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JPH0656641B2 - Rotating head type recording or reproducing device - Google Patents
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JPH0656641B2 - Rotating head type recording or reproducing device - Google Patents

Rotating head type recording or reproducing device

Info

Publication number
JPH0656641B2
JPH0656641B2 JP59265664A JP26566484A JPH0656641B2 JP H0656641 B2 JPH0656641 B2 JP H0656641B2 JP 59265664 A JP59265664 A JP 59265664A JP 26566484 A JP26566484 A JP 26566484A JP H0656641 B2 JPH0656641 B2 JP H0656641B2
Authority
JP
Japan
Prior art keywords
recording
area
head
signal
circuit
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Expired - Lifetime
Application number
JP59265664A
Other languages
Japanese (ja)
Other versions
JPS61144702A (en
Inventor
進 上月
宏之 滝本
素一 樫田
宏爾 高橋
健一 長沢
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Canon Inc
Original Assignee
Canon Inc
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Canon Inc filed Critical Canon Inc
Priority to JP59265664A priority Critical patent/JPH0656641B2/en
Priority to GB8523081A priority patent/GB2170641B/en
Priority to DE19853533473 priority patent/DE3533473A1/en
Publication of JPS61144702A publication Critical patent/JPS61144702A/en
Priority to GB8818080A priority patent/GB2208747B/en
Priority to US07/287,567 priority patent/US4958246A/en
Priority to US07/808,940 priority patent/US5159463A/en
Publication of JPH0656641B2 publication Critical patent/JPH0656641B2/en
Anticipated expiration legal-status Critical
Expired - Lifetime legal-status Critical Current

Links

Classifications

    • GPHYSICS
    • G11INFORMATION STORAGE
    • G11BINFORMATION STORAGE BASED ON RELATIVE MOVEMENT BETWEEN RECORD CARRIER AND TRANSDUCER
    • G11B5/00Recording by magnetisation or demagnetisation of a record carrier; Reproducing by magnetic means; Record carriers therefor
    • G11B5/008Recording on, or reproducing or erasing from, magnetic tapes, sheets, e.g. cards, or wires
    • G11B5/00813Recording on, or reproducing or erasing from, magnetic tapes, sheets, e.g. cards, or wires magnetic tapes
    • G11B5/00878Recording on, or reproducing or erasing from, magnetic tapes, sheets, e.g. cards, or wires magnetic tapes transducing different track configurations or formats on the same tape
    • GPHYSICS
    • G11INFORMATION STORAGE
    • G11BINFORMATION STORAGE BASED ON RELATIVE MOVEMENT BETWEEN RECORD CARRIER AND TRANSDUCER
    • G11B15/00Driving, starting or stopping record carriers of filamentary or web form; Driving both such record carriers and heads; Guiding such record carriers or containers therefor; Control thereof; Control of operating function
    • G11B15/02Control of operating function, e.g. switching from recording to reproducing
    • G11B15/05Control of operating function, e.g. switching from recording to reproducing by sensing features present on or derived from record carrier or container
    • G11B15/087Control of operating function, e.g. switching from recording to reproducing by sensing features present on or derived from record carrier or container by sensing recorded signals
    • GPHYSICS
    • G11INFORMATION STORAGE
    • G11BINFORMATION STORAGE BASED ON RELATIVE MOVEMENT BETWEEN RECORD CARRIER AND TRANSDUCER
    • G11B15/00Driving, starting or stopping record carriers of filamentary or web form; Driving both such record carriers and heads; Guiding such record carriers or containers therefor; Control thereof; Control of operating function
    • G11B15/18Driving; Starting; Stopping; Arrangements for control or regulation thereof
    • G11B15/1808Driving of both record carrier and head
    • G11B15/1875Driving of both record carrier and head adaptations for special effects or editing
    • GPHYSICS
    • G11INFORMATION STORAGE
    • G11BINFORMATION STORAGE BASED ON RELATIVE MOVEMENT BETWEEN RECORD CARRIER AND TRANSDUCER
    • G11B20/00Signal processing not specific to the method of recording or reproducing; Circuits therefor
    • G11B20/10Digital recording or reproducing
    • G11B20/10527Audio or video recording; Data buffering arrangements
    • GPHYSICS
    • G11INFORMATION STORAGE
    • G11BINFORMATION STORAGE BASED ON RELATIVE MOVEMENT BETWEEN RECORD CARRIER AND TRANSDUCER
    • G11B27/00Editing; Indexing; Addressing; Timing or synchronising; Monitoring; Measuring tape travel
    • G11B27/10Indexing; Addressing; Timing or synchronising; Measuring tape travel
    • G11B27/34Indicating arrangements 
    • GPHYSICS
    • G11INFORMATION STORAGE
    • G11BINFORMATION STORAGE BASED ON RELATIVE MOVEMENT BETWEEN RECORD CARRIER AND TRANSDUCER
    • G11B27/00Editing; Indexing; Addressing; Timing or synchronising; Monitoring; Measuring tape travel
    • G11B27/36Monitoring, i.e. supervising the progress of recording or reproducing
    • GPHYSICS
    • G11INFORMATION STORAGE
    • G11BINFORMATION STORAGE BASED ON RELATIVE MOVEMENT BETWEEN RECORD CARRIER AND TRANSDUCER
    • G11B5/00Recording by magnetisation or demagnetisation of a record carrier; Reproducing by magnetic means; Record carriers therefor
    • G11B5/008Recording on, or reproducing or erasing from, magnetic tapes, sheets, e.g. cards, or wires
    • G11B5/00813Recording on, or reproducing or erasing from, magnetic tapes, sheets, e.g. cards, or wires magnetic tapes
    • G11B5/00847Recording on, or reproducing or erasing from, magnetic tapes, sheets, e.g. cards, or wires magnetic tapes on transverse tracks
    • G11B5/0086Recording on, or reproducing or erasing from, magnetic tapes, sheets, e.g. cards, or wires magnetic tapes on transverse tracks using cyclically driven heads providing segmented tracks

