DE1259932B - Apparatus for reproducing television signals recorded on magnetic tape - Google Patents

Description

FEDERAL REPUBLIC OF GERMANY

GERMAN

PATENT OFFICE

EDITORIAL

Int. CL:

H04n

German KL: 21 al -32/11

Number: 1 259 932

File number: R 39228 VIII a / 21 al

Filing date: November 12, 1964

Open date: February 1, 1968

The invention relates to a device for reproducing television signals in a sequence of Tracks are recorded transversely to the direction of travel of a magnetic tape and by a rotating magnetic head arrangement be scanned, on which the magnetic tape is guided by means of a drive roller is, with a phase comparison stage, the phases of a head speed signal with one of the speed of the Magnetic head arrangement proportional frequency and a control signal with one of the tape speed compares proportional frequency and derives a first error signal therefrom, by means of which the Tape drive roller speed is controllable so that a constant phase relationship between the head speed signal and the control signal is maintained, and with a phase comparison stage which the Phases of a reference signal extracted from a reference oscillator and a head speed signal with compares a frequency proportional to the speed of rotation of the magnetic head arrangement and a second therefrom Derives error signal, by means of which the head speed can be regulated in such a way that a constant Phase relationship between the reference signal and the head speed signal is maintained.

Magnetic tape recordings are often coupled into television programs made by others Signal sources. In the production of such combined programs, those played from the tape must TV signals both in the line and in the Büdfolgesynchronization with the for Control of the other signal sources used synchronous signal generator run exactly synchronously.

Although it is known, during playback, the speed of the tape drive motor on the basis of a Phase comparison between the phase of control signals sampled from the tape, which is a measure of the Represent tape speed, and regulate the phase of signals whose frequency is proportional to the Speed of the head wheel is. It is also known to determine the speed of the head wheel on the basis of a phase comparison between the phase of a signal, the frequency of which is proportional to the speed of the head wheel is, and to regulate the phase of a signal sent to a fixed reference frequency source, e.g. B. the network or an image synchronization pulse generator is taken, which in turn from a frequency standard is controlled.

However, the known arrangements are not suitable for applications in which it is important very rapid image sequence synchronization between television signals played from the tape and off Television signals from external signal sources. Device for reproducing on magnetic tape recorded television signals

Applicant:

Rank-Bush Murphy Limited, London

Representative:

Dr.-Ing. K. Boehmert

and Dipl.-Ing. A. Boehmert, patent attorneys,

2800 Bremen, Feldstr. 24

Named as inventor:

John Lewis Edwin Baldwin, Croydon, Surrey;

John David Millward, Orpington, Kent

(Great Britain)

Claimed priority:

Great Britain 13 November 1963 (44 802)

and during playback of the magnetically recorded television signals with high accuracy maintain. The invention has for its object to provide a device that meets these requirements. Based on a device, this task becomes the one mentioned at the beginning Type solved according to the invention in that an additional phase comparison stage is provided, the phases of image sequence signals, those of field sync signals, the alternating successive ones Initiate fields of the reproduced television signal, are derived, with the phase of Image sequence signals, corresponding alternately to successive fields from an external signal source initiate, compare and form a third error signal therefrom, by means of which the frequency of the Reference oscillator is controllable that a further phase comparison stage is provided, which the phase of Vertical sync signals derived from the external signal source with the phase of a second, compares the reference signal taken from the reference oscillator and derives a fourth error signal therefrom, by means of which the reference oscillator can be regulated in such a way that a constant phase relationship between the synchronizing signal and the second reference signal is maintained and that switching means is provided, by means of which the

