DE1200350B - Wire radio system for color television signals of the Secam type - Google Patents

Description

FEDERAL REPUBLIC OF GERMANY

GERMAN

PATENT OFFICE

EDITORIAL

Int. α .:

HO4n

German class: 21 al -34/31

Number: 1 200 350

File number: R 35806 VIII a / 21 al

Filing date: August 1, 1963

Opening day: September 9, 1965

Wire radio system for color television signal
of the Secam type

Applicant:

R. & R. Research Limited, London

Representative:

Dr. H. Harmsen, Dr. W. Utescher, A.-H. Cheek

and H.-J. Bartholatus, lawyers,

Hamburg 1, Grosse Allee 28

Named as inventor:
Patrick Bass, London

Claimed priority:

Great Britain from! August 1962 (29 582) -

The invention relates to a wire radio system for color television signals with a conductive network, over that several receivers can be fed from a central station, which receives color signals, in the manner of a Secam color television system S consisting of two components transmitted one after the other exist with the help of a delay device for the reproduction of the color television pictures in the Are available to recipients at the same time.

The methods for sending and receiving color television signals usually employ one Luminance signal and color signals that contain two separate components that are in conjunction with the luminance signal allow the reproduction of signals in the receiver, which the ratio embody between the three primary colors red, green and blue in every moment of the sent image. In a particular system of this type, one of the two separate components has been proposed of the color signals during a scanning line

of the sent process and the

other of the two components of the color signals 2

during the following scan line. Although this results in a less good color resolution, the radio system is expediently designed so that it this thanks to the tolerance of the human eye 25 color television signals of a standard color television relative unnoticeable. Each of the grams is received in the receiver. The colors are both separate components stored in order to normally carry signals over the conductive network to be used during the following line, frequency in the range of 2 to 11 MHz forwarded, that each component both during a scanning The invention is described below with reference to the in

line as well as during the following line of the embodiments shown in the drawings receiver is used. Such a color television explained in more detail. It shows
System is in Electronic Engineering from June 1960
has been described on pages 356 to 358 and
is commonly referred to as the Secam color television system. 35

The present invention is based on the object of a wire broadcast system for in the manner of a Secam process to create transmitted color television signals, in which the receiver does not have complete Need to be Secam receivers. To solution 40 and

this task is performed in a wire broadcast system F i g. 4 is a schematic block diagram of a

of the type mentioned according to the invention proposed that the central station with the delay device for the delay of the straight

non-received component of the color signals is used by the central station for receiving color television is, so that the color signals in each case in delayed signals by radio waves, so z. B. a television and instantaneous form via the conductive network receiver 1 with the antenna 2 belonging to it. get to the recipients, where they are known. It is assumed that this is the Way via the switching device alternately two Secam types already mentioned, with the one Outputs are fed, at which they are equal to 50 luminance signal and one of two components are available in good time. existing color signal, its two components

The central station of a wire according to the invention is always alternately present, is received.

509 660/315

Fig. 1 is a schematic block diagram of a Wire broadcasting system according to the present invention,

FIG. 2 is a schematic block diagram of a central station for a system according to FIG. 1,

Figure 3 is a schematic block diagram of a first type of receiving device suitable for use in a system according to FIG. 1 is suitable

second type of receiving device for a system according to FIG. 1.

In the system shown in Fig. 1, the

3 4

Each component has the same duration as one to be used directly on line 22. As well as Scan line of the sent image and becomes in the reception the luminance as well as the color signals become more than one of the components of the color signals to a modulation device 23, which is on his uses, both during the row, in output line 24 a high frequency carrier wave which the component is sent, as well as during 5 supplies, through the said luminance and of the following scan line. The resulting color signals are modulated. The carrier wave can if lost The quality of color rendering is, for example, a frequency in the range from 2 to borrowed because the human eye has 11 MHz. The color signal is on the line Has the property of having a less good 22 so that it passes through a band filter 25, Color rendering satisfactory. io before it comes to a delay device such. B.

