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加入日期: Dec 2012
文章: 2
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EFM - 光碟數位音響系統的調製方法
EFM - 光碟數位音響系統的調製方法
EFM - The Modulation Method for the Compact Disc Digital Audio System 作者: HIROSHI OGAWA Sony Corporation, Audio Technology Center, Tokyo, Japan AND KEES A. SCHOUHAMER IMMINK Philips Research Laboratories, Eindhoven, The Netherlands 摘要: The modulation method employed in the Compact Disc (CD) digital audio system codeveloped by Philips N.V. (Eindhoven, The Netherlands) and Sony Corporation (Tokyo, Japan) is described. This method, called eight-to-fourteen (EFM), is an 8 (data bit) ---> 14 (channel bit) conversion block code with a space of 3 channel bits for every converted 14 channel bits which is used to connect the blocks. These 3 channel bits, called merging bits, are selectable, enabling the suppression of the low-frequency contents of the frequency spectrum. First some of the major conditions are listed which are required of the modulation method used for recording/reproducing digital audio signals on an optical disk. The various parameters of EFM as a modulation method are explained in the second part, proving the suitability of EFM for optical disks. An actual example explains the method in detail; a frequency spectrum is also given to enhance understanding. EFM is well matched with the error-correction method CIRC employed in the CD. The combination of these two methods plays an important role in stably reproducing a 2-channel 16-bit audio signal on a 12-cm-diameter optical disk for more than playing time, single sided. 來源:EFM - The Modulation Method for the Compact Disc Digital Audio System - Google 搜尋 ================================================== 未完...待續... 此文章於 2012-12-30 12:41 AM 被 soundtw 編輯. |
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2012-12-30, 12:36 AM
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New Member
加入日期: Dec 2012
文章: 2
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EFM - 光碟數位音響系統的調製方法
EFM - The Modulation Method for the Compact Disc Digital Audio System 作者: HIROSHI OGAWA Sony Corporation, Audio Technology Center, Tokyo, Japan AND KEES A. SCHOUHAMER IMMINK Philips Research Laboratories, Eindhoven, The Netherlands 摘要: 光碟 (CD) 數位音響系統中的調製方法是由 Philips N.V. (Eindhoven, The Netherlands) 和 Sony Corporation (Tokyo, Japan) 所共同開發的。 這種方法稱為 8 至 14 (EFM),是由一個 8 個資料位元轉換成 14 個通道位元後,再加上 3 個通道位元 (被用來連接每個轉換後的 14 個通道位元) 的區塊編碼。 這 3 個通道位元,稱為合併位元,是可選的,能夠抑制頻譜的低頻成份。 首先,列出此調製方法用於記錄或重現光碟上的數位音響信號,所需要的一些主要條件。 第二部分是針對以 EFM 當作調製方法的各種參數進行說明,來證明 EFM 對光碟而言是合適的。 第三部分是詳細說明一個實際的例子; 第四部分是以頻譜來更加了解。 最後,說明 EFM 在 CD 中是符合 CIRC 糾錯方法的。 這兩種方法 (EFM + CIRC) 的結合,對一個直徑為 12 公分的單面光碟能穩定的重現 2 通道 16 位元的音響信號,並有更長的播放時間而言是很重要的。 The modulation method employed in the Compact Disc (CD) digital audio system codeveloped by Philips N.V. (Eindhoven, The Netherlands) and Sony Corporation (Tokyo, Japan) is described. This method, called eight-to-fourteen (EFM), is an 8 (data bit) ---> 14 (channel bit) conversion block code with a space of 3 channel bits for every converted 14 channel bits which is used to connect the blocks. These 3 channel bits, called merging bits, are selectable, enabling the suppression of the low-frequency contents of the frequency spectrum. First some of the major conditions are listed which are required of the modulation method used for recording/reproducing digital audio signals on an optical disk. The various parameters of EFM as a modulation method are explained in the second part, proving the suitability of EFM for optical disks. An actual example explains the method in detail; a frequency spectrum is also given to enhance understanding. EFM is well matched with the error-correction method CIRC employed in the CD. The combination of these two methods plays an important role in stably reproducing a 2-channel 16-bit audio signal on a 12-cm-diameter optical disk for more than playing time, single sided. 未完...待續... ================================================== 來源: 1. H. Ogawa and K.A.S. Immink, 'EFM - The Modulation for the Compact Disc Digital Audio System', Collected Papers from the AES Premiere Conference, Rye, New York, pp. 178-188, 1982. 2. EFM - The Modulation Method for the Compact Disc Digital Audio System - Google 搜尋 http://www.google.com.tw/webhp?hl=z...al+Audio+System |
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2012-12-30, 03:32 AM
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