DE1524854C - Control device for driving a playback device for tape-shaped recording media - Google Patents

Description

The invention relates to a control device for driving a playback device for tape-shaped Recording medium in which the drive is in each case when the one to be reproduced occurs Pauses that divide the signal into signal sections.

Sometimes it is necessary to understand the content of language, lecture, conversation, discussion and the like. dictate by a playback device such as a magnetic tape recorder. There is a Difference between speaking and writing speed. Therefore it is necessary to use the Intermittently stop playback.

According to the prior art, such a stop by switches, for example foot or Hand switch, which must be operated by the clerk. Such a "manual" Control is cumbersome and confusing for the writer.

An automatic control device is already known from Japanese patent specification 65 22/1953, in which the drive of the playback device each time the signal curve to be displayed occurs is stopped for a while in pauses dividing signal sections. The well-known facility however, it has the disadvantage that the holding times are always the same length; in some cases are The pause times for rewriting the dictation are too short, so that a manual pause is also required the 'playback process is required; in other cases the holding times are too long, so that the Clerk is held up by unnecessary waiting. The invention has for its object to be a To create control device in which the length of the pause is the length of the one preceding the pause Depends on the signal section. For this purpose, the control device according to the invention comprises a display circuit, to which the reproduced signal is fed, the first indicating the beginning of a signal section Output signal and a second the end of the signal section. indicating output signal generated and the one measuring arrangement for measuring the length of time between the first and the second Output signal controls, as well as a timer circuit, which is switched on by the second output signal and the drive of the playback device via a stop circuit for a stopping period switches off, which depends on the measured value formed in the measuring arrangement.

Developments of the invention are contained in claims 2 to 13. The invention is presented in the following description of preferred exemplary embodiments. It shows

Fig. 1 shows an embodiment of an inventive Arrangement in circuit diagram representation,

F i g. 2 several timing diagrams, which at certain points in the circuit according to FIG. 1 removable are,

F i g. 3 A, 3 B two diagrams to illustrate the mode of operation of essential components the circuit of Fig. 1,

F i g. 4 is a diagram showing the relationship between the signal period of a succession of the reproduced signal and the stopping period in the circuit of Fig. 1,

F i g. 5 shows a modified embodiment of an arrangement according to the invention in a circuit diagram,

F i g. Fig. 6 is a graph showing the relationship between the signal period of a sequence of the reproduced signal and the pause period in the circuit of FIG. 5,

F i g. 7 shows a further modified embodiment of an arrangement according to the invention in a circuit diagram,

8A, 8B show two diagrams for illustration of characteristic values of an essential component of the circuit according to FIG. 7 for the purpose of explaining its mode of action.

The reproducing apparatus 1 comprises a drive mechanism for a magnetic tape, a magnetic head for recording and converting magnetically marked signals into electrical signals and an electroacoustic one System with an amplifier and a loudspeaker to play back the recorded Signals. For the sake of a clear presentation, only a few are essential Elements, for example a DC motor 2 for driving, a loudspeaker 3 and an output transformer 4 of the electroacoustic system, which has an output secondary winding 5.

In the control device 6, the elements 7 to 13 form a display circuit that responds to signals for operational display of the beginning and the end of a section of the reproduced signal. The capacitor 16 assigned to the working contacts 17 a of the relay 13 and the power rectifier circuit 18, 19 act as a measuring arrangement for measuring the duration of the signal segment! The den Normally closed contacts 176 of the relay 13 associated capacitor 16 and the components 20 to 30, which in a formwork 14 according to FIG. 1 act as a timer and stop circuit to stop the signal reproducing device for a certain period of time according to the measured Duration of the signal segment.