Landscapes

  • Engineering & Computer Science (AREA)
  • Signal Processing (AREA)
  • Multimedia (AREA)
  • Signal Processing Not Specific To The Method Of Recording And Reproducing (AREA)
  • Recording Or Reproducing By Magnetic Means (AREA)

Description

【発明の詳細な説明】 <技術分野> 本発明は回転ヘッド型記録または再生装置に関し、特に
夫々がテープ状記録媒体の長手方向に延在する複数の並
列する領域に対し、回転ヘッドによって各領域毎に情報
信号の記録または再生を行う装置に関する。
Description: TECHNICAL FIELD The present invention relates to a rotary head type recording or reproducing apparatus, and particularly to a plurality of juxtaposed areas each extending in the longitudinal direction of a tape-shaped recording medium, each area being provided by a rotary head. The present invention relates to a device for recording or reproducing an information signal for each.

<従来技術の説明> 近年磁気記録の分野では、高密度記録が追求されてお
り、ビデオテープレコーダ(VTR)においてもテープ
の走行速度を低下させ、更に高密度な磁気記録を行う様
になっている。そのため従来の様に固定ヘッドを用いて
オーデイォ信号を記録していたのでは、相対速度が大き
くとれず再生音質が劣化してしまうものである。そこで
その1つの解決方法として回転ヘッドで形成するトラツ
クの長さを従来より長くして、その延長部分に時間軸圧
縮したオーデイォ信号を順次記録する方法がある。
<Description of Prior Art> In recent years, in the field of magnetic recording, high-density recording has been pursued, and even in a video tape recorder (VTR), the tape traveling speed is reduced to perform higher-density magnetic recording. There is. Therefore, if an audio signal is recorded by using a fixed head as in the conventional case, the relative speed cannot be made large and the reproduced sound quality is deteriorated. Therefore, as one of the solutions, there is a method in which the length of the track formed by the rotary head is made longer than in the conventional case, and the time axis-compressed audio signal is sequentially recorded in the extended portion.

例えば回転2ヘッドヘリカルスキヤンタイプのVTRに
おいては、従来回転シリンダに磁気テープを180゜以
上巻付けていたのであるが、回転シリンダに(180+
θ)゜以上巻付け、余分に巻付けた部分にPCM化され
時間軸圧縮されたオーデイォ信号を記録するVTRが考
案されている。第1図はこの様なVTRのテープ走行系
を示す図、第2図は第1図に示すVTRによる磁気テー
プ上の記録軌跡を示す図である。図において1は磁気テ
ープ、2は回転シリンダ、3,4はシリンダ2に位相差
180゜で取付けられた互いに異なるアジマス角を有す
るヘツド、5はテープ1上に形成されたトラツクのビデ
オ領域部分、6は同じくオーデイォ領域部分である。ビ
デオ領域5は回転シリンダ2の180゜分でヘツド3,
4がテープをトレースした部分、オーデイォ領域6は回
転シリンダ2のθ゜分でヘツド3,4がテープをトレー
スした部分である。又第2図中f〜fは周知の4周
波方式により各トラツクに重畳されているトラツキング
用パイロツト信号の周波数を示し、その周波数の関係は
(f−f)=f−f≒fで、f−f≒2
となっている。但しfはビデオ信号の水平走査周
波数を示す。
For example, in a rotary 2-head helical scan type VTR, magnetic tape was wound around 180 ° or more on a conventional rotary cylinder, but (180+
A VTR has been devised which records an audio signal which is PCM-timed and time-axis-compressed in a portion which is wound more than θ) ° and is additionally wound. FIG. 1 is a diagram showing a tape traveling system of such a VTR, and FIG. 2 is a diagram showing recording tracks on a magnetic tape by the VTR shown in FIG. In the figure, 1 is a magnetic tape, 2 is a rotating cylinder, 3 and 4 are heads mounted on the cylinder 2 with a phase difference of 180 ° and having different azimuth angles, 5 is a video area portion of a track formed on the tape 1, 6 is also an audio area portion. The video area 5 is at 180 ° of the rotary cylinder 2 and the head 3,
4 is a portion where the tape is traced, and an audio area 6 is a portion where the heads 3 and 4 trace the tape at θ ° of the rotary cylinder 2. The second figure f 1 ~f 4 indicates the frequency of the tracking pilot signal superimposed on the track in a known 4-frequency system, the relationship between the frequency (f 2 -f 1) = f 3 -f When 4≈f H , f 4 −f 2 ≈2
It is f H. However, f H indicates the horizontal scanning frequency of the video signal.

