TWI642947B - A cable detecting device and method thereof - Google Patents

A cable detecting device and method thereof Download PDF

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TWI642947B
TWI642947B TW106102166A TW106102166A TWI642947B TW I642947 B TWI642947 B TW I642947B TW 106102166 A TW106102166 A TW 106102166A TW 106102166 A TW106102166 A TW 106102166A TW I642947 B TWI642947 B TW I642947B
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processing module
signal
signal receiving
detection
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TW201827839A (en
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蘇裕勝
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西柏科技股份有限公司
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Abstract

本案係提供一種線材檢測裝置及其方法,該裝置包括信號產生模組以及信號接收與處理模組,其中信號接收與處理模組包括運算模組與均衡器,且信號接收與處理模組藉由待測線材接收信號產生模組之測試信號,而產生複數檢測參數值。再者,運算模組運算該些檢測參數值中之至少部分檢測參數值而產生一運算結果。其中,運算結果符合複數基準條件中之一者,而使信號接收與處理模組產生一檢測結果,抑或均衡器產生至少一動態補償值而重新產生另一複數檢測參數值中之至少部分檢測參數值,進而產生之另一運算結果符合該些基準條件中之另一者,而產生另一檢測結果。 The present invention provides a wire detecting device and a method thereof, the device comprising a signal generating module and a signal receiving and processing module, wherein the signal receiving and processing module comprises a computing module and an equalizer, and the signal receiving and processing module is The wire to be tested receives the test signal of the signal generating module, and generates a complex detection parameter value. Furthermore, the computing module calculates at least a portion of the detected parameter values to generate an operation result. Wherein, the operation result meets one of the complex reference conditions, and the signal receiving and processing module generates a detection result, or the equalizer generates at least one dynamic compensation value to regenerate at least part of the detection parameters of the other complex detection parameter value. The value, and thus another computed result, meets the other of the reference conditions to produce another test result.

Description

一種線材檢測裝置及其方法 Wire detecting device and method thereof

本發明係關於一種線材檢測裝置及其方法,特別係符合高畫質多媒體介面之規範。 The present invention relates to a wire detecting device and a method thereof, and in particular to a specification conforming to a high-definition multimedia interface.

由於,近年來高畫質多媒體介面(High Definition Multimedia Interface,HDMI)已成為各種影音輸出入裝置之主要的影音傳輸介面。因此,為針對使用高畫質多媒體介面纜線的需求,廠商必須檢測各種不同品質與效能之HDMI纜線,以識別使用者需求與價位範圍。 In recent years, the High Definition Multimedia Interface (HDMI) has become the main audio and video transmission interface for various audio and video input and output devices. Therefore, in order to meet the demand for high-quality multimedia interface cables, manufacturers must detect HDMI cables of various quality and performance to identify user needs and price ranges.

其中,習知之HDMI纜線係藉由網路分析儀進行眼圖測試(Eye Diagram Test),而眼圖係為一種以時間序列的分析工具,使測試結果能夠清楚顯示時間和訊號強度的誤差,藉此而得以分析評估纜線的品質與效能。 Among them, the conventional HDMI cable is an Eye Diagram Test by a network analyzer, and the eye diagram is a time series analysis tool, so that the test result can clearly show the error of time and signal intensity. This allows analysis and evaluation of cable quality and performance.

再者,眼圖測試係為纜線(cable)之電氣測試,藉由網路分析儀分析後而呈現之眼圖,得以辨識最大抖動以及電壓強度誤差的指標,並依據眼圖的形狀來判定HDMI纜線的品質與效能。 Furthermore, the eye diagram test is an electrical test of a cable. The eye diagram presented by the network analyzer is used to identify the maximum jitter and the voltage intensity error, and is determined according to the shape of the eye diagram. The quality and performance of HDMI cables.

然而,習知之眼圖測試仍有許多缺失。舉例說明,測試HDMI纜線品質時所耗用的時間過長(檢測時間過長),檢測時間需要數小時以上。再者,由於眼圖係疊加複數觸發信號所產生之複數畫面,從而以一使用者介面(User Interface,UI)顯示該眼圖,因此在觸發的過程中易造成網路分析儀本身的觸發抖動亦納入眼圖中,因此造成檢測精準度的下降。且,如何準確地同步觸發,以使每次觸發的數值排列於相對應之觸發點。 However, there are still many shortcomings in the conventional eye diagram test. For example, the time taken to test the quality of the HDMI cable is too long (the detection time is too long), and the detection time takes several hours or more. Furthermore, since the eye diagram is superimposed with a plurality of trigger signals generated by the plurality of trigger signals, the eye diagram is displayed by a user interface (UI), so that the triggering jitter of the network analyzer itself is easily caused during the triggering process. Also included in the eye diagram, resulting in a decrease in detection accuracy. And, how to accurately synchronize the triggers so that the value of each trigger is arranged at the corresponding trigger point.

如此一來,如何能降低檢測成本、有效率的縮短檢測時間以及提升檢測HDMI纜線品質的精準度,即為目前所需解決的問題。 In this way, how to reduce the cost of detection, effectively reduce the detection time, and improve the accuracy of detecting the quality of the HDMI cable is the problem that needs to be solved.

本發明之目的在於提供一種線材檢測裝置及其方法,以解決習知技術的問題。 It is an object of the present invention to provide a wire detecting device and method thereof to solve the problems of the prior art.

為了達到上述目的,本發明提供之一種線材檢測裝置,其包括:一信號產生模組,用以提供一測試信號;以及一信號接收與處理模組,至少包括一均衡器與一運算模組,該信號接收與處理模組藉由一待測線材電性連接該信號產生模組,以接收該測試信號並因應產生複數檢測參數值,且該運算模組輸入該些檢測參數值中之至少部分檢測參數值以產生一運算結果;其中,因應該運算結果符合複數基準條件中之一者時,使該信號接收與處理模組產生一檢測結果,抑或因應該運算結果不符合該些基準條件中之該者時,使該均衡器產生至少一動態補償值,並使該信號接收與處理模組因應該至少一動態補償值而產生另一複數檢測參數值,且進而使該運算模組運算 致得另一運算結果,從而重新確認該另一運算結果是否符合該些基準條件中之另一者。 In order to achieve the above object, the present invention provides a wire detecting device comprising: a signal generating module for providing a test signal; and a signal receiving and processing module comprising at least an equalizer and an arithmetic module. The signal receiving and processing module is electrically connected to the signal generating module by a wire to be tested to receive the test signal and generate a plurality of detecting parameter values, and the computing module inputs at least a part of the detected parameter values. Detecting a parameter value to generate an operation result; wherein, when the operation result meets one of the complex reference conditions, the signal receiving and processing module generates a detection result, or the operation result does not meet the reference conditions In this case, the equalizer generates at least one dynamic compensation value, and the signal receiving and processing module generates another complex detection parameter value according to at least one dynamic compensation value, and further causes the operation module to operate. Another result of the operation is obtained, thereby reconfirming whether the other operation result meets the other of the reference conditions.

較佳者,該些檢測參數值係該信號接收與處理模組依據一高畫質多媒體介面協定規範而產生;其中,該高畫質多媒體介面包括複數傳輸通道介面。 Preferably, the detection parameter values are generated by the signal receiving and processing module according to a high-definition multimedia interface protocol specification; wherein the high-quality multimedia interface comprises a complex transmission channel interface.

較佳者,其中,該至少部分檢測參數值中之任一者係為該信號接收與處理模組因應該高畫質多媒體介面協定規範中之一特性錯誤檢測程序,以對應該些傳輸通道介面中之任一傳輸通道介面而所產生相對應之一資料錯誤率參數值。 Preferably, any one of the at least partial detection parameter values is a characteristic error detection procedure of the signal receiving and processing module according to a high-definition multimedia interface protocol specification, to correspond to some transmission channel interfaces. One of the corresponding transmission channel interfaces produces a corresponding data error rate parameter value.

