1237763 玖、發明說明: 【發明所屬之技術領域】 本發明係有關於一種用於外接資料儲存裝置的外接裝置,尤指 一種具有一狀態指不燈並採用串列ATA(Serial Advance Technology Attachment ; SATA)介面規格的外接裝置。 【先前技術】1237763 发明 Description of the invention: [Technical field to which the invention belongs] The present invention relates to an external device for external data storage devices, especially a serial advance ATA (Serial Advance Technology Attachment; SATA) having a status indicator without lights ) Interface-specific external devices. [Prior art]
隨著電腦工作時脈不斷提升.,資料儲存裝置的規格也不斷翻 新。傳統的平行ATA(Parallel ΑΤΑ)儲存裝置,因為其傳輸速度 已無法再突破,而有了串列ΑΤΑ ( Serial-ATA ; SATA )的出現。串 列ΑΤΑ藉由高時脈來達到更高的頻寬速度,而將傳輸速度大幅提 昇。串列ΑΤΑ儲存裝置打破了儲存裝置傳輸的瓶頸,串列ΑΤΑ規 格制定初期的頻寬速度為L5Gb/s,而其規格目前可達到的·最高頻 寬則為4X模式下的6Gb/s。由此可知,串列ATA規袼的頻寬速度 遠高於傳統平行ΑΤΑ的頻寬速度。 X 如同傳統的平行ΑΤΑ鍺存裝置一般,串列ΑΤΑ儲存裝置也有外 接裝置的需求,以方便使用者安裝及替換串列ΑΤΑ儲存裝置。但 是因為目前的串列ΑΤΑ的傳輸規格中,其並沒有任一接腳是用來 傳遞讀寫狀態(Read/Whte state)的訊號,所以在習知採用串 列ΑΤΑ傳輸介面的外接裝置令,也就沒有顯示儲存裝置讀寫狀態 的燈號。如此一來,因習知的串列ΑΤΑ介面的外接裝置缺少顯示 儲存裝置讀寫狀態的指示燈,使用者在使用過程令會無法得知儲 存裝置目前的狀態,而造成了使用者使用時的不便。 5 1237763 【發明内容】 因此本發明之主要目的在於提供一種具有狀態指示燈的串列 ΑΤΑ儲存裝置之外接裝置,使用者可依據該狀態指示燈的燈號來判 斷該串列ΑΤΑ儲存裝置的運轉情形,以解決上述串列ΑΤΑ儲存裝 置之外接裝置無法顯示讀寫狀態的問題。 ' 根據本發明之申請專利範圍7 π狗路一裡甲夕丨】ΑΤΑ (Serial Advanced Technology Attachment ; SATA)規格之外接裝置,用來 外接^料儲存裝置。該資料儲存裝置包含有一資料傳輸介面用 來傳遞一資料訊號,以及—資料儲存媒介用來儲存 裝”含有-串列m連接埠、一電源連接槔、—處理電: '卜接 燈以及一狀態指示燈。該串列m連接埠連接該資 輸,1面與—電子裝置1來傳送該資料訊號。該電源連接埠電連 接邊貧料儲存裝置與-電源,用來接收該電源之電力供應,以供 亥貝料儲存裝置所需之電力。該處理電路用來依據該資料訊號 :產生一狀態訊號。該電源指示燈用來顯示該資料儲存裝置的電 源供應狀態。該狀態指示燈用來依據該狀態訊號來顯示該資料儲 存裝置的讀寫狀態。 、 本發明夕卜接裝置的其中—項特點是該外接裝置之處王里電路並聯 於该串列ΑΤΑ連接淳,用以依據該串列ATA連接淳所傳送的資料 訊號,來產生讀寫訊號以控制該狀態指示燈。 本發明外接裝置的另一項特點是該訊號指示燈的裝設位置具多 種的選擇性’例如可將該訊號指示燈裝設在該外接裝置的殼體 上、一吼號連接線上或是該串列連接埠的附近。 6 1237763 【實施方式】 請參考圖-及圖二,圖-為本發明第一實施例外接裝置i 接至一電子裝置60之示意圖,圖二為圖一外接裝置1〇之—串 ΑΤΑ接頭11之示意圖。外接裝置10包含有—串^ ata接頭u : 串列ΑΤΑ接頭11係'連接於一訊號連接線4〇和_電源連接線5〇, 而外接裝置10則是藉由串列ΑΤΑ接頭u、訊號連接線4G以 源連接線50來與一電子裝置(例如個人電腦)6〇相並 訊號與電力至電子裝置6〇。串列ATA接頭U包含有一串列. 連接埠14、一電源連接槔16,争列ΑΤΑ連接4 14斑訊號連 40連接’用以依據串列ΑΤΑ之規格來傳遞資料而電源連、、 與電源連接線5G連接。電源速接線5()所傳送的電力可以由= 一 Γ:電源提供’以提供電力于外接裝置10及電子 裝置60使用。此外,訊號連接線4Q與電 獨立的纜線或是結合成單一條纜線。 Λ 50叮疋—條 請參考圖三’圖三為圖—外接裝置10之功能方塊圖。在本實 ig是用來裝設及外接—儲存裝置π,以存_ Ϊ料。在本實施财,儲存裂置3°為-台串 步詈3(1 if ’但須說明的’本發明之外接裝置1G所裝設的儲存 裝置30並不以硬碟機為限。外接装置1〇包含有 、With the continuous improvement of computer operating clock, the specifications of data storage devices have also been continuously updated. Traditional parallel ATA (Parallel ATA) storage devices, because their transmission speed can no longer break through, have emerged as Serial ATA (Serial-ATA; SATA). The serial ΑΑΑ achieves higher bandwidth speeds by high clock speeds, which greatly increases the transmission speed. The serial ATFA storage device breaks the bottleneck of the storage device transmission. The initial bandwidth speed of the serial ATFA specification is L5Gb / s, and the highest achievable current specification is 6Gb / s in 4X mode. It can be seen that the bandwidth speed of the serial ATA protocol is much higher than the bandwidth speed of the traditional parallel ATA. X Like the traditional parallel ΑΑΑ germanium storage device, the serial ΑΑΑ storage device also requires an external device to facilitate the user to install and replace the serial ΑΑΑ storage device. However, since the current serial ATA transmission specifications do not have any pin that is used to