この様にしてオーデイォ領域にPCM化して時間軸圧縮
したオーデイォ信号を再生した場合の音質はかなり高く
アナログ信号を記録再生するオーデイォ専用器の音質に
勝るとも劣らないものである。
In this way, the sound quality when reproducing the audio signal compressed into the PCM in the audio area and compressed on the time axis is considerably high, and is as good as the sound quality of the audio dedicated device for recording and reproducing the analog signal.

一方、上述の如きVTRに於いてビデオ領域5に対して
も別のオーデイォ信号を記録しようという提案がなされ
ている。即ち、例えばθ=36とした時、180゜分回
転ヘッドが回転すれば6の如きオーデイォ領域が他に5
つ設けられる。そして夫々の領域に独立に時間軸圧縮し
たオーデイォ信号を記録すれば計6チヤンネルのオーデ
イォ信号を記録可能なオーデイォ専用テープレコーダが
得られるというものである。
On the other hand, it has been proposed to record another audio signal in the video area 5 in the VTR as described above. That is, for example, when θ = 36, if the rotary head rotates by 180 °, there will be 5 other audio areas such as 6.
One is provided. Then, by recording the time-compressed audio signals independently in each area, an audio-only tape recorder capable of recording a total of 6 channels of audio signals can be obtained.

以下、このテープレコーダについて簡単に説明してお
く。第3図は上述のテープレコーダのテープ走行系を示
す図、第4図はこのテープレコーダによるテープ上の記
録軌跡を示す図である。尚、第1図,第2図と付番は共
用する。
The tape recorder will be briefly described below. FIG. 3 is a diagram showing a tape running system of the above-mentioned tape recorder, and FIG. 4 is a diagram showing recording loci on the tape by this tape recorder. Incidentally, the numbering is shared with FIG. 1 and FIG.

第4図に於いて、CH1〜CH6は夫々ヘツド3または
ヘツド4が第3図に於いてAからB,BからC,Cから
D,DからE,EからF,FからGをトレースしている
期間にオーデイォ信号が記録される領域である。各領域
には夫々別々にオーデイォ信号を記録することが可能で
あり、夫々所謂アジマス重ね書きが行われるが、各領域
CH1〜CH6のトラツクは同一直線上にある必要はな
い。また各領域には夫々トラツキング制御用のパイロツ
ト信号が記録されるが、各領域毎に所定のローテーシヨ
ン(f→f→f→f)で記録されているものと
し、これも領域間に相関性はない。
In FIG. 4, CH1 to CH6 respectively trace head 3 or head 4 from A to B, B to C, C to D, D to E, E to F, and F to G in FIG. This is an area in which the audio signal is recorded during a certain period. It is possible to separately record audio signals in each area, and so-called azimuth overwriting is performed in each area, but the tracks in each area CH1 to CH6 do not have to be on the same straight line. The pilot signal for tracking control is recorded in each area. It is assumed that each area is recorded with a predetermined rotation (f 1 → f 2 → f 3 → f 4 ). There is no correlation between them.

又CH1〜CH3に示す領域は第3図に於いてテープ1
が所定の速度で矢印7に示す方向に走行している時記録
再生され、CH4〜CH6に示す領域は同じく矢印9に
示す方向に走行している時記録再生される。従って第4
図に示す如く、CH1〜CH3に示す領域の各トラツク
の傾きと、CH4〜CH6に示す領域の各トラツクの傾
きとは若干異なる。但し、この時相対速度の差について
は、ヘツド3,4の回転によるものに比べ、テープ1の
走行によるものは極めて小さいため問題とならないもの
とする。
Areas indicated by CH1 to CH3 are tape 1 in FIG.
Is recorded and reproduced when traveling in the direction shown by arrow 7 at a predetermined speed, and the area shown by CH4 to CH6 is recorded and reproduced when traveling in the direction also shown by arrow 9. Therefore, the fourth
As shown in the figure, the slopes of the tracks in the regions CH1 to CH3 are slightly different from the slopes of the tracks in the regions CH4 to CH6. However, the difference in relative speed at this time is not a problem because the difference due to the running of the tape 1 is extremely smaller than that due to the rotation of the heads 3 and 4.

第5図は上述の如きテープレコーダの記録再生のタイム
チヤートである。図中(a)はシリンダ2の回転に同期し
て発生される位相検出パルス(以下PG)で、1/60
秒に“ハイレベル(H)”と“ローレベル(L)”を繰り返す
30Hzの矩形波である。また、(b)はPG(a)と逆極性
のPGである。ここでPG(a)はヘツド3が第3図のB
からGまで回転する間H,PG(b)はヘツド4が同じく
BからGまで回転する間Hであるものとする。
FIG. 5 is a time chart of recording / reproduction of the tape recorder as described above. In the figure, (a) is a phase detection pulse (hereinafter PG) generated in synchronization with the rotation of the cylinder 2, which is 1/60
It is a 30 Hz rectangular wave in which “high level (H)” and “low level (L)” are repeated every second. Further, (b) is a PG having a polarity opposite to that of PG (a). Here, in PG (a), the head 3 is B in FIG.
It is assumed that H and PG (b) during the rotation from G to G are H during the rotation of the head 4 from B to G as well.