較佳者,其中,該些傳輸通道介面包括三個傳輸通道介面,且該三個傳輸通道介面分別具有相對應之一第一通道資料錯誤率參數值、一第二通道資料錯誤率參數值以及一第三通道資料率錯誤參數值。 Preferably, the transmission channel interfaces comprise three transmission channel interfaces, and the three transmission channel interfaces respectively have a corresponding one channel first data error rate parameter value, a second channel data error rate parameter value, and A third channel data rate error parameter value.

較佳者,其中,該運算結果係為該些檢測參數值中之至少部分檢測參數值的加總。 Preferably, the operation result is a sum of at least a part of the detection parameter values of the detection parameter values.

較佳者,其中,該均衡器係為還原或放大因該待測線材而衰減之該測試信號。 Preferably, the equalizer is for reducing or amplifying the test signal attenuated by the wire to be tested.

較佳者,其中,該測試信號係為一影像測試信號。 Preferably, the test signal is an image test signal.

較佳者,更包括一影像傳輸輸出接口,電性連接該信號接收與處理模組,該影像傳輸輸出接口用以電性連接一顯示裝置。 Preferably, the image transmission output interface is electrically connected to the signal receiving and processing module, and the image transmission output interface is electrically connected to a display device.

較佳者,其中,該顯示裝置藉以一使用者介面顯示該些檢測參數值以及該檢測結果,抑或顯示該另一些檢測參數值、該至少一動態補償值以及該另一檢測結果。 Preferably, the display device displays the detection parameter values and the detection result by a user interface, or displays the other detection parameter values, the at least one dynamic compensation value, and the other detection result.

較佳者,其中,該些基準條件更包括一第一基準 條件、一第二基準條件、一第三基準條件以及一第四基準條件,用以識別該待測線材之品質。 Preferably, wherein the reference conditions further comprise a first reference The condition, a second reference condition, a third reference condition, and a fourth reference condition are used to identify the quality of the wire to be tested.

此外,為了達到上述目的,本發明提供之一種線材檢測方法,其步驟至少包括:(A).傳輸一測試信號至一待測線材與一信號接收與處理模組;其中,該測試信號來自一信號產生模組,且該待測線材電連接於該信號產生模組與該信號接收與處理模組之間;(B).接收該測試信號,並使該信號接收與處理模組因應產生複數檢測參數值;(C).運算該些檢測參數值中之至少部分檢測參數值,而使該信號接收與處理模組因應產生一運算結果;(D).判斷該運算結果是否符合複數基準條件中之一者;其中,於該運算結果符合該些基準條件中之一者時,該信號接收與處理模組因應該運算結果,從而產生相對應之一檢測結果;(E).於該運算結果不符合該些基準條件中之一者時,驅使該信號接收與處理模組中之一均衡器以產生至少一動態補償值;(F).因應該至少一動態補償值,而使該信號接收與處理模組重新產生另一複數檢測參數值,以符合該些基準條件中之另一者;(G).因應該另一些檢測參數值,而使該信號接收與處理模組重新運算產生另一運算結果;以及(H).因應該另一運算結果,而使該信號接收與處理模組重新產生另一檢測結果。 In addition, in order to achieve the above object, the present invention provides a wire detecting method, the method comprising the steps of: (A) transmitting a test signal to a wire to be tested and a signal receiving and processing module; wherein the test signal is from a a signal generating module, wherein the wire to be tested is electrically connected between the signal generating module and the signal receiving and processing module; (B) receiving the test signal, and causing the signal receiving and processing module to generate a plurality of signals Detecting a parameter value; (C) calculating at least a part of the detected parameter values, and causing the signal receiving and processing module to generate an operation result; (D) determining whether the operation result meets a complex reference condition One of the following; wherein, when the operation result meets one of the reference conditions, the signal receiving and processing module responds to the result of the operation, thereby generating a corresponding one of the detection results; (E). If the result does not meet one of the reference conditions, driving the equalizer of the signal receiving and processing module to generate at least one dynamic compensation value; (F). due to at least one dynamic compensation value, The signal receiving and processing module regenerates another complex detection parameter value to meet the other of the reference conditions; (G). the signal receiving and processing module is re-invented due to other detection parameter values. The operation produces another result of the operation; and (H). The signal receiving and processing module regenerates another detection result in response to another operation result.

較佳者,該些檢測參數值係該信號接收與處理模組依據一高畫質多媒體介面協定規範而產生;其中,該高畫質多媒體介面包括複數傳輸通道介面。 Preferably, the detection parameter values are generated by the signal receiving and processing module according to a high-definition multimedia interface protocol specification; wherein the high-quality multimedia interface comprises a complex transmission channel interface.

較佳者,其中,該至少部分檢測參數值中之任一者係為該信號接收與處理模組因應該高畫質多媒體介面協定規範中之一特性錯誤檢測程序,以對應該些傳輸通道介面中之任一傳輸通道介面而所產生相對應之一資料錯誤率參數值。 Preferably, any one of the at least partial detection parameter values is a characteristic error detection procedure of the signal receiving and processing module according to a high-definition multimedia interface protocol specification, to correspond to some transmission channel interfaces. One of the corresponding transmission channel interfaces produces a corresponding data error rate parameter value.

較佳者,其中,該些傳輸通道介面包括三個傳輸通道介面,且該三個傳輸通道介面分別具有相對應之一第一通道資料錯誤率參數值、一第二通道資料錯誤率參數值以及一第三通道資料率錯誤參數值。 Preferably, the transmission channel interfaces comprise three transmission channel interfaces, and the three transmission channel interfaces respectively have a corresponding one channel first data error rate parameter value, a second channel data error rate parameter value, and A third channel data rate error parameter value.

較佳者,其中,該步驟(C)中之該運算結果係為該些檢測參數值中之至少部分檢測參數值的加總。 Preferably, the operation result in the step (C) is a sum of at least a part of the detection parameter values of the detection parameter values.

較佳者,其中,該步驟(C)中之該均衡器係為還原或放大因該待測線材而衰減之該測試信號。 Preferably, the equalizer in the step (C) is to reduce or amplify the test signal attenuated by the wire to be tested.

較佳者,其中,該測試信號係為一影像測試信號。 Preferably, the test signal is an image test signal.

較佳者,更包括一影像傳輸輸出接口,電性連接該信號接收與處理模組,該影像傳輸輸出接口用以電性連接一顯示裝置。 Preferably, the image transmission output interface is electrically connected to the signal receiving and processing module, and the image transmission output interface is electrically connected to a display device.

較佳者,其中,該顯示裝置藉以一使用者介面顯示該些檢測參數值以及該檢測結果,抑或顯示該另一些檢測參數值、該至少一動態補償值以及該另一檢測結果。 Preferably, the display device displays the detection parameter values and the detection result by a user interface, or displays the other detection parameter values, the at least one dynamic compensation value, and the other detection result.

較佳者,其中,該些基準條件更包括一第一基準條件、一第二基準條件、一第三基準條件以及一第四基準條件,用以識別該待測線材之品質。 Preferably, the reference conditions further include a first reference condition, a second reference condition, a third reference condition, and a fourth reference condition for identifying the quality of the wire to be tested.