transmit the signal of read / write state (Read / Whte state), the external device order of the serial ATA transmission interface is known in the art. That is, there is no light indicating the reading and writing status of the storage device. In this way, because the conventional external device of the serial ATA interface lacks an indicator indicating the read and write status of the storage device, the user cannot know the current status of the storage device during the use process, which causes inconvenience to the user. . 5 1237763 [Summary of the invention] Therefore, the main object of the present invention is to provide an external device connected to a serial ATA storage device with a status indicator. The user can judge the operation of the serial ATA storage device according to the light of the status indicator. The situation is to solve the above-mentioned problem that the external device of the serial ATA storage device cannot display the read / write status. 'According to the scope of patent application of the present invention, 7 π Dog Road One Mile 丨] ΑΑ (Serial Advanced Technology Attachment; SATA) specification external device, used to connect external storage devices. The data storage device includes a data transmission interface for transmitting a data signal, and—the data storage medium is used to store the data, including a serial port, a power connection, and processing power: 'Bud lights and a status Indicator light. The serial m port is connected to the data input, and one side is connected to the electronic device 1 to transmit the data signal. The power port is electrically connected to the lean storage device and the power source to receive the power supply of the power source. For the power required by the Haibei storage device. The processing circuit is used to generate a status signal according to the data signal. The power indicator is used to display the power supply status of the data storage device. The status indicator is used to The reading and writing status of the data storage device is displayed according to the status signal. One of the characteristics of the device of the present invention is that the Wangli circuit of the external device is connected in parallel to the serial ΑΑΑ connection, and is used to comply with the serial The data signals transmitted by the ATA connection are listed to generate read and write signals to control the status indicator. Another feature of the external device of the present invention is the signal indicator There are various options for the installation position. For example, the signal indicator can be installed on the housing of the external device, a roar connection line, or near the serial port. 6 1237763 [Embodiment] Please refer to Figure 2 and Figure 2 are diagrams of an external device i connected to an electronic device 60 according to the first embodiment of the present invention, and Figure 2 is a schematic diagram of a string AATA connector 11 of the external device 10 in Figure 1. The external device 10 includes —Serial ata connector u: Serial ATA connector 11 series' is connected to a signal connection cable 40 and _ power connection cable 50, while the external device 