The luminance supplied by the receiver 1 - a delay line 26 to then on its and color signals are passed on to a transmission means 3 on - output line 27 a delayed version of the, which is used to supply luminance and color color signal. The amount of delay in delivering signals at low radio frequencies, which corresponds to the dwell time of each alternately suitable for transmission over a line network, which component of the color signal and is part of the system. The transmission means 3 can coincide comfortably with the duration of a type of demodulation means or changeover key line of the transmission means transmitted by the television system. The low frequency radio signals image. The delayed color signal on line 27 is normally in the range of 2 to 11 MHz. can either be sent directly to a combination device 28. The color signals are also used by the transmission means 3 20 for merging with the signal on the line for a delay device 4, which passes the 24 on and then delays the output signals by an amount corresponding to the device 29, or to a demodulator 30, of which the duration of each of the two components corresponds to the demodulated signal to form a color modulation signal. The delayed color signals device 31 is passed, which is used to be transmitted as additional color signals, whereby 25 modulated high-frequency carrier wave to generate the said signals in a combination line which has a frequency, which are combined in corresponding network 5 of from which it is brought for drawing to that which was generated by the modulation device a conductive signal path 6 of the line network Ver 23. Find the output from the modulator 31 application. The signal on the conductive signal path 6 then goes to the combination device 28.
The transmitted signals include a luminance signal 30. 1 is suitable if the carrier frequency component that is not present at any time in one of the delayed color signals with the frequency of the two color signals is contained in the other color difference between the luminance signal and the signal. So that the two grain 35 color signals coincide, as z. B. is the case, components continuously for color reproduction for when the transmission device adds the demodulator. 30 and the modulating device 31, such as the

Two identical receiving devices 7 and 8 are shown in FIG. The signals have an effect on the inputs their connection to the conductive signal path 6 terminal 32, indicated to the two selective amplifiers. Each device contains an amplifier 9, 40 of which are closed. The amplifier 33 is used to demodulated output terminals to the FiI to verter the luminance signal and the color signals 10,11 and 12 are connected, with the help of which strengthen, with the strengthened signals to a dedas Luminance signal, the color signal and the modulator 35 are forwarded from which the delayed color signal can be derived accordingly to a control electrode of a luminance signal can. The two components of the color signals 45 color picture cathode ray tube 36 and the color signal are alternately fed to a further selector amplifier 37 on each of the two lines 13 and 14 available. A switching means 15 is used, the. The color signals are thus on the lines around the lines 13 and 14 synchronously with the supply 38 and 39 available. Each color signal has two while each of the two components with the Lei components was alternately ready, and that delayed lines 16, 17 to connect so that each of the 50 color signals on line 38 is by an amount The latter lines delay one of the two components, which of the dwell time of each of the ten is essentially continuously available. The two components correspond. Hence, a com both Components of the color signals become components when they are not on the lines 38, 39 men with the luminance signal from the filter 10 is present on the other. The color one Matrix 18 routed, the signals from the mentioned 55 on lines 38,39 are accordingly Signals the control signals for a color television set 19 modulators 40 and 41 supplied or the demodulief certified outputs, from which you can switch to a switching

A transmission device that reaches the user device 42. The activity of this switching device tion in the system is suitable, as shown in FIG. 1 is controlled by a circuit symbol generator 43, shows is shown in FIG. Here color 60 are synchronized by synchronizing signals Secam-type television signals arranged so that is present in the color signal and from they are derived as radio frequency signals at the input terminal output of the amplifier 37. That 20 can be received, from which it further- switching device 42 is used to interconnect the Leigeleiten become a demodulating device 21, lines 44 and 45 with lines 46 and 47, see above that on its output line 22 a luminance 65 that the line 46 is connected to the line 45 and provides a color signal. Alternatively, a pictorial is if one of the two components of the color point sign of Secam type, e.g. B. is present via a signal, and then to line 44, direct connection from the sending room was derived if the delayed version of the same component

is present on the line. Line 47 is similarly connected to lines 44 and 45, but with respect to the other of the two signal components. Thus is one of the two components of the color signal is essentially continuously present on line 46, and the other of the The two components mentioned are also present essentially continuously on the line 47. The two components of the color signal on lines 46 and 47 become a matrix 48 supplied which control signals for the control electrodes of each of the three electron guns of the Color cathode ray tube 36 supplies.