709 747/388

3 4

third or fourth error signal to the reference case in FIG. 1 schematically illustrated pre-oscillator can be switched on. direction is a magnetic tape 1 from an unwinding the control of the tape drive roller speed reel 2 via a guide roller 3 at a head serving phase comparison stage is advantageously passed a wheel 4, on the circumference of which several - manually adjustable phase shifters are in front of 5 in the present embodiment four - magnet switches, by means of which the magnetic heads of the magnetic heads sit against which the tape is pressed by means of a head arrangement with reference to the tracks of the slotted guide 5. The tape 1 is adjustable gnetbandes and moves it forward in particular by a tape drive roller 6, which makes it possible to ensure that the scanning of a track driven by an electric motor (not shown) by means of the head of the head wheel is io ben, and will eventually takes place on the take-up reel 7, by means of which the track has been recorded wound. The head wheel 4 is from another one. Electric motor 8 driven. In a further embodiment of the invention, a magnetic head is provided in a known manner via a switch which can be actuated when the slip ring group 9 arranged, by means of which a correct track of the magnetic tape is scanned with the magnetic head control signal from a previously in the longitudinal direction on, with which the recording of this edge of the tape 1 recorded control track took place, and via which a control signal is scanned. Signals which are a measure of the speed of the coincidence circuit which occurs when the image cell 11 derived from the head wheel 4 is obtained from a photo-reproduced television signal, which is obtained from a drum provided with a sequence signal with the image sequence signals of the outer pattern 12 outgoing light signal source coincide to which switching device is exposed. The drum can be placed on the shaft of the tang, which is attached to the head wheel 4 on the basis of this control signal and is illuminated by a light source (not indicated by the fourth error signal on the reference oscillator).
switches. 25 FIGS. 2a and 2b show a juxtaposed

It is also preferred to derive the image block diagram of a preferred execution sequence signal from the reproduced television signal game of the invention. From the magnetic tape 1 by means of a device is provided by means of which the mixed magnetic heads of the head wheel 4 are removed Synchronous signals from the reproduced television television signals are transmitted through the slip ring group 9 signal separable and to an open delay line 30 of a signal input circuit 15 known execution line can be applied that feed such a delay that delivers a signal at output 16, time has that reflected signals at the input of the originally recorded on the tape Delay line along with input signals corresponds to signal. If, as it is usually the Signals with amplified amplitude only for the broad case is the signal as a frequency modulation The input delay line comprises pulses which form the sync signals and is recorded on the 35 carrier a first monostable multicircuit 15 is connected to arrangements known per se to the vibrator, which, when signal occurs, demodulation of the frequency-modulated len with amplified amplitude emits a pulse signal. Require other recording methods and can be blocked by means of a control circuit, which can be connected to correspondingly other arrangements in the input of its second monostable multivibrator connected 40 circuit 15. The picked up signal is also is, which is acted upon with pulses that the front to a sync signal separation stage 30 known form edges of the pulses of the mixed sync signals are applied, which are the synchronization components of represent, and the blocking pulses with a duration of the picture components of the television being played more than half a line duration to block the signal and which also separates the vertical and first multivibrator applies to the control circuit, 45 separates horizontal sync signals. Just so that the first multivibrator an output pulse the vertical sync signal becomes a frame sequence only for the field sync signals supplied to a circuit 31 which, as in connection with Correspond to partial image with odd-numbered lines. F i g. 3 will be explained in more detail, the odd

The invention is described below with reference to Ausgen field pulses from the sequence of odd-numbered

management examples in connection with the drawings 50 and even-numbered field pulses separates and

gen explained in more detail. It indicates to a first phase comparison stage 17 passes on.

F i g. 1 schematically shows the mechanical parts of a In the phase comparison stage 17, the phase of

Playback device in which the invention to- from the tape played image sequence pulses with the

is reversible, phase of the image sequence pulses compared by a

2a and 2b together a block diagram 55 external signal source, generally the main

an embodiment of the invention, synchronous pulse generator of the television station, stam-

F i g. 3 is a circuit diagram of the picture sequence gate circuit. The outer sync signal is on

according to Fig. 2a, an input 24 'is applied and from there a syn-

Fig. 4 shows various of the known design in the arrangement according to the Chronsignaltrennstufe25.

F i g. 3 occurring signals, 60 routed, which separates the vertical sync signals and

F i g. 5 is a circuit diagram of the image sequence sawtooth generation of a second phase comparison stage 32 and other

rators according to FIG. 2 a, on the one hand, supplies an image sequence synchronous separation stage 33,

F i g. 6 different of the in the arrangement according to the in connection with F i g. 7 is explained in more detail and

F i g. 5 occurring signals, the odd and even fields in the

F i g. 7 is a circuit diagram of the image sequence synchronous separation pulses 65 from one another. By means of the

stage according to Fig. 2a and image sequence pulses, a sawtooth generator 34 is generated

F i g. 8 different controls in the arrangement according to which a sawtooth voltage with image sequence

F i g. 7 occurring signals. frequency to the first phase comparison stage 17 there.