The control device 6 comprises a rectifier stage with a rectifier 7, an adjustable resistor 8 and a resistor 10, which are connected in series to the secondary winding 5 of the output transformer 4. A capacitor 9 lies parallel to the adjustable resistor 8 in order to generate a rectified voltage across it in accordance with the signal which appears on the secondary winding 5. A PNP transistor 11 is located with its base connected to one terminal of capacitor .9, its emitter connected via an emitter resistor 12 to the positive pole of a DC voltage El and at the other terminal of the capacitor 9. A relay 13 is connected between the collector of the transistor 11 and the negative pole of the DC voltage £ 1.

The relay 13 has two changeover contacts, each with a normally open contact 17 a, a normally closed contact 17 b and a movable contact 15.

The control device 6 comprises a capacitor 16 which is located between the pair of movable contacts 15. Resistors 21, 22, 23 are also provided, which can be switched between the two normally closed contacts 17 b of relay 13 by a selector switch 20 and form a discharge circuit. A PNP transistor 25 has its collector connected to the negative pole of the DC voltage El and to the base through a base resistor 24 at one of the break contacts 176 of the relay 13. Another PNP transistor 28 is located with its collector connected to that of

of transistor 25, and the base of transistor 28 is connected to the emitter of transistor 25 via an adjustable resistor 29. The emitter of the transistor 28 is via a relay 26 on the positive terminal of the DC voltage El and at the other normally closed contact 176 of the relay 13. A varistor 27 is connected in parallel to the relay 26th

The relay 26 has a contact 30 which opens when the relay 26 is picked up, and otherwise closed is.

A resistor 18 and a rectifier 19 form a mains rectifier circuit for achieving a direct voltage by means of rectifying an alternating voltage E 2, for example 100 volts. The direct voltage obtained in this way is fed to the two normally open contacts 17 a and also to the direct current motor 2 of the playback device 1 via the contact 30 of the relay 26.

The varistor serves as protection for the transistor 28 from a counter voltage induced by the relay 26.

If no LF signal appears at the secondary winding 5 of the output transformer 4 at the start of operation of the playback device, the relays 13, 26 are initially held in the rest position so that the movable contacts 15 of the relay 13 touch the rest contacts 17 b and the contact 30 of the relay 26 is in the closed position according to FIG. 1 is located.

Through the switch contact 30, the DC voltage taken from the power rectifier is dem DC motor 2 is supplied so that a (not shown) recorded magnetic tape is guided past a magnetic head (also not shown). When the magnetic tape is fed appears at the output secondary winding 5 of the output transformer 4, an LF signal, which the recorded signal in the magnetic tape.

Assuming that the signal content of the recorded signal contains a lecture, the amplitude envelope of the LF signal corresponding to the speaker's voice or the speaking tone has a shape corresponding to the pulse diagram (α) of FIG. 2, where 51, 52, S3 ... a signal section of the reproduced signal, tsl, ts2, ts3 ... the corresponding time duration of these signal sections P 1, P 2, P 3 ... pauses between the corresponding signal sections of the reproduced signal , caused by inhalation or pauses inserted for technical reasons, and tp 1, tp 2, tp 3 represent their duration.

Once the signal portion 51 of the reproduced signal on the output secondary winding 5 appears, this is converted by the rectifier 7 into a corresponding DC voltage and charges the capacitor 9. This DC voltage lies between the DC voltage and the Emitter of transistor 11 to create a bias voltage so that transistor 11 remains open, to allow a high current flow through the relay 13, and the movable contacts 15 themselves are in contact with the working contacts 17 α. If the contacts 15,17 a touch, can the capacitor 16 can be charged by the DC voltage of the mains rectifier circuit, so that the capacitor charge increases as a function of time.

The total electrical charge increases exponentially, and the size of the charge is determined by the values of the capacitor 16 and the resistor 18 are determined.

The pulse diagram (c) according to FIG. 2 and the curve according to FIG. 3A show the voltage rise e _c across the capacitor 16.

Once the relay 13 has picked up, this state can be maintained as long as that reproduced signal continues.

ίο If after a certain time the reproduced Signal ends, the voltage appearing on the capacitor 9 decreases rapidly because the in the Capacitor 9 stored charge is released through the adjustable resistor 8, the Transistor 11 blocks and thus relay 13 drops out.

