接,另一端分別與該二訊號針電性連接,用以傳輸電源訊號至該二待測電子物件;該至少一匹配件與該二電源線路的至少其中一者並聯,用以使該二電源線路的阻抗值小於一預定值之下。In order to achieve the above purpose, the probe card provided by the present invention is used to transmit the power signal of a detecting machine to two electronic objects to be tested. The power supply signal is supplied to the two electronic objects to be tested for electrical detection; the probe card includes two signal pins, two power lines, and at least one matching component. The two signal pins are made of a conductive material, and one end thereof is used to respectively touch the two electronic objects to be tested; one end of the two power lines is electrically connected to the detection, and the other end is electrically connected to the two signal pins respectively. Transmitting a power signal to the two electronic objects to be tested; the at least one matching component is connected in parallel with at least one of the two power lines to make the impedance values of the two power lines below a predetermined value.

緣以達成上述目的,本創作另提供一種探針卡係用以將一檢測機之電源訊號傳輸予二個待測電子物件,藉以透過該電源訊號供應電源予該二待測電子物件進行電性檢測;該探針卡包含有二根訊號針、二電源線路以及至少一匹配件。該二訊號針以導電材料製成,且其一端分別用以點觸該二待測電子物件;該二電源線路一端與該檢測機電性連接,另一端分別與該二訊號針電性連接,用以傳輸電源訊號至該二待測電子物件;該至少一匹配件與該二電源線路的至少其中一者並聯,以使該二電源線路的阻抗值之誤差百分比小於一預定誤差百分比。In order to achieve the above object, the present invention further provides a probe card for transmitting a power signal of a detecting machine to two electronic objects to be tested, thereby supplying power to the two electronic objects to be tested through the power signal for electrical performance. Detection; the probe card includes two signal pins, two power lines, and at least one matching component. The two signal pins are made of a conductive material, and one end thereof is used to respectively touch the two electronic objects to be tested; one end of the two power lines is electrically connected to the detection, and the other end is electrically connected to the two signal pins respectively. Transmitting a power signal to the two electronic objects to be tested; the at least one matching component is connected in parallel with at least one of the two power lines such that an error percentage of impedance values of the two power lines is less than a predetermined error percentage.

藉此,透過上述該匹配件的設計,可有效降低所並聯之電源線路的阻抗,或者使該二電源線路的阻抗趨於一致,以使該檢測機經由該二電源線路所傳輸之電源訊號具有一致性,而使得各待測電子物件可處於近乎一致的條件下進行測試。Thereby, through the design of the matching component, the impedance of the parallel power supply lines can be effectively reduced, or the impedances of the two power supply lines can be made uniform, so that the power signal transmitted by the detecting machine via the two power supply lines has Consistency, so that each electronic object to be tested can be tested under nearly uniform conditions.

100‧‧‧探針卡100‧‧‧ probe card

10‧‧‧基板10‧‧‧Substrate

10a‧‧‧面10a‧‧‧ face

10b‧‧‧面10b‧‧‧ face

12‧‧‧第一電源傳導體12‧‧‧First power conductor

14‧‧‧訊號接點14‧‧‧Signal contacts

20‧‧‧載板20‧‧‧ Carrier Board

20a‧‧‧面20a‧‧‧ face

20b‧‧‧面20b‧‧‧ face

22‧‧‧第二電源傳導體22‧‧‧Second power conductor

24‧‧‧訊號接點24‧‧‧Signal contacts

26‧‧‧檢測區26‧‧‧Detection area

30‧‧‧訊號針30‧‧‧Signal needle

40‧‧‧匹配件40‧‧‧ Matching pieces

42‧‧‧銅片42‧‧‧copper

50‧‧‧匹配件50‧‧‧ Matching pieces

200‧‧‧檢測機200‧‧‧Detector

210‧‧‧電源端子210‧‧‧Power terminal

300‧‧‧待測電子物件300‧‧‧Electronic objects to be tested

圖1為本創作較佳實施例之探針卡的外觀圖;圖2為圖1之局部分解圖,揭示匹配件與基板以及載板 的連接關係;圖3揭示本創作較佳實施例之探針卡的結構圖;圖4揭示匹配件之局部放大圖;圖5為另一較佳實施例之探針卡的結構圖,揭示匹配件的另一種設置方式。1 is an external view of a probe card according to a preferred embodiment of the present invention; and FIG. 2 is a partial exploded view of FIG. 1 showing a matching member, a substrate, and a carrier Figure 3 is a structural view of the probe card of the preferred embodiment of the present invention; Figure 4 is a partial enlarged view of the matching member; Figure 5 is a structural view of the probe card of another preferred embodiment, revealing the matching Another way to set up the pieces.

