DE3412735C2 - - Google Patents

Description

The invention relates to a recording or playback device consumer electronics in the preamble of the patent Claim 1 specified Art.

Consumer electronics recording or playback devices, in particular contain tape recorders or video tape recorders as a display device for displaying the tape position of the in the device inserted magnetic tape a mechanical or electric counter that on counter rolls or one Display one of the number of revolutions that drive the magnetic tape display in the form of a capstan wave Represents number. From this count value display, the in tape length expired can be closed under Prerequisite that the counter ge at the beginning of the tape to zero was put. A video tape recorder with an electronic one Tape length counter is, for example, from the magazine "Funkschau" 1982, Issue 9, page 75 known. With this device the electronic tape length counter turns up during insertion automatically zero to one cassette. Because of the  The user can display the counter zer on the position of the magnetic tape, that is, on the past the recording or playback head of the device open tape length or the remaining tape length close for recording or playback. By means of a Such display can be a desired position of the magnet bandes can be set relatively easily. Belt run times or even a remaining tape supply can be a Be However, users of such a device are difficult and laboriously determine.

To eliminate this difficulty, one of the Magazine "Funkschau" 1983, Issue 6, page 44 known Reel tape recorder a so-called real-time counter, the the tape supply expired in the device in real time - Hours and minutes - indicates. Ent for real-time display holds a pulley for the magnetic tape an impulse About whose output pulses are converted into a one-second cycle delt and be fed to a counter module. The count factory display of the known device is only light-controlled, when the capstan motor reaches its target speed Has. However, the real-time display should match the actual Term of the magnetic tape in the known device agree, it is necessary that the real-time counter always set to zero at the bottom of the magnetic tape becomes. If the magnetic tape is in a tape position between the beginning and end of the tape in the known device must be set to the real one to set the counter time each time the tape is transported to the beginning of the tape be animals. With long magnetic tapes, this is below Um a time-consuming process.  

A magnetic tape device known from DE-AS 26 50 665 contains to determine and display the expired Playing time or the remaining time of cassettes both on the Transport shaft (capstan) for the transport of the Magnetic tape at a prescribed speed, as well as one each on the shaft of a changing plate Impulse generator. The speed is in downstream counters measured and in a calculation circuit using a predefined computer program from the speed ratio elapsed playing time or the remaining time determined. With a short test run at any point on the Magnetic tape can determine the respective tape position will.

At the time when the magnetic tape is not from the Transport shaft is transported, no expired Playing time or remaining time are determined and displayed, unless the one initiator is not from the Transport shaft controlled, but by a pulley of the Belt transport, such as from US-PS 35 64 219 is known. However, this has the disadvantage that another Pulse generator with downstream measuring arrangement required is. In addition, here with considerable inaccuracies Measurement of the belt speed can be expected since especially at high belt speeds considerable band slip can occur on the deflection roller.

In a recording or known from DE-OS 31 16 360 Playback device is used to determine the tape position of the  Magnetic tape does not change the speed of rotation Transport shaft, but the rotational speed of the second reel used.

The invention has for its object a special Design of a recording or playback device Specify the type mentioned at the beginning, in which also the actual tape position especially in a real one time is also determined when the magnetic tape has not previously been returned to the initial position or do not transport the magnetic tape from the transport shaft is tiert. This object is achieved according to the invention in the characterizing part of claim 1 given measures resolved.

The measures according to the invention require only minor additional funds for a recording or playback device of the type specified in the introduction. Essentially, only one special computer program in the processor circuit such. By introducing a second, the first Computer program of subordinate computer program the tape position of the magnetic tape is also during a Fast running is displayed, in which the magnetic tape is not included transported at a prescribed belt speed becomes. For magnetic tapes with very long terms of for example, several hours is desirable worth it, even during a fast forward or rewind to know the current band position. Otherwise the user of the device has to put the device in from time to time a belt run with constant belt speed of the Ma gnetbandes to switch the current Bandposi tion. This process is very time consuming and laborious. With the measures of the invention can ever  but the desired belt position in quick run in easier Be found and adjusted very precisely.