The second embodiment of the receiving device as shown in FIG. 4 shows is for use in the system suitable according to Fig. 1 when the carrier frequency of the delayed color signal with the difference between the frequencies of the luminance signal and the color signals match, which is the case, for example, when the transmission device omits the demodulator 30 and the modulation device 31, whereby the Line 27 connects the delay device 26 directly to the combination device. The receiving device according to FIG. 4 is the device according to FIG. 3 basically similar. Signals that act on the input terminal 49, the two selector amplifiers 50 and 51 supplied. The amplifier 50 amplifies the luminance and color signals, after which the amplified signals are fed to a demodulator 52, from which the luminance signal to a Control electrode of a color cathode ray tube 53 and the color signal to a further selective amplifier 54 are performed. Thus, there are color signals on lines 55 and 56, the a component that does not exist on one line is on the other. The ones on lines 55 and 56 lying color signals are fed to a switching device 57, which is generated by a switching signal generator 58, which is synchronized by synchronizing signals contained in the color signal which signals are derived from the output of amplifier 54. The switching device 57 serves to make one of the two components of the color signal the way out of the lines 55 or 56 as the appropriate to a corresponding demodulator 59 and the other of the two components To show the way to a corresponding demodulator 60. The outputs of the demodulators 59 and 60 are fed to a matrix 61 which contains control signals for the control electrodes of three electron guns of the color cathode ray tube 53 supplies.

The present invention may find application in a VHF distribution system, and in one In such a system, the transmitter is set up so that it transmits the luminance and color signals to frequencies intended for a television channel, preferably one that is in the area is unused in which the distribution system operates and a delayed version of the color signal on an additional frequency that is outside the frequency limits of the above television channel may lie.

From the foregoing description it can be seen that the present invention is a wire broadcast system and provides Secam-type color television signal equipment by means of which the need the presence of a delay device in each receiving device is thereby made unnecessary is that the delay device is used at the control station and that by the control station a delayed version of the color signal is transmitted as an additional color signal.

Claims (6)

Patent claims: 1. Wire broadcast system for color television signals with a conductive network through which several receivers can be fed from a central station, which color signals receives, in the manner of a Secam color television system of two transmitted one after the other Components exist with the help of a delay device and a switching device are simultaneously available for the reproduction of the color television pictures in the receivers, characterized in that the central station with the delay device for the delay of the just not received component of the color signals is provided so that the color signals in delayed and undelayed form via the conductive network to the Receivers get where they alternate two outputs in a known manner via the switching device at which they are available at the same time. 2. System according to claim 1, characterized in that the central station is a television receiver with an antenna with which the color television signals of a standard color television program are to be received. 3. System according to claim 2, characterized in that the central station the color signals transmits over the conductive network with frequencies in the range of 2 to 11 MHz. 4. System according to any one of claims 1 to 3, characterized in that the central station a modulator that carries a carrier wave with the luminance signals and the instantaneous Color signals modulated, as well as a filter, which the instantaneous color signals on the Delay device conducts, from which the delayed color signals a mixer for superimposition with the modulated carrier wave either directly or via another modulator are fed. 5. System according to any one of claims 1 to 4, characterized in that the receiver The delayed color signal is separated from the other signals by selective amplifiers. 6. System according to one of claims 1 to 5, characterized in that the color sync signal, which is contained in the color signals, stimulates a generator, the switching signals for control the switching device that switches the color signals generated. 1 sheet of drawings 509 660/315 8.65 © Bundesdruckerei Berlin