為能更清楚地說明本創作,茲舉較佳實施例並配合圖式詳細說明如后,請參閱圖1至圖3所示,為本發明較佳實施例之探針卡100,該探針卡100用以將一檢測機200之多個電源端子210所輸出的電源訊號分別傳輸予多個待測電子物件300,藉以透過該電源訊號供應電源予該等待測電子物件300,進行電性檢測。該探針卡100包含有一基板10、一載板20、複數根訊號針30以及複數個匹配件40。其中:該基板10之一面10a用以供與該檢測機200連接。於本實施例中,該基板10為一多層印刷電路板,且形成有以導體製成之多條第一電源傳導體12;各該第一電源傳導體12用以各別與各該電源端子210連接。位於該基板10另一面10b上,基板10外圍設有複數個訊號接點14,各該訊號接點14與對應之第一電源傳導體12電性連接。In order to explain the present invention more clearly, the preferred embodiment will be described in detail with reference to the drawings. Referring to FIG. 1 to FIG. 3, the probe card 100 is a preferred embodiment of the present invention. The card 100 is configured to transmit the power signals outputted by the plurality of power terminals 210 of the detector 200 to the plurality of electronic objects 300 to be tested, thereby supplying power to the electronic component 300 for electrical detection through the power signal. . The probe card 100 includes a substrate 10, a carrier 20, a plurality of signal pins 30, and a plurality of matching members 40. Wherein: one surface 10a of the substrate 10 is used for connection with the detector 200. In this embodiment, the substrate 10 is a multilayer printed circuit board, and a plurality of first power conductors 12 are formed by conductors. Each of the first power conductors 12 is used for each of the power sources. Terminals 210 are connected. On the other surface 10b of the substrate 10, a plurality of signal contacts 14 are disposed on the periphery of the substrate 10. Each of the signal contacts 14 is electrically connected to the corresponding first power conductor 12.

該載板20之一面20a與該基板10之面10b連接。於本實施例中,該載板20為多層陶瓷板(Multi-Layer Ceramic;MLC),且形成有以導體製成之多條第二電源傳導體22;各該第二電源傳導體22一端分別與對應之第一電源傳導體12連接。位於該載板20另一面20b上,載板20外圍設有複數個訊號接點24,該些訊號接點24與對應之第二電源傳導體22電性連接。且該載板20可劃分有八個檢測區 26,各該檢測區26可分別對於一個待測電子元件300進行訊號測試,而該探針卡100透過該些檢測區26可同時測試多個待測電子元件300。One surface 20a of the carrier 20 is connected to the surface 10b of the substrate 10. In this embodiment, the carrier 20 is a multi-layer ceramic (MLC), and is formed with a plurality of second power conductors 22 made of a conductor; each of the second power conductors 22 is respectively It is connected to the corresponding first power source conductor 12. On the other side 20b of the carrier 20, a plurality of signal contacts 24 are disposed on the periphery of the carrier 20, and the signal contacts 24 are electrically connected to the corresponding second power conductors 22. And the carrier 20 can be divided into eight detection zones 26, each of the detection areas 26 can perform signal test on an electronic component 300 to be tested, and the probe card 100 can simultaneously test a plurality of electronic components 300 to be tested through the detection areas 26.

該等訊號針30係分別設置於上述該等檢測區26內,該等訊號針30是以金屬製成,當然亦可以其他導電材料所製成,其一端分別電性連接該等第二電源傳導體22,另一端分別用以點觸該等待測電子物件300之待受測部位或是待供電部位。The signal pins 30 are respectively disposed in the detection areas 26, and the signal pins 30 are made of metal, and of course, can be made of other conductive materials, and one end of each of the signal pins 30 is electrically connected to the second power source. The other end of the body 22 is used to touch the portion to be tested or the portion to be powered, which is waiting for the electronic object 300 to be tested.

