DE1263815B - Circuit arrangement for transmission, storage and / or reproduction of video signals with a device for eliminating interference - Google Patents

Description

FEDERAL REPUBLIC OF GERMANY

GERMAN

PATENT OFFICE

EDITORIAL

Int. CL:

H04n

German KL: 21 al -33/50

Number: 1263 815

File number: A 34462 VIII a / 21 al

Filing date: April 16, 1960

Date on display: March 21, 1968

The invention relates to a circuit arrangement for the transmission, storage and / or reproduction of video signals with one device for releasing the image content signals from short-term caused by transient processes or the like Disruptions.

An order to avoid this has already been put in place a disruptive effect of occurring in transmission systems, in particular carrier frequency systems proposed brief interruptions to the broadcast program transmission. After this Proposal should be at the broadcast receiving end of the transmission system other than the normal output A parallel output can also be provided at which the radio program is delayed by about 100 ms removable and on the device following the normal output with the help of a switching device can be switched over in such a way that a switchover occurs when the radio transmission path is interrupted to the parallel output with a switching time of less than 0.1 ms and when the Interruption of the radio transmission path a slow switch back to the normal output, in particular takes place with a delay of a few milliseconds.

It is also already known an arrangement for similar purposes, in which for the delay of a Image signal a magnetic tape recorder is provided with an endless magnetic tape on which the signal recorded with a speaking head and erased again after one revolution of the tape and from which the signal can be picked up via a magnetic head attached in such a way that a certain Signal delay results. However, such a device is of limited use in that it is only useful for the time it takes for recording on the tape to be removed from the recording head to run to the playback head and the tape will be erased.

By contrast, the invention solves the problem of ensuring that, no matter how long the disturbance in the incoming signal lasts, only flawless signals come out at the output.

The invention relates to a circuit arrangement of the type mentioned at the outset, in which the picture content signals are freed from interference by removing interfered signal parts and substituting them with signal parts reproduced with a delay. The characteristic feature of the invention is that the circuit delaying the undisturbed signal to be substituted is connected to the output circuit arrangement for transmission,
Storage and / or playback of
Video signals with a device for
Troubleshooting

Applicant:

Ampex Corporation, Redwood City, Calif.
(V. St. A.)

Representative:

Dipl.-Ing. F. Werdermann, patent attorney,

2000 Hamburg 13, Innocentiästr. 30th

Named as inventor:

Ray M. Dolby, Cambridge (Great Britain) - -

the switching device located in the video signal path and causing the signal interruption and substitution is connected and the signal returns to its input and that the switching signal for this device delivering disturbance detector in a parallel branch to the signal path between the Input of the circuit arrangement and the switching device. This ensures that a constant Repetition of the last faultless signal part is possible until the malfunction has ceased. Through the Invention, therefore, a high degree of independence is also achieved from the duration of a disturbance. That is important because the possible interferences can be of very different types and types in a video system be traceable to the most varied of causes. For example, in a video system such as a transmission system, recording or reproducing system, incidentally occurring noise Reason of transients get into the video signal and degrade the signal. In a For example, microwave linkage may result in partial or total failure of the carriers. Other random disturbances can be transient or equalization processes in the power network or ignition equalization processes be. Also, when playing recorded video signals, periods of time may occur during which the reproduced signal drops out, which is caused by imperfections of the recording medium, but also on the interaction of the transducer assembly with the recording

809 519/449

3 4 ' "

medium can be attributed. Image degradation will last longer than a scan line

in a receiver or monitor that is continuously repeated by the last reproduced scan line,

such or other causes can be explained until the temporary disruption has ended.

nen, are avoided by the invention. In other words, when the information is on

In the following, the invention is illustrated by means of the 5 one time, the information from

Drawings, for example, explained in more detail. of the previous correct line.