5 6

When a switch 19 receives the position shown on an input 24 'from an external signal source

the phase output signal will be trapped.

Equal stage 17 via an integrator 35 as a control The output signal of the oscillator 36 has a signal applied to a reference oscillator 36, the frequency of 250Hz, a frequency which is also the expediently a frequency of 250 Hz, 5 pulses of the photocell signal circuit 22 have . An output signal of the reference oscillator 36 with which this signal is compared in the fourth phase to the second phase comparison stage 32, back-equation stage 23. The speed, guided and there with the incoming vertical with which the phase comparison stage 23 compares an error signal synchronizing signal in order to deliver a control voltage, is therefore ten times as great as with an unzu generate which, when the switch 19 in the other io indirect comparison of the Sequence signals. This position is transferred to the integrator 35 and ensures increased control accuracy. The "flywheel" effect of the reference oscillator is applied via this as a control signal to the reference oscillator "flywheel" 36. This switch position is not disadvantageous because the expected speed, therefore, the oscillator 36 is carried along by the incoming speed of the phase change between the external vertical synchronization signal at the input and external synchronization signals applied to 15 24 'not controlled by the voltage that is played from the tape, the synchronizing signal phase comparison between the synchronizing signal image sequence signals extracted from the tape being played back from the tape 30 and the image sequence signals of the len is normally not great.
TV station is won. The image sequence gate circuit 31 can be expedient

Regardless of the type of control, the 20 is shown in FIG. 3 be constructed. She has the on output signal of the reference oscillator 36 would be one of the syncs played from the magnetic tape Phase comparison stage 23 is applied and there is a signal minus chronization signals of the usual form the phase with a signal of the same frequency, which can only be compared with the frame rate, one is connected to the photocell 11 and occurs in particular at the point in time in sene photocell signal circuit 22 provides. The result is that the field sync pulse is present, which the The output signal of the phase comparison stage 23 is obtained by scanning a field with odd numbers DC voltage amplifier 24 initiates as a control signal len. The following arrangement of your Control oscillator 20 is supplied, whose output voltage can also be used in the same way Via a control amplifier 37 with the head wheel, a pulse will always be emitted when motor 8 is connected. 30 the field sync signal is present that a field

Further signals of the photocell signal circuit 22 initiates with even-numbered lines. For the will be present However, via a manually adjustable phase, the purpose is an odd-numbered sub-image shifter 38 a third phase comparison stage 26 pulse preferred.

and there synchronization signals mixed with signal negatives with respect to their phase, the

len compared to the 35 from the played television signal via an amplifier 39 by means of the syn-

Control head can be removed. The output voltage signal separation stage 30 have been separated,

Voltage of the phase comparison stage 26 is applied to the input 50 and from there to

Amplifier 40 passed as a control signal to a tape drive a delay line 51, the other

motor 27 applied. The tape drive motor 27 is open at the end. The applied signal is therefore after

advantageously a three-phase motor that comes from the network 40 twice the delay time of the line that

is fed and designed in such a way that when passing is expediently 6 microseconds, with the same

Flow of direct current through certain windings reflecting polarity to the input of the line,

eddy current braking occurs, which in suitable The signals received at the input of the line are

Way regulates the engine speed in such a way that the base of a pnp transistor 52 is supplied to each. There

Passing one of the seated on the head wheel 4 45 of the emitter of the transistor 52 is connected to ground and

Magnetic heads a track on the tape 1 is detected. its base can also be traced back to mass

