JP2004220382A - Recording/reproducing device - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a recording/reproducing device which connects to both a PC equipment and an AV equipment and coincidentally operating, which optimally performs power-saving control to respective connecting systems even when a PC connecting system and an AV connecting system are operating coincidentally. <P>SOLUTION: This device comprises a power mode control section 7. The power mode control section prepares a power mode control request and issues it to a data accumulation section 2 on the basis of a power mode request from the PC equipment analyzed by a block data control section 6, a control request from the AV equipment analyzed by a stream data control section11, a change in state of the AV connecting system recognized by the stream data control section 11, and the monitoring result regarding reception state of stream data from a stream data monitoring section 12. <P>COPYRIGHT: (C)2004,JPO&NCIPI

Description

【００２５】

【００２６】

注：この間の消費電力はＲｅａｄ／ＷｒｉｔｅとＳｅｅｋの繰り返しであり、最悪値で計算。

【００２７】
上述の計算により、この３．５インチＨＤＤを使用して１６ＭＢのデータバッファメモリを使用する場合は、通常動作電力モードでも差が顕著に現れないことを示している。しかし、データバッファメモリが３２ＭＢになった場合、実際の計算は省くが、式（１）〜式（１０）から概算すると、
通常動作電力モードの消費電力（単位はＷｓｅｃ）＝２４１．２Ｗｓｅｃ
低電力動作モードの消費電力（単位はＷｓｅｃ）＝１４６．９Ｗｓｅｃ
と、４０％もの消費電力の差が生じることになる。逆に転送レートが高い（例えばＤＶフォーマットでは２８．８Ｍｂｐｓ）場合、低消費電力モードではかえって消費電力を大きく消費することになる。よって、ＨＤＤを使用したＡＶ機器において低消費電力化を実現するにはストリームデータのデータ転送レート及びストリームデータ転送の際に占有するバッファメモリの容量に応じた制御が行えるようにすべきである。しかしながら、ＰＣ−ＡＶ共存システムのＡＶ接続系で上述のような低消費電力モードを実現するには、上述の２つの問題に加えて、ＰＣとＡＶ機器とが共存する環境下において、ＡＶ側の状態がＰＣ側の状態に悪影響を及ぼす可能性があるという問題が生じる（問題３）。例えば、ＰＣ接続系が確立されているために、いつメディアアクセス要求が来ても即時応答しなければならない状態であるにも関わらず、ＡＶ接続系の転送レートが低いために低消費電力モードで動作していることは、ＰＣ接続系に対して支障をきたすことになる。よって、ＰＣ−ＡＶシステムのＨＤＤでは、ＩＤＥ ＨＤＤに対してＰＣ接続系が確立したか否かを考慮したパワーモード要求を発行し、パワーモード制御を行なう必要がある。なお、ＰＣ接続系が確立・開放されることを示す定義として、ＳＢＰ−２規格ではＬＯＧＩＮされた・されていないと表現する。すなわちＬＯＧＩＮされた状態とは、ＰＣ接続系が確立されているために、いつメディアアクセス要求が来ても即時応答しなければならない状態である（注：パワーセーブモードになっていない場合）。
【００２８】
【特許文献１】
特開平１１−２４２５６３号公報
【００２９】
【発明が解決しようとする課題】
以上のように、ＰＣ機器とＡＶ機器との双方に接続して同時動作可能な記録再生装置として、ＰＣ−ＡＶ共存下のＨＤＤを構成し、そのＨＤＤにおいて低消費電力化を行うと、既に述べたような３つの問題が生じる可能性がある。
【００３０】
よって、本発明では、ＰＣ−ＡＶ共存環境下において、ＰＣ側（ＰＣ接続系）の状態がＡＶ側（ＡＶ接続系）の状態に悪影響を及ぼす可能性がある、という問題を解決することができる記録再生装置を提供することを目的としている。
【００３１】
また、本発明では、ＡＶ接続系で使用されるストリームデータに対して、パワーセーブモードを設定するとストリームデータのデータ蓄積部へのアクセスに支障をきたす可能性がある、という問題を解決することができる記録再生装置を提供することを目的としている。
【００３２】
さらに、本発明では、ＰＣ−ＡＶ共存システムのＡＶ接続系で低消費電力モードを実現するには、上述の２つの問題に加えて、ＰＣとＡＶ機器とが共存する環境下においては、ＡＶ側の状態がＰＣ側の状態に悪影響を及ぼす可能性がある、という問題を解決することができる記録再生装置を提供することを目的としている。
【００３３】
【課題を解決するための手段】
本発明の請求項１にかかる記録再生装置は、時系列上でのデータタイミングに依存しないブロックデータをデータ通信に適合したパケットデータにして通信する、または前記パケットデータおよび第１の制御要求を受信するパケットデータ通信部と、前記パケットデータ通信部が受信した第１の制御要求を解析するブロックデータ制御部と、前記パケットデータ通信部が受信したパケットデータをブロックデータに組み替える、またはブロックデータをパケットデータに組み替えて前記パケットデータ通信部に送るブロックデータ通信部と、時系列上のタイミングに依存し、圧縮符号化された符号化データを送受信する、または前記符号化データを通信するための第２の制御要求を受信する符号化データ通信部と、前記符号化データ通信部が受信した第２の制御要求を解析するストリームデータ制御部と、前記符号化データを或るデータ集合単位にまとめたストリームデータに組み替える、またはストリームデータを時系列上のデータタイミングに依存する符号化データに変換して前記符号化データ通信部に送るストリームデータ通信部と、前記符号化データが受信されているか否かを監視するストリームデータ監視部と、前記ブロックデータまたは前記ストリームデータを一時的に格納するデータバッファ部と、後述するデータ蓄積部にパワーモード制御要求を発行するパワーモード制御部と、前記データバッファ部との間で、前記ブロックデータの書き込み若しくは読み出し、または前記ストリームデータの記録若しくは再生を行うために前記ストリームデータの書き込み若しくは読み出しを行なうとともに、前記パワーモード制御部が発行するパワーモード制御要求に従ったパワーモードで動作するデータ蓄積部と、を備え、前記ストリームデータ制御部は、前記記録再生装置が、前記ストリームデータに対して、再生、記録、再生の停止、記録の停止、のいずれの動作を実行中かを認識し、前記パワーモード制御部は、前記ブロックデータ制御部から通知される前記第１の制御要求の解析結果と、前記ストリームデータ制御部から通知される前記第２の制御要求の解析結果及びストリームデータの状態を示す認識結果と、前記ストリームデータ監視部から通知される監視結果とに基づいて、前記パワーモード制御要求を発行することを特徴とする。
【００３４】
これにより、ＰＣ接続系とＡＶ接続系とが共存し、同時に動作が可能な記録再生装置にパワー制御モードが加わり、ＰＣ接続系からのパワーセーブ要求がＡＶ接続系に支障をきたさない記録再生装置が実現される。
【００３５】
本発明の請求項２にかかる記録再生装置は、請求項１に記載の記録再生装置において、前記ブロックデータは、ＩＥＥＥ１３９４インターフェースで取り扱えるアシンクロナスデータであり、前記符号化データは、ＩＥＥＥ１３９４インターフェースで取り扱えるアイソクロナスデータであり、前記データ蓄積部は、磁気、光等の媒体記憶装置またはメモリ装置等のランダムアクセス装置であることを特徴とする。
【００３６】
これにより、ＩＥＥＥ１３９４インターフェースで接続され、ＡＶ接続系とＰＣ接続系を同時動作が可能で、データの蓄積がランダムアクセスにより可能な装置が実現される。
【００３７】
本発明の請求項３にかかる記録再生装置は、請求項１に記載の記録再生装置において、前記パワーモード制御部は、前記ブロックデータ制御部から前記第１の制御要求が消費電力の制御要求、すなわちパワーセーブ要求であるという通知を受けた際に、前記ストリームデータ制御部から前記ストリームデータの再生が実行されているという通知または前記第２の制御要求が再生開始要求であるという通知を受けた場合には、前記データ蓄積部に対してパワーセーブモードで動作することを中断させるためのパワーモード制御要求を発行し、その後、前記ストリームデータ制御部からストリームデータの再生が停止されたという通知を受けた場合には、直ちに前記データ蓄積部に対してパワーセーブモードで動作させるためのパワーモード制御要求を発行することを特徴とする。
【００３８】
これにより、ＡＶ接続系で再生中あるいは再生開始時にＰＣ接続系で設定されたパワーセーブモードの影響なしに動作することを可能にする。
【００３９】
本発明の請求項４にかかる記録再生装置は、請求項１に記載の記録再生装置において、前記パワーモード制御部は、前記ブロックデータ制御部から前記第１の制御要求が消費電力の制御要求、すなわちパワーセーブ要求であるという通知を受けた際に、前記ストリームデータ制御部からストリームデータの録画が実行されているという通知または前記第２の制御要求が録画開始要求であるという通知を受け、さらに、前記ストリームデータ監視部から前記符号化データを受信中であるという通知を受けた場合には、前記データ蓄積部に対してパワーセーブモードで動作することを保留または中断させるためのパワーモード制御要求を発行し、その後、前記ストリームデータ制御部からストリームデータの録画が停止されたという通知を受けた場合には、直ちに前記データ蓄積部に対してパワーセーブモードで動作させるためのパワーモード制御要求を発行することを特徴とする。
【００４０】
これにより、ＡＶ接続系で録画中でストリームの受信中あるいは録画開始でストリーム受信がある時にＰＣ接続系で設定されたパワーセーブモードの影響なしに動作することを可能にする。
【００４１】
本発明の請求項５にかかる記録再生装置は、請求項１に記載の記録再生装置において、前記パワーモード制御部は、前記ブロックデータ制御部から前記第１の制御要求が消費電力の制御要求、すなわちパワーセーブ要求であるという通知を受けた際に、前記ストリームデータ制御部からストリームデータの録画が実行されているという通知を受けたが、前記ストリームデータ監視部から前記符号化データが受信されていない口空き状態である若しくは該口空き状態にすでになっていたという通知を受けた場合、または前記ストリームデータ制御部からストリームデータの再生及び録画が停止されているという通知を受けた場合には、前記データ蓄積部に対してパワーセーブモードで動作させるためのパワーモード制御要求を発行し、その後、前記ストリームデータ監視部から口空き状態でなくなったという通知を受けた場合には、直ちに前記データ蓄積部に対してパワーセーブモードでの動作を解除させるためのパワーモード制御要求を発行することを特徴とする。
【００４２】
これにより、ＡＶ接続系で録画中でも口空き状態の時は、ＰＣ接続系で設定されたパワーセーブモードで動作することを可能にする。
【００４３】
本発明の請求項６にかかる記録再生装置は、時系列上のタイミングに依存し、圧縮符号化された符号化データを送受信する、または符号化データを通信するための制御要求を受信する符号化データ通信部と、前記符号化データ通信部が受信した制御要求を解析するストリームデータ制御部と、前記符号化データを或るデータ集合単位にまとめたストリームデータに組み替える、またはストリームデータを時系列上のデータタイミングに依存する符号化データに変換して前記符号化データ通信部に送るストリームデータ通信部と、前記符号化データが受信されているか否かを監視するストリームデータ監視部と、前記ストリームデータを一時的に格納するデータバッファ部と、後述するデータ蓄積部にパワーモード制御要求を発行するパワーモード制御部と、前記データバッファ部との間で、前記ストリームデータの録画または再生を行うために前記ストリームデータの書き込みまたは読み出しを行なうとともに、前記パワーモード制御部が発行するパワーモード制御要求に従ったパワーモードで動作するデータ蓄積部と、を備え、前記ストリームデータ制御部は、前記記録再生装置が、前記ストリームデータに対して、記録、再生、再生の停止、記録の停止、のいずれの動作を実行中かを認識し、前記パワーモード制御部は、前記ストリームデータ制御部から通知される前記制御要求の解析結果、ストリームデータの状態を示す認識結果、前記データ蓄積部の動作特性、前記データバッファ部の容量、及びストリームデータのデータ転送レートと、前記ストリームデータ監視部から通知される符号化データの受信状態とに基づいて、前記パワーモード制御要求を発行することを特徴とする。
【００４４】
これにより、占有されるデータバッファのメモリサイズ、及びデータ転送レートに依存して、より低い消費電力モードを選択することが実現される。
【００４５】
本発明の請求項７にかかる記録再生装置は、請求項６に記載の記録再生装置において、前記パワーモード制御部は、前記データ蓄積部の動作特性、前記データバッファ部の容量、及び前記ストリームデータの転送レートに基づいて、前記データバッファ部のストリームデータ用に割り当てられる容量と、前記データバッファ部にその容量分のストリームデータが格納される時間、すなわちストリームデータ処理時間と、前記データ蓄積部がパワーセーブモードで動作しない場合、ストリームデータ処理時間中に前記データバッファ部のストリームデータを前記データ蓄積部に移動させるために消費する通常動作消費電力値と、前記データ蓄積部がパワーセーブモードで動作する場合、ストリームデータ処理時間中に前記データバッファ部のストリームデータを前記データ蓄積部に移動させるために消費する低消費電力値とを算出するとともに、前記通常動作消費電力値と前記低消費電力値とを比較し、前記データ蓄積部に対してより少ない消費電力モードで動作させるためのパワーモード制御要求を発行することを特徴とする。
【００４６】
これにより、２つの消費電力モードである通常動作消費電力モード及び低消費電力モードを検討し、実際により低い消費電力モードで動作することを可能にする。
【００４７】
本発明の請求項８にかかる記録再生装置は、請求項１に記載の記録再生装置において、前記パワーモード制御部は、前記ブロックデータ制御部から通知される前記第１の制御要求の解析結果と、前記ストリームデータ制御部から通知される前記第２の制御要求の解析結果、ストリームデータの状態、前記データ蓄積部の動作特性、前記データバッファ部の容量、及びストリームデータのデータ転送レートと、前記ストリームデータ監視部から通知される符号化データの受信状態とに基づいて、前記パワーモード制御要求を発行するものであり、前記データ蓄積部の動作特性、前記データバッファ部の容量、及び前記ストリームデータ転送レートに基づいて、前記データバッファ部のストリームデータ用に割り当てられる容量と、前記データバッファ部にその容量分のストリームデータが格納される時間、すなわちストリームデータ処理時間と、前記データ蓄積部がパワーセーブモードで動作しない場合、ストリームデータ処理時間中に前記データバッファ部のストリームデータを前記データ蓄積部に移動させるために消費する通常動作消費電力値と、前記データ蓄積部がパワーセーブモードで動作する場合、ストリームデータ処理時間中に前記データバッファ部のストリームデータを前記データ蓄積部に移動させるために消費する低消費電力値とを算出するとともに、前記通常動作消費電力値と前記低消費電力値とを比較し、前記データ蓄積部に対してより少ない消費電力モードで動作させるためのパワーモード制御要求を発行することを特徴とする。
【００４８】
これにより、２つの消費電力モードである通常動作消費電力モード及び低消費電力モードを検討し、実際により低い消費電力モードで動作することを可能にする。
【００４９】