F i g. 1 is a simplified block diagram for explanation. If more than one line is incorrect, the

sion of a video system according to the invention; last good line repeated until the error

F i g. 2 is a block diagram for explaining one stop. Such a procedure is possible as a result of the

Recording and reproducing system according to the similarity between adjacent lines

Invention; in a video image signal. It is readily apparent-

Fi g. 3 shows another recording and borrowing that the same system can be used

Playback system according to the invention; if the signal message is excessive (instead of gaps

F i g. 4 A to 4 C show wave trains for explanation purposes.

the way the system works; 15 In F i g. 2 is a magnetic recording and recording

F i g. Fig. 5 shows a more detailed block playback system according to the invention;

Scheme for explaining a playback system. The system belongs to the type in which the recorded

according to the invention; nete information is in the form of a carrier that carries with it

6A and 6B are detailed switching of the signal message is frequency modulated. The video images of the playback system of FIG. 5. 20 input signal is thus a frequency modulator 21

According to FIG. 1, the video signal is fed via the which modulates a carrier and fed the fre line 10 to a delay device 11. frequency-modulated carrier into the recording and this causes a delay that is sufficient for playback system 22 introduces. The system 22 is used for a switching process before the arrival of the signal message previously modulated to produce a record of the frequency-transient disturbance at the switching device 12 25. The modulator 21 can zuwege.zu bringe.n. The switching device is more normal - any suitable frequency modulator. This is closed so that it can connect line 10 to the recording and playback system at any output 13. Thus, with normal for recording and playback of a relatively wide operating mode, the video signal directly to the output frequency band will be suitable,
guided. 30 The output signal is sent to a demodulator 23

The video signal is fed through a Störungsdetek- which serves to detect the frequency-modulated checked gate 14, which forms a switching signal when demodulating a carrier to the original video temporary Malfunction is detected. To regain the nuisance signal. The signal will be the one already Rungsdetektor can be a peak detector, which a described switching device 12 supplied, which Forms switching signal, wejan the temporary interference 35 the demodulated signal to the output terminals 13 wrestling about the maximum values of the black and white switches through. The delay device 11 verpegel protrude. In video systems where this causes a predetermined delay in the video signal takes the form of a modulated carrier, as signal, as already described. The delay Z, B. MicroweSen connections or magnetic tape device 16 checks the output, delays it and systems, the temporary malfunction can be caused by 4 ° attaching it to the input of the switching device. Of the Bewefwaphung of the carrier can be determined. Fault detector 24 is a carrier monitor and is used

The switching signal wiri via a delay to form a stop signal, which in turn is connected to circuit 15. the Sehalteinriphtung 12 placed and serves, the switching device to the output of the earned to disconnect the line 10 from the Aus? to switch delay device 16, if no Trägangskjemme 13, if there is a temporary disturbance 45 from the playback system. If the switching device simultaneously vgrbindet the high-frequency envelope amplitude drops below a certain output of a delay circuit 16 with the th level, the existence of a failure is fixed-output cipher 13. As already mentioned, the is set and the switching signal is formed.
Delay device 11 for delaying the one? The F i g. 3 is the scheme of a known re ·; applicable video signal including the temporary system. The modulator 21 generates interference until the maintenance process has been carried out using a frequency modus suitable for recording. The delay circuit 1§ is used for the locked signal.

only delay the trailing edge of the stop signal until the jump described above has passed when using a system. The delay type, which several at a distance on the circumference circle 16 is switched so that it receives information from 55 magnetic heads arranged in the head arrangement on the output 13, these are provided by one, devices for switching the output are delayed and a certain period of time the delayed tension from one head to the next yorge-. Video signal at the input terminal of the switch (French patent specification 1192 958). The basic device 12 makes available, the function of the switch 26 is to effect a sequence-If, for example, a video information is reproduced ^e ° circuit between the output of the circulating, the delay device is used to delay scanning heads, this shading process is fond of information by a period of time that corresponds to the unnecessary noise and secondary or scanning line of the television picture required. So if to eliminate crosstalk. The switch provides a temporary automatic clocking in the signal on line 10, so that the Sehalt disturbance is included, so the gap device 12 65 balanced processes occur during the horizontal return to the output of the delay line 16, so that the switching from switching which corresponds to a dgr preceding scan line ·? the temporary disturbances out of the picture supplies signal. If the temporary disturbance is taken.