第5図(c)はPG(a)より得たデータ読み込み用パルス
で、ビデオ信号の1フイールド分(1/60秒)に対応
する期間のオーデイォ信号を1フイールドおきにオーデ
イォ信号をサンプリングするためのものである。第5図
(d)はサンプリングされた1フイールド分のオーデイォ
データをRAM等を用いて誤り訂正用冗長コード等を付
加したり、配列を変えたりするための信号処理期間をH
で示す。第5図(e)はデータ記録の期間をHで示し、上
述の信号処理で得られた記録用データをテープ1に記録
するタイミングを示す。
FIG. 5 (c) is a pulse for reading data obtained from PG (a), in order to sample the audio signal every other field for the period corresponding to one field (1/60 seconds) of the video signal. belongs to. Fig. 5
(d) is a signal processing period for adding a redundant code for error correction to the sampled audio data for one field by using RAM or changing the arrangement.
Indicate. FIG. 5 (e) shows the period of data recording by H, and shows the timing of recording the recording data obtained by the above-mentioned signal processing on the tape 1.

例えば第5図を用いて時間的に信号の流れを追うと、t
1〜t3の期間(ヘツド3がB〜Gに移動中)サンプリ
ングされたデータは、t3〜t5(ヘツド3がG〜A)
で信号処理が施され、t5〜t6(ヘツド3がA〜B)
の期間で記録される。即ちヘツド3によって第4図のC
H1の領域に記録される。一方PG(b)がHの期間にサ
ンプリングされたデータは同様のタイミングで信号処理
され、ヘツド4によってCH1の領域に記録される。
For example, when the signal flow is temporally traced using FIG. 5, t
Data sampled during the period of 1 to t3 (head 3 is moving from B to G) is t3 to t5 (head 3 is from G to A).
Signal processing is performed at t5 to t6 (Head 3 is A to B)
Will be recorded during the period. That is, by head 3, C in FIG.
It is recorded in the area of H1. On the other hand, the data sampled during the period when PG (b) is H is subjected to signal processing at the same timing and is recorded in the CH1 area by the head 4.

PG(a)を所定位相(ここでは1領域分の36゜)移相
したPGを第5図(f)に示す。
FIG. 5 (f) shows a PG in which PG (a) is phase-shifted by a predetermined phase (here, 36 ° for one area).

以下PG(f)及び不図示のこれと逆特性のPGによって
オーデイオ信号を記録する場合について説明する。第5
図t2〜t4にサンプリングされたデータは、t4〜t
6の間第5図(g)に示す信号に従って信号処理され、t
6〜t7の期間第5図(h)に示す信号に従って記録され
る。即ちヘッド3によって、該ヘツド3がB〜Cをトレ
ースする期間、第4図のCH2に示す領域に記録され
る。同期にt4〜t7の期間にサンプリングされたデー
タはヘツド4によってCH2に示す領域に記録される。
Hereinafter, a case where an audio signal is recorded by PG (f) and a PG (not shown) having a characteristic opposite to this will be described. Fifth
The data sampled at t2 to t4 in FIG.
During 6 the signal is processed according to the signal shown in FIG.
The period from 6 to t7 is recorded according to the signal shown in FIG. 5 (h). That is, the head 3 records in the area indicated by CH2 in FIG. 4 during the period in which the head 3 traces B to C. The data sampled in the period from t4 to t7 in synchronization is recorded by the head 4 in the area indicated by CH2.

次にCH2に示す領域に記録された信号を再生する動作
について説明する。
Next, the operation of reproducing the signal recorded in the area indicated by CH2 will be described.

ヘツド3によるテープ1からのデータの読取は第5図
(h)に示す信号に従いt6〜t7(t1〜t2も同様)
に行われ、第5図(i)に示す信号に従いt7〜t8(t
2〜t3)に記録時とは逆の信号処理が行われる。即ち
この期間で誤り訂正等を行い、更に第5図(j)に示す信
号に従いt8〜t9(t3〜t6)で再生オーデイォ信
号が出力される。もちろんヘツド4による再生動作は上
述の動作と180゜の位相をもって行われ、これで連続
した再生オーデイォ信号が得られる。
The data read from the tape 1 by the head 3 is shown in FIG.
According to the signal shown in (h), t6 to t7 (same for t1 to t2)
At time t7 to t8 (t
2 to t3), signal processing opposite to that at the time of recording is performed. That is, error correction or the like is performed during this period, and the reproduction audio signal is output at t8 to t9 (t3 to t6) according to the signal shown in FIG. 5 (j). Of course, the reproducing operation by the head 4 is carried out with a phase of 180.degree. With the above-mentioned operation, whereby a continuous reproducing audio signal is obtained.

また他の領域CH3〜CH6についても、PG(a)をn
×36゜分移相し、これに基いて上述の記録再生動作を
行えばよいことは云うまでもなく、またこれはテープの
走行方向には依存しない。
Also for other regions CH3 to CH6, PG (a) is set to n.
It goes without saying that the phase is shifted by 36 ° and the recording / reproducing operation described above may be performed based on this, and this does not depend on the tape running direction.