There may be a time delay τ between the moment the reproduced signal ends and the moment the re-

zo lais 13 drops because the relay 13 remains attracted after the end of the reproduced signal until the decreasing collector current falls below the response current of the relay 13. This time delay τ is very important because it enables the control device 6 not to respond to brief interruptions in the reproduced signal, the length of which is less than that of the time delay. The time delay τ can be changed by using an adjustable element in order to change the time constant which is determined by the resistor 8 and the capacitor 9. When the relay 11 drops out, the pair of movable contacts 15 rests on the normally closed contacts 17 b , so that the electrical charge which has been stored in the capacitor 16 is discharged through the resistor 22 connected in parallel.

The timing diagram (c) of FIG. 2 and the curve of FIG. 3B show the voltage drop e / across capacitor 16.

If, on the other hand, the movable contacts 15 of the relay 13 rest against the normally closed contacts 17 b , a very small current can flow to the base of the transistor 25 through the resistor 24 as a result of the voltage e _c ' and is amplified by a common grounded collector circuit, which from the transistors 25, 28 in cascade connection, so that the relay 26 is actuated immediately. The mode of operation of the relay 26 results from the pulse diagram {d) of FIG. 2.

The contact 30 of the relay 26 is opened in this way, the tape being transported by the DC motor is stopped. This can be seen from the timing diagram (e) of FIG. 2.

The discharge of the capacitor 16 is determined by the values of its capacitance and its this resistor connected in parallel.

Nonetheless, the voltage e / decreases as a function of time. When the voltage drops below a predetermined operating voltage e _t , which is determined by the current amplification factor of the cascaded transistors 25, 28 and the operating current of the relay 26, the relay 26 drops out so that its contact 30 is closed to the DC motor 2 to operate and to drive the magnetic tape again.

Accordingly, the playback device is stopped in its operation for a stopping time period t _v t ₂ , i ₃ ... During which the relay 26 is picked up. So-

with the operational relationship between the relays 13, 26 and the capacitor 16 results from the pulse diagrams (b) to (e) of FIG. 2. The stopping time t increases monotonically when the time t _{s of} the signal sections increases. The relationship between t and t _s is shown in FIG. It follows that the time period for dictation can be varied according to the signal length to be dictated.

Normally open contact 40 α of the relay, so that a capacitor 43 is charged with a constant current of a PNP transistor 41 in such a way that the grounded side of the capacitor 43 is at a lower potential. The transistor 41 is biased accordingly by resistors 42, 44, 45.

When the signal e _in ends, the stored charge of the capacitor 33 decreases by discharging through the resistor 32, its discharge value through

According to the present embodiment, a time constant of the resistor 32 and the advantage that the stopping period is determined in suitable capacitor 33, so that the collector network can be lengthened or shortened, current of the transistor 37 is kept ineffective by only the If the collector current, which flows through the recondenser of the circuit 14 according to the speech relay 38, falls below the operating current of the relay 38 speed or the writing ability changed 15, the contact 39 switches to the quiescent con, clock 40 b around. In this state, the condenser is supplied to an NPN transistor 48, although the previously described embodiment 43 has an opposite constant current of approximate shape which is advantageous in its effect, so that there are inherent structural difficulties. The capacitance of the capacitor 43 stored electrical charge rate of the capacitor 16 must be relatively large 20 decreases.

be, namely in the order of magnitude of a few 10 If the contact 39 against the contact 40 b.

up to 100 MF, if there is a stopping period of nearly, the base potential of the transistor also rises for 10 seconds if the conditions rise, so that the conditions generated by the transistors 50, 51 in t _s <4 RC and t · <R'C are to be met, amplifier circuit shown Darlington connection because the resistance values R, R 'of the resistors 18, 25 device is actuated. Another transistor 53 cannot be chosen to be too large. controlled by an emitter resistor 52, which

Furthermore, the voltage E of the mains rectifier with the emitter of transistor 51 and the base circuit should be E ^> e _c . On the other hand, e _c resistance 54 of transistor 53 should be connected. Sohäjtnis wise greater than e _t . Practically, should e _t can not with current flow through a relay 55 which be less than some 10 volts, is used to provide a stable ₃₀ in the collector circuit of the transistor 53rd Operation in the relay 26 to ensure. Consequently, when the relay 55 is actuated, the opening

the voltage E should be high, because otherwise the control device becomes less effective.