5 6

The output of the switch is a demodulator, this intrinsic delay of the demodulator and the gate 23 pnd from there to a working amplifier 28, working amplifier is avoided that short-term out (cf. French patent specification 1198 582). Disturbing vibrations perceptible in the output signal The working amplifier is basically designed in such a way that it is. The switch itself is designed so that it introduces the final output of the video tape recorder to 5 at most negligibly small disturbances. Retransmission by radio or other means of In F i g. 5 is a more complete block diagram that makes it suitable for carrying. Its main purpose is shows. The high frequency signal from the switch is used to amplify any objectionable noise from the amplifier 41 and to remove it to an ampji - blanking and sync pulse and tudenmodulationsdetektor 42, which provides an output of any noise during the image interval on io signal as long as none There is a signal gap. limit certain peak values. The output signal from the detector is limited by the amplifier also provides a means for correcting limiter stages 43, 44 and 45. The limited video linearity as well as the local or remote signal is applied to a phase splitter 47 and from there to control both the video level and the synr a diode switch 48,
chronisierpegels. 15 The output signal from the working amplifier is

The output signal of the working amplifier 28 is amplified by the amplifier 51, the switching device 12 and circuit 52 described above are applied to a Klemman, then to a cathode amplifier 53 and then to the output 13. The delay Sr and then applied to the diode switch 48,
Line 16 receives a signal from the output and the output signal from the switch is amplified by, in turn, supplies a delayed output signal to the 20 an amplifier 54, then is amplified by the switching device 12. The envelope detector receives the clamping circuit 56, the DC component as captures its signal from the output of the switch and the manufactured, and the signal is applied to a cathode for forming a switching signal when an output amplifier 57 is applied. The output signal from the event (signal gap) is present. Cathode amplifier is connected to the output amplifier

The mode of operation of the circuit can be seen in steps 58 and 59.

of the wave trains shown in FIGS. 4A to 4C. The output signal from the cathode amplifier 57 explain. In Fi g. 4 A is the one at the output of the switching is also applied to a modulation diode 60, which ters available frequency-modulated carriers are shown. controlled by a crystal oscillator 61. the The demodulated and processed signal is in the output voltage of the modulation diode FIG. 4B and the output signal in FIG. 4C show driver 62 and from there a delay circuit. It is noted in relation to FIG. 4A that the device 63 is supplied. The output signal of the delay range SL a gap in the reproduced signal is amplified by the amplifier 64, is available. During this period of time, checked by the detector 65 and sent to a video only Noise components in appearance. The envelope amplifier 66 is laid. In a clamping circuit 67 is curve detector gives a switching signal if no 35 the DC value of the signal is recovered, and High frequency output signal is present. The signal is sent to a cathode amplifier 68 » The signal occurring at the output of the working amplifier is set, the output signal of which is sent to the diode switch 48 shown in Fig. 4B, wherein the signal gap im is fed. The output of the cathode area the second scan line. The Out Amplifier .68 is the video information that is converted to a output signal at terminal 13 has the one shown in FIG. 4 C 49 line was delayed and for substitution in the event reproduced form. Line 1 is made suitable by switching a signal gap.

device to output 13 passed. Line 1 The gap test circuit contains an amplitude will delayed by the delay means 16 selector for selecting a very narrow part and placed at the input of the switching device. That of the amplitude-modulated high-frequency signal, the Switching device is shown during the signal gap in FIG. 45 in FIG. 4 A is denoted by 70. The amplitude line 2 switched and line 1 again through the switching modulation detector 42 is preferably a full-travel device let through to the exit. Then rectifier to get a favorable response time lines 3 and 4 passed to the exit. ten. The delay circuit for the lines served It can therefore be seen that the signal at the output of an amplitude-modulated high-frequency carrier, does not have any discontinuities that could cause the image to differ 5 ° with a quartz unit operating at 30 MHz as bad fortune. The repetition of parts carrier generator is used. The one by one Line 1 is not noticeable because the adjacent 30 MHz crystal is controlled oscillator output Scan lines contain excess information. linearly modulated with the video output signal and If the signal gap covers more than scanning line 2, the delay is used, for example, via a buffer stage 62 lines 2, 3 and 4, line 1 55 circuit 63 will operate. The exit of the delay four times or repeated as long as the signal gap is rungsschahumg with a 30 MHz amplitude persists. modulated high-frequency carrier, which is transmitted through the

In Fig. 3 it can be seen that the high frequency envelope amplitude modulation detector 65 is rectified,

curve at the output of the switching device on signal - to recover the video signal,

gaps is monitored. The reproduced signal 60 To effect an invisible substitution,

passes through the demodulator and the working amplifier, the gain, the frequency dependency

ker. A time delay that is on the order of magnitude and the DC levels of the main channel and the

of a few microseconds will be identical due to the delay channel. The reinforcement

the demodulator and the working amplifier were introduced. and the DC levels are independently adjustable,

Thus, the switching signal already has a suitable 65 as indicated at 71 and 72.