The transistors released by means of the image sequence gate circuit 31 are only opened by negative signals at the separated image sequence signals and which are opened by the image sequence base. The time constant of the base synchronous separation stage 33 signals coming from the circuit of the transistor is selected to be sufficiently large, applied to a coincidence circuit 41 which, if 50 is expediently approximately 250 milliseconds so that these signals correspond exactly to one another, a span stabilizes the base potential to a value, which supplies the voltage, by means of which the switch 19, which can be a slightly smaller than the peak potential of the combination relay or a corresponding semiconductor switching element, can be used to operate the original and reflected signals on the element. If the delay line 51 is, but is larger than the spit phase shifter 38, in the position 55 zenwert the signals received at input 50, which are used for recording the image sync signals. The transistor 52 therefore only conducts these signals during the magnetic head being used plays, gen periods in which the reflected signals is on, as indicated by the dash-dotted line 43 of its base. The collector of the transistor 52 is indicated, a microswitch 24 is actuated, so that the switch 19 is switched over to the negative lead via an RC circuit 53 due to the output voltage of the coincidence 60 and the collector load resistance of a transistor circuit 41 and the inte - 54 connected. The transistor 54 together grator 35 forms the control signal of the second phase comparison with a further transistor 55 a monostable equalizing stage 32 instead of the control signal from the multivibrator, which is supplied by means of an additional phase comparison stage 17. sistor 56 can be blocked, the collector-When this occurs, an Si path of the transistor 55 is connected to the fourth phase-65 emitter path parallel to the collector-emitter equalizer stage 23 via the reference oscillator 36. The transistors 54, signal applied, the frequency of which is taken from the vertical 55 synchronous signals via a common emitter resistor, which are coupled via the. It is also the collector of the transistor

7 '8

54 to the base of the transistor 55 via a condenser, which is connected via a resistor to a tapping capacitor. The base of the transistor 55 is a voltage that is parallel to the current source and is connected to the negative feed plate via a resistor. The collectors of the transi, with which the collector is connected via a disturb 58, 59, are connected to the load resistance via load resistors. The collector 5 connected negative lead. The at the collector of the transistor 55 also forms the output of the signals occurring in the transistor 59 are via arrangement. The base of the transistor 54 is connected to the base resistor via a coupling capacitor, a voltage divider which is applied in parallel to the current source of the transistor 56. When the signal is on, suitably biased and is negative by means of the collector of transistor 59, that of a capacitor can be bridged to ground. io transistor 56 current through. During this state, the time constant of the i? C element 53 in the coil prevents the conductive collector-emitter path lektorleitung of the transistor 52 is chosen so that the transistor 56 every change of the common a noticeable change of the transistor 52 Emitter potential of the transistors 54, 55 and 56, passed current only for the leading edge which occurs when the transistor 55 is blocked, the first wide pulse of a frame synchronous 15 Only when the signal at the collector of the transistor signal forming pulse sequence occurs. The Zeitkon- 59 is positive, the transistor 56 is blocked. If stowed, it can be expedient to 1 microsecond. This is the case, by applying a signal when transistor 52 passes through for the first time due to transistor 52 to the base of transistor 54 the leading edge of the first broad pulse generating a pulse of 8 microsecond field sync signal current, the 20 duration will be initiated. This condition is only fulfilled for the positive voltage jump at the collector of the transit interval, which immediately follows the beginning of a stors 54 via the coupling capacitor to the base of the odd-numbered field sync signal, ie, transistor 55 is transmitted. This transistor conducts the field sync signal, which initiates the scanning of a normally because its base with the negative field with odd-numbered lines.
Lead is connected, while the base of the transistor 54 at a more positive potential can be seen with reference to FIG. 4 easier to understand who will hold up. The positive signal applied to the base of the transistor 55, the signal voltages at various points, blocks the transistor 55, as shown in the circuit according to FIG. 3 shows. The signals A and B in that - if the transistor 56 except FIG. 4 corresponds to the even and odd eight - the 30 partial image sync signals formed by the transistors 54, 55, the multivibrator in the quasi-stable state at the input 50 over- be applied. The signal C represents the square wave at which the transistor 54 conducts and the transvoltage that the multivibrator 58, 59 delivers, the transistor 55 is blocked. The time constant that determines the duration of this state controlled by the blocking transistor 56 is selected so that it conducts and consequently the multivibrator that a negative 35 54, 55 blocks at the collector of transistor 55 when this signal is negative. The pulse of 8 microsecond duration is obtained. Signal D shows the output pulse 60 of the multi-means of the arrangement of the vibrators 54, 55 described so far, the leading edge of which compared to FIG. 3, a negative pulse from the leading edge of the first broad pulse of un-8 microseconds duration is achieved at the output, which is delayed by 12 microsecond even-numbered field sync signal by the time t seconds compared to the leading edge of the first 4 °. The pulse 60 occurs during a time-width pulse of each field sync signal during which the signal C is positive, so that there is hesitation. he reaches the output, while the dashed line The suppression of the pulses that the even- "indicated pulse 61, which correspond to a number of field sync signals, time t compared to the even field sync happens in the following way: The signal at the input 50 45 is delayed If the applied negative synchronous signals occur at a point in time, the multivibrator 54, 55 is fed to a diode 37 via the one. The coupling capacitor transistor 56 by the negative signal C gesator and the base resistance are dimensioned so that it is blocked.