10 is sourced by the serial ATP connector u and signal connection cable 4G. The connection line 50 is connected to an electronic device (such as a personal computer) 60 and signals and power to the electronic device 60. The serial ATA connector U includes a series. Port 14, a power connection 槔 16, competing for ATAA connection 4 14-spot signal connection 40 connection 'used to transfer data according to the specifications of the serial ATA, and the power supply is connected to the power connection line 5G. The power transmitted by the power line 5 () can be provided by = 一 Γ: power supply' To provide power to external devices 10 and power The sub-device 60 is used. In addition, the signal connecting line 4Q and an electrically independent cable are combined into a single cable. Λ 50 Ding 疋 —Please refer to FIG. 3 ′ FIG. 3 is a diagram of the function block diagram of the external device 10. In this example, ig is used to install and connect external storage devices π to store data. In this implementation, the storage split 3 ° is-Taiwan string step 3 (1 if 'but must be explained' the invention The storage device 30 installed in the external device 1G is not limited to a hard disk drive. The external device 10 includes,
=置:内二訊號連接線26以及-内部電源連接線28。硬碟 連接:ί : 2之内’而在殼體12的表面則裝設有串列ATA -P t、電源連接埠16、一電源指示燈18以及-讀寫狀態指 含有—資料傳輸介面32 —電源詩[ 符it:二以人及—馬達38’其中資料傳輸介面32為-種 傳輸,而資料儲存媒^而^與串列ATA連接埠14直接做資料的 資料儲存媒介3fiM紅6係用來記錄-貝料,馬達38則用來驅使 丨36轉動。電子裝置6〇經由訊號連接線4()與串列ATa 7 1237763 連接淳14相連,而串列ΑΤΑ連接埠14則經由一内部訊號連接線 26連接至硬碟機30的資料傳輸介面32,如此一來,資料訊號可 在電子裝置60與硬碟機30之間相互傳遞。此外,來自電子裝置 60或外部電源的電力,經由電源連接線50連接至電源連接琿16, 而電源連接埠16則經由内部電源連接線28連接至硬碟機30的電 源輸入埠34,以將電力供應給硬碟機30使用。 請再參考圖三,外接裝置10另包含有一處理電路24,用來依 據串列ΑΤΑ連接埠14所傳遞的資料訊號來產生一讀寫狀態訊號 St。在本實施例中,處理電路24為一積分電路,並設置於電路板 22上,用來將資料訊號進行積分處理,以得到一個讀寫狀態訊號 St。當然,處理電路24亦可以是其他種電路,例如處理電路24 可以是一中央處理器(CPU )、一狀態機(state machine),或是一 波幅寬度控制(pulseiidth modulation, PWM)電路,只需其可依 據資料訊號來產生一可以反應#時儲存裝置30之讀寫狀態的訊號 即可。此外,處理電路24係採用高阻抗並聯方式電連接至串列ΑΤΑ 連接槔14以及電源連接埠16,故處理電路24不但可以擷取正確 的資料訊號以進行處理,而且因為處理電路24具高阻抗,故其所 造成的電壓衰減會很小。請參考圖四,圖四為高頻資料訊號與其 經圖三之處理電路24積分處理後之讀寫狀態訊號St的時序圖。 資料訊號因為其頻率太高,無法被用來顯示外接裝置10的讀寫狀 態,但是經過處理電路24處理之後,則成為一個低頻的訊號,可 以用來驅動顯示燈號(例如發光二極體),以顯示外接裝置10的讀 寫狀態。請再參考圖三,讀寫狀態訊號St由處理電路24被傳送 至讀寫狀態指示燈20,讀寫狀態指示燈20會依據讀寫狀態訊號 St的邏輯電壓改變其明滅狀態,以顯示外接裝置10的讀寫狀態。 另外,電源指示燈18係用來顯示硬碟機30的電力供應狀況,當 電力經由電源連接埠16被送至硬碟機30時,電力亦會經由電路 板22傳送至電源指示燈18,此時電源指示燈18會亮起以顯示電 8 1237763 源供應狀況。 請參考圖五,圖五為本發明第二實施例外接裝置7〇的功能方 塊圖。在本實施例中,外接裝置70同樣包含有一殼體12、一處理 電路24、一内部訊號連接線26以及一内部電源連接線28,而在 殼體12的表面亦裝設有一串列ATA連接埠14、一電源連接埠16、 電源指不燈18以及一讀寫狀態指示燈2〇。本實施例中之硬碟機 3〇與電子裝置60之間的資料傳送方式及傳送路徑與第一實施例 相同,故於此不再多加贅述。但需特別注意的是,本實施例與第 一實施例的不同處在於,本實施例中的讀寫狀態指示燈2〇係緊鄰 串列ΑΤΑ連接埠14裝設,可讓使用者在插拔外接裝置1〇時可以 同時看到讀寫狀態指示燈20,避免在資料傳輸時將外接襞置u 拔除,而造成硬碟機30和電子裝置6〇中的資料損壞。^ 請參考圖六,圖六為本發明第三實施例外接裝置8〇之功能方 塊圖。本實施例與前兩個實施例不同的地方在.於其處理電路%與 ?寫狀態指示燈20的設置位置。在本實施例中,處理電路以與 讀寫狀態指示燈20係設置於訊號連接線40上,而處理電路2/與 訊號連接線40亦採用高阻抗並聯方式連接。如圖六中所示,處理 電路24並聯至訊號連接線4〇,並由訊號連接線4〇中 號來進行處理,料生。讀寫 ,路24被傳送至讀寫狀態指示燈2〇,讀寫狀態指示燈會依據 讀^狀態訊號St的邏輯電壓改變其明滅狀態,以顯示外接裝置80 的讀寫狀態。在本實施例中,雖然處理電路24與讀寫狀態指示燈 20係位於殼體12之外,但是因為所有在電子裝置60與外接裝置 叩之間傳遞的資料訊號,皆會透過訊號連接線40,所以裝設於訊 號連接線40上的積分電路24與讀寫狀態指示燈2〇皆如前兩實施 9 1237763 另外需說明的是,本發明外接裝置所連接的儲存裝置其所採 用的資料傳輸介面並不一定必須是串列ΑΤΑ介面,例如儲存裝置 的介面可以是一平行ΑΤΑ介面,此時本發明之外接裝置即會包含 有一用來將串列ΑΤΑ訊號轉換成平行ΑΤΑ訊號的轉換電路。