本発明の請求項９にかかる記録再生装置は、請求項８に記載の記録再生装置において、前記ブロックデータ制御部は、前記第１の制御要求を解析して、ブロックデータ転送相手が存在するか否かを判断し、その判断結果を前記パワーモード制御部に通知し、前記パワーモード制御部は、前記ブロックデータ制御部からブロックデータ転送相手が存在しないまたは存在しなくなったという通知を受けた際に、前記ストリームデータ制御部から前記ストリームデータの再生が実行されているという通知または前記第２の制御要求が再生開始要求であるという通知を受け、さらに、前記低消費電力値が前記通常動作消費電力値より低いと判断した場合に、前記データ蓄積部に対して低消費電力モードで動作させるためのパワーモード制御要求を発行することを特徴とする。
【００５０】
これにより、２つの消費電力モードである通常動作消費電力モード及び低消費電力モードを検討し、実際に低消費電力モードでの消費電力が通常動作消費電力モードより低い場合、低消費電力モードで動作することを可能にする。
【００５１】
本発明の請求項１０にかかる記録再生装置は、請求項８に記載の記録再生装置において、前記ブロックデータ制御部は、前記第１の制御要求を解析して、ブロックデータ転送相手が存在するか否かを判断し、その判断結果を前記パワーモード制御部に通知し、前記パワーモード制御部は、前記ブロックデータ制御部からブロックデータ転送相手が存在しないまたは存在しなくなったという通知を受けた際に、前記ストリームデータ制御部からストリームデータの録画が実行されているという通知または前記第２の制御要求がストリームデータの録画開始要求であるという通知と、前記ストリームデータ監視部から前記符号化データが受信中であるという通知とを受け、さらに、前記低消費電力値が前記通常動作消費電力値より低いと判断した場合に、前記データ蓄積部に対して低消費電力モードで動作させるためのパワーモード制御要求を発行することを特徴とする。
【００５２】
これにより、ＰＣ接続系でＬＯＧＩＮされたＰＣ機器がない場合でＡＶ接続系が録画時で符号化データを受信中の場合、２つの消費電力モードを算出し、より低い消費電力のプロセスを選択することを可能にする。
【００５３】
本発明の請求項１１にかかる記録再生装置は、請求項８に記載の記録再生装置において、前記ブロックデータ制御部は、前記第１の制御要求を解析して、ブロックデータ転送相手が存在するか否かを判断し、その判断結果を前記パワーモード制御部に通知し、前記パワーモード制御部は、前記ブロックデータ制御部からブロックデータ転送相手が存在しないまたは存在しなくなったという通知を受けた際に、前記ストリームデータ制御部からストリームデータの録画が実行されているという通知を受けたが、前記ストリームデータ監視部から符号化データが受信されていない口空き状態若しくは該口空き状態にすでになっていたという通知を受けた場合、または前記ストリームデータ制御部からストリームデータの再生及び録画が停止されているという通知を受けた場合には、前記データ蓄積部に対して通常動作消費電力モードで動作させるためのパワーモード制御要求を発行し、その後、前記ストリームデータ監視部から口空き状態が解除されたという通知を受け、さらに、前記低消費電力値が通常動作消費電力値より低いと判断した場合に、前記データ蓄積部に対して低消費電力モードで動作させるためのパワーモード制御要求を発行することを特徴とする。
【００５４】
これにより、ＰＣ接続系でＬＯＧＩＮされたＰＣ機器が存在しない場合でＡＶ機器が録画時でも口空き状態の時は、ただちに通常消費電力モードを実行し、口空き状態が解除された場合は、２つの消費電力モードを算出し、より低い消費電力のプロセスを選択することを可能にする。
【００５５】
本発明の請求項１２にかかる記録再生装置は、請求項８に記載の記録再生装置において、前記ブロックデータ制御部は、前記第１の制御要求を解析して、ブロックデータ転送相手が存在するか否かを判断し、その判断結果を前記パワーモード制御部に通知し、前記パワーモード制御部は、前記ブロックデータ制御部からブロックデータ転送相手が存在しているという通知と、前記第１の制御要求が消費電力の制御要求、すなわちパワーセーブ要求であるという通知とを受け、さらに、前記低消費電力値が通常動作消費電力値より低いと判断した場合に、前記データ蓄積部に対して低消費電力モードで動作させるためのパワーモード制御要求を発行することを特徴とする。
【００５６】
これにより、ＰＣ接続系でＬＯＧＩＮされたＰＣ機器が存在する場合でＰＣ接続系からの要求がパワーセーブモードの場合は、２つの消費電力モードを算出し、より低い消費電力のプロセスを選択することを可能にする。
【００５７】
本発明の請求項１３にかかる記録再生装置は、請求項７または８に記載の記録再生装置において、前記符号化データは、ＩＥＥＥ１３９４インターフェースで取り扱えるアイソクロナスデータであり、前記データ蓄積部は、磁気、光等の媒体記憶装置またはメモリ装置等のランダムアクセス装置であることを特徴とする。
【００５８】
これにより、ＩＥＥＥ１３９４インターフェースで接続され、ＡＶ接続系とＰＣ接続系を同時動作が可能で、データの蓄積がランダムアクセスにより可能な装置が実現される。
【００５９】
【発明の実施の形態】
（実施の形態１）
この実施の形態１は、請求項１ないし５の発明に対応するもので、ＰＣ機器及びＡＶ機器の双方と接続してＰＣ接続系及びＡＶ接続系を構成し、ＰＣ機器から要求される消費電力の制御要求、すなわちパワーセーブ要求とＡＶ接続系の状態を考慮して、データ蓄積部（ＩＤＥ ＨＤＤ）に対するパワーモード制御要求を発行することができる記録再生装置に関するものである。
【００６０】
以下に、本発明の実施の形態１にかかる記録再生装置について、図１を用いて説明する。なお、従来例で示したＨＤＤと同一構成要素について同一符号を付し説明を省略する。
【００６１】
図１において、外部ＨＤＤ機器としての記録再生装置１００は、ＰＣ機器及びＡＶ機器の双方（ともに図示せず）にＩＥＥＥ１３９４ケーブル３及びＩＥＥＥ１３９４ケーブル４を介して接続してＰＣ接続系及びＡＶ接続系を構成することが可能であり、さらに２つの接続系を同時に動作可能である。なお、図１では便宜上、図１上部のＩＥＥＥ１３９４ケーブル３をＰＣ機器と接続してＰＣ接続系を形成し、図１下部のＩＥＥＥ１３９４ケーブル４をＡＶ機器と接続してＡＶ接続系を形成した場合の記録再生装置１００を示しているが、いずれの接続系で動作するかは、接続先の機器の種類によって決定する。
【００６２】
まず、ＰＣ接続系として動作する場合を以下に示す。記録再生装置１００は、ＰＣ機器の外部ＨＤＤとして動作する場合、ＩＥＥＥ１３９４ケーブル３を通してＰＣ機器から送られてくる制御要求（第１の制御要求）をパケットデータ通信部５で受信する。この制御要求は、ＡＴＡコマンド形式に、ＩＥＥＥ１３９４ケーブル３の物理層、及びＳＢＰ−２規格である論理層を通すためにカプセル化されて、ＡＳＹＮＣＲＯＮＯＵＳパケットとして送られてくる。パケットデータ通信部５は、ＩＥＥＥ１３９４規格においてＰＨＹ及びＬＩＮＫと呼ばれるものである。制御要求は、ブロックデータ制御部６に送られて解析されることで、元のＡＴＡコマンドが抽出される。ブロックデータ制御部６は、制御要求が消費電力に関するパワーモード要求である場合、パワーモード制御部７にその解析内容を通知する。一方、制御要求が消費電力制御用以外のコマンドである場合、データ蓄積部２であるＩＤＥ ＨＤＤにその旨を通知し、その後、記録再生装置１００ではデータ通信が実行される。以下、データ通信について説明する。ＰＣ機器からの制御要求がＲＥＡＤコマンドの場合、データバッファ部８がＡＴＡコマンドに従ったアドレス形式でデータ蓄積部２よりデータを指定データ分だけ読み出す。その際、データバッファ部８はＩＤＥ ＨＤＤで定義されるブロック単位でデータを読み出す。読み出したデータは、ブロックデータ通信部９に送る。ブロックデータ通信部９は、入力したデータから順にデータを出力する機能（ＦＩＦＯ）を内部に有していて、ブロックデータをＳＢＰ−２で定義されているデータ転送プロトコルに基づいたＡＹＳＯＣＨＲＯＮＯＵＳパケット（アシンクロナスデータ）の形にして、ＩＥＥＥ１３９４ケーブル３に出力する。
【００６３】
なお、ＰＣ機器からの制御要求がＷＲＩＴＥコマンドの場合は、ＲＥＡＤコマンドの時とは逆のデータの流れになる。すなわち、ＩＥＥＥ１３９４ケーブル３から送られてくるパケット化されたデータを、ＨＤＤ内で取り扱えるブロックデータ構成に変換して、データバッファ部８を介してデータ蓄積部２に書き込む。
【００６４】
次に、ＡＶ接続系として動作する場合を以下に示す。記録再生装置１００は、ＡＶ機器の外部ＨＤＤとして動作する場合、ＩＥＥＥ１３９４ケーブル４を通してＡＶ機器からの制御要求（第２の制御要求）を符号化データ通信部１０で受信する。この制御要求は、ＡＶコマンド形式に、ＩＥＥＥ１３９４ケーブル４の物理層、及びＡＶプロトコル規格である論理層を通すためにカプセル化されて、ＡＳＹＮＣＲＯＮＯＵＳパケットとして送られてくる。符号化データ通信部１０は、ＩＥＥＥ１３９４規格においてＰＨＹ及びＬＩＮＫと呼ばれるものである。制御要求は、ストリームデータ制御部１１に通知されて解析されることで、ＡＶコマンドが抽出される。ストリームデータ制御部１１は、制御要求が録画・再生・停止要求である場合、その旨を、パワーモード制御部７に通知するとともに、データ蓄積部２であるＩＤＥ ＨＤＤにも通知する。これにより記録再生装置１００はデータ通信が実行される。また、ストリームデータ制御部１１は、ＡＶ接続系の状態、すなわちＡＶ接続系が再生、停止、録画の内の、いずれの動作を実行中かを認識し、その認識結果をパワーモード制御部７に通知する。ＡＶ機器からの制御要求が再生要求（ＰＬＡＹコマンド）の場合、データバッファ部８はデータ蓄積部２で定義するデータ単位でデータをデータ蓄積部２から読み出す。例えば、ＤＶフォーマットにおけるフレーム単位や、ＭＰＥＧフォーマットにおけるＤＡＵ単位でデータを読み出す。データバッファ部８はデータ蓄積部２から読み出したデータを、ストリームデータ通信部１２に送る。ストリームデータ通信部１２は内部にＦＩＦＯを有していて、ストリームデータを指定ＡＶ機器対応のデータフォーマット用ＩＳＯＣＨＲＯＮＯＵＳパケット構成（アイソクロナスデータ）にして、ＩＥＥＥ１３９４ケーブル４に出力する。ＡＶ機器からの制御要求が録画要求（ＲＥＣコマンド）の場合は、ＰＬＡＹコマンドの場合とストリームデータの流れが逆であるが、ＲＥＣコマンドの場合は、ストリームデータ監視部１３がストリームデータ通信部１２を監視して、ストリームデータがＡＶ接続系で流れているか否かを常に監視する。ストリームデータ監視部１３は、その監視結果をパワーモード制御部７に通知する。なお、ストリームデータが流れていない状態を口空き状態と呼び、以下で説明を行う。
【００６５】
パワーモード制御部７は、ブロックデータ制御部６が解析したＰＣ機器からのパワーモード要求と、ストリームデータ制御部１１が解析したＡＶ機器からの制御要求と、ストリームデータ制御部１１が認識したＡＶ接続系の状態の変化と、ストリームデータ監視部１３からのストリームデータの受信状態に関する監視結果とに基づいて、パワーモード制御要求を作成し、データ蓄積部２に発行する。
【００６６】
以下、記録再生装置１００のパワーモード制御動作の詳細について図２を用いて説明する。
まず、パワーモード制御部７の起動（ステップＳ１）は、パワーセーブ有効・無効の要求の通知がブロックデータ制御部６からあった場合、またはストリームが変化したことを示す通知があった場合である。なお、ストリームが変化したことを示す通知とは、ストリームデータ制御部１１からの、制御要求の通知若しくはＡＶ接続系の状態が変化したことを示す通知、またはストリームデータ監視部１３からの監視結果の通知である。パワーモード制御部７は、起動後、ブロックデータ制御部６からの通知を確認し（ステップＳ２）、パワーセーブ無効の要求であれば、パワーセーブ解除コマンドをデータ蓄積部２に発行する（ステップＳ３）。これによりデータ蓄積部２は通常動作消費電力モードになる（ステップＳ４）。一方、パワーモード有効の要求の通知を受けた、あるいはストリームが変化した場合は、ストリームデータ制御部１１が認識したＡＶ接続系の状態を確認し（ステップＳ５）、さらにＡＶ接続系が録画時にはストリームデータ監視部の監視結果を確認する（ステップＳ６）。ステップＳ５でＡＶ接続系の状態を再生状態と判断した場合、またはステップＳ６でＡＶ接続系が録画状態であり、かつストリームデータを受信中であると判断した場合は、ＰＣ接続系のパワーセーブモードがＡＶ接続系に支障をきたさないよう、パワーセーブモードを一時中断するコマンドをデータ蓄積部２に発行し（ステップＳ７）、これによりデータ蓄積部２は通常動作消費電力モードになる（ステップＳ８）。ステップＳ５でＡＶ接続系が停止状態であることを判断した場合及びステップＳ６でＡＶ接続系が録画状態だが口空き状態であると判断した場合は、ＡＶ接続系はストリームデータ処理が行われていない状態であることから、パワーセーブモード処理を行うために、パワーセーブモードが解除されているか否かを判断し（ステップＳ９）、ステップＳ７で、パワーセーブモードが中断されていた場合は、パワーセーブモードを再開するコマンドをデータ蓄積部２に発行する（ステップＳ１０）。一方、パワーセーブモードが解除されていなかった場合は、ブロックデータ制御部６からのパワーセーブ有効の要求に基づいて、パワーセーブコマンドをデータ蓄積部２に発行する（ステップＳ１１）。ステップＳ１０またはステップＳ１１の処理によりデータ蓄積部２はパワーセーブモードとなる（ステップＳ１２）。
【００６７】
このように、本実施の形態１にかかる記録再生装置は、ＰＣ機器及びＡＶ機器の双方と接続してＰＣ接続系及びＡＶ接続系を構成する際に、パワーモード制御部７が、ＰＣ機器から要求されるパワーセーブ要求とＡＶ接続系の状態を考慮して、データ蓄積部（ＩＤＥ ＨＤＤ）に対するパワーモード制御要求を発行するようにしたことから、ＰＣ接続系及びＡＶ接続系が同時動作中に、ＰＣ接続系からのパワーセーブ要求がＡＶ接続系に支障をきたさないようなパワーモード制御を行うことができる。
【００６８】
（実施の形態２）
この実施の形態２は、請求項６，７，１３の発明に対応するもので、データ蓄積部としてＩＤＥ ＨＤＤやランダムアクセス装置等を用いてＡＶ接続系を構成し、そのＡＶ接続系の消費電力を極力抑えるために、データ転送速度と、データバッファサイズとから、通常動作モードの消費電力である通常動作消費電力値と、パワーセーブモードと通常動作モードとを組み合わせた消費電力である低消費電力値とを算出して比較し、より少ない消費電力のシーケンスを採用して、データ蓄積部に対するパワーモード制御要求を発行することができる記録再生装置に関するものである。
【００６９】
以下に、本発明の実施の形態２にかかる記録再生装置３００について、図３及び図８を用いて説明する。
図３に示すように、記録再生装置３００は、ＩＥＥＥ１３９４ケーブル４を介してＡＶ機器と接続して外部ＨＤＤとして動作するものであり、図１、すなわち実施の形態１に示す記録再生装置１００のＡＶ接続系と同一構成要素については同一符号を付しその説明を省略する。記録再生装置３００は、パワーモード制御方法が記録再生装置１００のＡＶ接続系と異なる。
【００７０】
パワーモード制御部７は、ストリームデータ制御部１１が解析したＡＶ機器からの制御要求と、ストリームデータ通信部１２が認識したＡＶ接続系の状態の変化と、ストリームデータ監視部１３が監視したストリームデータの受信状態に関する監視結果と、ストリームデータ制御部１１から通知されるデータ転送速度、ストリーム用のデータバッファサイズ、ＩＤＥ ＨＤＤの動作特性に関する情報とに基づいて、パワーセーブ制御要求を作成し、データ蓄積部２に発行する。
【００７１】
実施の形態１の記録再生装置１００では、ＡＶ接続系が再生状態または録画状態でストリームデータを受信している時には、データ蓄積部２が通常動作消費電力モードになるパワーモード制御を行っていたが、この実施の形態２の記録再生装置３００では、上記の際に、通常動作消費電力モードと低消費電力モードとの電力値を算出し、実際に消費電力が低くなる方のモードを採用する。
【００７２】
電力値の算出は、データ転送速度、ストリーム用データバッファサイズ、ＩＤＥ ＨＤＤの動作特性に基づいて行う。例えば、図８に示す動作特性に関する情報を受けた場合は、従来例で示したように式（１）〜式（１０）を用いて２つの消費電力値を算出する。ストリーム処理用に占有するデータバッファ部の容量は、設計者の用途に基づき、あらかじめ固定領域を割り当てるか、動的に領域を確保するかは自由である。ストリームデータの転送レートは、ＤＶフォーマットの場合は２８．８Ｍｂｐｓであり、ＭＰＥＧの場合はＡＶコマンドで通知される。
【００７３】