the supplied pulses are differentiated so that F i g. 5 shows an expedient embodiment only the leading edges of the negative synchronous 5 ° of the sawtooth generator 34 according to FIG. 2 a. At the signals corresponding to the signals via the diode 57 input 70, negative pulses will be able to reach the base of a transistor 58 accordingly. The Fi g. 6E in each case at the beginning of each even-numbered partial transistor is connected to a further transistor 59 image of the external television signal from the image sequence via a common emitter resistor and synchronous isolation stage 33 according to FIG. 2 a created. This coupled a capacitor, which between the 55 pulses reach the base of a transistor 71, the collector of the transistor 58 and the base of the transistor is opened and a substantially sistor 59 is so that a monostable multivibrator from a transformer 72 and a transistor gate arises, which triggers a 73 blocking oscillator at the collector of transistor 59. The pulse generated by the square-wave signal, the period duration of which is equal to the blocking oscillator, is one of the line duration. The quasi-stable state of the ⁶ ° four diode built gate circuit 74 is fed, the multivibrator should be longer, preferably about the one that becomes conductive and discharges a capacitor 75. 2 microseconds longer than half a line duration. When the pulse of the blocking oscillator 72, 73 is stopped, so that the suppression of the un-, the capacitor 75 starts from a con desired field signals is ensured. The constant current source of known type, which has a transistor base of transistor 58, is connected via resistors with 65 76, with a first, low speed negative and positive leads, in order to charge speed, with the capacitor 75 keeping it at a suitable bias voltage during part of the voltage profile occurs, the base of the transistor 59 being biased in FIG. 6G , shown in at 77.

To the input 78 2a negative pulses as shown in FIG. 6 are determined by the F Bildfolgesynchrontrennstufe33 of FIG. Applied, the occurrence of each odd-numbered field at the beginning. The pulses are fed to the base of a transistor 79 and trigger a blocking oscillator, which essentially consists of a transformer 80 and a transistor 81 and generates a short pulse. This pulse is applied via a diode 82 to the emitter of the transistor 76 of the constant current source, as a result of which a sharp increase in the rate of rise of the potential on the capacitor 75 is achieved, as shown in FIG. 6G is illustrated at 83. At the end of the pulse of the blocking oscillator 80, 81, the charging speed of the capacitor 75 is again reduced to the lower value, as shown by the section 84 in FIG. 6G.

The purpose of such a sawtooth shape is to be able to carry out the phase comparison with considerably greater accuracy. When the signal shown in FIG. 6G to the first phase comparison stage 17 according to FIG. 2a is applied, it is blanked by means of a short pulse from the image sequence gate circuit 31, which expediently has the form shown in FIG. 6H. When the desired phase relationship between the comparison signals is reached, the trailing edge 85 of the blanking pulse according to FIG. 6H lies in the middle of the steeply rising section 83 of the sawtooth, as is shown for the signals G and H in FIG. In this way, a very rapid and precise control is achieved in the area of close synchronization, while the course of the control voltage generated is always such that the arrangement is guided in the direction of synchronous operation within the entire image sequence period.

F i g. 7 shows an expedient embodiment of the image sequence synchronous separation stage 33 according to FIG. 2a, which has the task of delivering separate output pulse trains that represent the synchronization signals for the Sub-images are assigned to the odd-numbered or the even-numbered lines.

Mixtures of negative synchronization signals corresponding to the signal / in FIG. 8 are applied to the input 90 of the arrangement according to FIG. 7 and fed from there to the base of a transistor 92 via a diode 91. The transistor 92, together with a further transistor 93, forms a monostable multivibrator of known design, so the incoming pulses throw this multivibrator from the stable to the quasi-stable state, which lasts a little longer than half a line period. In this way, the signals L and M according to FIG. 8 appear at the collectors of the transistors 92, 93.