この様に多チヤンネルのオーデイォ専用機としてVTR
を利用することができる。この様な多チヤンネルのオー
デイォ専用機の問題点は複数のチヤンネル分割により、
各チヤンネルの使用状況の把握が困難なところにある。
In this way, a VTR as an audio-only machine with multiple channels
Can be used. The problem with such an audio-only machine with multiple channels is that it can be divided into multiple channels.
It is difficult to understand the usage status of each channel.

<発明の目的> 本発明は上述の如き背景に鑑み、各領域の記録状況が簡
単に把握でき、極めて使い勝手の良い回転ヘツド型記録
または再生装置を提供することを目的とする。
<Object of the Invention> In view of the background as described above, an object of the present invention is to provide a rotary head type recording or reproducing apparatus in which the recording condition of each area can be easily grasped and which is extremely convenient.

<実施例による説明> 以下、本発明を実施例を用いて詳説する。<Explanation by Examples> Hereinafter, the present invention will be described in detail with reference to Examples.

第6図は本発明の一実施列としてのテープレコーダの概
略構成を示す図である。第6図中第1図〜第4図と同様
の構成要素については同一番号を付す。
FIG. 6 is a diagram showing a schematic configuration of a tape recorder as an embodiment of the present invention. In FIG. 6, the same components as those shown in FIGS. 1 to 4 are designated by the same reference numerals.

回転シリンダ2の回転検出器11より得られるPGはモ
ータ制御回路15に供給され、シリンダ2を所定の回転
速度かつ所定の回転位相で回転させる。12はキヤプス
タン13のフライホイール14の回転検出器であり、該
回転検出器12の出力モータ制御回路15に供給され、
記録時にはキヤプスタン13の回転が所定速度となるよ
う制御する。
PG obtained from the rotation detector 11 of the rotating cylinder 2 is supplied to the motor control circuit 15 to rotate the cylinder 2 at a predetermined rotation speed and a predetermined rotation phase. 12 is a rotation detector of the flywheel 14 of the capstan 13, which is supplied to the output motor control circuit 15 of the rotation detector 12,
During recording, the capstan 13 is controlled to rotate at a predetermined speed.

一方、上述のPGはウインドウパルス発生回路16及び
ゲートパルス発生回路17に供給される。第7図はウイ
ンドウパルス及びゲートパルスのPGに対する位相関係
を説明するためのタイミングチヤートである。
On the other hand, the above-mentioned PG is supplied to the window pulse generating circuit 16 and the gate pulse generating circuit 17. FIG. 7 is a timing chart for explaining the phase relationship between the window pulse and the gate pulse with respect to PG.

第7図(a)はPGであり、ヘツド3が第3図に於けるB
点からG点を移動中はハイレベルとなる。第7図(b)〜
(g)は夫々各領域CH1〜CH6の記録再生タイミング
を示すウインドウパルスである。尚、第7図に於いて実
線はヘツド3についてのもの、点線はヘツド4について
のものである。
FIG. 7 (a) is a PG, and the head 3 is B in FIG.
It becomes high level while moving from point G to point G. Fig. 7 (b) ~
(g) is a window pulse indicating the recording / reproducing timing of each of the areas CH1 to CH6. In FIG. 7, the solid line is for the head 3 and the dotted line is for the head 4.

操作部18をマニユアル操作することにより、記録、再
生等の動作モード、記録再生の対象となる領域が指定さ
れる。このデータに基いて領域指定回路19は領域指定
データをゲートパルス発生回路17に供給し、所望のゲ
ートパルスを得る。
By operating the operation unit 18 manually, an operation mode such as recording and reproduction and an area to be recorded and reproduced are designated. Based on this data, the area designating circuit 19 supplies the area designating data to the gate pulse generating circuit 17 to obtain a desired gate pulse.

ゲート回路20の制御用ゲートパルスは、領域指定デー
タに基いてヘツド3ヘツド4夫々について、前述のウイ
ンドウパルス(第7図(b)〜(g))に示すが択一的に選択
供給される。今、第4図CH2に示す領域が指定されて
いるとすればゲート回路20は第7図(c)に示すウイン
ドウパルスによって制御される。
The control gate pulse of the gate circuit 20 is selectively supplied based on the area designation data for each of the head 3 and the head 4 as shown in the window pulse (FIG. 7 (b) to (g)). . If the area shown in CH2 in FIG. 4 is designated, the gate circuit 20 is controlled by the window pulse shown in FIG. 7 (c).

記録時、端子21より入力されたアナログオーデイォ信
号はウインドウパルス(c)に係る前述のタイミングでサ
ンプリングされ、デイジタルデータとされて後、前述の
信号処理が施される。こうして得た記録用オーデイォデ
ータはパイロツト信号発生回路23より1フイールド毎
にf→f→f→fのローテーシヨンで発生され
るトラツキング用パイロツト信号と加算器24で加算さ
れる。加算器24の出力はゲート回路20で前述の如く
適宜ゲートされ、ヘツド3,4によって領域CH2に書
込まれてゆく。
At the time of recording, the analog audio signal input from the terminal 21 is sampled at the above-mentioned timing relating to the window pulse (c), converted into digital data, and then subjected to the above-mentioned signal processing. The recording audio data thus obtained is added by the adder 24 to the tracking pilot signal generated by the rotation of f 1 → f 2 → f 3 → f 4 from the pilot signal generating circuit 23 for each field. The output of the adder 24 is appropriately gated by the gate circuit 20 as described above, and is written in the region CH2 by the heads 3 and 4.