なお、通常動作消費電力モードとは、メディアアクセスしていない状態でもＩＤＬＥモードのまま推移するモードであり、低消費電力モードは、メディアアクセスしていない状態ではパワーセーブモードに、メディアアクセス時には通常動作モードになるモードである。
【００７４】
このように、本実施の形態２にかかる記録再生装置は、ＡＶ機器と接続してＡＶ接続系を構成し、パワーモード制御部７が、データ転送速度と、データバッファサイズとから、通常動作モードの消費電力である通常動作消費電力値と、パワーセーブモードと通常動作モードとを組み合わせた消費電力である低消費電力値とを算出して比較し、より少ない消費電力のシーケンスを採用して、データ蓄積部（ＩＤＥ ＨＤＤ）に対するパワーモード制御要求を発行するようにしたことから、ＡＶ機器と接続してＡＶ接続系を構成する場合に、消費電力を極力抑えることができる。
【００７５】
（実施の形態３）
この実施の形態３は、請求項８ないし１３の発明に対応するもので、ＰＣ機器とＡＶ機器の双方と接続してＰＣ接続系及びＡＶ接続系を構成し、ＡＶ接続系の消費電力を抑えるために、通常動作モードの消費電力である通常動作消費電力値と、パワーセーブモードと通常動作モードとを組み合わせた消費電力である低消費電力値とを算出して比較し、より少ない消費電力のシーケンスを採用する場合に、ＰＣ接続系に対して支障をきたさないようなデータ蓄積部（ＩＤＥ ＨＤＤ）に対するパワーモード制御要求を発行することができる記録再生装置に関するものである。
【００７６】
以下に、本発明の実施の形態３にかかる記録再生装置について、図４及び図５を用いて説明する。
本発明の実施の形態３にかかる記録再生装置は、図１、すなわち実施の形態１の記録再生装置１００と同じ構成であるが、ＡＶ接続系が実施の形態３で示した記録再生装置３００と同じパワーモード制御を行うとともに、さらに、ＰＣ接続系のＬＯＧＩＮ・ＬＯＧＯＵＴを考慮して、パワーモード制御要求を発行することを特徴とする。なお、ＰＣ接続系とＬＯＧＩＮされていたか、またはＬＯＧＯＵＴされているかはブロックデータ制御部６が制御要求を解析して判断し、その判断結果はパワーモード制御部７に通知される。以下、実施の形態３にかかる記録再生装置が行なうパワーモード制御について説明する。
【００７７】
パワーモード制御部７の起動（ステップＳ２１）は、ブロックデータ制御部６から、パワーセーブ有効・無効の要求の通知若しくはＰＣ接続状態の変化、すなわち、ＬＯＧＩＮ・ＬＯＧＯＵＴの状態が変化したことの通知、ストリームデータ制御部１１からの、制御要求の通知若しくはＡＶ接続系の状態が変化したことを示す通知、またはストリームデータ監視部１３から監視結果の通知があった場合である。パワーモード制御部７は、起動後、まず、ＰＣ接続系の接続状態を確認し（ステップＳ２２）、ＰＣ接続系確立時、すなわちＬＯＧＩＮ発生時は、低消費電力モードになっている場合も考慮して、データ蓄積部２に対して通常動作消費電力モードに移行させるコマンドを発行する（ステップＳ２３）。一方、ＰＣ接続系の接続が解除された場合、または解除されていた場合、すなわちＬＯＧＯＵＴ発生時またはＬＯＧＯＵＴ状態の場合は、ストリームデータ制御部１１とストリームデータ監視部１３とからの通知を元に以下の処理を施す。ストリームデータが流れていない、すなわちＡＶ接続系が停止状態と判断した場合（ステップＳ２４）またはＡＶ接続系が録画状態であるが口空き状態であると判断した場合（ステップＳ２５）、ＰＣ接続系のアクセスができる限り早く行われるようにするために、データ蓄積部２に対して通常動作消費電力モードへ移行させるコマンドを発行する（ステップＳ２９）。一方、ストリームデータが流れている状態、すなわち、ステップＳ２４でＡＶ接続系が再生状態と判断した場合またはステップＳ２５でＡＶ接続系が録画状態であるがストリームデータを受信中と判断した場合は、実施の形態３で説明した２つの消費電力モードの電力値、通常動作消費電力値及び低消費電力値を算出する（ステップＳ２６）。そして、低消費電力値の方が、消費電力が少ないと判断した場合（ステップＳ２７）、データ蓄積部２に対して低消費電力モードへ移行させるコマンドを発行する（ステップＳ２８）。一方、通常消費電力モードの方が、消費電力が少ないと判断された場合（ステップＳ２７）は、データ蓄積部２に対して通常動作消費電力モードへ移行させるコマンドを発行する（ステップＳ２９）。
【００７８】
次に、ステップＳ２２で、ＰＣ接続系が既に確立している、すなわちＬＯＧＩＮされていると判断した場合のパワーモード制御について説明する。ブロックデータ制御部６からの通知を確認し（ステップＳ４１）、パワーセーブ無効の要求であれば、そのままパワーセーブ解除コマンドをデータ蓄積部２に発行する（ステップＳ４２）。これにより、データ蓄積部２は通常動作消費電力モードになる（ステップＳ４３）。ステップＳ４１で、パワーセーブ有効の要求を判断した場合、あるいはストリームが変化した場合、ＡＶ接続系の状態の確認（ステップＳ４４）、及び録画状態のストリームデータ監視部の監視結果を確認し（ステップＳ４５）、ＡＶ接続系が再生状態の場合または録画状態であるがストリームデータ受信中の場合は、実施の形態３で説明した２つの消費電力モード、通常動作消費電力値及び低消費電力値を算出する（ステップＳ４６）。そして、低消費電力値の方が、消費電力が少ないと判断した場合は（ステップＳ４７）、データ蓄積部２に対して低消費電力モードへ移行させるコマンドを発行する（ステップＳ４８）。一方、ステップＳ４７で通常消費電力モードの方が、消費電力が少ないと判断した場合、ＰＣ接続系のパワーセーブモードがＡＶ接続系に支障をきたさないよう、パワーセーブモードを一時中断するコマンドを発行し（ステップＳ４９）、これによりデータ蓄積部２は通常動作消費電力モードになる（ステップＳ５０）。一方、ステップＳ４４でＡＶ接続系が停止状態であると判断した場合及びステップＳ４５でＡＶ接続系が録画状態で口空き状態であることを確認した場合は、ＡＶ接続系はストリームデータ処理が行われていない状態であることから、パワーセーブモード処理を行うために、パワーセーブモードが解除されているか否かを判断し（ステップＳ５１）、ステップＳ４９で、パワーセーブモードが中断されていた場合、パワーセーブモードを再開するコマンドをデータ蓄積部２に発行する（ステップＳ５２）。一方、パワーセーブモードが解除されていなかった場合は、ブロックデータ制御部６からのパワーセーブ有効の要求に基づいて、パワーセーブコマンドをデータ蓄積部２に発行する（ステップＳ５３）。ステップ５２またはステップ５３の処理によりデータ蓄積部２はパワーセーブモードとなる（ステップＳ５４）。
【００７９】
このように、本実施の形態３にかかる記録再生装置は、ＰＣ機器及びＡＶ機器の双方と接続してＰＣ接続系及びＡＶ接続系を構成し、パワーモード制御部７が、通常動作モードの消費電力である通常動作消費電力値と、パワーセーブモードと通常動作モードとを組み合わせた消費電力である低消費電力値とを算出して比較し、より少ない消費電力のシーケンスを採用する場合に、ＰＣ接続系に対して支障をきたさないようなパワーモード制御要求をデータ蓄積部（ＩＤＥ ＨＤＤ）に対して発行するようにしたことから、ＰＣ接続系とＡＶ接続系との状態を考慮しつつ、消費電力を極力抑えることができるパワーモード制御を行うことができる。
【００８０】
なお、記録再生装置１００または記録再生装置３００で使用されるデータ蓄積部２としては、ＩＤＥ ＨＤＤの他に、光の記録媒体を使用する記録装置、メモリ等のランダムアクセス装置が考えられる。
【００８１】
【発明の効果】
以上のように、本発明の記録再生装置によれば、ＰＣ機器及びＡＶ機器の双方と接続してＰＣ接続系及びＡＶ接続系を構成し、ＰＣ機器から要求されるパワーセーブ要求とＡＶ接続系の状態を考慮して、データ蓄積部に対するパワーモード制御要求を発行するようにしたことから、ＰＣ接続系及びＡＶ接続系が同時動作中に、ＰＣ接続系からのパワーセーブ要求がＡＶ接続系に支障をきたすことなく、それぞれの接続系に対して効率的なパワーモード制御が行うことができる効果がある。
【００８２】
また、本発明の記録再生装置によれば、ＡＶ機器と接続してＡＶ接続系を構成し、データ転送速度と、データバッファサイズとから、通常動作モードの消費電力である通常動作消費電力値と、パワーセーブモードと通常動作モードとを組み合わせた消費電力である低消費電力値とを算出して、それらの値を比較し、より少ない消費電力のシーケンスを採用して、データ蓄積部に対するパワーモード制御要求を発行するようにしたことから、ＡＶ接続系の消費電力を極力抑えたパワーモード制御を行うことができる効果がある。
【００８３】
また、本発明の記録再生装置によれば、ＰＣ機器及びＡＶ機器の双方と接続してＰＣ接続系及びＡＶ接続系を構成し、通常動作モードの消費電力である通常動作消費電力値と、パワーセーブモードと通常動作モードとを組み合わせた消費電力である低消費電力値とを算出して、それらの値を比較し、より少ない消費電力のシーケンスを採用して、かつ、ＰＣ接続系に対して支障をきたさないようなパワーモード制御要求をデータ蓄積部に対して発行するようにしたことから、ＰＣ接続系とＡＶ接続系の状態を考慮しつつ、ＡＶ接続系の消費電力を極力抑えることができるパワーモード制御を行うことができる効果がある。
【図面の簡単な説明】
【図１】本発明の実施の形態１にかかる記録再生装置の構成を示すブロック図である。
【図２】本発明の実施の形態１にかかる記録再生装置のパワーモード制御部の動作説明を行うためのフローチャート図である。
【図３】本発明の実施の形態２にかかる記録再生装置の構成を示すブロック図である。
【図４】本発明の実施の形態３にかかる記録再生装置のパワーモード制御部の動作説明を行うためのフローチャート図である。
【図５】本発明の実施の形態３にかかる記録再生装置のパワーモード制御部の動作説明を行うためのフローチャート図である。
【図６】ＰＣ機器とＩＥＥＥ１３９４インターフェースを介して接続するハードディスク装置の構成を示すブロック図である。
【図７】ＡＶ機器とＩＥＥＥ１３９４インターフェースを介して接続するハードディスク装置の構成を示すブロック図である。
【図８】３．５インチＨＤＤの動作特性を示す図である。
【符号の説明】
２ データ蓄積部
３ ＩＥＥＥ１３９４ケーブル（ＰＣ接続）
４ ＩＥＥＥ１３９４ケーブル（ＡＶ接続）
５ パケットデータ通信部
６ ブロックデータ制御部
７ パワーモード制御部
８ データバッファ部
９ ブロックデータ通信部
１０ 符号化データ通信部
１１ ストリームデータ制御部
１２ ストリームデータ通信部
１３ ストリームデータ監視部
１００，３００ 記録再生装置
６００，７００ ＨＤＤ[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a recording / reproducing apparatus, and in particular, configures an AV connection system and a PC connection system by connecting both a PC device and an AV device, and performs simultaneous operation of the PC connection system and the AV connection system. This is an improvement relating to the control of the power consumption of the recording / reproducing apparatus which has become possible.
[0002]
[Prior art]
Recently, the IEEE1394 interface has begun to spread, and devices using this interface have begun to spread in both the AV field and the PC field. A digital video camera (DVC) in the AV field first began to spread, and communication is performed using stream data in the DV format. Recently, digital broadcasting has begun to spread, and in this case, communication is performed using stream data in the MPEG-TS format. Also, music communication is performed using stream data in the AM format via the IEEE 1394 interface.
[0003]
Also, PC devices using a hard disk drive (HDD) compliant with IEEE 1394 have become widespread. Recently, AV equipment using an IEEE1394-compliant HDD has been gradually spreading. Note that an HDD refers to a recording / reproducing apparatus that records and reproduces data on and from a non-flexible magnetic disk with a magnetic head. Hereinafter, the configurations of current PC devices and AV devices using IEEE1394 and HDD will be briefly described.
[0004]
When a PC device is configured using the IEEE 1394 and the HDD, the HDD is used as an external HDD of the PC device. When a PC device accesses an external HDD via IEEE 1394, it differs from the case where a PC device accesses an internal HDD in the following points. That is, when accessing the external HDD, since the interface is IEEE1394, the PC device carries out communication by mounting an HDD control command and data to be recorded in an asynchronous packet (ASYNCHRONOUS packet) adapted to this interface. Additional information about the ASYNCHRONOUS packet configuration is also communicated with the control command and data. Therefore, when the external HDD also communicates data, the data is carried in an ASYNCHRONOUS packet. The SBP-2 standard exists as such a data transfer protocol.
[0005]
Hereinafter, an HDD used as an external HDD of a PC device will be described with reference to FIG. FIG. 6 is a block diagram showing the configuration of the external HDD 600.