如此一來,該基板10的第一電源傳導體12與該載板20對應的第二電源傳導體22串聯而形成電源線路,而可傳輸該檢測機100所輸出的電源訊號,經由該等訊號針30傳輸至該等待測電子物件300。In this way, the first power conductor 12 of the substrate 10 and the second power conductor 22 corresponding to the carrier 20 are connected in series to form a power line, and the power signal output by the detector 100 can be transmitted through the signals. The needle 30 is transmitted to the waiting electronic object 300.

該等匹配件40在本實施例中為銅片,其一端與該基板10上的訊號接點14電性連接,而與該第一電源傳導體12以及該檢測機100電性連接;另一端與該載板20上的訊號接點24電性連接,而與該第二電源傳導體22以及對應之訊號針30電性連接。The matching component 40 is a copper piece in this embodiment, and one end thereof is electrically connected to the signal contact 14 on the substrate 10, and is electrically connected to the first power conductor 12 and the detecting machine 100; The signal contact 24 on the carrier 20 is electrically connected to the second power conductor 22 and the corresponding signal pin 30.

請配合圖4所示,該等匹配件40包含有多層的銅片42,該些銅片42層層相疊,且各該銅片42之表面有經過絕緣處理,例如在銅片42與銅片42之間設有一絕緣層(圖未示),該絕緣層可以是絕緣薄膜、絕緣漆或者是如聚四氟乙烯等塗料所形成,用以使各該銅片42彼此電氣絕緣。藉此,各該銅片42可分別與對應之訊號接點14,24電性連接,而與對應之電源線路並聯。如此一來,經由調整各個銅片42的尺寸、質量或者是形狀等影響銅片42阻值的參數,並使各銅片42與對應的電源線路並聯之後,除了可降低電源線路之阻抗值之外,各該銅片42分別與多個電源線路的配合之後,更能使各個電源線路的電阻值趨於一致。As shown in FIG. 4, the matching members 40 include a plurality of layers of copper sheets 42 stacked one on another, and the surfaces of the copper sheets 42 are insulated, for example, copper sheets 42 and copper. An insulating layer (not shown) is disposed between the sheets 42. The insulating layer may be an insulating film, an insulating varnish or a coating such as polytetrafluoroethylene to electrically insulate each of the copper sheets 42 from each other. Thereby, each of the copper pieces 42 can be electrically connected to the corresponding signal contacts 14, 24 respectively, and connected in parallel with the corresponding power supply lines. In this way, by adjusting the size, the quality, or the shape of each copper piece 42, the parameters affecting the resistance of the copper piece 42 and the parallel connection of the copper pieces 42 to the corresponding power supply lines, in addition to reducing the impedance value of the power supply line. In addition, after the copper pieces 42 are respectively matched with the plurality of power lines, the resistance values of the respective power lines are more consistent.

為了方便說明如何經由匹配件的並聯調整後,使輸送多個待測電子物件的電源線路之阻抗值趨於一致,於後茲舉兩個待測電子元件301、302說明。In order to facilitate the explanation of how the impedance values of the power supply lines for transporting a plurality of electronic objects to be tested tend to be consistent after the parallel adjustment of the matching members, two electronic components to be tested 301, 302 will be described later.