同理, 當儲存裝置的介面為其他非串列ΑΤΑ介面時,本發明之外接裝置 即會包含有一用來串列ΑΤΑ訊號轉換至適用於其他介面訊號規格 的轉換電路,以使外接裝置能相容於所外接的儲存裝置。 相較於習知使用串列ΑΤΑ介面的外接裝置,本發明之外接裝置 具有可顯示外接裝置讀寫狀態的讀寫狀態指示燈,可讓使用者確 認外接裝置當時的工作狀態,避免因誤動作而損壞外接裝置和個 人電腦等設備。 以上所述僅為本發明之較佳實施例,凡依本發明申請專利範圍 所做之均等變化與修飾,皆應屬本發明專利之涵蓋範圍。 【圖式簡單說明】 圖式之簡單說明 圖一為本發明第一實施例外接裝置連接至一電子裝置之示意 圖。 圖二為圖一外接裝置之一串列ΑΤΑ接頭之示意圖。 圖三為圖一外接裝置之功能方塊圖。 圖四為高頻資料訊號與其經圖三之處理電路處理後之讀寫狀 態訊號的時序圖。 圖五為本發明第二實施例外接裝置的功能方塊圖。 圖六為本發明第三實施例外接裝置的功能方塊圖。 1237763 圖式之符號說明 10、70、80 外接裝置 11 串列ΑΤΑ接頭 12 殼體 14 串列ΑΤΑ連接埠 16 電源連接埠 18 電源指示燈 20 讀寫狀態指示燈 22 電路板 24 處理電路 26 内部訊號連接線 28 内部電源連接線 30 硬碟機 32 資料傳輸介面 34 電源輸入淳 36 資料儲存媒介 38 馬達 40 訊號連接線 50 電源連接線 60 電子裝置·= Set: inner two signal connection line 26 and -internal power connection line 28. Hard disk connection: ί: within 2 'and the surface of the casing 12 is provided with a serial ATA-P t, a power port 16, a power indicator 18, and a read-write status means-data transmission interface 32 —Power poem [Fu it: two people and — motor 38 'Among them, the data transmission interface 32 is a kind of transmission, and the data storage medium ^ and ^ and the serial ATA port 14 is directly used as data storage medium 3fiM red 6 series It is used to record the shell material, and the motor 38 is used to drive the 36 to rotate. The electronic device 60 is connected to the serial ATa 7 1237763 connection 14 via a signal connection line 4 (), and the serial ATA port 14 is connected to the data transmission interface 32 of the hard disk drive 30 via an internal signal connection line 26. At the same time, data signals can be transmitted between the electronic device 60 and the hard disk drive 30. In addition, the power from the electronic device 60 or an external power source is connected to the power connection 珲 16 via the power connection cable 50, and the power port 16 is connected to the power input port 34 of the hard disk drive 30 via the internal power connection cable 28, so that Power is supplied to the hard disk drive 30 for use. Please refer to FIG. 3 again. The external device 10 further includes a processing circuit 24 for generating a read / write status signal St according to the data signal transmitted from the serial ATAA port 14. In this embodiment, the processing circuit 24 is an integration circuit, and is disposed on the circuit board 22 to perform integration processing on the data signal to obtain a read-write status signal St. Of course, the processing circuit 24 may also be other types of circuits. For example, the processing circuit 24 may be a central processing unit (CPU), a state machine, or a pulse width modulation (PWM) circuit. It can generate a signal that can reflect the read / write status of the storage device 30 at time # according to the data signal. In addition, the processing circuit 24 is electrically connected in parallel to the serial ATA 14 and the power port 16 in a high-impedance parallel manner. Therefore, the processing circuit 24 can not only capture the correct data signal for processing, but also because the processing circuit 24 has high impedance Therefore, the voltage attenuation caused by it will be small. Please refer to FIG. 4. FIG. 4 is a timing diagram of the high-frequency data signal and the read-write status signal St after integration processing by the