The external HDD 600 first stores the ASYNCHRONOUS packet transmitted through the IEEE1394 cable 3 in the packet data communication unit 5. Generally, the packet data communication unit 5 is a component called a PHY (physical layer) and a LINK (link layer) defined in IEEE1394. The packet data communication unit 5 determines whether the received packet is a control request or data, and sends the packet to the block data control unit 6 if the received packet is a control request. The block data control unit 6 stores the transmitted packet and extracts an ATA (AT Attachment) command, that is, a hard disk control command, from the packet. On the other hand, when the received packet is data, the packet data communication unit 5 sends the received packet to the block data communication unit 9. The block data communication unit 9 stores the transmitted packet. The block data communication unit 9 has a function to make an optimal packet configuration for transferring block data that does not depend on time series timing such as a file through the IEEE 1394 interface, and a packet received from the IEEE 1394 cable 3. It has a function of converting data into a block data configuration that can be easily handled in the HDD, and a function of controlling communication with the data buffer unit 8.
[0006]
Note that the above-described packet data communication unit 5, block data control unit 6, and block data communication unit 9 are generally formed into one chip as an SBP-2 LINK chip. Further, since the data that can be temporarily handled by the block data communication unit 9 is limited (about several KB), the HDD 600 reads and writes data in larger block data units (often performed in cluster units). The data buffer unit 8 is provided in order to perform the above operation, and the command overhead for the data storage unit 2 is reduced. The data storage unit 2 currently uses an IDE (Integrated Drive Electronics) type HDD, and responds to a request from the block data control unit 6 and performs data communication with the data buffer unit 8 as necessary. .
[0007]
Next, current AV devices using IEEE1394 and HDD will be described. AV equipment using an IEEE1394-compliant HDD is gradually becoming popular for the following reasons. This is because HDDs, which have become widespread as peripheral devices for PCs, have shown remarkable improvements in performance as described in the following example, and have become sufficiently usable in the AV field. That is, first, the recording density of the HDD is currently increasing at twice the rate of the current year, achieving 20 GB per disk at 3.5 inches, and the bit density of the HDD is increased with the increase in the recording density. Second, the data transfer rate is less than 1 yen per 1 Mbyte. Second, the data transfer speed is the lowest in the inner circumference where the data transfer speed is the slowest even considering the average seek time and rotation wait time. A speed of over 100 Mbit / s has been realized, which enables simultaneous processing of three MPEG2 streams with DVC (28.8 Mbit / s is required) editing equipment and digital broadcast (HDTV) quality. (90 Mbits / sec is required), and thirdly, large capacity has been realized, and some of which exceed 30 GB have appeared. PEG2 stream recording at 2.5 hours it has become possible to accumulate (Movie one roll), and the like. As described above, with respect to the price, the sequential accessibility, and the recording time, that is, the capacity, the HDD is at a level usable in the AV field.
[0008]
By taking advantage of the random access characteristic of the original HDD in addition to the above features, the HDD is built in a DVC editing device, a digital broadcast set-top box (STB), or as a video recorder. Utilizing it to record and play back digital data, it has also become possible to realize unprecedented functions.
[0009]
Hereinafter, an HDD used as an AV device will be described with reference to FIG. FIG. 7 is a block diagram showing the configuration of the HDD.
The external HDD 700 receives an ASYNCRONOUS packet and an ISOCHRONOUS packet transmitted from an AV device (not shown) through the IEEE1394 cable 4. Here, an ATA command indicating a control request is transmitted in an ASYNCRONOUS packet configuration, and encoded data in a DV format or an MPEG format depending on time-series timing is transmitted in an ISOCHRONOUS packet configuration. As the encoded data, for example, a demodulated digital broadcast signal or a digitized video signal can be considered. The encoded data communication unit 10 is a component generally called a PHY and a LINK in the IEEE 1394 standard. The coded data communication unit 10 determines whether the received packet is a control request or coded data, and if the received packet is a control request, sends the packet to the stream data control unit 11. The stream data control unit 11 stores the transmitted packet and extracts an AV command from the packet. On the other hand, in the case of data, the packet is sent to the stream data communication unit 12. The stream data communication unit 12 stores the transmitted packet. The stream data communication unit 12 has a function to make the packet structure optimal for transferring the stream data through the IEEE 1394 interface, and a data unit that can handle the encoded data sent in the ISOCHRONOUS packet structure inside the HDD. It has a function of converting to have a timing and a data configuration. The above-described coded data communication unit 10, stream data control unit 11, and stream data communication unit 12 are generally formed into one chip as an AV protocol LINK chip.
[0010]
In the data buffer unit 8, data to be communicated with the stream data communication unit 12 is consolidated in units defined by the user, and communicates with the data storage unit 2. How to determine the unit depends on the judgment of the designer, and does not involve much in the power mode control of this time. Therefore, only the outline will be described. For example, in a DV editing machine which is an example of a device that handles DV data, it is called a frame. Data for one image is defined as one unit. In the case of MPEG data, for example, time stamp information is added for each ISOCHRONOUS data unit to add more accurate time information, and when a predetermined amount of data is accumulated, each set is divided into sets. A unit called DAU (Data Access Unit) is newly defined by adding data such as start time information, configuration picture information, and special reproduction information. In this case, data communication between the data buffer unit 8 and the data storage unit 2 is performed when a plurality of frames or DAUs are collected. When the control request from the AV device is a recording request (REC command), the stream data monitoring unit 13 monitors the stream data communication unit 12 to constantly monitor whether stream data is flowing through the AV connection system.
[0011]
Further, the IEEE 1394 interface has a feature that a PC device and an AV device can be connected with the same physical cable. Therefore, if logical connection as well as physical connection to both the IEEE1394 interface-compatible PC device and AV device is enabled, control requests from both the PC device and AV device can be made by one external HDD device. And data communication. Furthermore, a PC-AV coexistence system that can simultaneously operate a PC device and an AV device with one device is also conceivable. At present, there is a system disclosed in Japanese Patent Application Laid-Open No. H11-242563 as a patent that can realize such a system, but it is not implemented as an actual device.