舉例來說,各待測電子物件301、302可區分有CPU、WIC、DMAC、MCU等各個不同應用的功能區塊,且各功能區塊所需的電源訊號不盡相同。請參下表1所示,在外掛匹配件之前,在探針卡分別用於傳輸電源訊號至各待測電子物件301、302的電源線路阻值中,於相應之功能區塊的電源線路阻值皆不相同。於待測電子物件301方面,傳輸電源訊號至CPU、WIC、DMAC、MCU的電源線路阻值分別為52mΩ、30mΩ、70mΩ、90mΩ;於待測電子物件302方面,傳輸電源訊號至CPU、WIC、DMAC、MCU的電源線路阻值分別為40mΩ、60mΩ、58mΩ、45mΩ。換言之,即使檢測機100輸出於各功能區塊的初始電源訊號是相同的,而在經由各電源線路傳輸之後,由於傳輸於各待測電子物件301、302之相應的電源線路阻值不同,因此,其所遭受的訊號衰減與損耗亦不相同,以至於傳輸至待測電子物件301、302的電源訊號是不相等的。而若在同一功能區塊以不相等的電源訊號進行測試勢必會造成測試結果的誤判。For example, each of the electronic objects 301 and 302 to be tested can be divided into functional blocks of different applications such as a CPU, a WIC, a DMAC, and an MCU, and the power signals required for each functional block are not the same. Please refer to Table 1 below. Before the external matching component is used, the probe card is used to transmit the power signal to the power line resistance of each electronic object to be tested 301 and 302, and the power line resistance of the corresponding functional block. The values are all different. For the electronic object 301 to be tested, the power line resistance values of the power supply signals to the CPU, WIC, DMAC, and MCU are 52mΩ, 30mΩ, 70mΩ, and 90mΩ, respectively; for the electronic object 302 to be tested, the power signal is transmitted to the CPU, WIC, The power line resistance values of DMAC and MCU are 40mΩ, 60mΩ, 58mΩ, and 45mΩ, respectively. In other words, even if the initial power signals output by the detector 100 in the respective functional blocks are the same, after the transmission via the respective power lines, since the corresponding power lines transmitted to the electronic objects to be tested 301, 302 have different resistance values, The signal attenuation and loss suffered by the signal are also different, so that the power signals transmitted to the electronic objects 301 and 302 to be tested are not equal. If the test is performed with unequal power signals in the same functional block, it will inevitably lead to misjudgment of the test results.

因此,為了使傳輸予各待測電子物件301、302的電源訊號趨於一致,首先必須計算出傳輸予各功能區塊電源訊號之電源線路的阻值,而後再依據各電源線路之阻值,設計相應的匹配件,並將匹配件與電源線路並聯,以使得在外掛匹配件之後的待測電子物件301、302之電源線路阻值可有效地降低。除此之外,更重要的效果是將於相應之功能區塊的電源線路阻值調整一致,較佳者甚至是相同。Therefore, in order to make the power signals transmitted to the electronic objects to be tested 301, 302 tend to be consistent, first, the resistance value of the power line transmitted to the power signals of each functional block must be calculated, and then according to the resistance values of the power lines. The corresponding matching members are designed, and the matching members are connected in parallel with the power supply line, so that the power line resistance values of the electronic objects 301 and 302 to be tested after the external matching members can be effectively reduced. In addition, the more important effect is that the power line resistance adjustments of the corresponding functional blocks will be consistent, preferably even the same.

如表2所示,為探針卡於外掛匹配件之後,傳輸予各功能區塊電源訊號之電源線路的阻抗。於待測電子物 件301方面,傳輸電源訊號至CPU、WIC、DMAC、MCU的電源線路阻值分別為15mΩ、10mΩ、16mΩ、12mΩ;於待測電子物件302方面,傳輸電源訊號至CPU、WIC、DMAC、MCU的電源線路阻值分別為15mΩ、11mΩ、15.9mΩ、11.8mΩ。兩相比較後可知,外掛匹配件之後的探針卡,其相應之電源線路阻抗,除了能有效地被降低,而小於一預定值(如皆小於20mΩ)之外,分別傳輸於待測電子物件301、302之相應功能區塊的電源線路阻值更趨於相近,甚至是相同,而使得相應之電源線路的阻抗值具有一致性。因此,在以一探針卡同時測試多個待測電子物件時,檢測機自該些電源線路所傳輸之電源訊號可趨於一致,進而使得各個待測電子物件可處於近乎一致的條件下進行測試。As shown in Table 2, after the probe is stuck to the external matching component, the impedance of the power supply line transmitted to the power signals of each functional block is transmitted. For the electronic object to be tested In the aspect of 301, the power line resistance values of the transmission power signal to the CPU, WIC, DMAC, and MCU are 15mΩ, 10mΩ, 16mΩ, and 12mΩ, respectively; in the aspect of the electronic object 302 to be tested, the power signal is transmitted to the CPU, the WIC, the DMAC, and the MCU. The power line resistance values are 15mΩ, 11mΩ, 15.9mΩ, and 11.8mΩ, respectively. After comparing the two phases, the probe card after the external matching component, the corresponding power line impedance, can be effectively reduced, and less than a predetermined value (if less than 20mΩ), respectively, transmitted to the electronic object to be tested. The power line resistance values of the corresponding functional blocks of 301, 302 are more similar or even the same, so that the impedance values of the corresponding power lines are consistent. Therefore, when a plurality of electronic objects to be tested are simultaneously tested by a probe card, the power signals transmitted by the detecting device from the power lines can be consistent, so that the electronic objects to be tested can be in nearly uniform conditions. test.