10‧‧‧線材檢測裝置 10‧‧‧Wire detection device

100‧‧‧信號產生模組 100‧‧‧Signal Generation Module

200‧‧‧信號接收與處理模組 200‧‧‧Signal Receiving and Processing Module

210‧‧‧運算模組 210‧‧‧ Computing Module

220‧‧‧均衡器 220‧‧‧Equalizer

310‧‧‧信號輸出連接埠 310‧‧‧Signal output port埠

320‧‧‧信號輸入連接埠 320‧‧‧Signal input port埠

400‧‧‧影像傳輸輸出接口 400‧‧‧Image transmission output interface

500‧‧‧顯示裝置 500‧‧‧ display device

510‧‧‧使用者介面 510‧‧‧User interface

A‧‧‧測試信號 A‧‧‧ test signal

A1,A2,A3,A4‧‧‧因待測線材衰減之測試信號 A1, A2, A3, A4‧‧‧ Test signals due to the attenuation of the wire to be tested

B,B1,B2,B3,B4‧‧‧檢測參數值 B, B1, B2, B3, B4‧‧‧ test parameter values

C,C1,C2,C3,C4‧‧‧運算結果 C, C1, C2, C3, C4‧‧‧ results

D,D1,D2,D3,D4‧‧‧動態補償值 D, D1, D2, D3, D4‧‧‧ dynamic compensation value

E,E1,E2,E3,E4‧‧‧檢測結果 E, E1, E2, E3, E4‧‧‧ test results

L1,L2,L3,L4‧‧‧待測線材 L1, L2, L3, L4‧‧‧ wire to be tested

L1a,L2a,L3a,L4a‧‧‧待測線材之輸入端 L1a, L2a, L3a, L4a‧‧‧ input of the wire to be tested

L1b,L2b,L3b,L4b‧‧‧待測線材之輸出端 L1b, L2b, L3b, L4b‧‧‧ output of the wire to be tested

T‧‧‧檢測時間 T‧‧‧Test time

S11-S15‧‧‧圖2A之流程步驟 S11-S15‧‧‧Fig. 2A process steps

S21-S24‧‧‧圖2B之流程步驟 S21-S24‧‧‧Fig. 2B process steps

S31-S35‧‧‧圖3A之流程步驟 S31-S35‧‧‧Fig. 3A process steps

S41-S44‧‧‧圖3B之流程步驟 S41-S44‧‧‧Fig. 3B process steps

S51-S55‧‧‧圖3C之流程步驟 S51-S55‧‧‧Fig. 3C process steps

圖1A:係為本案之線材檢測裝置於一較佳實施例的方塊示意圖。 Fig. 1A is a block diagram showing a wire detecting device of the present invention in a preferred embodiment.

圖1B:係為圖1A所示該顯示裝置所呈現之使用者介面的畫面示意圖。 FIG. 1B is a schematic diagram of a user interface presented by the display device shown in FIG. 1A.

圖2A:係為本發明基本概念之線材檢測方法的流程圖。 Fig. 2A is a flow chart showing a wire detecting method which is a basic concept of the present invention.

圖2B:係為圖2A所示接續均衡器作動方法的流程圖。 FIG. 2B is a flow chart showing the operation method of the connected equalizer shown in FIG. 2A.

圖3A:係為圖1A所示之較佳實施例運用本案線材檢測方法的流程圖。 Fig. 3A is a flow chart showing the method of detecting the wire according to the preferred embodiment shown in Fig. 1A.

圖3B:係為圖3A所示之較佳實施例以第二基準條件識別待測線材的流程圖。 Figure 3B is a flow diagram of the preferred embodiment of Figure 3A identifying the wire to be tested with a second reference condition.

圖3C:係為圖3A所示之較佳實施例以第三基準條件及第四基準條件識別待測線材的流程圖。 3C is a flow chart showing the wire to be tested with the third reference condition and the fourth reference condition in the preferred embodiment shown in FIG. 3A.

以下係提出實施例進行詳細說明,實施例僅用以作為範例說明,並不會限縮本案欲保護之範圍。此外,實施例中之圖式係省略不必要或以通常技術即可完成之元件,以清楚顯示本案之技術特點。 The following is a detailed description of the embodiments, which are intended to be illustrative only and not to limit the scope of the invention. In addition, the drawings in the embodiments omit elements that are unnecessary or can be completed by the usual techniques to clearly show the technical features of the present invention.

請參閱圖1A及圖1B,圖1A係為本案之線材檢測裝置於一較佳實施例的方塊示意圖。圖1B係為圖1A所示該顯示裝置所呈現之使用者介面的畫面示意圖。 Please refer to FIG. 1A and FIG. 1B. FIG. 1A is a block diagram of a wire detecting device of the present invention in a preferred embodiment. FIG. 1B is a schematic diagram of a user interface presented by the display device shown in FIG. 1A.

如圖1A所示,首先說明本案係提供一種線材檢測裝置10,其至少包括信號產生模組100、信號接收與處理模組200、複數信號輸出連接埠310、複數信號輸入連接埠320以及影像傳輸輸出接口400;其中,信號產生模組100電性連接該些信號輸出連接埠310,信號接收與處理模組200電性連接該些信號輸入連接埠320,且信號接收與處理模組200更包括運算模組 210與均衡器220,影像傳輸輸出接口400用以電性連接並接收來自信號接收與處理模組200之複數檢測信號。 As shown in FIG. 1A, the present invention first provides a wire detecting device 10 including at least a signal generating module 100, a signal receiving and processing module 200, a complex signal output port 310, a complex signal input port 320, and image transmission. The signal output module 100 is electrically connected to the signal output ports 310, and the signal receiving and processing module 200 is electrically connected to the signal input ports 320, and the signal receiving and processing module 200 further includes Computing module The image transmission output interface 400 is used to electrically connect and receive the plurality of detection signals from the signal receiving and processing module 200.

此外,線材檢測裝置10之信號輸出連接埠310與信號輸入連接埠320用以分別電性連接複數待測線材L1,L2,L3,L4之輸入端L1a,L2a,L3a,L4a及輸出端L1b,L2b,L3b,L4b,以檢測該些待測線材L1,L2,L3,L4之品質與效能。且,線材檢測裝置10之影像傳輸輸出接口400用以電性連接一具有使用者介面510之顯示裝置500。 In addition, the signal output port 310 of the wire detecting device 10 and the signal input port 320 are electrically connected to the input terminals L1a, L2a, L3a, L4a and the output terminal L1b of the plurality of wires L1, L2, L3, and L4, respectively. L2b, L3b, L4b to detect the quality and performance of the wires L1, L2, L3, L4 to be tested. The image transmission output interface 400 of the wire detecting device 10 is electrically connected to a display device 500 having a user interface 510.

再者,信號產生模組100用以提供測試信號A,而信號接收與處理模組200用以接收因該些待測線材L1,L2,L3,L4而衰減之測試信號A1,A2,A3,A4。之後,顯示裝置500藉由影像傳輸輸出接口400接收因應該些測試信號A1,A2,A3,A4而產生複數檢測信號。 The signal generating module 100 is configured to provide the test signal A, and the signal receiving and processing module 200 is configured to receive the test signals A1, A2, and A3 that are attenuated by the wires L1, L2, L3, and L4 to be tested. A4. Thereafter, the display device 500 receives the complex detection signals by the image transmission output interface 400 according to the test signals A1, A2, A3, and A4.

如圖1A及圖1B所示,顯示裝置500之使用者介面510用以顯示該些檢測信號;其中,該些檢測信號至少包括相對應各待測線材L1,L2,L3,L4之複數檢測參數值B、運算結果C、動態補償值D以及檢測結果E。 As shown in FIG. 1A and FIG. 1B, the user interface 510 of the display device 500 is configured to display the detection signals; wherein the detection signals include at least a plurality of detection parameters corresponding to the wires L1, L2, L3, and L4 to be tested. Value B, operation result C, dynamic compensation value D, and detection result E.