processing circuit 24 in FIG. The data signal cannot be used to display the reading and writing status of the external device 10 because its frequency is too high, but after processing by the processing circuit 24, it becomes a low-frequency signal that can be used to drive a display signal (such as a light-emitting diode) To display the read / write status of the external device 10. Please refer to FIG. 3 again. The read / write status signal St is transmitted from the processing circuit 24 to the read / write status indicator 20, and the read / write status indicator 20 will change its on / off status according to the logic voltage of the read / write status signal St to display the external device. 10 read and write status. In addition, the power indicator 18 is used to display the power supply status of the hard disk drive 30. When the power is sent to the hard disk drive 30 through the power port 16, the power will also be transmitted to the power indicator 18 through the circuit board 22. The power indicator 18 will light up to show the power supply status of the power source. Please refer to FIG. 5. FIG. 5 is a functional block diagram of the external device 70 according to the second embodiment of the present invention. In this embodiment, the external device 70 also includes a case 12, a processing circuit 24, an internal signal connection line 26, and an internal power connection line 28, and a series of ATA connections are also installed on the surface of the case 12. Port 14, a power port 16, power indicator 18 and a read / write status indicator 20. The data transmission method and transmission path between the hard disk drive 30 and the electronic device 60 in this embodiment are the same as those in the first embodiment, so they will not be repeated here. However, it should be noted that the difference between this embodiment and the first embodiment is that the read / write status indicator 20 in this embodiment is installed next to the serial AOTA port 14 to allow users to insert and remove When the external device 10 is connected, the read-write status indicator 20 can be seen at the same time, so as to avoid unplugging the external device u during data transmission, which may cause damage to the data in the hard disk drive 30 and the electronic device 60. ^ Please refer to FIG. 6, which is a functional block diagram of an external device 80 according to a third embodiment of the present invention. This embodiment is different from the previous two embodiments in the processing circuit% and the setting position of the write status indicator 20. In this embodiment, the processing circuit and the read / write status indicator 20 are arranged on the signal connection line 40, and the processing circuit 2 and the signal connection line 40 are also connected in a high-impedance parallel manner. As shown in FIG. 6, the processing circuit 24 is connected in parallel to the signal connection line 40, and is processed by the signal connection line 40 medium, which is expected to occur. Read and write, the channel 24 is transmitted to the read and write status indicator 20, and the read and write status indicator will change its on and off status according