值得一提的是,再請參閱圖4所示,各該銅片42均具有至少一切槽42a,於後茲以其中一切槽42a說明其用途。當銅片42在傳輸電源訊號的時候,於傳遞能量的同時,難免會有部分電能轉換為熱能,而導致銅片產生熱漲冷縮的效應。因此,該切槽42a特別可提供該銅片42有部分的形變裕度,使該銅片42不會因為膨脹或收縮而自基板10或載板20鬆脫。It is worth mentioning that, as shown in FIG. 4, each of the copper sheets 42 has at least all the grooves 42a, and the use thereof is described in the following description of all the grooves 42a. When the copper piece 42 transmits the power signal, while transferring energy, it is inevitable that some of the electric energy is converted into heat energy, which causes the copper sheet to have the effect of heat expansion and contraction. Therefore, the slit 42a particularly provides a partial deformation margin of the copper sheet 42, so that the copper sheet 42 is not released from the substrate 10 or the carrier 20 due to expansion or contraction.

再一提的是,上述實施例的匹配件40的設計方向,在於使各該電源線路的阻抗值小於一預定值之下。而在其他測試需求之下,另一種匹配件的設計方式,亦可使該等電源線路的阻抗值之誤差百分比小於一預定誤差百分比。舉例來說,當探針卡傳輸至待測電子物件303的功能區塊CPU、WIC、DMAC、MCU的電源線路阻值分別為15mΩ、18mΩ、13mΩ、20mΩ;傳輸至待測電子物件304的功能區塊CPU、WIC、DMAC、MCU的電源線路阻值分別為30mΩ、35mΩ、28mΩ、14mΩ;其中,兩者於相應功能區塊CPU、WIC、DMAC、MCU的電源線路阻值之誤差百分比分別為100%、94%、115%、30%,而所預設之預定誤差百分比為10%,可見其誤差頗鉅。因此,需藉由匹配件與各該電源線路匹配,以修正各該電源線路的電阻值,例如,將傳輸至待測電子物件303的功能區塊CPU、WIC、DMAC、MCU的電源線路阻值分別修正為5mΩ、6mΩ、7mΩ、8mΩ,以及將傳輸至待測電子物件304的功能區塊CPU、WIC、DMAC、MCU的電源線路阻值分別修正為5.25mΩ、6.3mΩ、7.35mΩ、8.4mΩ,如此一來,待測電子物件303與待測電子物件304於相應功能區塊CPU、WIC、DMAC、MCU的電源線路阻抗值即得到適當的修正,而使各誤差百分比皆修正為5%,而小於該預定誤差百分比(10%)。It is to be noted that the matching direction of the matching member 40 of the above embodiment is such that the impedance value of each of the power lines is less than a predetermined value. Under other test requirements, another matching component is designed such that the error percentage of the impedance values of the power lines is less than a predetermined error percentage. For example, when the probe card is transmitted to the functional blocks of the electronic object to be tested 303, the power line resistance values of the CPU, WIC, DMAC, and MCU are 15mΩ, 18mΩ, 13mΩ, and 20mΩ, respectively; and the function of transmitting to the electronic object 304 to be tested is performed. The power line resistance values of the block CPU, WIC, DMAC, and MCU are 30mΩ, 35mΩ, 28mΩ, and 14mΩ, respectively. The error percentages of the power line resistances of the CPU, WIC, DMAC, and MCU of the corresponding functional blocks are respectively 100%, 94%, 115%, 30%, and the predetermined predetermined percentage of error is 10%, which shows that the error is quite large. Therefore, the matching value is matched with each of the power lines to correct the resistance value of each of the power lines, for example, the power line resistance of the function block CPU, WIC, DMAC, MCU to be transmitted to the electronic object 303 to be tested. Corrected to 5mΩ, 6mΩ, 7mΩ, 8mΩ, respectively, and the power line resistance values of the functional blocks CPU, WIC, DMAC, and MCU transmitted to the electronic object 304 to be tested are corrected to 5.25mΩ, 6.3mΩ, 7.35mΩ, and 8.4mΩ, respectively. In this way, the impedance values of the power line of the electronic object 303 to be tested and the electronic object 304 to be tested in the corresponding functional blocks CPU, WIC, DMAC, and MCU are appropriately corrected, and the error percentages are all corrected to 5%. It is less than the predetermined error percentage (10%).