[0012]
Using this PC-AV system, an AV device, for example, DVC and a PC-AV coexistence system are connected to form an AV connection system, or a PC device and a PC-AV coexistence system are connected to form a PC connection system. Can be formed. It is also possible to realize coexistence of both the PC connection system and the AV connection system, thereby, for example, dubbing from the DVC to the PC-AV coexistence system to facilitate later editing work, From here, it is also possible to use the PC-AV coexistence system as a virtual DVC using DV editing software.
[0013]
An HDD of the PC-AV coexistence system can be considered as an example of a device for realizing the PC-AV coexistence system. In this case, the configuration of the HDD is a combination of the configuration when used as the HDD for PC shown in FIG. 6 and the configuration when used as the HDD for AV shown in FIG. Further, in this configuration, the data buffer unit 8 and the data storage unit 2 can be shared, and the data storage unit can also use the IDE HDD.
[0014]
In recent years, while prevention of global warming has been called for, reduction in power consumption of PC devices or AV devices has also been promoted. Therefore, when realizing a PC-AV system, it is necessary to consider reducing power consumption. Hereinafter, a description will be given of a problem that occurs when a HDD for a PC-AV system is configured by combining an HDD for a PC and an HDD for an AV to realize low power consumption.
[0015]
First, a description will be given of a reduction in power consumption of an HDD used in a current PC device. As for HDDs in peripheral devices of PC devices, 2.5-inch HDDs mounted on battery-driven notebook personal computers have been a driving force, and low power consumption has been promoted. In addition, the 3.5-inch HDD, which is one of the devices, has been reduced in power consumption according to the Green PC standard, which is a standard for environmentally compliant personal computers established in 1993 by the US government.
[0016]
The most popular type of HDD used in the PC field is the IDE type (IDE drive), and this type of HDD has a power save function for controlling power consumption. It should be noted that other interfaces (for example, SCSI; Small Computer System Interface) have a function of controlling the same power consumption, but the following description will be made using an IDE drive as an example. The execution mode of the IDE drive is roughly divided into two, and there are a normal operation mode and a power save mode. The normal operation mode is a state in which the ACTIVE mode and the IDLE mode defined by the ATA standard are maintained. The power save mode refers to a STANDBY mode and a SLEEP mode defined by the ATA standard. The ACTIVE mode usually indicates the actual access state (read, write, seek) of the medium. The IDLE state is a state in which the mode can be set to the ACTIVE mode at any time, and the head often operates following a certain track (not limited to some models). The STANDBY mode is one of the modes in which the drive is stopped, and the function of receiving the ATA command is used at least, but the head is retracted and the rotation of the spindle motor is stopped in some cases. If so, start from the spindle motor. In the SLEEP mode, even an ATA command is not accepted. Only an ATA soft reset is accepted, and most blocks including the spindle motor are in a pause state.
[0017]
As described above, in the IDE drive, it is possible to define two power modes according to the power control function of the PC device. That is, there are two modes, a normal power consumption mode and a power save mode. The normal power consumption mode is a mode in which the HDD is always kept in the normal operation mode so that it can always respond to the media access request to the HDD at the fastest speed. The power save mode is intended to minimize power consumption, and transitions to a normal operation mode when a media access occurs and to a power save mode when the media access ends. When the IDE drive shifts from the power save mode to the normal power consumption mode, there is a relation that the power consumption such as the spin-up of the motor is greatly consumed. After the access is completed, the IDE drive remains in the normal power consumption mode for a specified time. Has been maintained. This time is called a standby timeout time.
[0018]
As the power save mode request from the PC device to the IDE HDD (data storage unit), there are the following seven requests.
Request 1. IMMEDIATE command: a request to immediately shift to the IDLE mode.
Request 2. Standby timeout by IDLE command! = 0: a request to shift to the STANDBY mode after the elapse of the standby time-out time, and thereafter to shift to the STANDBY mode after the elapse of the standby time-out each time a command is issued (standby time-out operation).
Request 3. Standby timeout = 0 by IDLE command: request to immediately switch to IDLE mode, that is, release standby standby operation.
Request 4. STANDBY IMMEDIATE command: a request to immediately shift to STANDBY mode.
Request 5. Standby timeout with STANDBY command! = 0: request to shift to STANDBY mode after elapse of standby timeout period, and thereafter to shift to STANDBY mode after elapse of standby timeout every time a command is issued.
Request 6. Standby timeout = 0 by STANDBY command: request to immediately switch to IDLE mode, that is, release standby standby operation.
Request 7. SLEEP command: a request to immediately shift to the SLEEP mode.
[0019]
The above seven power save mode requests can be classified into the following six types.
Type a. This time, the power save mode is canceled, and there will be no effect on the power save mode (standby timeout) that will continue in the future. Request 1 and Request 7 correspond to this type.
Type b. This time, the power save mode is set, and there is no effect on the power save mode that will be continued in the future. Request 4 corresponds to this type.
Type c. This time, the power save mode is canceled and the power save mode is set continuously. Request 2 corresponds to this type.
Type d. This time, the power save mode is released, and the power save mode is continuously released in the future. Request 3 corresponds to this type.
Type e. This time, the power save mode setting, the power save mode setting that will continue in the future. Request 5 corresponds to this type.
Type f. This time, set the power save mode and release the power save mode continuously. Request 6 corresponds to this type.
[0020]
Operations according to the above six types are executed in the IDE HDD.
In addition, an external HDD that supports IEEE 1394 sends a power save mode request to the data storage unit 2 from the PC device by an ATA command directly through the physical layer of the IEEE 1394 cable and the logical layer of the SBP-2 standard, similarly to the HDD built into the PC device. Done. This may cause the following two problems when considering a PC-AV coexistence system. One is a problem (problem 1) that the state of the PC (PC connection system) may adversely affect the state of the AV side (AV connection system) in a PC-AV coexistence environment. One is that it is not necessary to immediately respond to stream data used in the AV connection system, but it is necessary to periodically respond to a certain amount of stream data. This is a problem (problem 2) that access to the storage unit may be hindered.
[0021]
For example, when stream data is processed in the AV connection system while the power save mode is occurring in the PC connection system, the power save mode is temporarily set so as not to hinder the operation of the AV connection system. It is necessary to cancel the mode. That is, in order to perform the power mode control in the coexistence of the PC-AV, the power mode control which has conventionally been processed inside the IDE HDD is performed by monitoring both the PC connection system and the AV connection system and taking into consideration both states. It is necessary to issue a power mode request to the IDE HDD.
[0022]
Next, reduction in power consumption of an AV device using an HDD will be described.
The data communication of the PC device is performed aperiodically, but the data communication of the AV device is periodic. In addition, it is necessary to respond to data communication of a PC device as soon as possible after a data communication request is generated, while it is not necessary to immediately respond to data communication of an AV device, but a fixed amount of data communication is required periodically. There are features. When an HDD is used for recording / reproducing AV data, a state where the HDD operates in the normal power consumption mode is always maintained in consideration of the periodic flow of data. However, in practice, low power consumption can be achieved depending on the data transfer rate, the capacity of the buffer memory occupied by the data transfer, and the operation characteristics of the HDD.
[0023]
For example, it is assumed that a 3.5-inch IDE HDD having the operation characteristics shown in FIG. 8 and an HDD having a data buffer unit are used as HDDs of AV equipment. It is also assumed that the data to be handled is MPEG-TS data at a fixed rate of 4 Mbps. Here, two modes, a normal operation mode and a low consumption mode, are defined. The normal operation power mode is a mode in which the medium changes to the IDLE mode even when the medium is not accessed. The low power consumption mode is a mode in which a power save mode is set when no media is accessed, and a normal operation mode is set when media is accessed. Here, it is assumed that the power save mode is the SLEEP mode. That is, it is assumed that the media access starts with a spin-up. The approximate calculation of the power consumption values in the normal operation power mode and the low power consumption mode is shown below.
[0024]

[0025]

[0026]

Note: Power consumption during this period is the repetition of Read / Write and Seek, and is calculated with the worst value.

[0027]
The above calculation shows that when using the 3.5-inch HDD and using the 16-MB data buffer memory, no significant difference appears even in the normal operation power mode. However, when the data buffer memory becomes 32 MB, the actual calculation is omitted, but when approximated from Expressions (1) to (10),
Power consumption in normal operation power mode (unit: Wsec) = 241.2 Wsec
Power consumption in low power operation mode (unit: Wsec) = 146.9 Wsec
As a result, a difference in power consumption of as much as 40% occurs. Conversely, when the transfer rate is high (for example, 28.8 Mbps in the DV format), the power consumption is rather large in the low power consumption mode. Therefore, in order to achieve low power consumption in AV equipment using the HDD, it is necessary to perform control according to the data transfer rate of stream data and the capacity of the buffer memory occupied at the time of stream data transfer. However, in order to realize the above-described low power consumption mode in the AV connection system of the PC-AV coexistence system, in addition to the above two problems, in an environment where the PC and the AV device coexist, the AV side has There is a problem that the state may adversely affect the state on the PC side (problem 3). For example, despite the fact that the PC connection system has been established and the media access request has to be immediately responded to whenever the media access request comes in, the transfer rate of the AV connection system is low and the low power consumption mode is used. The operation causes a trouble to the PC connection system. Therefore, in the HDD of the PC-AV system, it is necessary to issue a power mode request in consideration of whether the PC connection system has been established to the IDE HDD and perform power mode control. Note that, as a definition indicating that the PC connection system is established / released, the SBP-2 standard expresses that LOGIN is not performed. That is, the LOGIN state is a state in which a PC access system has been established, and a media access request has to be immediately responded to whenever a media access request comes (note: when not in the power save mode).
[0028]
[Patent Document 1]
JP-A-11-242563
[0029]
[Problems to be solved by the invention]
As described above, it has already been described that an HDD with PC-AV coexistence is configured as a recording / reproducing apparatus which can be simultaneously operated by being connected to both a PC device and an AV device, and power consumption of the HDD is reduced. There are three problems that can arise.
[0030]
Therefore, the present invention can solve the problem that the state of the PC (PC connection system) may adversely affect the state of the AV side (AV connection system) in a PC-AV coexistence environment. It is intended to provide a recording and reproducing device.
[0031]
Further, the present invention solves the problem that setting a power save mode for stream data used in an AV connection system may hinder access to the data storage unit of the stream data. It is an object of the present invention to provide a recording / reproducing device that can perform the recording and reproducing.
[0032]
Further, in the present invention, in order to realize the low power consumption mode in the AV connection system of the PC-AV coexistence system, in addition to the above two problems, in an environment where the PC and the AV device coexist, It is an object of the present invention to provide a recording / reproducing apparatus which can solve the problem that the state may adversely affect the state on the PC side.
[0033]
[Means for Solving the Problems]
A recording / reproducing apparatus according to claim 1 of the present invention converts block data that does not depend on data timing in time series into packet data suitable for data communication, or receives the packet data and a first control request. A packet data communication unit, a block data control unit for analyzing the first control request received by the packet data communication unit, and reassembling the packet data received by the packet data communication unit into block data, or converting the block data into packets. A block data communication unit that recombines the data and sends the packet data communication unit to the packet data communication unit; and a second data transmission / reception unit that transmits / receives the compression-encoded data depending on time-series timing or communicates the encoded data. An encoded data communication unit that receives the control request of A stream data control unit for analyzing the received second control request, and coded data that recombines the coded data into stream data combined in a certain data set unit, or that converts the stream data into time-series data timing And a stream data communication unit that sends the encoded data to the encoded data communication unit, a stream data monitoring unit that monitors whether the encoded data is received, and temporarily stores the block data or the stream data. Between the data buffer unit, a power mode control unit that issues a power mode control request to a data storage unit to be described later, and the data buffer unit, writing or reading the block data, or recording or reproducing the stream data. Writing of the stream data to perform And a data storage unit that operates in a power mode in accordance with a power mode control request issued by the power mode control unit. The stream data control unit includes: The power mode control unit recognizes which of the following operations is being performed: reproduction, recording, reproduction stop, and recording stop, and the power mode control unit notifies the first control request notified from the block data control unit. Based on the analysis result of the second control request notified from the stream data control unit and the recognition result indicating the state of the stream data, and the monitoring result notified from the stream data monitoring unit, The power mode control request is issued.
[0034]
Thus, the PC connection system and the AV connection system coexist, and a power control mode is added to the recording / reproducing device which can operate simultaneously, so that the power saving request from the PC connection system does not hinder the AV connection system. Is realized.
[0035]
According to a second aspect of the present invention, in the recording / reproducing apparatus according to the first aspect, the block data is asynchronous data which can be handled by an IEEE 1394 interface, and the encoded data is isochronous data which can be handled by an IEEE 1394 interface. Wherein the data storage unit is a random access device such as a magnetic or optical medium storage device or a memory device.
[0036]
As a result, a device which is connected by the IEEE 1394 interface, can simultaneously operate the AV connection system and the PC connection system, and can store data by random access is realized.