Circuit combination for the purpose of switching to the vet · The circuit receives the high frequency voltage hesitated signal actuated before the demodulated result from the switch and checked with the help of the amplitude arrive at the exit. By using selector. With amplitude fluctuations of the high

frequency envelope an output signal is generated, limited and applied to the phase splitter, which causes the diode switch! Delay circuit. to be placed at the overall exit; In the absence of amplitude fluctuations the high frequency envelope becomes .the diode switch ip. in such a state that the video signal, from the. Working amplifier to output amplifier r-passes. Instead of this, the switch can also - the previously reproduced information, .sub- ίο state that was delayed by a period of time, which corresponds to a scan line. The delayed; previously reproduced information is applied until the gap is finished.

; FIG. 6 shows a detailed circuit diagram which corresponds to the block diagram of FIG. 5 is shown. The circuit associated with the tube 73 forms the amplifier 41. The circuit containing the diodes 74 and 75 serves as the detector 42. The circuit with the tubes 76, 77, 78 and 79 takes over the function of the limiters 43, 44 and 46 or of the phase splitter 47.

; The diodes 81 to 84 correspond to the diode switch 48 and are controlled by the output signal from the phase splitter 47 . The video signal is amplified by amplifier 51 with tube 85 and associated circuitry. The DC recovery circuit 52 includes the diode 86. The cathode amplifier 53 includes the circuitry connected to the tube 87. The amplifier, DC recovery and cathode-sequence circuits 54, 56 and 57 include tubes 88, 89 and 91 with associated lead connections. The output amplifiers 58, 59 have the tubes 92, 93 and 94, 95 , respectively. Modulation diode 60 is represented by diode 97 , and 30 MHz oscillator 61 contains vacuum tube 98 and associated wiring connections. The driver 62 includes the tube 99 and the associated circuitry. Delay line 63 is formed by 63.5 microsecond delay line 101 . The high frequency amplifier 64, the amplitude modulation detector 65, the amplifier 66 and the DC restorer 67 are formed by the tubes 102, 103, 104, 105, 106 and the lines connected thereto.

A playback system as shown in FIGS. 6A and 6B was constructed and tested. The different Circuit components of the test circuit had the following values:

Diodes (USA manufacturer types) ■ ■

86 ..... IN279 '·''. ^: " ^: 106- IN279

89 IN279 ""''" 108 ..... IN279

■ 97 ■: .-. ".. IN279 -""■ ^: Ί09 V .... IN279 103 ..! ..- IN279 '·'■" ■

35

40

45 resistances'.

111 100 kOhm

112 .; 150 Ohm ·, ·. ■

113 1 kOhm

114- 47kOhm

116 ..... lOkOhm

117 150 kOhm

118 33kOhm

119 100 ohms

121 25kOhm

122 ikOhm

123 22 kOhm

124 680 kOhm

126 lOkOhm

127 2.5kOhm

128 l, 5kOhm

129 680 kOhm

131 4.7kOhm

132 ..... 470 ohms

133 220 kOhm

135 4.7 kOhm

136 ..... 680kOhm

137 3.3kOhm

138 l, 5kOhm

139 2.7 kOhm

141 82 ohms

142 IkOhm

143 100 ohms

144 l, 5kOhm

146 82 0hm

147 68kOhm

148 100 kOhm

149 220 kOhm

151 2.2kOhm

152 l, 5kOhm

153 2.2kOhm

154 1 megohm

156 l, 5kOhm

157 390 ohms

158 100 kOhm

159 2.5kOhm

161 2.5kOhm

162 680 kOhm

Tubes (USA manufacturer types)

■ 73 6AH6

76 12AT7

77 32AT7

78 5687

79 5687

85 6AH6

87 5687

■ 88 12AT7

91 12AT7

> 92 5687

Diodes (USA manufacturer types)

, 74 IN279 82 IN279

75 IN279 83 IN279

81 IN279 84 IN279

93 .. ... 5687 94 . ... 5687 95 .. ... 5687 98 .. ... 5687 99 . 5687 102 .. ... 6AH6 104 .. ... 6AH6 105 .. ... 6AH6 107 .. ... 5687

Capacitors

211 0.02 \ lB

(Microfarad)