The subclaims characterize advantageous configurations tions and developments of the invention. The in claim 4 given further development of the invention, in the four arithmetic are introduced into the processor circuit and in the the computer programs both from a pulse generator of the Aufwic keltellers as well as a pulse generator of the unwinding controlled, also has the advantages that the space requirement for the four computing programs overall is less than the space required for the two arithmetic programs that only one of the pulse generator controlled winding plates. In addition, the display real time, since real time is only up to half the winding volume of the winding spools is determined and the real-time specification with increasing winding volume on Ge loses accuracy.

The invention is illustrated below with the aid of some embodiments games explained. The drawings shows

Fig. 1 is a block diagram of a circuit for displaying the position of a tape into a recording or reproducing apparatus eingeleg th magnetic tape,

Fig. 2 is a block diagram of another scarf device for displaying the tape position of a magnetic tape inserted in a recording or playback device.

In Figs. 1 and 2 are each a block diagram of a circuit of an acceptance or for display of the tape position in an up reproducing apparatus loaded magnetic tape 1 is shown. In the block diagrams of FIGS. 1 and 2 corresponding parts are designated by the same reference characters. The magnetic tape is wound on two spools, one of which is arranged on a spool ler 2 and the other spool on a unwinding plate 3 . Both winding plates are driven by a motor 4 or 5 . The magnetic tape 1 is transported by a cap stanwelle 6 , against which a pressure roller 7 shown schematically in the drawing is pressed, so that the magnetic tape 1 is transported between these two rollers, and which is driven by a motor 8 . A pulse generator 9 is connected to the capstan motor. The sen output signals are supplied to a control circuit leads 10, the time set in the control circuit 10 controls the capstan motor rotational speed order 8 to a prescribed and of an operating device 11 in more detail is not asked way of the capstan motor. As long as the capstan shaft 6 has the prescribed speed of rotation, the control circuit generates at its output 12 an output signal indicating the operational readiness with the desired speed.

The various operating states of the magnetic tape device are set at switches 13 to 17 of the operating device 11 of the magnetic tape device. For example, the switch 13 (PLAY) is provided for the normal recording or playback operation of the magnetic tape device. An associated normal operating circuit 19 generates at an output 18 a signal indicating the speed of rotation of the stan shaft cap 6 for normal recording or playback operation. Switches 14 (CUE) and 17 (REVIEW) are provided for setting the fast search forwards and backwards. The associated operating circuits 20 and 21 generate an output signal in the operating state at a designated output 22 , which characterizes the increased rotational speed of the capstan shaft for this operating state. At the switches 15 and 16 , the operating state of the fast forward (SVL) or the fast return (SRL) is set, in which the cap stanwelle 6 is not in engagement with the magnetic tape. In the operating state of the fast forward, the winding motor 4 drives the take-up plate at high speed; in the operating state of the fast return, the winding motor 5 drives the unwinding plate 3 at a high rotational speed.