接續說明本案之線材檢測裝置10如何檢測待測線材L1,L2,L3,L4之品質。首先,於本例中檢測待測線材之基準條件至少包括第一基準條件、第二基準條件、第三基準條件以及第四基準條件;其中,該些基準條件係分別為檢測結果E之優異(EXCELLENT)、良好(GOOD)、正常(NORMAL)與劣等(POOR)四種品質。 Next, how the wire detecting device 10 of the present invention detects the quality of the wires L1, L2, L3, and L4 to be tested. First, in the present example, the reference condition for detecting the wire to be tested includes at least a first reference condition, a second reference condition, a third reference condition, and a fourth reference condition; wherein the reference conditions are respectively excellent for the detection result E ( EXCELLENT), good (GOOD), normal (NORMAL) and inferior (POOR) four qualities.

請再搭配參閱圖2A及圖2B,分別係為本發明基本概念之線材檢測方法的流程圖以及接續均衡器作動方法的流程圖。以圖2A及圖2B來說明上述各元件的作動與連接關係。 Please refer to FIG. 2A and FIG. 2B together, which are respectively a flow chart of the wire detecting method of the basic concept of the present invention and a flow chart of the actuating method of the connecting equalizer. The operation and connection relationship of each of the above elements will be described with reference to Figs. 2A and 2B.

如圖1A至圖2B所示,將待測線材L1,L2,L3,L4之輸入端L1a,L2a,L3a,L4a及輸出端L1b,L2b,L3b,L4b分別電性連接線材檢測裝置10之信號輸出連接埠310與信號輸入連接埠320,並執行步驟S11:傳輸測試信號A經由待測線材L1,L2,L3,L4至信號接收與處理模組200;其中,測試信號A來自信號產生模組100,且待測線材L1,L2,L3,L4藉由信號輸出連接埠310與信號輸入連接埠320電性連接於信號產生模組100與信號接收與處理模組200之間;步驟S12:藉由待測線材L1,L2,L3,L4接收測試信號A1,A2,A3,A4,等待一檢測時間(T),例如:5秒、10秒、15秒、20秒或25秒,使得該信號接收與處理模組200因應產生複數檢測參數值B;步驟S13:藉由運算模組210運算該些檢測參數值B中之至少部分檢測參數值CH0,CH1,CH2,而使該信號接收與處理模組200因應產生一運算結果C;步驟S14:判斷該運算結果C是否符合前述該些基準條件中之一者。 As shown in FIG. 1A to FIG. 2B, the input terminals L1a, L2a, L3a, L4a and the output terminals L1b, L2b, L3b, L4b of the wires L1, L2, L3, and L4 to be tested are electrically connected to the signals of the wire detecting device 10, respectively. The output port 310 is connected to the signal input port 320, and step S11 is performed: transmitting the test signal A to the signal receiving and processing module 200 via the wires L1, L2, L3, and L4 to be tested; wherein the test signal A is from the signal generating module. 100, and the wires L1, L2, L3, and L4 to be tested are electrically connected between the signal generating module 100 and the signal receiving and processing module 200 through the signal output port 310 and the signal input port 320; Step S12: Receiving test signals A1, A2, A3, A4 from the wires L1, L2, L3, L4 to be tested, waiting for a detection time (T), for example: 5 seconds, 10 seconds, 15 seconds, 20 seconds or 25 seconds, so that the signal The receiving and processing module 200 generates a complex detection parameter value B; step S13: calculating, by the operation module 210, at least part of the detection parameter values CH0, CH1, CH2 of the detection parameter values B, so that the signal is received and processed. The module 200 generates an operation result C in response to the step S14: determining whether the operation result C meets one of the aforementioned reference conditions .

其中,於該運算結果C符合該些基準條件中之一者時,執行步驟S15:該信號接收與處理模組200因應該運算結果C,從而產生相對應之一檢測結果E;於該運算結果C不符合該些基準條件中之一者時,執行步驟S21:驅使該信號接收與處理模組200中之一均衡器220以產生至少一動態補償值D;步驟S22:因應該至少一動態補償值D,而使該信號接收與處理模組200重新產生另一複數檢測參數值B,以符合該些基準條件中之另一者;步驟S23:因應該另一些檢測參數值B,而使運算模組210重新運算產生另一運算結果C;以及步驟S24:因應該另一運算結果C,而使該信號接收與處理模組200重新產生另一檢測結果E。 When the operation result C meets one of the reference conditions, step S15 is executed: the signal receiving and processing module 200 generates a corresponding detection result E according to the operation result C; If the C does not meet one of the reference conditions, step S21 is performed to drive the equalizer 220 of the signal receiving and processing module 200 to generate at least one dynamic compensation value D; step S22: at least one dynamic compensation a value D, such that the signal receiving and processing module 200 regenerates another complex detection parameter value B to conform to the other of the reference conditions; and step S23: the operation is performed because the other parameter values B are detected. The module 210 recalculates to generate another operation result C; and step S24: the signal receiving and processing module 200 regenerates another detection result E in response to another operation result C.

請搭配參閱圖3A至圖3C,將以圖3A至圖3C更清 楚地說明,如何識別符合前述四種基準條件之待測線材的品質。 Please refer to Figure 3A to Figure 3C, which will be clearer with Figures 3A to 3C. Chu said how to identify the quality of the wire to be tested that meets the above four benchmark conditions.

請一併參閱圖1A、圖1B、圖3A至圖3C,首先,線材檢測裝置10之信號輸出連接埠310與信號輸入連接埠320分別電性連接四條待測線材L1,L2,L3,L4之輸入端L1a,L2a,L3a,L4a及輸出端L1b,L2b,L3b,L4b,用以使信號產生模組100經由輸入端L1a,L2a,L3a,L4a分別傳輸測試信號A至與信號接收與處理模組200電性連接之輸出端L1b,L2b,L3b,L4b,以檢測該些待測線材L1,L2,L3,L4符合複數基準條件中之一者,從而得以識別相對應該些基準條件中之該者的品質;其中,於本例中該測試信號A為影像測試信號,其係為一影像資料。 1A, FIG. 1B, and FIG. The input terminals L1a, L2a, L3a, L4a and the output terminals L1b, L2b, L3b, L4b are used for the signal generating module 100 to transmit the test signal A to the signal receiving and processing mode via the input terminals L1a, L2a, L3a, L4a, respectively. The output terminals L1b, L2b, L3b, L4b of the group 200 are electrically connected to detect that the wires to be tested L1, L2, L3, L4 meet one of the plurality of reference conditions, thereby being able to identify the corresponding reference conditions The quality of the test; wherein, in this example, the test signal A is an image test signal, which is an image data.

此外,如前所述該些基準條件中之第一基準條件係為優異(EXCELLENT),其判斷參數值為小於1000(<1000);第二基準條件係為良好(GOOD),其判斷參數值為小於100(<100);第三基準條件係為正常(NORMAL),其判斷參數值為小於10(<10);第四基準條件係為劣等(POOR),其判斷參數值為10,舉例說明,倘若判斷參數值大於10(>10)為劣等(POOR),但若是判斷參數值小於10(<10)則為正常(NORMAL)。 In addition, as described above, the first reference condition among the reference conditions is excellent (EXCELLENT), and the judgment parameter value is less than 1000 (<1000); the second reference condition is good (GOOD), and the judgment parameter value is determined. It is less than 100 (<100); the third reference condition is normal (NORMAL), and the judgment parameter value is less than 10 (<10); the fourth reference condition is inferior (POOR), and the judgment parameter value is 10, for example Note that if it is judged that the parameter value is greater than 10 (>10), it is inferior (POOR), but if it is judged that the parameter value is less than 10 (<10), it is normal (NORMAL).