再生時はヘツド3,4の再生信号が同じくウイドウパル
ス(c)によりゲート回路20を介してローパスフイルタ
(LPF)35およびPCMオーデイォ回路22に供給
される。PCMオーデイォ回路22に於いては記録とは
逆に誤り訂正、時間軸伸長、デイジタル−アナログ変換
等の信号処理が行われ、再生アナログオーデイォ信号を
端子21aより出力する。
During reproduction, the reproduction signals of the heads 3 and 4 are also supplied to the low pass filter (LPF) 35 and the PCM audio circuit 22 via the gate circuit 20 by the window pulse (c). Contrary to recording, the PCM audio circuit 22 performs signal processing such as error correction, time axis expansion, digital-analog conversion, etc., and outputs a reproduced analog audio signal from the terminal 21a.

LPF25は前述のトラツキング用パイロツト信号を分
離し、ATF回路26に供給する。ATF回路26は周
知の4周波方式による、トラツキングエラー信号を得る
ための回路で、再生されたトラツキング用パイロツト信
号とパイロツト信号発生回路23により記録時と同一の
ローテーシヨンで発生されたパイロツト信号とを利用す
るのは周知の通りである。こうして得られたトラツキン
グエラー信号はモータ制御回路15に供給され、再生時
のテープ1の走査をキヤプスタン13を介して制御し、
トラツキング制御を行う。
The LPF 25 separates the above tracking pilot signal and supplies it to the ATF circuit 26. The ATF circuit 26 is a circuit for obtaining a tracking error signal according to a well-known four-frequency system. It is well known to use. The tracking error signal thus obtained is supplied to the motor control circuit 15 to control the scanning of the tape 1 during reproduction through the capstan 13,
Performs tracking control.

一方、ゲート回路27はゲートパルス発生回路17より
出力される第7図(h),(i)に示すゲートパルスにより制
御される。即ち、再生領域以外の領域よりの再生信号が
領域判別回路28に供給される。
On the other hand, the gate circuit 27 is controlled by the gate pulse shown in FIGS. 7 (h) and 7 (i) output from the gate pulse generating circuit 17. That is, the reproduction signal from the area other than the reproduction area is supplied to the area discrimination circuit 28.

以下この領域判別回路28の動作について説明する。第
8図はこの領域判別回路28の一具体例を示す図、第9
図は第8図各部の動作タイミングを説明するためのタイ
ミングチヤートである。
The operation of the area discriminating circuit 28 will be described below. FIG. 8 is a diagram showing a specific example of the area discriminating circuit 28, and FIG.
FIG. 8 is a timing chart for explaining the operation timing of each part in FIG.

第8図に於いて、30,33はゲート回路27を介した
ヘツド3,4の再生信号が供給される端子、31,34
は夫々前述のゲートパルス(第7図(h),(i))が供給さ
れる端子、32はPGが供給される端子である。
In FIG. 8, reference numerals 30 and 33 denote terminals to which reproduction signals of the heads 3 and 4 via the gate circuit 27 are supplied, and 31, 34.
Are terminals to which the above-mentioned gate pulse (FIGS. 7 (h) and (i)) are respectively supplied, and 32 is a terminal to which PG is supplied.

図より明らかな様に回路の構成はAヘツド3用の判別回
路37、Bヘツド4用の判別回路38それらの出力をシ
リアル−パラレル変換して6ビツトのデータとして出力
するデコーダ47よりなる。尚、判別回路37,38は
同様の構成であるので、回路38は内部詳細を省略す
る。
As is apparent from the figure, the circuit configuration comprises a discriminator circuit 37 for the A head 3, a discriminator circuit 38 for the B head 4, and a decoder 47 for serial-parallel converting the outputs of them and outputting them as 6-bit data. Since the determination circuits 37 and 38 have the same configuration, the internal details of the circuit 38 are omitted.

以下、該領域判別回路28の動作について説明する。こ
こでは説明のため領域CH2が再生領域、領域CH1、
CH4及びCH6が記録済領域、領域CH3、CH5が
末記録領域であるものとする。
The operation of the area discriminating circuit 28 will be described below. Here, for the sake of explanation, the area CH2 is the reproduction area, the area CH1,
It is assumed that CH4 and CH6 are recorded areas and areas CH3 and CH5 are final recorded areas.