[0037]
The recording / reproducing apparatus according to claim 3 of the present invention is the recording / reproducing apparatus according to claim 1, wherein the power mode control unit is configured to determine that the first control request from the block data control unit is a power consumption control request; That is, when receiving a notification that the request is a power save request, a notification that the reproduction of the stream data is being executed or a notification that the second control request is a reproduction start request is received from the stream data control unit. In this case, a power mode control request for interrupting the operation in the power save mode is issued to the data storage unit, and then a notification that the reproduction of the stream data has been stopped is issued from the stream data control unit. Power mode control for immediately operating the data storage unit in the power save mode if received. And issues a seek.
[0038]
As a result, it is possible to operate without being affected by the power save mode set in the PC connection system during reproduction or start of reproduction in the AV connection system.
[0039]
The recording / reproducing apparatus according to claim 4 of the present invention is the recording / reproducing apparatus according to claim 1, wherein the power mode control unit is configured to determine that the first control request from the block data control unit is a power consumption control request; That is, upon receiving a notification that the request is a power save request, a notification that the recording of stream data is being executed or a notification that the second control request is a recording start request is received from the stream data control unit. A power mode control request for suspending or suspending the operation of the data storage unit in the power save mode when the stream data monitoring unit is notified that the encoded data is being received. After that, a notification that the recording of the stream data has been stopped is received from the stream data control unit. Expediently, and issues a power mode control request for operating in power save mode for immediately the data storage unit.
[0040]
As a result, it is possible to operate without being affected by the power save mode set in the PC connection system when recording is being performed in the AV connection system and a stream is being received during recording or when a stream is received at the start of recording.
[0041]
The recording / reproducing apparatus according to claim 5 of the present invention is the recording / reproducing apparatus according to claim 1, wherein the power mode control unit is configured to determine that the first control request from the block data control unit is a power consumption control request; That is, when the notification that the request is a power save request is received, the stream data control unit receives the notification that the recording of the stream data is being executed, but the encoded data is received from the stream data monitoring unit. If a notification is received that there is no empty state or has already been in the empty state, or if a notification that playback and recording of stream data is stopped from the stream data control unit is received, Issue a power mode control request to operate in the power save mode to the data storage unit, Upon receiving a notification from the stream data monitoring unit that the port is no longer empty, a power mode control request for immediately canceling the operation in the power save mode is issued to the data storage unit. And
[0042]
Thereby, even when recording is performed in the AV connection system and the mouth is vacant, it is possible to operate in the power save mode set in the PC connection system.
[0043]
A recording / reproducing apparatus according to claim 6 of the present invention, which depends on time-series timing, transmits and receives coded data that has been compressed and coded, or receives a control request for communicating coded data. A data communication unit, a stream data control unit that analyzes a control request received by the encoded data communication unit, and rearranges the encoded data into stream data in a unit of a data set, or converts the stream data in time series A stream data communication unit that converts the data into encoded data depending on the data timing and sends the encoded data to the encoded data communication unit; a stream data monitoring unit that monitors whether or not the encoded data is received; And a power buffer that issues a power mode control request to a data storage unit described later. Between the data control unit and the data buffer unit to write or read the stream data in order to record or play back the stream data, and in accordance with a power mode control request issued by the power mode control unit. A data storage unit that operates in a power mode, wherein the stream data control unit performs any one of recording, reproduction, stopping reproduction, and stopping recording on the stream data. The power mode control unit, the power mode control unit, the analysis result of the control request notified from the stream data control unit, a recognition result indicating the state of stream data, the operation characteristics of the data storage unit, the data The capacity of the buffer unit, the data transfer rate of the stream data, and the stream data monitoring unit Based on the reception state of encoded data knowledge, and issues the power mode control request.
[0044]
As a result, it is possible to select a lower power consumption mode depending on the memory size of the occupied data buffer and the data transfer rate.
[0045]
The recording / reproducing apparatus according to claim 7 of the present invention is the recording / reproducing apparatus according to claim 6, wherein the power mode control unit is configured to control the operation characteristics of the data storage unit, the capacity of the data buffer unit, and the stream data. The capacity allocated for the stream data of the data buffer unit based on the transfer rate of the data buffer, the time for storing the stream data of the capacity in the data buffer unit, that is, the stream data processing time, When not operating in the power save mode, the normal operation power consumption value consumed to move the stream data of the data buffer unit to the data storage unit during the stream data processing time, and the data storage unit operates in the power save mode. In this case, during the stream data processing time, Calculating a low power consumption value to be consumed for moving the dream data to the data storage unit; comparing the normal operation power consumption value with the low power consumption value; A power mode control request for operating in the power consumption mode is issued.
[0046]
As a result, it is possible to consider the two power consumption modes, the normal operation power consumption mode and the low power consumption mode, and actually operate in the lower power consumption mode.
[0047]
The recording / reproducing apparatus according to claim 8 of the present invention is the recording / reproducing apparatus according to claim 1, wherein the power mode control unit analyzes an analysis result of the first control request notified from the block data control unit. An analysis result of the second control request notified from the stream data control unit, a state of stream data, an operation characteristic of the data storage unit, a capacity of the data buffer unit, and a data transfer rate of the stream data; The power mode control request is issued based on the reception state of the encoded data notified from the stream data monitoring unit, and the operation characteristics of the data storage unit, the capacity of the data buffer unit, and the stream data A capacity allocated for stream data in the data buffer unit based on a transfer rate; The time when the stream data of the capacity is stored in the buffer unit, that is, the stream data processing time, and when the data storage unit does not operate in the power save mode, the stream data of the data buffer unit is written during the stream data processing time. A normal operation power consumption value consumed for moving to the data storage unit, and, when the data storage unit operates in the power save mode, moving the stream data of the data buffer unit to the data storage unit during the stream data processing time Calculating a low power consumption value to be consumed in order to cause the data storage unit to operate in a lower power consumption mode by comparing the normal operation power consumption value with the low power consumption value. A mode control request is issued.
[0048]
As a result, it is possible to consider the two power consumption modes, the normal operation power consumption mode and the low power consumption mode, and actually operate in the lower power consumption mode.
[0049]
According to a ninth aspect of the present invention, in the recording / reproducing apparatus according to the eighth aspect, the block data control unit analyzes the first control request and determines whether a block data transfer partner exists. The power mode control unit determines whether or not there is no or no block data transfer partner from the block data control unit. Receiving a notification from the stream data control unit that the stream data is being played back or a notification that the second control request is a playback start request; When it is determined that the power value is lower than the power value, a power mode control request for operating the data storage unit in the low power consumption mode is issued. And wherein the Rukoto.
[0050]
Thus, the two power consumption modes, the normal operation power consumption mode and the low power consumption mode, are examined. If the power consumption in the low power consumption mode is actually lower than the normal operation power consumption mode, the operation in the low power consumption mode is performed. To be able to
[0051]
According to a tenth aspect of the present invention, in the recording / reproducing apparatus according to the eighth aspect, the block data control unit analyzes the first control request to determine whether a block data transfer partner exists. The power mode control unit determines whether or not there is no or no block data transfer partner from the block data control unit. A notification that the recording of the stream data is being executed from the stream data control unit or a notification that the second control request is a recording start request of the stream data, and that the encoded data is transmitted from the stream data monitoring unit. Receiving notification that reception is in progress, further, it is determined that the low power consumption value is lower than the normal operation power consumption value The case, and issues a power mode control request for operating in a low power consumption mode to said data storage unit.
[0052]
With this, when there is no PC device that is LOGINed in the PC connection system, and when the AV connection system is receiving encoded data at the time of recording, two power consumption modes are calculated, and a process with lower power consumption is selected. Make it possible.
[0053]
The recording / reproducing apparatus according to claim 11 of the present invention is the recording / reproducing apparatus according to claim 8, wherein the block data control unit analyzes the first control request and determines whether there is a block data transfer partner. The power mode control unit determines whether or not there is no or no block data transfer partner from the block data control unit. Received from the stream data control unit that the recording of the stream data is being executed, but the encoded data is not received from the stream data monitoring unit. Has been received, or playback and recording of stream data have been stopped from the stream data control unit. When a notification that the data storage unit is in operation is issued to the data storage unit, a power mode control request for operating in the normal operation power consumption mode is issued, and then the open state is released from the stream data monitoring unit. Further, when it is determined that the low power consumption value is lower than the normal operation power consumption value, a power mode control request for operating the data storage unit in the low power consumption mode is issued. It is characterized by.
[0054]
Thus, when there is no PC device LOGINed in the PC connection system and the AV device is in the idle state even during recording, the normal power consumption mode is immediately executed. One power consumption mode is calculated, and a process with lower power consumption can be selected.
[0055]
According to a twelfth aspect of the present invention, in the recording / reproducing apparatus according to the eighth aspect, the block data control unit analyzes the first control request to determine whether a block data transfer partner exists. And the power mode control unit notifies the power mode control unit of the presence of a block data transfer partner from the block data control unit and the first control. When the request is a control request for power consumption, that is, a notification that the request is a power save request, and further, when it is determined that the low power consumption value is lower than the normal operation power consumption value, low power consumption is performed on the data storage unit. A power mode control request for operating in the power mode is issued.
[0056]
Accordingly, when there is a PC device that is LOGINed in the PC connection system and the request from the PC connection system is the power save mode, two power consumption modes are calculated and a process with lower power consumption is selected. Enable.
[0057]
According to a thirteenth aspect of the present invention, in the recording / reproducing apparatus according to the seventh or eighth aspect, the encoded data is isochronous data that can be handled by an IEEE 1394 interface, and the data storage unit is a magnetic / optical device. And a random access device such as a memory device.
[0058]
As a result, a device which is connected by the IEEE 1394 interface, can simultaneously operate the AV connection system and the PC connection system, and can store data by random access is realized.
[0059]
BEST MODE FOR CARRYING OUT THE INVENTION
(Embodiment 1)
The first embodiment corresponds to the first to fifth aspects of the present invention, in which a PC connection system and an AV connection system are configured by being connected to both a PC device and an AV device, and power consumption required by the PC device. The present invention relates to a recording / reproducing apparatus capable of issuing a power mode control request to a data storage unit (IDE HDD) in consideration of the control request of the above, that is, a power save request and the state of an AV connection system.
[0060]
Hereinafter, the recording and reproducing apparatus according to the first embodiment of the present invention will be described with reference to FIG. The same components as those of the HDD shown in the conventional example are denoted by the same reference numerals, and description thereof will be omitted.
[0061]
In FIG. 1, a recording / reproducing device 100 as an external HDD device connects to both a PC device and an AV device (both not shown) via an IEEE 1394 cable 3 and an IEEE 1394 cable 4 to establish a PC connection system and an AV connection system. It is possible to configure, and two connection systems can be operated simultaneously. In FIG. 1, for convenience, the IEEE 1394 cable 3 at the top of FIG. 1 is connected to a PC device to form a PC connection system, and the IEEE 1394 cable 4 at the bottom of FIG. 1 is connected to an AV device to form an AV connection system. Although the recording / reproducing apparatus 100 is shown, which connection system is operated depends on the type of the connection destination device.
[0062]
First, the case of operating as a PC connection system will be described below. When operating as an external HDD of a PC device, the recording / reproducing device 100 receives a control request (first control request) transmitted from the PC device via the IEEE1394 cable 3 by the packet data communication unit 5. This control request is encapsulated in the ATA command format so as to pass through the physical layer of the IEEE 1394 cable 3 and the logical layer of the SBP-2 standard, and is transmitted as an ASYNCRONOUS packet. The packet data communication unit 5 is called PHY and LINK in the IEEE 1394 standard. The control request is sent to the block data control unit 6 and analyzed to extract the original ATA command. When the control request is a power mode request related to power consumption, the block data control unit 6 notifies the power mode control unit 7 of the analysis content. On the other hand, when the control request is a command other than the power consumption control command, the control request is notified to the IDE HDD serving as the data storage unit 2, and then the data communication is performed in the recording / reproducing apparatus 100. Hereinafter, data communication will be described. When the control request from the PC device is a READ command, the data buffer unit 8 reads data from the data storage unit 2 in an address format according to the ATA command by the specified data. At this time, the data buffer unit 8 reads data in block units defined by the IDE HDD. The read data is sent to the block data communication unit 9. The block data communication unit 9 has a function (FIFO) for outputting data in order from the input data, and transmits the block data to an AYSOCHRONOUS packet (asynchronous data) based on a data transfer protocol defined by SBP-2. ) And output to the IEEE 1394 cable 3.
[0063]
When the control request from the PC device is a WRITE command, the flow of data is reverse to that of the READ command. That is, the packetized data transmitted from the IEEE 1394 cable 3 is converted into a block data configuration that can be handled in the HDD, and written into the data storage unit 2 via the data buffer unit 8.