也就是說,當運算結果C不符合該些基準條件中之一者時,將驅使該信號接收與處理模組200中之一均衡器220以產生至少一動態補償值D1,D2,D3,D4,以再次檢測而取得重新產生後之運算結果C1,C2,C3,C4,且再依據重新產生後之運算結果C1,C2,C3,C4進行判斷是否符合該些基準條件中之一者。因此,第一基準條件(EXCELLENT)、第二基準條件(GOOD)、第三基準條件(NORMAL)以及第四基準條件(POOR)係依據每次以重新產生之至少一動態補償值D1,D2,D3,D4,而 使該信號接收與處理模組200再次重新產生後之運算結果C1,C2,C3,C4以進行判斷。 That is, when the operation result C does not meet one of the reference conditions, the signal is received and processed by the equalizer 220 to generate at least one dynamic compensation value D1, D2, D3, D4. Then, the recalculated operation results C1, C2, C3, and C4 are obtained by re-detection, and based on the re-generated operation results C1, C2, C3, and C4, it is judged whether one of the reference conditions is met. Therefore, the first reference condition (EXCELLENT), the second reference condition (GOOD), the third reference condition (NORMAL), and the fourth reference condition (POOR) are based on at least one dynamic compensation value D1, D2 that is regenerated each time. D3, D4, and The signal reception and processing module 200 is again regenerated to calculate the results C1, C2, C3, and C4 for determination.

如此一來,當該信號接收與處理模組200第一次產生之運算結果C1其判斷參數值為小於1000(<1000),則判斷為優異(EXCELLENT),第二次重新產生後之運算結果C2其判斷參數值為小於100(<100),則判斷為良好(GOOD),第三次重新產生後之運算結果C3其判斷參數值為小於10,則判斷為正常(NORMAL),反之,倘若第三次重新產生後之運算結果C3大於10,不符合正常(NORMAL)之第三基準條件,則判斷為劣等(POOR)。當然,亦可再依據第四次重新產生後之運算結果C4進行判斷待測線材L1,L2,L3,L4的品質。 In this way, when the operation result C1 generated by the signal receiving and processing module 200 for the first time has a judgment parameter value of less than 1000 (<1000), it is judged to be excellent (EXCELLENT), and the operation result after the second re-generation is obtained. If the judgment parameter value of C2 is less than 100 (<100), it is judged to be good (GOOD), and the operation result C3 after the third re-generation is judged to be normal (NORMAL) if the judgment parameter value is less than 10, and vice versa. The operation result C3 after the third re-generation is greater than 10, and if it does not meet the third (3) reference condition of normal (NORMAL), it is judged to be inferior (POOR). Of course, the quality of the wires L1, L2, L3, and L4 to be tested may be determined according to the calculation result C4 after the fourth re-generation.

當然,該些基準條件的設定不應以本例為限制,可依實際檢測線材品質的需求而區分。且,上述之各判斷參數值可為熟悉本技藝之人士進行各種均等的變更或設計,亦均屬本案之權利保護範圍內。 Of course, the setting of these reference conditions should not be limited by this example, and can be distinguished according to the actual needs of detecting the quality of the wire. Moreover, each of the above-mentioned judgment parameter values may be variously changed or designed by those skilled in the art, and are also within the scope of the present invention.

特別說明的是,由於測試信號A因經由不同之待測線材L1,L2,L3,L4傳輸而衰減其信號強度,因而使信號接收與處理模組200對應不同之待測線材L1,L2,L3,L4而分別接收不同之測試信號A1,A2,A3,A4。因此,藉由接收不同信號強度之測試信號A1,A2,A3,A4與均衡器220兩者相應的調配(配置),從而識別相對應之待測線材L1,L2,L3,L4的品質。 In particular, since the test signal A attenuates its signal strength by transmitting through different wires L1, L2, L3, and L4, the signal receiving and processing module 200 corresponds to different wires L1, L2, and L3 to be tested. , L4 and receive different test signals A1, A2, A3, A4. Therefore, the quality of the corresponding wire L1, L2, L3, L4 to be tested is identified by receiving the corresponding configuration (configuration) of the test signals A1, A2, A3, A4 and the equalizer 220 of different signal strengths.

進一步說明,均衡器220係為還原或放大因該待測線材L1,L2,L3,L4而衰減之該測試信號A1,A2,A3,A4,而動態補償值D係為該均衡器220還原或放大該測試信號A1,A2,A3,A4信號強度位階之參數值,例如:當動態補償值D為9,其表示均衡器220為提供最低信號強度的位階;反之,若動態補償值 D為0時,其表示均衡器220為提供最高信號強度的位階。當然,此動態補償值D的設定與定義可依使用者需求或系統需求而變更設計,不以本例為限制。 Further, the equalizer 220 is configured to restore or amplify the test signals A1, A2, A3, and A4 attenuated by the wires L1, L2, L3, and L4 to be tested, and the dynamic compensation value D is the equalizer 220 restore or Amplifying the parameter values of the signal intensity levels of the test signals A1, A2, A3, and A4, for example, when the dynamic compensation value D is 9, which indicates that the equalizer 220 is the level that provides the lowest signal strength; otherwise, if the dynamic compensation value is When D is 0, it indicates that the equalizer 220 is the level that provides the highest signal strength. Of course, the setting and definition of the dynamic compensation value D can be changed according to user requirements or system requirements, and is not limited by this example.

詳言之,先舉待測線材L1來說明其品質。如圖1A、圖1B及圖3A所示,步驟S31:信號產生模組100經由待測線材L1傳輸一測試信號A至信號接收與處理模組200;步驟S32:此時等待一檢測時間(T),例如:10秒,以供均衡器220因提供最低信號強度位階而產生第一動態補償D1為9,因應所接收之測試信號A1以及均衡器220提供最低信號強度位階,而產生複數檢測參數值;步驟S33:信號接收與處理模組200中之運算模組210,加總該些檢測參數值中之至少部分檢測參數值B1,而產生一運算結果C1;步驟S34:判斷運算結果C1是否符合第一基準條件。 In detail, the wire L1 to be tested is first mentioned to explain its quality. As shown in FIG. 1A, FIG. 1B and FIG. 3A, the signal generating module 100 transmits a test signal A to the signal receiving and processing module 200 via the wire L1 to be tested; step S32: waiting for a detection time (T) For example, 10 seconds, for the equalizer 220 to generate the first dynamic compensation D1 of 9 due to the provision of the lowest signal strength level, corresponding to the received test signal A1 and the equalizer 220 providing the lowest signal strength level, and generating complex detection parameters Step S33: The operation module 210 in the signal receiving and processing module 200 adds at least part of the detected parameter values B1 to generate an operation result C1; Step S34: determines whether the operation result C1 is Meet the first benchmark conditions.

於步驟S33,如圖1B所示,至少部分檢測參數值B1至少包括第一檢測參數值(CH0)、第二檢測參數值(CH1)以及第三檢測參數值(CH2);其中,第一檢測參數值(CH0)為0,第二檢測參數值(CH1)為26,第三檢測參數值(CH2)為555,而運算模組210將三個檢測參數值(CH0)(CH1)(CH2)加總後而產生運算結果C1為581。接著,執行步驟S34判斷運算結果C1是否符合第一基準條件,其係為運算結果C1為581是否小於判斷參數值1000。 In step S33, as shown in FIG. 1B, the at least partially detected parameter value B1 includes at least a first detected parameter value (CH0), a second detected parameter value (CH1), and a third detected parameter value (CH2); wherein, the first detection The parameter value (CH0) is 0, the second detection parameter value (CH1) is 26, the third detection parameter value (CH2) is 555, and the operation module 210 will have three detection parameter values (CH0) (CH1) (CH2). After the summation, the operation result C1 is 581. Next, step S34 is executed to determine whether the operation result C1 meets the first reference condition, which is whether the operation result C1 is 581 or less than the determination parameter value 1000.