PG(第9図(a)に示す)の立上りでトリガされるモノ
マルチ群42の夫々の時定数は夫々の出力が第9図(e)
〜(i)に示す如くなる様定められている。即ちΔtを微
少時間 とすると、 CH1から数えてN番目のチヤンネルに対応させ、時定
数を式で表わすとN=1のときΔt(sec),Nが2以上
の時 となる。
The respective time constants of the monomulti group 42 triggered by the rising edge of PG (shown in FIG. 9 (a)) are shown in FIG. 9 (e).
~ (I) is specified. That is, Δt is a minute time Then, it corresponds to the Nth channel counting from CH1, and the time constant is expressed by the formula, when N = 1, Δt (sec), and when N is 2 or more. Becomes

次にこのモノマルチ群42の出力群の立下りでトリガす
るモノマルチ群43により一定幅の6種のパルスが得ら
れる。これらのモノマルチ群43の夫々の時定数は約 程度とする。このパルス(第9図(j)〜(q)に示す)によ
れば各領域の中心位置での検出が行える。モノマルチ群
43の出力は全てオアゲート44に供給され、これらは
サンプリングパルスとしてアンドゲート45に供給され
る一方デコーダ47のシリアル−パラレル変換用のクロ
ツクとしても用いられる。
Next, the mono-multi group 43, which is triggered by the trailing edge of the output group of the mono-multi group 42, produces 6 types of pulses having a constant width. The time constant of each of these mono-multi groups 43 is about The degree. With this pulse (shown in FIGS. 9 (j) to 9 (q)), detection can be performed at the center position of each region. All the outputs of the mono-multi group 43 are supplied to the OR gate 44, and these are supplied to the AND gate 45 as sampling pulses and also used as a clock for serial-parallel conversion of the decoder 47.

アンドゲート45ではオアゲート44の出力と前述のゲ
ートパルス(第9図(c)に示す)との論理積がとられ、
再生領域以外の領域についてのみ記録状況の判別が行わ
れる様にする。
The AND gate 45 takes the logical product of the output of the OR gate 44 and the gate pulse (shown in FIG. 9 (c)),
The recording status is determined only in the area other than the reproduction area.

一方、再生信号はBPF39に供給され、主たるRF信
号が分離される。BPF39の出力(第9図(q)に示
す)は検波回路40で検波されて後、比較回路41でリ
フアレンス電圧と比較され、この比較回路41の出力は
アンドゲート46でサンプリングされる。この出力、即
ち各領域の記録状況を示す信号を第9図(t)に示す。こ
の信号はデコーダ47を介することによって各領域に対
応したパラレルデータとして端子48〜53より出力さ
れる。
On the other hand, the reproduction signal is supplied to the BPF 39 and the main RF signal is separated. The output of the BPF 39 (shown in FIG. 9 (q)) is detected by the detection circuit 40 and then compared with the reference voltage by the comparison circuit 41, and the output of the comparison circuit 41 is sampled by the AND gate 46. This output, that is, the signal indicating the recording status of each area is shown in FIG. 9 (t). This signal is output from the terminals 48 to 53 as parallel data corresponding to each area by passing through the decoder 47.

即ち、各領域CH1〜CH6が記録済であれば端子48
〜53の出力信号がH、未記録の場合はLとなる。これ
らのパラレルデータはLED等よりなる表示器29へ供
給され、ユーザーに対し各領域の記録状況を認識させ
る。
That is, if each area CH1 to CH6 has been recorded, the terminal 48
The output signals of ~ 53 are H, and L when they are not recorded. These parallel data are supplied to the display device 29 composed of an LED or the like to let the user recognize the recording status of each area.

上述した様な実施例のテープレコーダによれば多チヤン
ネル化した各領域の記録状況を同時に判別することがで
きる。
According to the tape recorder of the above-described embodiment, it is possible to simultaneously discriminate the recording status of each area having multiple channels.

尚、上述の実施例に於いては各領域の記録状況の判別は
再生時に行っているが、記録時であっても高速テープ送
り時であっても同様に各領域の記録状況の判別が行える
ことは云うまでもない。また磁気テープ1が回転ヘツド
3,4によってトレース可能な状況であれば即時に記録
状況の判別が行える。
In the above-described embodiment, the recording status of each area is determined at the time of reproduction, but the recording status of each area can be similarly determined at the time of recording or high-speed tape feeding. Needless to say. If the magnetic tape 1 can be traced by the rotating heads 3 and 4, the recording status can be immediately discriminated.

<効果の説明> 以上説明した様に本発明によれば、即時に全領域の記録
状況が把握でき、ユーザーにとって極めて使い勝手の良
い回転ヘツド型記録または再生装置を得るものである。
<Explanation of Effect> As described above, according to the present invention, a rotary head type recording or reproducing apparatus can be obtained in which the recording condition of the entire area can be immediately grasped and which is extremely convenient for the user.

【図面の簡単な説明】[Brief description of drawings]