In the embodiment shown in Fig. 1, the winding motor 4 for the take-up plate 2 simultaneously drives a pulse generator 23 , which generates a pulse signal with a pulse frequency proportional to the speed of the take-up plate. The output signal of the pulse generator 23 is supplied to a measuring arrangement 24 for measuring the speed of rotation, the output of which generates the data characterizing the measured speed of rotation. In addition, the outputs of a tape start sensing arrangement 25 and a bandendefühlanord voltage 26 are connected to the measuring arrangement 24 , which recognize the beginning and end of the magnetic tape and generate the output data for the beginning and end of the tape in the measuring arrangement 24 . The measuring arrangement 24 is, in the embodiment shown, part of a processor circuit 27 which contains a program circuit 28 for a first computing program RP 1 and a program circuit 29 for a second computing program RP 2 and which also has a tape position memory 30 for storing the program circuits 28 or 29 determined data of the tape position BP and a running direction memory 31 for storing the running direction LR of the magnetic tape in the last operating state of the recording or playback device contains. The tape position data BP stored in the tape position memory 30 are available to an optical display device which displays the tape position in hours and minutes of the remaining tape time remaining. The computing program RP 1 of the program circuit 28 is designed so that the program circuit 28 from the output data of the measuring arrangement 24 and the data supplied by the outputs 18 or 22 of the operating device 11 for the tape speed of the magnetic tape, each of the rotational speed of the winding plate on 2nd Corresponding tape position data is determined as long as the output signal generated at the output 12 of the control circuit 10 at the desired speed of the capstan motor is present at the standby input 33 of the program circuit 28 . The processor circuit determines the data of the tape position of the magnetic tape from the output data of the program circuit 28 and the output data of a tape length detection circuit 34 which is connected to the processor circuit and which, for example, scans the predetermined total tape length of the magnetic tape from the cassette containing the magnetic tape and outputs this data in the form of the remaining time of the magnetic tape for the recording or playback operation of the device.

In addition, the pulse-shaped output signal of the pulse generator 23 of the take-up plate 2 reaches the input of the program circuit 29 for the computer program RP 2 , the input of which is connected to the clock input 35 of the processor circuit.

The second computer program RP 2 of the program circuit 29 is designed such that each pulse arriving at the input 36 of the program circuit 29 is assigned a tape position of the magnetic tape, which depends on the tape position BP stored in the tape position memory 30 and on this by the amount differs by the magnetic tape in the direction stored in the running direction memory 31 between two successive pulses at the input 36 of the program circuit 29 in the recording or playback mode is transported. The data of the tape position thus determined by the program circuit 29 are treated by the processor circuit as the data determined by the program circuit 28 and stored in the tape position memory 30 for display. So that the tape position of the magnetic tape on the recording or playback head 37 of the magnetic tape device is displayed continuously even during the fast forward and reverse. A person operating the device can thus detect the position of the magnetic tape at any time during the entire fast run of the magnetic tape and switch the operating state when the desired tape position is reached in the recording or playback mode without having to make other switchings during the quick run to determine the tape position tion are required.

In the exemplary embodiment shown, the program circuit 29 for the second computer program RP 2 is always switched on when the control circuit 10 does not provide an output signal at its output 12 . 1 is shown in Fig. 1 videotape device after switching on the device or after inserting a videotape cassette in the operating state of the fast run without another operating state being switched on beforehand and the magnetic tape being in a tape position outside the beginning or end of the tape, the tape position memory 30 contains no tape position data, so that the program circuit 29 can not determine any tape position data. Therefore, the operating device 11 includes, for example, a Auslöseeinrich device 40 , which generates the recording or playback state at a trigger signal at its input 41 for only a few revolutions of the take-up plate 2 . The switch-on time of this triggering device is dimensioned so long that the capstan motor 8 reaches the rotational speed required for the recording or playback state and the program circuit 28 can determine the data of a tape position. The trigger signal is generated in the given embodiment by means of a trigger button 42 which, when the power supply SV is switched on and a test contact 43 closed by the inserted magnetic tape, is connected to a supply voltage as a trigger signal at the input 41 of the trigger device 40 .

In another exemplary embodiment, the operating device 11 shown in FIG. 1 contains a triggering and blocking device 44 with a settable memory circuit 45 . This memory circuit controls two Umschaltein devices 46 and 47 in the high-speed operation circuits 48 and 49 . In the set position S of the memory circuit 45, the switching devices 46 and 47 switch on the search mode which corresponds to the direction of travel when the selector switches 16 or 17 set the speed of operation. When switching on the power supply SV with inserted magnetic tape or when inserting a magnetic tape into the switched-on recording or playback device, in which the test contact 43 is closed, a setting signal is generated in a pulse shaper 50 , which sets the memory circuit 45 into the setting position and when then switching on a fast run by means of the switches 16 or 17, the device first in the corresponding search mode. As soon as the output signal from the output 12 of the control circuit 10 for display shows that the capstan shaft 6 has the prescribed order of rotation speed, this signal sets the settable memory circuit 45 via a delay circuit 51 in the reset position. Characterized the Spei cherschaltung 45 by means of the switching devices 46 or 47, the recording or playback device in the on the scarf 16 or 17 preselected high-speed state. The delay time of the delay circuit 51 is selected so that the tape position of the magnetic tape can be reliably determined in the program circuit 28 .