因應步驟S34之運算結果為符合第一基準條件,因此執行步驟S35:信號接收與處理模組200產生第一檢測結果E1為優異(EXCELLENT),而顯示裝置500之使用者介面510則於待測線材L1之檢測結果E1的欄位中顯示為優異(EXCELLENT),如圖1B所示。 The result of the operation in the step S34 is that the first reference condition is met. Therefore, the step S35 is performed: the signal receiving and processing module 200 generates the first detection result E1 is excellent (EXCELLENT), and the user interface 510 of the display device 500 is in the test. The result of the detection result E1 of the wire L1 is shown as excellent (EXCELLENT) as shown in FIG. 1B.

另一方面,倘若步驟S34之運算結果為未符合第一基準條件時,將接續圖3B之流程步驟如下。請接續搭配參閱圖3B,將以待測線材L2來說明其品質。線材檢測裝置10執行步驟S41:等待一檢測時間(T),例如:15秒,以驅使均衡器220產生第二動態補償值D2,再以重新產生第二複數檢測參數值;步驟S42:運算模組210加總第二該些檢測參數值中之至少部分檢測參數值B2而產生第二運算結果C2;步驟S43:判斷第二運算結果C2是否符合第二基準條件。 On the other hand, if the result of the operation of step S34 is that the first reference condition is not met, the flow of the process subsequent to FIG. 3B will be as follows. Please refer to Figure 3B for the connection. The quality of the wire L2 to be tested will be explained. The wire detecting device 10 performs step S41: waiting for a detection time (T), for example, 15 seconds, to drive the equalizer 220 to generate the second dynamic compensation value D2, and then regenerating the second complex detection parameter value; step S42: operation mode The group 210 adds at least a part of the second detection parameter values B2 to generate a second operation result C2; and step S43: determines whether the second operation result C2 meets the second reference condition.

於步驟S42,至少部分檢測參數值B2之第一檢測參數值(CH0)、第二檢測參數值(CH1)以及第三檢測參數值(CH2);其中,第一檢測參數值(CH0)為43,第二檢測參數值(CH1)為23,第三檢測參數值(CH2)為5,而運算模組210將三個檢測參數值(CH0)(CH1)(CH2)加總後而產生運算結果C2為71。接著,執行步驟S43判斷第二運算結果C2是否符合第二基準條件,其係為運算結果C2為71是否小於判斷參數值100。 In step S42, the first detection parameter value (CH0), the second detection parameter value (CH1), and the third detection parameter value (CH2) of the parameter value B2 are at least partially detected; wherein the first detection parameter value (CH0) is 43 The second detection parameter value (CH1) is 23, and the third detection parameter value (CH2) is 5, and the operation module 210 adds up the three detection parameter values (CH0) (CH1) (CH2) to generate an operation result. C2 is 71. Next, step S43 is executed to determine whether the second operation result C2 meets the second reference condition, which is whether the operation result C2 is 71 or less than the determination parameter value 100.

因應步驟S43之運算結果為符合第二基準條件,因此執行步驟S44:信號接收與處理模組200產生第二檢測結果E2為良好(GOOD),而顯示裝置500之使用者介面510則於待測線材L2之檢測結果E2的欄位中顯示為良好(GOOD)。 The result of the operation in step S43 is that the second reference condition is met. Therefore, step S44 is performed: the signal receiving and processing module 200 generates the second detection result E2 as good (GOOD), and the user interface 510 of the display device 500 is in the test. The result of the detection result E2 of the wire L2 is shown as good (GOOD).

另一方面,倘若步驟S43之運算結果為未符合第二基準條件時,將接續圖3C之流程步驟如下。請接續搭配參閱圖3C,將以待測線材L3,L4來說明其品質。線材檢測裝置10執行步驟S51:等待一檢測時間(T),例如:20秒,驅使均衡器220產生第三動態補償值D3,以重新產生第三複數檢測參數值;步驟S52:運算模組210加總第三該些檢測參數值中之至少部分檢測參數值B3而產生第三運算結果C3;步驟S53:判斷第三運算結果C3是否符合第三基準條件。 On the other hand, if the result of the operation in step S43 is that the second reference condition is not met, the flow of the process subsequent to FIG. 3C is as follows. Please refer to Figure 3C for the connection. The quality of the wire L3, L4 to be tested will be explained. The wire detecting device 10 performs step S51: waiting for a detection time (T), for example, 20 seconds, driving the equalizer 220 to generate a third dynamic compensation value D3 to regenerate the third complex detection parameter value; step S52: the operation module 210 And summing at least part of the third detection parameter values to generate a third operation result C3; and step S53: determining whether the third operation result C3 meets the third reference condition.

於步驟S52,至少部分檢測參數值B3之第一檢測參數值(CH0)、第二檢測參數值(CH1)以及第三檢測參數值(CH2);其中,第一檢測參數值(CH0)為3,第二檢測參數值(CH1)為1,第三檢測參數值(CH2)為1,而運算模組210將三個檢測參數值(CH0)(CH1)(CH2)加總後而產生運算結果C3為5。接著,執行步驟S53判斷第三運算結果C3是否符合第三基準條件,其係為運算結果C3為5是否小於判斷參數值10。 In step S52, the first detection parameter value (CH0), the second detection parameter value (CH1), and the third detection parameter value (CH2) of the parameter value B3 are at least partially detected; wherein the first detection parameter value (CH0) is 3 The second detection parameter value (CH1) is 1, and the third detection parameter value (CH2) is 1, and the operation module 210 adds the three detection parameter values (CH0) (CH1) (CH2) to generate an operation result. C3 is 5. Next, step S53 is executed to determine whether the third operation result C3 meets the third reference condition, which is whether the operation result C3 is 5 or less than the determination parameter value 10.

因應步驟S53之運算結果為符合第三基準條件,因此執行步驟S54:信號接收與處理模組200產生第三檢測結果E3為正常(NORMAL),而顯示裝置500之使用者介面510則於待測線材L3之檢測結果E3的欄位中顯示為正常(NORMAL)。 Step S54: The signal receiving and processing module 200 generates the third detection result E3 as normal (NORMAL), and the user interface 510 of the display device 500 is in the test. The detection result of the wire L3 is shown as normal in the field of E3 (NORMAL).

反之,倘若步驟S53之運算結果為未符合第三基準條件時,請參閱圖1B,信號接收與處理模組200可相同地依據上述之流程,等待一檢測時間(T),例如:20秒,以驅使均衡器220產生最高信號強度位階之第四動態補償值D4為0,並依序先前步驟取得第四複數檢測參數值之至少部分檢測參數值B4,如圖1B中待測線材L4欄位所示之17,4,3,再取得第四運算結果C4為24。 On the other hand, if the result of the operation in step S53 is that the third reference condition is not met, referring to FIG. 1B, the signal receiving and processing module 200 can wait for a detection time (T) according to the above process, for example, 20 seconds. The fourth dynamic compensation value D4 for driving the equalizer 220 to generate the highest signal strength level is 0, and the at least partial detection parameter value B4 of the fourth complex detection parameter value is obtained in the previous step, as shown in FIG. 1B. 17, 4, and 3 are shown, and the fourth operation result C4 is 24 again.

之後,判斷第四運算結果C4為24是否為第四基準條件之判斷參數值為10的範圍內,因應第四運算結果C4為24大於判斷參數值為10,而得以判定待測線材L4之第四檢測結果E4係為劣等(POOR)。當然,倘若第四運算結果C4為小於判斷參數值10,則可判定待測線材L4之第四檢測結果E4係為正常(NORMAL)。 After that, it is judged whether the fourth operation result C4 is within the range of whether the judgment parameter value of the fourth reference condition is 10 or not, and the fourth operation result C4 is 24 or more than the judgment parameter value of 10, and the wire L4 to be tested is determined. The fourth test result E4 is inferior (POOR). Of course, if the fourth operation result C4 is less than the determination parameter value 10, it can be determined that the fourth detection result E4 of the wire L4 to be tested is normal (NORMAL).