[0064]
Next, the case of operating as an AV connection system will be described below. When operating as an external HDD of an AV device, the recording / reproducing device 100 receives a control request (second control request) from the AV device through the IEEE1394 cable 4 at the encoded data communication unit 10. This control request is encapsulated in the AV command format so as to pass through the physical layer of the IEEE 1394 cable 4 and the logical layer which is an AV protocol standard, and is sent as an ASYNCRONOUS packet. The encoded data communication unit 10 is called PHY and LINK in the IEEE 1394 standard. The control request is notified to the stream data control unit 11 and analyzed to extract an AV command. When the control request is a recording / playback / stop request, the stream data control unit 11 notifies the power mode control unit 7 and the IDE HDD serving as the data storage unit 2 of the request. As a result, the recording / reproducing apparatus 100 performs data communication. Further, the stream data control unit 11 recognizes the state of the AV connection system, that is, which operation among the playback, stop, and recording is being performed by the AV connection system, and notifies the power mode control unit 7 of the recognition result. Notice. When the control request from the AV device is a reproduction request (PLAY command), the data buffer unit 8 reads data from the data storage unit 2 in data units defined by the data storage unit 2. For example, data is read in units of a frame in the DV format or in units of a DAU in the MPEG format. The data buffer unit 8 sends the data read from the data storage unit 2 to the stream data communication unit 12. The stream data communication unit 12 has a FIFO therein, converts the stream data into an ISOCHRONOUS packet format (isochronous data) for a data format compatible with the designated AV device, and outputs the stream data to the IEEE1394 cable 4. When the control request from the AV device is a recording request (REC command), the flow of the stream data is opposite to that of the PLAY command. However, in the case of the REC command, the stream data monitoring unit 13 controls the stream data communication unit 12. Monitoring is performed to constantly monitor whether stream data is flowing in the AV connection system. The stream data monitoring unit 13 notifies the power mode control unit 7 of the monitoring result. Note that a state in which stream data is not flowing is called a vacant state, and will be described below.
[0065]
The power mode control unit 7 includes a power mode request from the PC device analyzed by the block data control unit 6, a control request from the AV device analyzed by the stream data control unit 11, and an AV connection recognized by the stream data control unit 11. A power mode control request is created based on a change in the state of the system and a monitoring result regarding the reception state of the stream data from the stream data monitoring unit 13, and is issued to the data storage unit 2.
[0066]
Hereinafter, the power mode control operation of the recording / reproducing apparatus 100 will be described in detail with reference to FIG.
First, activation of the power mode control unit 7 (step S1) is performed when the block data control unit 6 has notified the power save valid / invalid request or when there has been a notification indicating that the stream has changed. . The notification indicating that the stream has changed is a notification of a control request from the stream data control unit 11 or a notification indicating that the state of the AV connection system has changed, or a notification of a monitoring result from the stream data monitoring unit 13. Notification. After starting, the power mode control unit 7 confirms the notification from the block data control unit 6 (step S2), and issues a power save release command to the data storage unit 2 if the request is to invalidate the power save (step S3). ). As a result, the data storage unit 2 enters the normal operation power consumption mode (step S4). On the other hand, if the power mode validity request is notified or the stream changes, the state of the AV connection system recognized by the stream data control unit 11 is confirmed (step S5). The monitoring result of the data monitoring unit is confirmed (step S6). If it is determined in step S5 that the state of the AV connection system is the playback state, or if it is determined in step S6 that the AV connection system is in the recording state and receiving stream data, the power saving mode of the PC connection system Issues a command to temporarily suspend the power save mode to the data storage unit 2 so as not to disturb the AV connection system (step S7), whereby the data storage unit 2 enters the normal operation power consumption mode (step S8). . If it is determined in step S5 that the AV connection system is in the stopped state, and if it is determined in step S6 that the AV connection system is in the recording state but in the vacant state, the stream data processing is not performed in the AV connection system. Since the power save mode is in effect, it is determined whether or not the power save mode has been released to perform the power save mode processing (step S9). If the power save mode has been interrupted in step S7, the power save mode is interrupted. A command to restart the mode is issued to the data storage unit 2 (step S10). On the other hand, if the power save mode has not been released, a power save command is issued to the data storage unit 2 based on a power save enable request from the block data control unit 6 (step S11). The data storage unit 2 enters the power save mode by the processing in step S10 or step S11 (step S12).
[0067]
As described above, when the recording / reproducing apparatus according to the first embodiment is connected to both the PC device and the AV device to form the PC connection system and the AV connection system, the power mode control unit 7 A power mode control request to the data storage unit (IDE HDD) is issued in consideration of the required power save request and the state of the AV connection system, so that the PC connection system and the AV connection system operate simultaneously. Power mode control can be performed such that a power save request from the PC connection system does not hinder the AV connection system.
[0068]
(Embodiment 2)
The second embodiment corresponds to the inventions of claims 6, 7, and 13, wherein an AV connection system is configured using an IDE HDD, a random access device, or the like as a data storage unit, and power consumption of the AV connection system. To minimize power consumption, the data transfer speed and the data buffer size are used to determine the normal operation power consumption, which is the power consumption in the normal operation mode, and the low power consumption, which is the power consumption combining the power save mode and the normal operation mode. The present invention relates to a recording / reproducing apparatus capable of calculating and comparing values, adopting a sequence of lower power consumption, and issuing a power mode control request to a data storage unit.
[0069]
Hereinafter, a recording / reproducing apparatus 300 according to the second embodiment of the present invention will be described with reference to FIGS.
As shown in FIG. 3, the recording / reproducing apparatus 300 operates as an external HDD by connecting to an AV device via an IEEE1394 cable 4, and operates as an external HDD in FIG. 1, that is, the AV apparatus of the recording / reproducing apparatus 100 shown in the first embodiment. The same components as those of the connection system are denoted by the same reference numerals, and description thereof will be omitted. The recording / reproducing apparatus 300 differs from the AV connection system of the recording / reproducing apparatus 100 in the power mode control method.
[0070]
The power mode control unit 7 controls the control request from the AV device analyzed by the stream data control unit 11, changes in the state of the AV connection system recognized by the stream data communication unit 12, and the stream data monitored by the stream data monitoring unit 13. A power save control request is created based on the monitoring result regarding the reception status of the data, the data transfer speed notified from the stream data control unit 11, the data buffer size for the stream, and the information on the operation characteristics of the IDE HDD, and the data storage Issue to Part 2.
[0071]
In the recording / reproducing apparatus 100 of the first embodiment, when the AV connection system is receiving stream data in the reproducing state or the recording state, the data storage unit 2 performs the power mode control to enter the normal operation power consumption mode. In the recording / reproducing apparatus 300 of the second embodiment, in the above case, the power values of the normal operation power consumption mode and the low power consumption mode are calculated, and the mode in which the power consumption is actually reduced is adopted.
[0072]
The calculation of the power value is performed based on the data transfer speed, the data buffer size for the stream, and the operating characteristics of the IDE HDD. For example, when the information about the operation characteristics shown in FIG. 8 is received, two power consumption values are calculated using Expressions (1) to (10) as shown in the conventional example. Regarding the capacity of the data buffer occupied for stream processing, it is possible to freely assign a fixed area in advance or dynamically secure an area based on the use of the designer. The transfer rate of stream data is 28.8 Mbps in the case of the DV format, and is notified by an AV command in the case of MPEG.
[0073]
Note that the normal operation power consumption mode is a mode in which the medium remains in the IDLE mode even when the medium is not accessed, and the low power consumption mode is a power saving mode when the medium is not accessed and a normal operation when the medium is accessed. This is the mode to enter the mode.
[0074]
As described above, the recording / reproducing apparatus according to the second embodiment is connected to AV equipment to form an AV connection system, and the power mode control unit 7 determines the normal operation mode based on the data transfer speed and the data buffer size. The normal operation power consumption value, which is the power consumption, and the low power consumption value, which is the power consumption that combines the power save mode and the normal operation mode, are calculated and compared. Since the power mode control request to the data storage unit (IDE HDD) is issued, power consumption can be minimized when an AV connection system is configured by connecting to an AV device.
[0075]
(Embodiment 3)
The third embodiment corresponds to the inventions of claims 8 to 13, and is connected to both a PC device and an AV device to form a PC connection system and an AV connection system, thereby suppressing power consumption of the AV connection system. For this purpose, a normal operation power consumption value, which is the power consumption in the normal operation mode, and a low power consumption value, which is the power consumption obtained by combining the power save mode and the normal operation mode, are calculated and compared. The present invention relates to a recording / reproducing apparatus capable of issuing a power mode control request to a data storage unit (IDE HDD) that does not hinder a PC connection system when employing a sequence.
[0076]
Hereinafter, a recording / reproducing apparatus according to the third embodiment of the present invention will be described with reference to FIGS.
The recording / reproducing apparatus according to the third embodiment of the present invention has the same configuration as that of FIG. 1, that is, the recording / reproducing apparatus 100 of the first embodiment. In addition to performing the same power mode control, a power mode control request is issued in consideration of LOGIN / LOGOUT of the PC connection system. The block data control unit 6 analyzes the control request to determine whether the LOGIN has been performed with the PC connection system or has been LOGOUT, and the determination result is notified to the power mode control unit 7. Hereinafter, power mode control performed by the recording and reproducing apparatus according to the third embodiment will be described.
[0077]
The activation of the power mode control unit 7 (step S21) is performed by the block data control unit 6 notifying of a request for enabling / disabling the power save or changing the PC connection state, that is, notifying that the state of LOGIN / LOGOUT has changed. This is a case where a notification of a control request, a notification indicating that the state of the AV connection system has changed, or a notification of a monitoring result has been received from the stream data monitoring unit 13 from the stream data control unit 11. After starting, the power mode control unit 7 first checks the connection state of the PC connection system (step S22). When the PC connection system is established, that is, when LOGIN occurs, the power mode control unit 7 considers the case of the low power consumption mode. Then, a command for shifting to the normal operation power consumption mode is issued to the data storage unit 2 (step S23). On the other hand, when the connection of the PC connection system is released or has been released, that is, when LOGOUT occurs or is in the LOGOUT state, the following is performed based on the notification from the stream data control unit 11 and the stream data monitoring unit 13. Is performed. When the stream data is not flowing, that is, when it is determined that the AV connection system is in the stop state (step S24), or when it is determined that the AV connection system is in the recording state but the vacant state (step S25), the PC connection system is stopped. In order to perform the access as soon as possible, a command for shifting to the normal operation power consumption mode is issued to the data storage unit 2 (step S29). On the other hand, if the stream data is flowing, that is, if it is determined in step S24 that the AV connection system is in the playback state, or if it is determined in step S25 that the AV connection system is in the recording state but receiving the stream data, The power value, the normal operation power consumption value, and the low power consumption value of the two power consumption modes described in the third embodiment are calculated (step S26). When it is determined that the lower power consumption value consumes less power (step S27), a command to shift to the low power consumption mode is issued to the data storage unit 2 (step S28). On the other hand, when it is determined that the power consumption is lower in the normal power consumption mode (step S27), a command to shift to the normal operation power consumption mode is issued to the data storage unit 2 (step S29).
[0078]
Next, the power mode control when it is determined in step S22 that the PC connection system has already been established, that is, it has been determined that LOGIN has been performed, will be described. The notification from the block data control unit 6 is confirmed (step S41). If the request is a power save invalidation request, the power save release command is issued to the data storage unit 2 as it is (step S42). Thereby, the data storage unit 2 enters the normal operation power consumption mode (step S43). If it is determined in step S41 that the power save is valid, or if the stream has changed, the status of the AV connection system is checked (step S44), and the monitoring result of the stream data monitoring unit in the recording state is checked (step S45). In the case where the AV connection system is in the playback state or in the recording state but receiving stream data, the two power consumption modes described in the third embodiment, the normal operation power consumption value, and the low power consumption value are calculated. (Step S46). If it is determined that the lower power consumption value consumes less power (step S47), a command to shift to the low power consumption mode is issued to the data storage unit 2 (step S48). On the other hand, if it is determined in step S47 that the normal power consumption mode consumes less power, a command to temporarily suspend the power save mode is issued so that the power save mode of the PC connection does not disturb the AV connection system. (Step S49), whereby the data storage unit 2 enters the normal operation power consumption mode (step S50). On the other hand, when it is determined in step S44 that the AV connection system is in the stopped state, and when it is confirmed in step S45 that the AV connection system is in the recording state and the open state, the stream data processing is performed in the AV connection system. Since the power save mode has not been set, it is determined whether or not the power save mode has been cancelled in order to perform the power save mode processing (step S51). A command to restart the save mode is issued to the data storage unit 2 (step S52). On the other hand, if the power save mode has not been released, a power save command is issued to the data storage unit 2 based on a power save validity request from the block data control unit 6 (step S53). The data storage unit 2 enters the power save mode by the processing of step 52 or step 53 (step S54).
[0079]
Thus, the recording / reproducing apparatus according to the third embodiment is connected to both the PC device and the AV device to form the PC connection system and the AV connection system, and the power mode control unit 7 controls the power consumption of the normal operation mode. When a normal operation power consumption value, which is power, and a low power consumption value, which is power consumption obtained by combining the power save mode and the normal operation mode, are calculated and compared. Since a power mode control request that does not hinder the connection system is issued to the data storage unit (IDE HDD), the power consumption is controlled while considering the states of the PC connection system and the AV connection system. Power mode control capable of suppressing power as much as possible can be performed.