此外,該匹配件40並不以銅片為唯一的實施態樣,當然亦可選自其他導電性良好的導電材料製作而成。其次,該匹配件也並不限制使用銅片(金屬片),舉凡多蕊絞線、軟性電路板或者是同軸纜線等,皆可替代銅片成為匹配件,而具有匹配線路阻抗之功能。In addition, the matching member 40 is not made of a copper sheet as a single embodiment, and may of course be made of other conductive materials having good conductivity. Secondly, the matching member does not limit the use of copper sheets (metal sheets). For example, the multi-core stranded wire, the flexible circuit board or the coaxial cable can replace the copper piece as a matching piece and have the function of matching the line impedance.

另外一提的是,上述實施例的匹配件40與電源線路並聯的形式,並非唯一的實施方式。請參圖5所示,於一實施例中,如果所需要調整的是第一電源傳導體12的線路阻抗,則匹配件50可選擇僅與第一電源傳導體12並聯,即能調整第一電源傳導體12的阻抗值。It is also noted that the form in which the matching member 40 of the above embodiment is connected in parallel with the power supply line is not the only embodiment. Referring to FIG. 5, in an embodiment, if it is required to adjust the line impedance of the first power conductor 12, the matching component 50 can be selected to be in parallel only with the first power conductor 12, that is, the first adjustment can be made. The impedance value of the power conductor 12.

此外,並非每一個電源線路皆需要並聯一個匹配件。舉例來說,當有一個探針卡,其具有八條電源線路,其中的七條電源線路之阻抗值已趨近於一致,唯有一條電源線路的阻抗值與其他七條的阻抗值不一致,換言之,可能是阻抗值偏高或是偏低。因此,我們僅需要外掛一個匹配件於該阻抗值不一致的電源線路上,以對該電源線路進行阻抗的匹配,就能使得該電源線路的阻抗值與其他七條電源線路的阻抗值趨近一致。In addition, not every power line needs to be connected in parallel with a matching component. For example, when there is a probe card with eight power lines, the impedance values of the seven power lines are nearly uniform, and only one power line impedance value is inconsistent with the other seven impedance values, in other words, It may be that the impedance value is too high or too low. Therefore, we only need to externally attach a matching component to the power supply line whose impedance value is inconsistent, so as to match the impedance of the power supply line, the impedance value of the power supply line can be made close to the impedance values of the other seven power supply lines.

而上述之該預定值所設定的20mΩ,僅作為舉例說明之用,而在實際應用上,預定值的設定,係針對待測電子物件於測試上的需求而定,換言之,各個不同的待測電子物件可能有不同的預定值要求,而不以上述20mΩ為限。The 20mΩ set by the predetermined value mentioned above is only used as an example. In practical applications, the setting of the predetermined value is determined according to the test requirements of the electronic object to be tested, in other words, different test to be tested. Electronic objects may have different predetermined value requirements, not limited to the above 20mΩ.

因此,透過上述匹配件的設計,確實可以有效地降低所並聯之電源線路的阻抗,除此之外,更可調整各電源線路的阻抗趨近於一致,因此,可使檢測機經由電源線路所傳輸之電源訊號具有一致性,而使得各待測電子物件可處於近乎一致的條件下進行測試。Therefore, through the design of the matching component, the impedance of the parallel power supply lines can be effectively reduced, and in addition, the impedance of each power supply line can be adjusted to be consistent, so that the detecting machine can be connected via the power supply line. The transmitted power signals are consistent, so that the electronic objects to be tested can be tested under nearly uniform conditions.

以上所述僅為本創作較佳可行實施例而已,舉 凡應用本創作說明書及申請專利範圍所為之等效變化,理應包含在本創作之專利範圍內。The above description is only a preferred and feasible embodiment of the present invention. Equivalent changes in the scope of this creation and the scope of the patent application should be included in the scope of this creation.