The collector of the two transistors 92, 93 is connected to the base of an npn transistor 94 and 95, respectively. The collectors of the transistors 94, 95 are connected to ground via load resistors 96 and 97, respectively, while their emitters are subjected to negative pulses via an input 98 and resistors 99, 100, which are derived from the leading edges of the first wide pulse of each field sync signal by means of an arrangement are, as they are in connection with F i g. 3 is described. These impulses are shown in FIG. 8 shown at K. The arrangement is such that when a negative field pulse is applied to the input 98, only that of the transistors 94, 95 conducts whose base is on the more positive of the two potentials supplied by the collector of the associated multivibrator transistor. From Fig. 8 it can be seen that transistor 95 conducts when the odd-numbered fields occur and transistor 94 conducts when the even-numbered fields occur. As a result, pulses according to the signals N and P according to FIG. 1 appear at the outputs of the arrangement. 8, which correspond to the odd-numbered and even-numbered field sync signals.

Leave the remaining stages of the device described in connection with FIGS. 2a and 2b train themselves in the usual way so that they fulfill the required functions, and therefore need not to be explained in more detail in the present case.

Claims (4)

Patent claims: 1. Apparatus for reproducing television signals in a sequence of tracks across the Direction of travel of a magnetic tape are recorded and by a rotating magnetic head assembly be scanned, on which the magnetic tape is guided by means of a drive roller is, with a phase comparison stage, which the phases of a head speed signal with one of the Speed of the magnetic head assembly proportional frequency and a control signal with a compares the frequency proportional to the belt speed and from this a first error signal derives, by means of which the belt drive roller speed can be regulated such that a maintain constant phase relationship between the head speed signal and the control signal is, as well as with a phase comparison stage, which the phases of a reference oscillator taken reference signal and a head speed signal with one of the speed of the Magnetic head arrangement compares proportional frequency and a second error signal from it derives, by means of which the head speed can be regulated such that a constant phase relationship is maintained between the reference signal and the head speed signal by an additional phase comparison stage (17), which the phases of image sequence signals, that of field sync signals, the alternating fields of the reproduced television signal are derived, with the phase of image sequence signals, which initiate alternately successive partial images from an external signal source, compare them and turn them on forms the third error signal, by means of which the frequency of the reference oscillator (36) can be regulated, by a ** further phase comparison stage (32), which the P * se of vertical sync signals, the derived from the external signal source, with the phase of a second, the reference oscillator (36) compares the reference signal taken and derives a fourth error signal from it, by means of which the reference oscillator can be regulated in such a way that a constant phase relationship is maintained between the sync signal and the second reference signal, as well as by 709 747/388 a switching device (19), by means of which either the third or the fourth error signal the reference oscillator can be switched on. 2. Apparatus according to claim 1, characterized in that the regulation of the The phase comparison stage (26) serving the speed of the belt drive roller is a manually adjustable Phase shifter (38) is connected upstream, by means of which the magnetic heads of the magnetic head arrangement (4) are adjustable with reference to the tracks of the magnetic tape (1). 3. Apparatus according to claim 2, characterized by a switch (42) which can be actuated, when the phase shifter (38) is set so that a certain track of the magnetic tape (1) is scanned with the magnetic head with which this track was recorded, and a control signal of a coincidence circuit (41) which occurs when the reproduced by the TV signal derived image sequence signals with the image sequence signals of the outer Signal source coincide, can be applied to the switching device (19), which on the basis of this Control signal connects the fourth error signal to the reference oscillator (36). 4. Device according to one of the preceding claims, characterized in that for Deriving the image sequence signals from the reproduced television signal by a device (30) is provided by means of their mixed sync signals from the reproduced television signal can be separated and applied to an open delay line (51) which has such a delay time has that reflected signals at the input of the delay line together with input signals signals with amplified Form amplitude only for the wide pulses of the sync signals and that to the delay line a first monostable multivibrator (54, 55) is connected, which occurs when of signals with amplified amplitude emits a pulse and by means of a control circuit (56) is lockable, which is connected to a second monostable multivibrator (58, 59), the is applied with pulses, which are the leading edges of the pulses of the mixed sync signals represent, and the blocking pulses with a duration of more than half a line duration to lock the first multivibrator to the control circuit so that the first Multivibrator provides an output pulse only for the field sync signals that make up a field with odd-numbered lines. Considered publications:
German Auslegeschrift No. 1034 684,
1106799;
U.S. Patent No. 3,100,816. In addition 3 sheets of drawings 709 747/388 1.68 © Bundesdruckerei Berlin