The shown in Fig. 2 in a block diagram from exemplary embodiment of a circuit for displaying the tape position of a magnetic tape inserted in a recording or playback device differs from the embodiment shown in Fig. 1 essentially in that the motor 5 of the unwinding plate 3 additionally controls a pulse generator 52 . This pulse generator generates a pulse signal at its output, the frequency of which is proportional to the rotational speed of the unwinding plate 3 . Accordingly, the processor circuit 53 of the exporting approximately example of FIG. 2 is a training other than the processor circuit 27 of the embodiment of Fig. 2. The pulse generator 52 of the unwinding plate 3 is just if a measuring arrangement 54 for measuring the speed of rotation of the unwinding plate 3 is assigned. The data output of the measuring circuit 24 for the output of the data of the rotational speed of the take-up plate 2 is connected on the one hand to a data input 55 of a program circuit part 28 a with the computer program RP 1 a and on the other hand to a data input 56 of a test arrangement 57 , while the data output Measuring arrangement 54 for the output of the data of the rotational speed of the unwinder 3 is on the one hand connected to the data input 58 of the program circuit part 28 b for the computer program RP 1 b and on the other hand is connected to a data input 59 of the test arrangement. The computing program RP 1 a of the first program circuit part 28 a is provided for calculating and outputting the data of the tape position for the first half of the total length of the magnetic tape 1 from the increase in the tape supply on the winding plate 2 at a running direction towards the tape end of the magnetic tape ; the computing program RP 1 b of the two-th program circuit part 28 b is provided for calculating and outputting the data of the tape position for the second half of the total length of the magnetic tape from the decrease in the tape supply rate on the unwinding plate 3 with a running direction towards the end of the tape. A standby input 60 of the test arrangement 57 is connected to the output 12 of the control circuit 10 for the capstan shaft 6 , so that an output signal at the output 12 of the control circuit 10 switches the test arrangement 57 into operation. In the operating state, the test arrangement 57 compares the output data of the two measuring arrangements 24 and 54 and generates a sequence signal at the standby input 61 a or 61 b of the program circuit part 28 a or 28 b , for its associated winding plate 2 or 3, the measuring circuit 24 or assigned to this winding plate 54 outputs data for a rotational speed which is equal to or greater than the rotational speed of the winder at the tape position of the magnetic tape lying in the middle of the total length of the magnetic tape. In addition, a state memory 63 is connected to an output 62 of the test arrangement, in which is stored which program circuit part 28 a or 28 b was switched into the operating state.