In order to overcome these difficulties, an arrangement described below can be used. A constant current charging circuit and a constant current discharging circuit can be derived from this modified arrangement in the circuit according to FIG. 1 use.

In the circuit according to FIG. 5 corresponds to a Si 40, the transistor 50 would be held in its non-conductive Zugnal e _in a sequence S of a reproduced signal, so that no electrical current flows into the and is from an output secondary winding 5 relay 55 and therefore the switch contacts 57 of an output transformer 4 a Signal playback - to be closed again. When the tape drive device has been removed. ben is, the transistor 37 remains conductive in Ab-

In the control device shown, the dependency on the form of the reproduced signal form elements 31 to 38, the display circuit, which begins at the capacitor 33, which indicates a stop and the end of the respective reproduced signal section; the one with contacts 39 and 40 a
The connected capacitor 43 forms the measuring arrangement 50 with the transistor 41 and the resistor 42
to determine the duration of the respective signal segment; and the capacitor 43 connected to the contacts 406 forms in connection with
transistor 48 and resistors 46, 47 and
49 the timer circuit, which is based on the EIe 55
ments 50 to 55 and the switch 57 existing
Stop circuit switches off the drive 56 of the playback device.

The signal is then sent to a rectifier stage
35 and 36 are supplied, which resistors 31, 32, 60 and the voltages E _b and E _b ' take place, which includes a capacitor 33 and a diode 34. at the bases of the transistors 41, 48. This derived signal e _in is rectified, and the embodiment described above

thereafter, the rectified output voltage sufficiently fulfills the conditions i _{s of} the base of an NPN transistor 37 via a Wi- < RC and t <R'C through constant current charging device 36, so that a collector current through 65 and discharge circuits, which through the Tranein Relay 38 flows to actuate this. sistors 41 or 48 can be achieved.

When the relay 38 has current flowing through it, the replacement of such circuits can also be a

movable contact 39 of the relay 38 can be used on a mechanical structure, which

tion of a pair of switch contacts 57 of the relay 55, so that a sliding current motor for tape transport can be put into operation.

Since the voltage on the capacitor 43 decreases constantly because of the opposite constant current of the transistor 48, there is a decrease in the base-emitter potential of the transistor 50. If this potential falls below a certain value e _t ,

Contact 39 causes α against contact 40. the The cyclic process described above is repeated.

The diode D in the circuit of FIG. 5 is intended to prevent the voltage across capacitor 43 from dropping below the value zero. The resistors 46, 47, 49 are intended to create corresponding bias voltages on the transistor 48.

F i g. 6 shows the experimental measurements of the stopping time t as a function of the signal segment time t _s . The function is essentially linear.

The stopping time can be adjusted by suitable selection of the emitter resistors 42, 47 and the capacitor 43

is explained in connection with the following embodiment.

In the present case, a movable member, for example in the form of a rotatable cam, represents essential element is the angle of rotation of the signal duration of a section of the reproduced Signal, its readjustment rotation time controlling the dwell time.

In the case of the in FIG. 7 shown control device

circuit of the transistor 63, so that the relay 64 is actuated.