[0080]
The data storage unit 2 used in the recording / reproducing device 100 or the recording / reproducing device 300 may be a random access device such as a recording device using an optical recording medium or a memory in addition to the IDE HDD.
[0081]
【The invention's effect】
As described above, according to the recording / reproducing apparatus of the present invention, a PC connection system and an AV connection system are configured by connecting to both a PC device and an AV device, and a power saving request and an AV connection system required from the PC device are configured. The power mode control request to the data storage unit is issued in consideration of the state of the above, so that the power saving request from the PC connection system is transmitted to the AV connection system during the simultaneous operation of the PC connection system and the AV connection system. There is an effect that efficient power mode control can be performed on each connection system without causing any trouble.
[0082]
Further, according to the recording / reproducing apparatus of the present invention, an AV connection system is formed by connecting to an AV device, and a normal operation power consumption value which is a power consumption in a normal operation mode is obtained from a data transfer speed and a data buffer size. Calculate a low power consumption value which is a power consumption combining the power save mode and the normal operation mode, compare those values, adopt a sequence of less power consumption, and use the power mode for the data storage unit. Since the control request is issued, there is an effect that it is possible to perform power mode control in which power consumption of the AV connection system is minimized.
[0083]
Further, according to the recording / reproducing apparatus of the present invention, a PC connection system and an AV connection system are configured by being connected to both a PC device and an AV device, and a normal operation power consumption value, which is power consumption in a normal operation mode, and a power Calculate the low power consumption value which is the power consumption combining the save mode and the normal operation mode, compare those values, adopt a sequence of lower power consumption, and Since a power mode control request that does not cause a problem is issued to the data storage unit, it is possible to minimize the power consumption of the AV connection system while considering the states of the PC connection system and the AV connection system. There is an effect that possible power mode control can be performed.
[Brief description of the drawings]
FIG. 1 is a block diagram illustrating a configuration of a recording and reproducing device according to a first embodiment of the present invention.
FIG. 2 is a flowchart for explaining an operation of a power mode control unit of the recording / reproducing apparatus according to the first embodiment of the present invention;
FIG. 3 is a block diagram showing a configuration of a recording / reproducing apparatus according to a second embodiment of the present invention.
FIG. 4 is a flowchart for explaining an operation of a power mode control unit of the recording / reproducing apparatus according to the third embodiment of the present invention;
FIG. 5 is a flowchart for explaining an operation of a power mode control unit of the recording / reproducing apparatus according to the third embodiment of the present invention;
FIG. 6 is a block diagram illustrating a configuration of a hard disk device connected to a PC device via an IEEE 1394 interface.
FIG. 7 is a block diagram illustrating a configuration of a hard disk device connected to an AV device via an IEEE1394 interface.
FIG. 8 is a diagram showing operating characteristics of a 3.5-inch HDD.
[Explanation of symbols]
2 Data storage unit
3 IEEE 1394 cable (PC connection)
4 IEEE 1394 cable (AV connection)
5 Packet data communication section
6 Block data control unit
7 Power mode controller
8 Data buffer section
9 Block data communication unit
10 Encoded data communication unit
11 Stream data control unit
12 Stream data communication unit
13 Stream data monitoring unit
100,300 recording / reproducing device
600,700 HDD

Claims (13)

A packet data communication unit for communicating block data that does not depend on data timing on a time series into packet data suitable for data communication, or receiving the packet data and a first control request;
A block data control unit that analyzes the first control request received by the packet data communication unit;
A block data communication unit that rearranges the packet data received by the packet data communication unit into block data, or that rearranges block data into packet data and sends the packet data to the packet data communication unit,
An encoded data communication unit that depends on time-series timing, transmits and receives encoded data that has been compressed and encoded, or receives a second control request for communicating the encoded data,
A stream data control unit that analyzes the second control request received by the encoded data communication unit;
A stream data communication unit that rearranges the encoded data into stream data that is collected in a certain data set unit, or converts the stream data into encoded data that depends on time-series data timing and sends the encoded data to the encoded data communication unit When,
A stream data monitoring unit that monitors whether the encoded data has been received,
A data buffer unit for temporarily storing the block data or the stream data,
A power mode control unit that issues a power mode control request to a data storage unit described below,
A power mode issued by the power mode control unit, for writing or reading the block data or writing or reading the stream data for recording or reproducing the stream data with the data buffer unit. A data storage unit operating in a power mode according to the control request,
The stream data control unit, the recording and playback device, for the stream data, playback, recording, stop playback, stop recording, to recognize which operation is being performed,
The power mode control unit includes an analysis result of the first control request notified from the block data control unit, an analysis result of the second control request notified from the stream data control unit, and a state of the stream data. Issue the power mode control request, based on the recognition result indicating, and the monitoring result notified from the stream data monitoring unit,
A recording / reproducing apparatus characterized by the above-mentioned. The recording / reproducing apparatus according to claim 1,
The block data is asynchronous data that can be handled by the IEEE 1394 interface.
The encoded data is isochronous data that can be handled by the IEEE 1394 interface,
The data storage unit is a random access device such as a recording device or a memory device using a recording medium such as magnetism or light,
A recording / reproducing apparatus characterized by the above-mentioned. The recording / reproducing apparatus according to claim 1,
The power mode control unit,
When the block data control unit receives a notification that the first control request is a power consumption control request, that is, a power save request, the stream data control unit is executing reproduction of the stream data. When receiving the notification or the notification that the second control request is a reproduction start request, a power mode control request for interrupting the operation in the power save mode to the data storage unit is issued, Thereafter, when receiving a notification that the reproduction of the stream data has been stopped from the stream data control unit, immediately issues a power mode control request for causing the data storage unit to operate in the power save mode.
A recording / reproducing apparatus characterized by the above-mentioned. The recording / reproducing apparatus according to claim 1,
The power mode control unit,
When receiving a notification from the block data control unit that the first control request is a power consumption control request, that is, a power save request, a notification that the recording of stream data is being executed from the stream data control unit. Alternatively, when the second control request is notified that the recording start request is received, and further when the stream data monitoring unit is notified that the encoded data is being received, the data storage unit is notified. Issue a power mode control request for suspending or suspending operation in the power save mode, and thereafter, when receiving a notification that the recording of the stream data has been stopped from the stream data control unit, immediately Issues a power mode control request to operate the data storage unit in the power save mode ,
A recording / reproducing apparatus characterized by the above-mentioned. The recording / reproducing apparatus according to claim 1,
The power mode control unit,
When receiving a notification from the block data control unit that the first control request is a power consumption control request, that is, a power save request, a notification that the recording of stream data is being executed from the stream data control unit. However, when the stream data monitoring unit receives a notification that the coded data is not received or the vacant state is already received, or when the stream data control unit When the notification that the reproduction and the recording of the data are stopped is issued, a power mode control request for causing the data storage unit to operate in the power save mode is issued, and thereafter, from the stream data monitoring unit. When the notification that the mouth is no longer empty is received, the data is immediately stored in the data storage unit. Issuing a power mode control request for releasing the operation in the power saving mode by,
A recording / reproducing apparatus characterized by the above-mentioned. Depends on time-series timing, to transmit and receive encoded data that has been compressed and encoded, or an encoded data communication unit that receives a control request for communicating the encoded data,
A stream data control unit that analyzes the control request received by the encoded data communication unit,
A stream data communication unit that rearranges the encoded data into stream data that is collected in a certain data set unit, or converts the stream data into encoded data that depends on time-series data timing and sends the encoded data to the encoded data communication unit When,
A stream data monitoring unit that monitors whether the encoded data has been received,
A data buffer unit for temporarily storing the stream data,
A power mode control unit that issues a power mode control request to a data storage unit described below,
Writes or reads out the stream data to record or play back the stream data with the data buffer unit, and operates in a power mode according to a power mode control request issued by the power mode control unit. A data storage unit that performs
The stream data control unit, the recording and playback device, for the stream data, recording, playback, stop playback, stop recording, recognize which operation is being performed,
The power mode control unit includes an analysis result of the control request notified from the stream data control unit, a recognition result indicating a state of the stream data, an operation characteristic of the data storage unit, a capacity of the data buffer unit, and a stream data. Issuing the power mode control request based on the data transfer rate and the reception status of the encoded data notified from the stream data monitoring unit,
A recording / reproducing apparatus characterized by the above-mentioned. The recording / reproducing apparatus according to claim 6,
The power mode control unit, based on an operation characteristic of the data storage unit, a capacity of the data buffer unit, and a transfer rate of the stream data, a capacity allocated for stream data of the data buffer unit; The stream data processing time, ie, when the data storage unit does not operate in the power save mode, and stores the stream data in the data buffer unit during the stream data processing time. The normal operation power consumption value consumed for moving to the storage unit, and, when the data storage unit operates in the power save mode, moving the stream data of the data buffer unit to the data storage unit during the stream data processing time To calculate the low power consumption value Rutotomoni, the normally comparison operation power value and said low power consumption value, issues a power mode control request for operating at less power consumption mode to said data storage unit,
A recording / reproducing apparatus characterized by the above-mentioned. The recording / reproducing apparatus according to claim 1,
The power mode control unit includes an analysis result of the first control request notified from the block data control unit, an analysis result of the second control request notified from the stream data control unit, and a state of stream data. The power mode control request based on an operation characteristic of the data storage unit, a capacity of the data buffer unit, a data transfer rate of stream data, and a reception state of encoded data notified from the stream data monitoring unit. Is issued,
A capacity allocated for the stream data of the data buffer unit based on an operation characteristic of the data storage unit, a capacity of the data buffer unit, and the stream data transfer rate; Is stored, i.e., the stream data processing time, and if the data storage unit does not operate in the power save mode, the data buffer unit consumes the stream data during the stream data processing time to move the stream data to the data storage unit. A normal operation power consumption value and a low power consumption value consumed for moving stream data of the data buffer unit to the data storage unit during a stream data processing time when the data storage unit operates in the power save mode. Is calculated, and the normal operation is turned off. Comparing the power consumption value and the power value, issues a power mode control request for operating with low power consumption mode than to said data storage unit,
A recording / reproducing apparatus characterized by the above-mentioned. The recording / reproducing apparatus according to claim 8,
The block data control unit analyzes the first control request, determines whether a block data transfer partner exists, notifies the power mode control unit of the determination result,
When the power mode control unit receives a notification from the block data control unit that a block data transfer partner does not exist or no longer exists, the stream data control unit performs the reproduction of the stream data. Receiving the notification or the notification that the second control request is a reproduction start request, and further determining that the low power consumption value is lower than the normal operation power consumption value. Issue a power mode control request to operate in power mode,
A recording / reproducing apparatus characterized by the above-mentioned. The recording / reproducing apparatus according to claim 8,
The block data control unit analyzes the first control request, determines whether a block data transfer partner exists, notifies the power mode control unit of the determination result,
The power mode control unit, upon receiving a notification from the block data control unit that a block data transfer partner does not exist or no longer exists, notifies the stream data control unit that stream data recording is being performed. Or a notification that the second control request is a stream data recording start request and a notification that the encoded data is being received from the stream data monitoring unit, and further, the low power consumption value is When it is determined that the power consumption is lower than the normal operation power consumption value, a power mode control request for operating the data storage unit in the low power consumption mode is issued,
A recording / reproducing apparatus characterized by the above-mentioned. The recording / reproducing apparatus according to claim 8,
The block data control unit analyzes the first control request, determines whether a block data transfer partner exists, notifies the power mode control unit of the determination result,
The power mode control unit, upon receiving a notification from the block data control unit that a block data transfer partner does not exist or no longer exists, notifies the stream data control unit that stream data recording is being performed. However, when the stream data monitoring unit receives a vacant state in which encoded data is not received or a notification that the vacant state has already been reached, or when the stream data control unit reproduces stream data. And a notification that the recording has been stopped, a power mode control request for causing the data storage unit to operate in the normal operation power consumption mode is issued, and then the stream data monitoring unit issues a power mode control request. Upon receiving the notification that the idle state has been released, the low power consumption value is further notified. If it is determined that the lower operating power consumption value, issues a power mode control request for operating in a low power consumption mode to said data storage unit,
A recording / reproducing apparatus characterized by the above-mentioned. The recording / reproducing apparatus according to claim 8,
The block data control unit analyzes the first control request, determines whether a block data transfer partner exists, notifies the power mode control unit of the determination result,
The power mode control unit receives a notification from the block data control unit that a block data transfer partner exists, and a notification that the first control request is a power consumption control request, that is, a power save request. Further, when it is determined that the low power consumption value is lower than the normal operation power consumption value, a power mode control request for causing the data storage unit to operate in the low power consumption mode is issued.
A recording / reproducing apparatus characterized by the above-mentioned. The recording / reproducing apparatus according to claim 7 or 8,
The encoded data is isochronous data that can be handled by the IEEE 1394 interface,
The data storage unit is a random access device such as a magnetic or optical medium storage device or a memory device,
A recording / reproducing apparatus characterized by the above-mentioned.

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