第1図は従来よりのVTRのテープ走行系を示す図、 第2図は第1図に示すVTRによる磁気テープ上の記録
軌跡を示す図、 第3図は多チヤンネルテープレコーダのテープ走行系を
示す図、 第4図は第3図に示すテープレコーダによる磁気テープ
上の記録軌跡を示す図、 第5図は第3図に示すテープレコーダの記録再生のタイ
ムチヤート、 第6図は本発明の一実施例としてのテープレコーダの概
略構成を示す図、 第7図はウインドウパルス及びゲートパルスのPGに対
する位相関係を説明するためのタイミングチャート、 第8図は第6図に於ける領域判別回路の一具体例を示す
図、 第9図は第8図各部の動作タイミングを説明するための
タイミングチヤートである。 1は記録媒体としての磁気テープ、3,4は回転ヘツ
ド、16はウインドウパルス発生回路、17はゲートパ
ルス発生回路、28は領域判別回路、29は表示器、3
9はRF信号を分離するBPF、40は検波回路、47
はデコーダである。
FIG. 1 is a diagram showing a tape traveling system of a conventional VTR, FIG. 2 is a diagram showing a recording track on a magnetic tape by the VTR shown in FIG. 1, and FIG. 3 is a tape traveling system of a multi-channel tape recorder. FIG. 4, FIG. 4 is a diagram showing a recording track on a magnetic tape by the tape recorder shown in FIG. 3, FIG. 5 is a time chart of recording / reproducing of the tape recorder shown in FIG. 3, and FIG. FIG. 7 is a diagram showing a schematic configuration of a tape recorder as one embodiment, FIG. 7 is a timing chart for explaining a phase relationship between a window pulse and a gate pulse with respect to PG, and FIG. 8 is a region discriminating circuit in FIG. FIG. 9 shows a specific example, and FIG. 9 is a timing chart for explaining the operation timing of each part in FIG. 1 is a magnetic tape as a recording medium, 3 and 4 are rotary heads, 16 is a window pulse generation circuit, 17 is a gate pulse generation circuit, 28 is an area discrimination circuit, 29 is a display device, 3
9 is a BPF for separating RF signals, 40 is a detection circuit, 47
Is a decoder.

───────────────────────────────────────────────────── フロントページの続き (72)発明者 高橋 宏爾 神奈川県川崎市高津区下野毛770番地 キ ヤノン株式会社玉川事業所内 (72)発明者 長沢 健一 神奈川県川崎市高津区下野毛770番地 キ ヤノン株式会社玉川事業所内 (56)参考文献 実開 昭58−35117(JP,U) ─────────────────────────────────────────────────── ─── Continuation of the front page (72) Inventor Hirohisa Takahashi 770 Shimonoge, Takatsu-ku, Kawasaki City, Kanagawa Prefecture, Tamagawa Plant, Canon Inc. (72) Kenichi Nagasawa 770 Shimonoge, Takatsu-ku, Kawasaki-shi, Kanagawa Canon Inc. Company Tamagawa Plant (56) References: Actual development Sho 58-35117 (JP, U)

Claims (1)

【特許請求の範囲】[Claims] 【請求項1】テープ状記録媒体の長手方向に対して斜め
方向にトレースしつつ情報信号の記録再生を行なうヘッ
ドを備え、 上記ヘッドのトレース方向の異なる複数領域のいずれか
の領域に上記情報信号及び上記パイロット信号を選択的
に記録し、再生する回転ヘッド型記録又は再生装置であ
って、 前記回転ヘッドの出力信号中の上記情報信号の有無を検
出する検出手段と、 上記複数領域に各々対応したタイミングで前記検出手段
の検出出力の有無を検出して各領域の記録状態を判別す
る判別手段とを備えたことを特徴とする回転ヘッド型記
録または再生装置。
1. A head for recording / reproducing an information signal while tracing in an oblique direction with respect to a longitudinal direction of a tape-shaped recording medium, wherein the information signal is provided in any one of a plurality of areas having different tracing directions of the head. And a rotary head type recording or reproducing device for selectively recording and reproducing the pilot signal, the detecting means detecting presence or absence of the information signal in the output signal of the rotary head, and corresponding to the plurality of areas, respectively. A rotary head type recording or reproducing apparatus, comprising: a discriminating unit for discriminating the recording state of each area by detecting the presence or absence of the detection output of the detecting unit at the above timing.
JP59265664A 1984-12-17 1984-12-17 Rotating head type recording or reproducing device Expired - Lifetime JPH0656641B2 (en)

Priority Applications (6)

Application Number Priority Date Filing Date Title
JP59265664A JPH0656641B2 (en) 1984-12-17 1984-12-17 Rotating head type recording or reproducing device
GB8523081A GB2170641B (en) 1984-12-17 1985-09-18 Rotary head type recording and/or reproducing apparatus
DE19853533473 DE3533473A1 (en) 1984-12-17 1985-09-19 DEVICE FOR RECORDING AND / OR PLAYBACK WITH TURNING HEADS
GB8818080A GB2208747B (en) 1984-12-17 1988-07-29 Recording and/or reproducing apparatus
US07/287,567 US4958246A (en) 1984-12-17 1988-12-19 Device of multi-channel rotary head type having function to discriminate recorded state
US07/808,940 US5159463A (en) 1984-12-17 1991-12-13 Reproducing device of multi-channel rotary head type having function to discriminate recorded state

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
JP59265664A JPH0656641B2 (en) 1984-12-17 1984-12-17 Rotating head type recording or reproducing device

Publications (2)

Publication Number Publication Date
JPS61144702A JPS61144702A (en) 1986-07-02
JPH0656641B2 true JPH0656641B2 (en) 1994-07-27

Family

ID=17420272

Family Applications (1)

Application Number Title Priority Date Filing Date
JP59265664A Expired - Lifetime JPH0656641B2 (en) 1984-12-17 1984-12-17 Rotating head type recording or reproducing device

Country Status (1)

Country Link
JP (1) JPH0656641B2 (en)

Family Cites Families (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JPS5835117U (en) * 1981-08-28 1983-03-07 ソニー株式会社 video signal recording device

Also Published As

Publication number Publication date
JPS61144702A (en) 1986-07-02

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