100‧‧‧探針卡100‧‧‧ probe card

10‧‧‧基板10‧‧‧Substrate

10a‧‧‧面10a‧‧‧ face

10b‧‧‧面10b‧‧‧ face

12‧‧‧第一電源傳導體12‧‧‧First power conductor

14‧‧‧訊號接點14‧‧‧Signal contacts

20‧‧‧載板20‧‧‧ Carrier Board

20a‧‧‧面20a‧‧‧ face

20b‧‧‧面20b‧‧‧ face

22‧‧‧第二電源傳導體22‧‧‧Second power conductor

24‧‧‧訊號接點24‧‧‧Signal contacts

26‧‧‧檢測區26‧‧‧Detection area

30‧‧‧訊號針30‧‧‧Signal needle

40‧‧‧匹配件40‧‧‧ Matching pieces

42‧‧‧銅片42‧‧‧copper

50‧‧‧匹配件50‧‧‧ Matching pieces

200‧‧‧檢測機200‧‧‧Detector

210‧‧‧電源端子210‧‧‧Power terminal

300‧‧‧待測電子物件300‧‧‧Electronic objects to be tested

Claims (15)

一種探針卡,係用以將一檢測機之電源訊號傳輸予二個待測電子物件,藉以透過該電源訊號供應電源予該二待測電子物件進行電性檢測;該探針卡包含有:二根訊號針,以導電材料製成,且其一端分別用以點觸該二待測電子物件;二電源線路,一端與該檢測機電性連接,另一端分別與該二訊號針電性連接,用以傳輸電源訊號至該二待測電子物件;以及至少一匹配件,與該二電源線路的至少其中一者並聯,該至少一匹配件用以使該二電源線路的阻抗值小於一預定值之下。A probe card for transmitting a power signal of a detecting machine to two electronic objects to be tested, thereby supplying power to the two electronic objects to be tested for electrical detection through the power signal; the probe card comprises: The two signal pins are made of a conductive material, and one end thereof is respectively used to touch the two electronic objects to be tested; and two power lines are electrically connected to the detection end, and the other end is electrically connected to the two signal pins respectively. And transmitting at least one matching component to at least one of the two power supply lines, wherein the at least one matching component is configured to make the impedance value of the two power supply lines less than a predetermined value. under. 如請求項1所述之探針卡,更包含有一基板,用以與該檢測機連接;該電源線路包含有至少一第一電源傳導體,形成於該基板上。The probe card of claim 1 further comprising a substrate for connecting to the detector; the power line including at least one first power conductor formed on the substrate. 如請求項2所述之探針卡,更包含有一載板與該基板連接;該電源線路更包含有至少一第二電源傳導體,形成於該載板上,且與該第一電源傳導體串聯連接;該至少一匹配件之一端係與該第一電源傳導體電性連接,另一端係與該第二傳導體電性連接。The probe card of claim 2, further comprising a carrier connected to the substrate; the power circuit further comprising at least one second power conductor formed on the carrier and coupled to the first power conductor One end of the at least one matching member is electrically connected to the first power conducting conductor, and the other end is electrically connected to the second conducting body. 2或3所述之探針卡,其中該至少一匹配件為銅片,其一端電性連接該檢測機,另一端則電性連接對應之訊號針。The probe card of 2 or 3, wherein the at least one matching component is a copper piece, one end of which is electrically connected to the detecting machine, and the other end is electrically connected to the corresponding signal pin. 如請求項4所述之探針卡,其中該至少一匹配件包含有多層之層層相疊的銅片,且各該銅片之間設有一絕緣層,該絕緣層用以使各該銅片彼此電氣絕緣;各該銅片之一端電性連接該檢測機,另一端電性連接對應之訊號針。The probe card of claim 4, wherein the at least one matching component comprises a plurality of layers of copper sheets stacked one on another, and an insulating layer is disposed between the copper sheets, the insulating layer is used to make each of the copper layers The sheets are electrically insulated from each other; one end of each of the copper sheets is electrically connected to the detecting machine, and the other end is electrically connected to the corresponding signal pin. 如請求項4所述之探針卡,其中該銅片具有至少一切槽。The probe card of claim 4, wherein the copper sheet has at least all of the grooves. 2或3所述之探針卡,其中該至少一匹配件為多蕊絞線、軟性電路板或者是同軸纜線,其一端電性連接該檢測機,另一端則電性連接對應之訊號針。The probe card of 2 or 3, wherein the at least one matching component is a multi-core stranded wire, a flexible circuit board or a coaxial cable, one end of which is electrically connected to the detecting machine, and the other end is electrically connected to the corresponding signal pin. . 