When the current flows through the relay 64, the contacts al and al held in contact with their respective fixed contacts 5 lower. At the same time, the contact α 3 is also closed, so that the drive current for the motor 67 is switched and the cam 68 is rotated in the direction of the arrow F. Here the contact of the micro-

the elements 58 to 64 open the display circuit, the io switch 69. However, since the parallel Bi d Ed d jili Silbhi ik

Indicates the beginning and end of the respective signal sections, while the measuring arrangement for determining the duration of these signal sections is represented by the motor 67 which rotates the cam 68 in the direction of the arrow F. The timer circuit, which determines the stopping time of the playback device, is in turn represented by the motor 67, which rotates the cam 68 in the direction of the arrow B for this purpose. The stop circuit ii di

Relay contact α 3 is kept closed, capable the current to flow in the motor 70 to drive the recording medium so that it is continuously driven will.

It is now assumed that there is an interval in the recorded audio signal so that for for a certain time no signal voltage from the output winding of the output transformer 62 of the playback device is removed. If this inter-

To stop the playback device, the control device comprises the microswitch 69 with which the capacitor 59 and the counter lever 66 extend over a certain short period of time
cycle α 3.

G
and the contact 71 and the conDie in FIG. 7 includes a circuit shown

stood 60 is set, the base potential of the transistor 63 is equal to 0, so that the transistor 63 in the non-conductive state is maintained. In this case

Rectifier stage with a diode 58, a capacitor 25 no collector current flows, so that the relay 64 in Sator 59, resistor 60 and a transistor 63 is returned to its drop position.

with resistor 61. A relay 64 has contacts al, al, α3. A direct current motor 67 is with respect to its direction of rotation through the contacts al,

k ie

If in the present case the relay contacts al and α2 in contact with the corresponding

g g upper contacts are located, the motor is 67 in

al controlled. The speed of the motor can be driven by reverse 30, with the cam 68

an adjustable resistor 65 can be changed. i _n the direction of arrow B rotates. At that time is

A cam 68 is rotated by the motor 67 and the relay contact α 3 is also opened. So it holds

actuates a lever 66 of a microswitch 69 in the motor 70 to drive the recording medium Upward and downward direction, with a contact advancing the recording medium. If the

71 is opened and closed, a motor 70 35 cam 68 rotated further in the direction of arrow B.

to control the drive of the recording medium. is and at the rest and dashed lines

The motors 67, 70 are at a power supply stop position, the micro-

72. switch 69 its contact so that the current

First, consider the case that there is no output to the motor 70 for driving the recording signal of the recording medium. In this 40 device and thus to drive the recording case If the transistor 63 is in a non-conductive carrier.

State so that no current is flowing through the relay 64. As mentioned above, the Nok is. Thus, the upper contacts of the ken 68 in its dashed basic relay contacts α 1 and al closed, so that the position when there is no recorded signal vorGleichstrommotor sawn to run in the direction B is the 45th The cam rotates in the direction of arrow F begins. In this case, the speed of the motor can only be adjusted during the time in which a recorded by the resistor 65 is. If a corresponding signal is present, and if it is again in its corresponding to the rotation of the motor, the cam 68, the stopping or basic position shown in dashed lines, is pressed downwards and in turn pushes the lever back. This means that the device turns the on-66 of the microswitch 69 down. This rotation 50 only continued during the time in which the motor is reversed with respect to its direction of movement by a suitable (not shown) catch position on the cam 68 shown in dashed lines. Stopped by appropriate placement of a cam start position indicator. Subsequent reduction gear or stop can be lent, the contact 71 of the microswitch 69 is angular speed of the cam 68 closed in this way. The contact α3 is open. The current 55 can be set so that the Nok shown in Fig. 7 flows into the motor 70 to drive the recording medium ken through its maximum angle of rotation in a by the microswitch contact 71, so a period of the order of 10 seconds that the recording medium, for example an open - running.