If the program circuit parts 28 a or 28 b are not in standby mode - so in the exemplary embodiment shown, the control circuit 10 for setting the rotational speed of the capstan shaft 6 is not a ready signal at its output 12 - are in the switched-on state of the playback or recording device Per program circuit parts 29 a or 29 b switched in standby, depending on the storage state to which the state memory 63 is located. For example, if previously the program circuit part 28 a was switched to standby and this standby was stored in the state memory 63 , the state memory now switches the program circuit part 29 a to the standby state. The two pro program circuit parts 29 a and 29 b have clock inputs 64 a and 64 b , each of which is connected to the signal output of the pulse generator 23 or 52 of the associated winding plate 2 or 3 . The two program circuit parts 29 a and 29 b each contain an arithmetic program RP 2 a and RP 2 b , of which the arithmetic program RP 2 a the arithmetic program RP 2 of the program circuit 29 of the embodiment of FIG. 1 for the first half of the winding supply of the magnetic tape Corresponds to the reel of the take-up plate 2 . Then he averages the program circuit part 29 a at each clock input 64 a incoming pulse of the pulse generator 23 , each of which corresponds to a certain angle of rotation of the winding winder, for example one full revolution of the winding plate 2 , from the data stored in the tape position memory 30 of the tape position of the Ma gnetbandes and stored in the direction of travel memory 31 th direction of the magnetic tape the data of the tape pulse associated with this output pulse of the encoder 23 of the magnetic tape and stores it instead of the previous data of the tape position in the tape position memory 30 . In this determination, the data of the tape position of the magnetic tape exceed the center of the total length of the magnetic tape, the program circuit part 29 a changes the state in the state memory 63 from state a to state b , so that now the program circuit part 29 b is in standby mode as long as no standby signal occurs at the output 12 of the control circuit 10 . The computing program RP 2 b of the program circuit part 29 b now determines in the same manner as the computer program RP 2 a of the program circuit part 29 a for each pulse of the output of the pulse generator 52 arriving at its clock input 64 b based on the data in the tape position memory 30 and the Direction memory 31, the data of the new tape position of the magnetic tape, each of the specific angle of rotation, for example one revolution of the winding plate 3 for each pulse at the clock input 64 b .

Since individual program tables of the computer programs RP 1 a and RP 1 b and individual program tables of the computer programs RP 2 a and RP 2 b are the same and therefore only one program space is required in the processor circuit, the program circuit parts 28 a and 28 b and 29 are required a and 29 b of the embodiment of FIG. 2 altogether significantly fewer memory locations of the processor circuit than the program circuits 28 and 29 of the exemplary embodiment according to FIG Tape position as from a tape roll that is in the second half of the tape volume.

In the embodiment shown in FIG. 2, the tape start sensor arrangement 25 and the tape end sensor arrangement 26 set the data of the tape position in the tape position memory 30 directly at inputs 65 and 66 . At a data output of the tape position memory, a display device 32 is connected, which displays the data stored in the tape position memory of the tape position of the magnetic tape. In addition, the tape position memory contains an output for a ready signal, which in the exemplary embodiment shown is fed to the reset input RS of a settable memory circuit 45 of a triggering and blocking device 44 of the operating device 11 of the recording or playback device via a line 67 . The ready signal of the tape position memory 30 cancels the blocking state of the circuit 44 , which has been set by switching the device on or by inserting a magnetic tape into the switched-on device via the pulse shaping circuit 50 in the circuit 44 and which until the standby signal occurs blocked the fast forward SVL or the fast reverse SVR at the output of the tape position memory 30 and instead switches on an operating state (QUE or REVIEW) with a tape transport of a defined tape speed.

Claims (9)

1. Recording or playback device for entertainment electronics

• with a magnetic tape of a predetermined length arranged on spools for sound or image information,
• with a measuring arrangement for measuring the rotational speed of at least one of the coils by means of the pulses of a pulse generator coupled to the coil,
• with a processor circuit which contains a program circuit for calculating the tape position of the magnetic tape at the head end from the measured rotational speed of the reel and from the running speed of the magnetic tape,
• - With a display device for displaying the determined tape position
• - And with a device for triggering a brief operating state in which a predetermined transport speed is set for the magnetic tape, for determining the current tape position of the magnetic tape,

characterized,

• - that the processor circuit (27) circuit includes a second program (29) for a second computer program (RP 2), by means of which the program circuit (29) for each subsequent pulse of the coupled to the coil (2) pulse generator (23) a new tape position from the tape position currently stored in the tape position memory ( 30 ) and the direction (LR) of the magnetic tape ( 1 ) stored in a running direction memory ( 31 ) as the distance to the tape position of the magnetic tape when the pulse was last generated, and this tape position is stored in the tape position memory,
• - That a control circuit ( 10 ) generates a control signal for the release of the first program circuit ( 28 ) only when the magnetic tape is transported at a predetermined tape speed,
• - And that the sequence of the second program circuit ( 29 ) is blocked as long as the program sequence of the first program circuit in the processor circuit ( 27 ) is released.