一種探針卡,係用以將一檢測機之電源訊號傳輸予二個待測電子物件,藉以透過該電源訊號供應電源予該二待測電子物件進行電性檢測;該探針卡包含有:二根訊號針,以導電材料製成,且其一端用以分別點觸該二待測電子物件;二電源線路,一端與該檢測機電性連接,另一端分別與該二訊號針電性連接,用以傳輸電源訊號至該二待測電子物件;以及至少一匹配件,與該二電源線路的至少其中一者並聯,以使該二電源線路的阻抗值之誤差百分比小於一預定誤差百分比。A probe card for transmitting a power signal of a detecting machine to two electronic objects to be tested, thereby supplying power to the two electronic objects to be tested for electrical detection through the power signal; the probe card comprises: The two signal pins are made of a conductive material, and one end thereof is used to respectively touch the two electronic objects to be tested; and two power lines are electrically connected to the detection end, and the other end is electrically connected to the two signal pins respectively. And transmitting at least one matching component to at least one of the two power supply lines, so that the error percentage of the impedance values of the two power supply lines is less than a predetermined error percentage. 如請求項8所述之探針卡,更包含有一基板,用以與該檢測機連接;該電源線路包含有至少一第一電源傳導體,形成於該基板上。The probe card of claim 8, further comprising a substrate for connecting to the detector; the power line includes at least one first power conductor formed on the substrate. 如請求項9所述之探針卡,更包含有一載板與該基板連接;該電源線路更包含有至少一第二電源傳導體,形成於 該載板上,且與該第一電源傳導體串聯連接;該至少一匹配件之一端係與該第一電源傳導體電性連接,另一端係與該第二傳導體電性連接。The probe card of claim 9, further comprising a carrier connected to the substrate; the power circuit further comprising at least one second power conductor formed on The carrier board is connected in series with the first power source conductor; one end of the at least one matching component is electrically connected to the first power source conductor, and the other end is electrically connected to the second conductor body. 9或10所述之探針卡,其中該至少一匹配件為銅片,其一端電性連接該檢測機,另一端則電性連接對應之訊號針。The probe card of claim 9 or 10, wherein the at least one matching component is a copper piece, one end of which is electrically connected to the detecting machine, and the other end of which is electrically connected to the corresponding signal pin. 如請求項11所述之探針卡,其中該至少一匹配件包含有多層之層層相疊的銅片,且各該銅片之間設有一絕緣層,該絕緣層用以使各該銅片彼此電氣絕緣;各該銅片之一端電性連接該檢測機,另一端電性連接對應之訊號針。The probe card of claim 11, wherein the at least one matching component comprises a plurality of layers of copper sheets stacked one on another, and an insulating layer is disposed between the copper sheets, the insulating layer is used to make each of the copper layers The sheets are electrically insulated from each other; one end of each of the copper sheets is electrically connected to the detecting machine, and the other end is electrically connected to the corresponding signal pin. 如請求項11所述之探針卡,其中該銅片具有至少一切槽。The probe card of claim 11, wherein the copper sheet has at least all of the grooves. 9或10所述之探針卡,其中該至少一匹配件為多蕊絞線、軟性電路板或者是同軸纜線,其一端電性連接該檢測機,另一端則電性連接對應之訊號針。The probe card of claim 9 or 10, wherein the at least one matching component is a multi-core stranded wire, a flexible circuit board or a coaxial cable, one end of which is electrically connected to the detecting machine, and the other end is electrically connected to the corresponding signal pin. . 如請求項8所述之探針卡,其中該預定誤差百分比為10%。The probe card of claim 8, wherein the predetermined error percentage is 10%.
TW104205551U 2015-04-14 2015-04-14 Probe card TWM510463U (en)

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Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
TWI580969B (en) * 2015-04-14 2017-05-01 Mpi Corp Probe card
TWI645195B (en) * 2017-11-14 2018-12-21 旺矽科技股份有限公司 Probe card

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
TWI580969B (en) * 2015-04-14 2017-05-01 Mpi Corp Probe card
TWI645195B (en) * 2017-11-14 2018-12-21 旺矽科技股份有限公司 Probe card

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