抑或,如同圖3C所示,於步驟S53:判斷第三運算結果C3為未符合第三基準條件時,則可直接執行步驟S55: 信號接收與處理模組200產生第四檢測結果E4,而第四檢測結果E4係為劣等(POOR),如圖1B所示之待測線材L4。 Or, as shown in FIG. 3C, in step S53: determining that the third operation result C3 is not in compliance with the third reference condition, step S55 may be directly performed: The signal receiving and processing module 200 generates a fourth detection result E4, and the fourth detection result E4 is inferior (POOR), as shown in FIG. 1B, the wire L4 to be tested.

要特別說明的是,前述之該些檢測參數值係由信號接收與處理模組220依據一高畫質多媒體介面(High Definition Multimedia Interface,HDMI)協定規範而產生,例如:高畫質多媒體介面(HMDI)協定規範2.0以上的版本;其中,該高畫質多媒體介面包括複數傳輸通道介面。 It should be particularly noted that the foregoing detection parameter values are generated by the signal receiving and processing module 220 according to a High Definition Multimedia Interface (HDMI) protocol specification, for example, a high-definition multimedia interface ( The HMDI) protocol specification is 2.0 or higher; wherein the high quality multimedia interface includes a complex transmission channel interface.

再者,該至少部分檢測參數值B,B1,B2,B3,B4中之任一者係為信號接收與處理模組220因應該高畫質多媒體介面(HDMI)協定規範中之一特性錯誤檢測(Character Error Detection)程序,以對應該些傳輸通道介面中之任一傳輸通道介面而所產生相對應之一資料錯誤率參數值(Data Error Rate)。 Furthermore, the at least part of the detection parameter values B, B1, B2, B3, B4 is a signal reception and processing module 220 responsive to one of the characteristics of the High Definition Multimedia Interface (HDMI) protocol specification. (Character Error Detection) program, which corresponds to one of the transmission channel interfaces of any of the transmission channel interfaces to generate a data error rate parameter value (Data Error Rate).

因此,該些傳輸通道介面包括三個傳輸通道介面,且該三個傳輸通道介面分別具有對應一第一通道資料錯誤率參數值(CH0)、一第二通道資料錯誤率參數值(CH1)以及一第三通道資料率錯誤參數值(CH2)。 Therefore, the transmission channel interfaces include three transmission channel interfaces, and the three transmission channel interfaces respectively have a first channel data error rate parameter value (CH0), a second channel data error rate parameter value (CH1), and A third channel data rate error parameter value (CH2).

由以上描述可知,本案之第一檢測參數值、第二檢測參數值以及第三檢測參數值即為第一通道資料錯誤率參數值(CH0)、第二通道資料錯誤率參數值(CH1)以及第三通道資料率錯誤參數值(CH2)。由此,本案主要藉由三個通道資料率錯誤參數值(CH0)(CH1)(CH2)的加總,以及均衡器220提供所接收之測試信號A1,A2,A3,A4的信號強度位階,得以依據複數基準條件而判斷待測線材L1,L2,L3,L4的品質,從而達到降低檢測成本、有效率的縮短檢測時間(T)以及提升檢測HDMI纜線品質的精準度。 It can be seen from the above description that the first detection parameter value, the second detection parameter value and the third detection parameter value in the present case are the first channel data error rate parameter value (CH0), the second channel data error rate parameter value (CH1), and The third channel data rate error parameter value (CH2). Thus, the present invention mainly provides the sum of the three channel data rate error parameter values (CH0) (CH1) (CH2), and the equalizer 220 provides the signal strength levels of the received test signals A1, A2, A3, A4. It is possible to judge the quality of the wires L1, L2, L3, and L4 to be tested according to the plural reference conditions, thereby reducing the detection cost, effectively reducing the detection time (T), and improving the accuracy of detecting the quality of the HDMI cable.

以上所述僅為本發明之較佳實施例,並非用以限 定本發明之申請專利範圍,因此凡其它未脫離本發明所揭示之精神下所完成之等效改變或修飾,均應包含於本案之申請專利範圍內。 The above description is only a preferred embodiment of the present invention, and is not intended to be limited. The scope of the invention is to be construed as being limited by the scope of the invention.

Claims (20)