212 0.02 µΡ

100 μΈ

0.001 μΡ

0.0001 μΉ

6ο 217 0.0001 μΡ

50 μΈ

20 μ ¥

20 μΡ

22 μΡ

223 0.22 μΡ

0.22 μΉ

10 μΡ

20 μΡ

163 .... IkOhm

164 ..... 68 0hm 166 .., .. 68 0hm. ■ 167 ^; .; ..... 680kOhm

168 22 ohms

169 50 ohms

171 .: ... 22 kOhm

172 ..... 680 kOhm

173 ..... IkOhm

174 68 ohm

176 ..... 68 0hm 177 680 kOhm

178 22 ohms

179 50 ohms

181 22kOhm

182 lOkOhm

183 560 ohms

183 ..... 47kOhm

186 ..... IkOhm

187 ..... 1.5kOhm

188 100 kOhm

189 560 ohms

191 560 ohms

193 IkOhm

193a .... IkOhm

194 150 ohms

194a .... 150 ohms

195 47kOhm

195a .... 47 kOhm

196 5kOhm

197 100 ohms

197a .... 100 ohms

198 1 megohm

199 150 ohms

200 820 ohms

201 2.2kOhm

202 47 kOhm

203 lOOkOhm

204 220 kOhm

206 5kOhm

207 l, 5kOhm

228 ..... 4μΡ

229 ..... 4μΡ

230 0.22

231 0.1 µ

232 0.1 µ

233 300 μΡ

234 0.1 µ

236 0.1 µ

237 300 μΡ

238

239 0.01

241 0.001

242 5μμ

243 0.001

244 0.01

Capacitors

246

247 0.01 [iF

247 fl .... 0.01 μ ¥

248 0.001 μ ¥

248a .... 0.001 μΡ

249 0.001 μΡ

249α .... 0.001 μΡ

251 ..... 0.001
251α .... 0.001

252 5μμΡ

253 0.22 µ

254 20 μΡ

256 4μΡ

Inductors

260 1 to 1.7 microhenries

261 100 microhenries

262 20 microhenries

263 25 microhenry

264 10 microhenries

266 25 microhenry

267 1 to 1.7 microhenries

268 1 to 1.7 microhenries

269 10 microhenries

269a 10 microhenries

270 1 to 1.7 microhenries

270a 1 to 1.7 microhenries

271 1 to 1.7 microhenries

crystal
30MHz

Delay line
63.5 microseconds

tension

= 250 V

ίο

30th

35

With this, a novel, improved video system was created in which transient processes due to signal gaps or other causes made negligibly small in their effect will. The new system offers particular advantages when playing back video signal recordings, especially magnetic tape recordings that contain excess information.

Claims (6)

Patent claims: 1. Circuit arrangement for the transmission, storage and / or reproduction of video signals with a device for freeing the image content signals from transient processes or the like Short-term disturbances caused by the removal of disturbed signal parts and their substitution by delayed reproduced signal parts, characterized in that the the undisturbed signal to be substituted circuit (16) to the output (13) of the im Switching device (12) located in the video signal path and causing the signal interruption and substitution is connected and the signal returns to its input and that the switching signal for this Device (12) delivering disturbance detector (14) in a parallel branch to the signal path between the input (10) of the circuit arrangement and the switching device (12). 2. Circuit arrangement according to claim 1, characterized in that the delay duration of the delay circuit (16) equal to the duration of periodically occurring video signal parts is. 3. Circuit arrangement according to claim 1 or 2, characterized in that the signal is reproduced from a recording medium, the transient processes or other short-term disturbances can be caused by signal gaps. 4. Circuit arrangement according to one of the preceding claims, characterized in that an additional delay device (11) is provided, which is designed and arranged in such a way that that it delays the signal before it enters the switching device (12), so that the signal before Course of its delay by the additional delay device in the fault detector (14) is checked. 5. Circuit arrangement according to one of the preceding claims, characterized in that the signal is modulated onto a carrier and that the fault detector delivering the switching signal is an envelope detector (14). 6. Circuit arrangement according to claim 5, characterized in that the carrier in its Frequency is modulated with the signal. Considered publications:
U.S. Patent No. 2,353,631;
French patent specification No. 1192 958,1198 582. Legacy Patents Considered:
German Patent No. 1107 286. For this purpose 2 sheets of drawings 809 519/449 3.68 © Bundesdruckerei Berlin