to the logic voltage of the read ^ status signal St to display the read and write status of the external device 80. In this embodiment, although the processing circuit 24 and the read / write status indicator 20 are located outside the casing 12, because all data signals transmitted between the electronic device 60 and the external device 叩 are transmitted through the signal connection line 40 Therefore, the integration circuit 24 and the read-write status indicator 20 installed on the signal connection line 40 are implemented as in the previous two 9 1237763. It should be noted that the storage device connected to the external device of the present invention uses data transmission. The interface does not necessarily have to be a serial ATAA interface. For example, the interface of the storage device may be a parallel ATAA interface. At this time, the external device of the present invention includes a conversion circuit for converting the serial ATAA signal into a parallel ATAA signal. Similarly, when the interface of the storage device is other non-serial ATAA interface, the external device of the present invention will include a conversion circuit for converting ATAA signals into serial signals suitable for other interface signal specifications, so that the external device can communicate with each other. Contained in an external storage device. Compared with the conventional external device using a serial ATAA interface, the external device of the present invention has a read-write status indicator that can display the read-write status of the external device, which allows the user to confirm the current working status of the external device, avoiding misoperation Damage to external devices and personal computers. The above description is only a preferred embodiment of the present invention, and all equivalent changes and modifications made in accordance with the scope of patent application of the present invention shall fall within the scope of the patent of the present invention. [Brief description of the drawings] Brief description of the drawings FIG. 1 is a schematic diagram of an external device connected to an electronic device according to the first embodiment of the present invention. FIG. 2 is a schematic diagram of a serial ATA connector of an external device in FIG. 1. FIG. 3 is a functional block diagram of the external device of FIG. 1. Figure 4 is a timing diagram of high-frequency data signals and their read-write status signals processed by the processing circuit of Figure 3. FIG. 5 is a functional block diagram of an external device according to a second embodiment of the present invention. FIG. 6 is a functional block diagram of an external device according to a third embodiment of the present invention. 1237763 Symbols of the drawings 10, 70, 80 External devices 11 Serial ATA connector 12 Casing 14 Serial ATP connector 16 Power connector 18 Power indicator 20 Read and write status indicator 22 Circuit board 24 Processing circuit 26 Internal signal Cable 28 Internal power cable 30 Hard disk drive 32 Data transmission interface 34 Power input circuit 36 Data storage medium 38 Motor 40 Signal cable 50 Power cable 60 Electronic device ·