Drawing tape or the like. Is driven. If in Figs. 8A and 8B the increase of the rotary recording medium is driven and its 60 angle Q as a function of t _s and the decrease point at which the audible signal is recorded of the angle of rotation Q ' as a function of t , the head reached, the audible signal appears.

in the output winding of the output transformer 62. Thus, the stopping time during that of the recorder. This audio signal is automatically rectified playback time of the recording medium by the diode 58 and the base of the 65 j _n depending on the duration of the signal transistor 63 by a low-pass filter, consisting of sections are extended before the stop, the capacitor 59 and the resistor 60 to - This stopping time can also be changed slightly. Current then flows through the collector so that the stopping period depends on

109 529/305

depending on the writing speed of the user in more appropriate Way can be adjusted.

Claims (13)

Patent claims: 1. Control device for the drive of a playback device for tape-shaped recording media, in which the drive is stopped for a period of time when pauses that divide the signal curve to be played back into signal sections occur, characterized by a display circuit (7 to 13; 31 to 38; 58 to 64), to which the reproduced signal is fed, which generates a first output signal indicating the beginning of a signal section (51, 52 ...) and a second output signal indicating the end of the signal section and which has a measuring arrangement (15, 16, 17 a, 18, 19; 39, 40 a, 41, 42 43; 67, 68, F) for measuring the time duration (tsl, ts2 ...) between the first and the second output signal, as well as by a timer circuit (15, 16, YIb, 20. .. 23; 39, 40 b, 43, 46, 47, 48, 49; 67, 68, B), which is switched on by the second output signal and which drives the drive (2; 56; 70) of the playback device (1) a stop circuit (24 to 30; 50 to 55, 57; 66 , 69, 71, α3) switches off for a stopping period which depends on the measured value formed in the measuring arrangement. 2. Device according to claim 1, characterized in that the display circuit has a Rectifier stage (7, 8, 9, 10; 35, 36; 58, 59, 60) containing the signal curve to be reproduced converts to DC signals. 3. Device according to claim 2, characterized in that the rectifier stage has a Capacitor (9; 33; 59) with a variable discharge time constant by means of an adjustable resistor (8; 36; 60) to bridge shorter pauses in the signal curve to be reproduced. 4. Device according to one of claims 1 to 3, characterized by a capacitor (16; 43), which is selectively in the measuring arrangement for charging or in the timer circuit for Discharge can be switched on. 5. Device according to claim 4, characterized in that the charging time constant of the capacitor (16; 43) in the measuring arrangement and / or the discharge time constant of the capacitor in the timer circuit by means of adjustable resistors (21, 22, 23; 42, 49; 65) to change the stopping time is variable. 6. Device according to claim 4 or 5, characterized in that the display circuit comprises a relay (13) whose switching contacts in the rest position (normally closed contact 17 b) the capacitor (16) in the timer circuit and in the working position (normally open contact 17 a) during switch on the duration of a signal segment in the measuring arrangement. 7. Device according to claim 6, characterized in that the timer circuit has a Contains discharge circuit (20, 21, 22, 23) for the capacitor (16) and the stop circuit Relay (26) comprises the drive (DC motor 2) of the playback device (1) for the Switches off the duration during which the capacitor (16) discharges to a certain value. 8. Device according to claims 4 to 6, characterized in that for charging the Capacitor (43) in the measuring arrangement and for discharging the capacitor in the timer circuit Constant current charging circuits are provided. 9. Device according to one of claims 1 to 3, characterized in that the timer circuit a cam (68) which is adjustable in rotational speed in both directions is rotatable. 10. Device according to claim 9, characterized in that the stop circuit comprises a microswitch (69) which can be actuated by rotating the cam (68) into its one end position in order to switch on the drive (motor 70) of the playback device. 11. Device according to claim 10, characterized in that the display circuit is a Relay (64) comprises, the cam (68) in the said direction for switching on in the idle state of the drive and in the working state when a signal section occurs from the Playback device rotates in the opposite direction. 12. Device according to claim 11, characterized in that the relay (64) has a switch (Contact α 3) has the drive (motor 70) of the playback device only in the working state of the relay switches on. 13. Device according to claim 11 or 12, characterized in that the rotational speed of the cam (68) is different in both directions. For this purpose 2 sheets of drawings