一種線材檢測裝置,其包括:一信號產生模組,用以提供一測試信號;以及一信號接收與處理模組,至少包括一均衡器與一運算模組,該信號接收與處理模組藉由一待測線材電性連接該信號產生模組,以接收該測試信號並因應產生複數檢測參數值,且該運算模組輸入該些檢測參數值中之至少部分檢測參數值以產生一運算結果;其中,因應該運算結果符合複數基準條件中之一者時,使該信號接收與處理模組產生一檢測結果,抑或因應該運算結果不符合該些基準條件中之該者時,使該均衡器產生至少一動態補償值,並使該信號接收與處理模組因應該至少一動態補償值而產生另一複數檢測參數值,且進而使該運算模組運算致得另一運算結果,從而重新確認該另一運算結果是否符合該些基準條件中之另一者。 A wire detecting device includes: a signal generating module for providing a test signal; and a signal receiving and processing module comprising at least an equalizer and a computing module, wherein the signal receiving and processing module is The signal to be tested is electrically connected to the signal generating module to receive the test signal and generate a plurality of detection parameter values, and the operation module inputs at least part of the detection parameter values to generate an operation result; Wherein, when the operation result meets one of the plural reference conditions, the signal receiving and processing module generates a detection result, or the equalizer is caused by the result of the operation not meeting the one of the reference conditions Generating at least one dynamic compensation value, and causing the signal receiving and processing module to generate another complex detection parameter value according to at least one dynamic compensation value, and further causing the operation module to perform another operation result, thereby reconfirming Whether the other operation result meets the other of the reference conditions. 如申請專利範圍第1項所述之裝置,該些檢測參數值係該信號接收與處理模組依據一高畫質多媒體介面協定規範而產生;其中,該高畫質多媒體介面包括複數傳輸通道介面。 The apparatus of claim 1, wherein the value of the detection parameter is generated by the signal receiving and processing module according to a high-definition multimedia interface specification; wherein the high-quality multimedia interface comprises a plurality of transmission channel interfaces. . 如申請專利範圍第2項所述之裝置,其中,該至少部分檢測參數值中之任一者係為該信號接收與處理模組因應該高畫質多媒體介面協定規範中之一特性錯誤檢測程序,以對應該些傳輸通道介面中之任一傳輸通道介面而所產生相對應之一資料錯誤率參數值。 The device of claim 2, wherein any one of the at least partially detected parameter values is a characteristic error detecting program of the signal receiving and processing module in response to a high-definition multimedia interface protocol specification. A corresponding data error rate parameter value generated corresponding to any one of the transmission channel interfaces. 如申請專利範圍第3項所述之裝置,其中,該些傳輸通道 介面包括三個傳輸通道介面,且該三個傳輸通道介面分別具有相對應之一第一通道資料錯誤率參數值、一第二通道資料錯誤率參數值以及一第三通道資料率錯誤參數值。 The device of claim 3, wherein the transmission channels The interface includes three transmission channel interfaces, and the three transmission channel interfaces respectively have a corresponding one of the first channel data error rate parameter values, a second channel data error rate parameter value, and a third channel data rate error parameter value. 如申請專利範圍第1項所述之裝置,其中,該運算結果係為該些檢測參數值中之至少部分檢測參數值的加總。 The device of claim 1, wherein the result of the operation is a sum of at least a portion of the detected parameter values. 如申請專利範圍第1項所述之裝置,其中,該均衡器係為還原或放大因該待測線材而衰減之該測試信號。 The device of claim 1, wherein the equalizer is to reduce or amplify the test signal attenuated by the wire to be tested. 如申請專利範圍第1項所述之裝置,其中,該測試信號係為一影像測試信號。 The device of claim 1, wherein the test signal is an image test signal. 如申請專利範圍第1項所述之裝置,更包括一影像傳輸輸出接口,電性連接該信號接收與處理模組,該影像傳輸輸出接口用以電性連接一顯示裝置。 The device of claim 1, further comprising an image transmission and output interface electrically connected to the signal receiving and processing module, wherein the image transmission output interface is electrically connected to a display device. 如申請專利範圍第8項所述之裝置,其中,該顯示裝置藉以一使用者介面顯示該些檢測參數值以及該檢測結果,抑或顯示該另一些檢測參數值、該至少一動態補償值以及該另一檢測結果。 The device of claim 8, wherein the display device displays the detection parameter values and the detection result by a user interface, or displays the other detection parameter values, the at least one dynamic compensation value, and the Another test result. 如申請專利範圍第1項所述之裝置,其中,該些基準條件更包括一第一基準條件、一第二基準條件、一第三基準條件以及一第四基準條件,用以識別該待測線材之品質。 The device of claim 1, wherein the reference conditions further include a first reference condition, a second reference condition, a third reference condition, and a fourth reference condition for identifying the test condition The quality of the wire. 一種線材檢測方法,其步驟至少包括:(A).傳輸一測試信號至一待測線材與一信號接收與處理模組;其中,該測試信號來自一信號產生模組,且該待測線材電連接於該信號產生模組與該信號接收與處理模組之間; (B).接收該測試信號,並使該信號接收與處理模組因應產生複數檢測參數值;(C).運算該些檢測參數值中之至少部分檢測參數值,而使該信號接收與處理模組因應產生一運算結果;(D).判斷該運算結果是否符合複數基準條件中之一者;其中,於該運算結果符合該些基準條件中之一者時,該信號接收與處理模組因應該運算結果,從而產生相對應之一檢測結果;(E).於該運算結果不符合該些基準條件中之一者時,驅使該信號接收與處理模組中之一均衡器以產生至少一動態補償值;(F).因應該至少一動態補償值,而使該信號接收與處理模組重新產生另一複數檢測參數值,以符合該些基準條件中之另一者;(G).因應該另一些檢測參數值,而使該信號接收與處理模組重新運算產生另一運算結果;以及(H).因應該另一運算結果,而使該信號接收與處理模組重新產生另一檢測結果。 A wire detecting method, the method comprising the steps of: (A) transmitting a test signal to a wire to be tested and a signal receiving and processing module; wherein the test signal is from a signal generating module, and the wire to be tested is electrically Connected between the signal generating module and the signal receiving and processing module; (B) receiving the test signal, and causing the signal receiving and processing module to generate a complex detection parameter value; (C) computing at least part of the detection parameter values to enable the signal reception and processing The module generates an operation result; (D) determines whether the operation result meets one of the plurality of reference conditions; wherein, when the operation result meets one of the reference conditions, the signal receiving and processing module Corresponding to the result of the operation, thereby generating a corresponding one of the detection results; (E). when the result of the operation does not meet one of the reference conditions, driving the equalizer of the signal receiving and processing module to generate at least a dynamic compensation value; (F). The signal receiving and processing module regenerates another complex detection parameter value to meet the other of the reference conditions due to at least one dynamic compensation value; (G) Because the other parameter values are detected, the signal receiving and processing module is recalculated to generate another operation result; and (H). The signal receiving and processing module is regenerated according to another operation result. One inspection Test results. 如申請專利範圍第11項所述之方法,該些檢測參數值係該信號接收與處理模組依據一高畫質多媒體介面協定規範而產生;其中,該高畫質多媒體介面包括複數傳輸通道介面。 The method of claim 11, wherein the value of the detection parameter is generated by the signal receiving and processing module according to a high-definition multimedia interface specification; wherein the high-quality multimedia interface comprises a plurality of transmission channel interfaces. . 如申請專利範圍第12項所述之方法,其中,該至少部分檢測參數值中之任一者係為該信號接收與處理模組因應該高畫質多媒體介面協定規範中之一特性錯誤檢測程序,以對應該些傳輸通道介面中之任一傳輸通道介面而所產生相對應之一資料錯誤率參數值。 The method of claim 12, wherein the at least part of the detected parameter values is one of the signal receiving and processing modules in accordance with one of the characteristics of the high quality multimedia interface protocol specification error detecting program A corresponding data error rate parameter value generated corresponding to any one of the transmission channel interfaces. 如申請專利範圍第13項所述之方法,其中,該些傳輸通道介面包括三個傳輸通道介面,且該三個傳輸通道介面分別具有相對應之一第一通道資料錯誤率參數值、一第二通道資料錯誤率參數值以及一第三通道資料率錯誤參數值。 The method of claim 13, wherein the transmission channel interface comprises three transmission channel interfaces, and the three transmission channel interfaces respectively have a corresponding one channel first data error rate parameter value, a first The two-channel data error rate parameter value and a third channel data rate error parameter value. 如申請專利範圍第11項所述之方法,其中,該步驟(C)中之該運算結果係為該些檢測參數值中之至少部分檢測參數值的加總。 The method of claim 11, wherein the operation result in the step (C) is a summation of at least a part of the detection parameter values of the detection parameter values. 如申請專利範圍第11項所述之方法,其中,該步驟(C)中之該均衡器係為還原或放大因該待測線材而衰減之該測試信號。 The method of claim 11, wherein the equalizer in the step (C) is to reduce or amplify the test signal attenuated by the wire to be tested. 如申請專利範圍第11項所述之裝置,其中,該測試信號係為一影像測試信號。 The device of claim 11, wherein the test signal is an image test signal. 如申請專利範圍第11項所述之方法,更包括一影像傳輸輸出接口,電性連接該信號接收與處理模組,該影像傳輸輸出接口用以電性連接一顯示裝置。 The method of claim 11, further comprising an image transmission and output interface electrically connected to the signal receiving and processing module, wherein the image transmission output interface is electrically connected to a display device. 如申請專利範圍第18項所述之方法,其中,該顯示裝置藉以一使用者介面顯示該些檢測參數值以及該檢測結果,抑或顯示該另一些檢測參數值、該至少一動態補償值以及該另一檢測結果。 The method of claim 18, wherein the display device displays the detection parameter values and the detection result by a user interface, or displays the other detection parameter values, the at least one dynamic compensation value, and the Another test result. 如申請專利範圍第11項所述之方法,其中,該些基準條件更包括一第一基準條件、一第二基準條件、一第三基準條件以及一第四基準條件,用以識別該待測線材之品質。 The method of claim 11, wherein the reference conditions further include a first reference condition, a second reference condition, a third reference condition, and a fourth reference condition for identifying the to-be-tested The quality of the wire.
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Citations (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US5259259A (en) * 1989-11-07 1993-11-09 Tokuden Kosumo Kabushiki Kaisha Motion converting mechanism and rotary tool
TWI447407B (en) * 2012-07-18 2014-08-01 Au Optronics Suzhou Corp Ltd Cable detection device and cable detection method

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* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US5259259A (en) * 1989-11-07 1993-11-09 Tokuden Kosumo Kabushiki Kaisha Motion converting mechanism and rotary tool
TWI447407B (en) * 2012-07-18 2014-08-01 Au Optronics Suzhou Corp Ltd Cable detection device and cable detection method

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