2. Recording or playback device according to claim 1, characterized in that the position data (BP) for the tape position that the processor circuit ( 27 ) outputs, the remaining time in hours and / or minutes of the magnetic tape ( 1 ) . 3. Recording or playback device according to claim 1 or 2, characterized in that to a data input of the processor circuit ( 27 ) the output ( 38 ) of a tape length signaling circuit ( 34 ) is connected, which has the data of the tape length of the device located at its output Magnetic tape ( 1 ) forms. 4. A recording or playback device according to one of claims 1 to 3, in which a pulse generator controlled by the revolutions of the winding plate and a pulse generator controlled by the revolutions of the unwinding plate for the coils of the magnetic tape is provided, characterized in that

• - That each of the two pulse generators ( 23, 52 ) is followed by a measurement arrangement ( 24, 54 ) for measuring the rotational speed of the associated winding plate ( 2, 3 ),
• - That both the first program circuit ( 28 ) and the second program circuit ( 29 ) of the processor circuit ( 53 ) each from two non-simultaneously running program circuit parts ( 28 a , 28 b ; 29 a , 29 b) with adjoining partial programs (RP 1 a, RP 1 b; RP 2 a, RP 2 b) , of which the first part program (RP 1 a) for calculating the tape position (BP) in the first half of the total length of the magnetic tape ( 1 ) containing the beginning of the tape from the The speed of rotation of the winding plate ( 2 ) in the direction of travel towards the end of the tape (BE) and the second part program (RP 1 b) for calculating the tape position in the second half of the total length of the magnetic tape containing the tape end from the speed of rotation of the unwinding plate ( 3 ) in the direction of travel Band end is provided,
• - That the processor circuit contains a test arrangement ( 57 ) which, during a program run of the first program circuit ( 28 ), only the program circuit part ( 28 a ; 28 b) with a partial program (RP 1 a, RP 1 b) of the first computer program (RP 1 ) switches on, which is supplied with a rotational speed of a winding plate which is equal to or greater than the rotational speed of the winding plate corresponding to the center of the total length of the magnetic tape,
• - That a state memory ( 63 ) is connected to the output ( 62 ) of the test arrangement, which stores the activation of a program circuit part (z. B. 28 a) of the first program circuit ( 28 ) until the other program circuit part (z. B. 28 b) the first program circuit ( 28 ) is switched on,
• - And that when you turn on the second program circuit ( 29 ) the program circuit part (z. B. 29 a) of the second program circuit for that winding plate is switched on for the last part of the program circuit (z. B. 28 a) of the first program circuit in Operation was switched.

5. Recording or playback device according to one of claims 1 to 4, characterized in that to an output ( 68 ) of an operating device ( 11 ), the output information for setting an operating state (PLAY) for a run of the magnetic tape ( 1 ) is provided with a pregiven NEN tape speed, the output ( 69 ) of a device ( 40 ) for triggering the tape position detection is connected, and that this Auslöseein direction at a trigger signal at its input ( 41 ) a few turns of a winding plate ( 2 ) continuous output signal setting this operating state. 6. A recording or playback device according to claim 5, characterized in that the trigger signal is a when inserting the magnetic tape ( 1 ) into the device or when switching on the drive of the device and a lying, a test contact ( 43 ) closing magnetic tape signal formed in a pulse generator ( 50 ). 7. Recording or playback device according to one of claims 5 or 6, characterized in that the briefly set operating state for a run of the magnetic tape ( 1 ) with a predetermined tape speed the operating state ("cue" or "review") with a increased predetermined transport speed of the magnetic tape is. 8. Recording or playback device according to one of claims 1 to 7, characterized by a blocking device ( 46, 47 ), the outputs for setting the operating states of the fast forward (SVL) or fast return (SRL) of an operating device ( 11 ) blocked as long as its reset input (RS) is not supplied with a reset signal which is formed at a set tape speed by the control circuit ( 10 ) for setting the tape speed or at a known tape position by the processor circuit ( 53 ).