CH618301A5 - Circuit arrangement for transmission of television signals - Google Patents

Description

618301 2

Claims (1)

PATENT CLAIM acquisition of the HF signal while avoiding any modulation. Circuit arrangement for the transmission of television signals There is also greater flexibility of the system on transmission links with baseband inputs and outputs as there are also carrier frequency baseband inputs (lower limit frequency, particularly on coaxial cable links, directional radio links <juenz 60 kHz ) can be used. In addition, a ken, laser transmission paths, is characterized in that 5 transmission to existing video cables with better quality enables the baseband input of the transmission path to have a HF base. Due to the displacement of the band converter according to the invention, a mixing stage is connected upstream, in which the television signal is converted within the baseband around the minimum frequency by converting the FS signal into the frequency range of the frequency spacing FS signal in the baseband a hum, audio frequency ripple control signals, etc.) on the picture content of zero different minimum frequency distance of 10 can be prevented. has the lower baseband limit, and that the baseband output. HF converter is connected downstream. This is a device that has the task of processing a television signal that is available HF-modulated so that it can be transmitted under the favorable conditions mentioned within the baseband of the transmission path. The HF-modulated television signal is, coming from a receiver object of the invention, a circuit arrangement GER 1, fed to an HF baseband converter 2, for the transmission of television signals on transmission path 20 which contains a mixing stage 3, by means of which the HF modu -ken with baseband input and output, e.g. B. on Koaxialkabel- lierte television signal with a from an oscillator 4 won-route, directional radio links, laser transmission links. NEN auxiliary frequency is mixed. The mixed product will In a conventional manner, one uses a filter 5 for directional control, the output signal of which is fed to the basic transmission of television signals (image and sound signal) post-band input 6 of a transmission link, e.g. B. is supplied to a direct transmission link according to the international 25 radio link 7 . At the end of the radio link 7 CCITT standards. In this case, the normally high-frequency baseband output 8 is provided, the output signal of which is frequency-modulated and available television signal for conversion back to a baseband-HF converter 9 for conversion into a baseband. This is achieved in a similar manner to the HF baseband converter by a modulation method that is constructed using ter 2. In a mixing stage 10, the HF video and audio signals are connected by additional distortions and with intermodulation phenomena between a frequency supplied by an oscillator 11. Since the modulated signal is recovered from the modula- tion process, the image content is extracted down to the lowest frequencies by means of a filter 12 and must be displayed in the subsequent device 13 zen, practically down to frequency zero, is further utilized. there is a need to use large construction The auxiliary frequency generated in the oscillator 4 is to be selected in such a way share. The disadvantage of using this modulation method is that it runs together with the carrier frequency of the HF-modulated signal, which means that the black level has to be corrected continuously. Television signal results in a video carrier frequency z. B. in the In the event that in the course of a transmission link more than one rule (picture carrier < sound carrier), preferably between modulations, a 1.25 MHz and 2.5 MHz carrier frequency system for regeneration of the residual sideband to preserve the NY-960 voice channels. quist edge required. 40 With regard to the minimum frequency spacing, it can be stated that: It may 1. According to the CCIR standard, the audio signal does not have to be below the limit frequency of long-distance transmission by a specified frequency distance from the video signal. If this is in the transmission system (which is not available at 60 KHz or the signal offered, depending on the system, it must be 500 KHz for demodulation) and 2. the residual sideband emitted by the television broadcaster - the audio signal must be separated from the video signal by means of its own crossover (according to CCIR -Norm 1.25 MHz) completely separated from the circuit and then transferred to the correct frequency relation 45 or undestroyed. It follows that the be brought. Minimum distance when using the CCIR standard is 1.25 MHz. The invention has set itself the task of achieving a transmission Increasing this distance results in poorer interference of received television and radio programs usage ratio as mentioned above and on the other hand is through a transmission path with baseband on and off the upper limit frequency of the Long-distance transmission system, avoiding modulation or demodulation, is limited to 50 stems (7 MHz for a 960-channel system), with one and the associated disadvantages being achieved and the picture carrier frequency of 1.25 MHz being the highest frequency of this in that the baseband input of the transmission signal is represented by the sound carrier with a spacing of 5.5 MHz, an HF baseband converter with a mixing stage (1.25 MHZ + 5.5 MHz = 6.75 MHz < 7 MHz). is connected, in which a conversion of the FS signal into the frequency range of the baseband can take place, whereby the FS signal in the 55 transmission path with baseband input and output to the baseband has a frequency range different from zero Minimum frequency high-quality direct transmission of HF-modulated distance from the lower baseband limit, and that the television signals can be used without the radio baseband output of the transmission line having to be converted to an inverse opera- norm. This use case is render downstream of baseband RF converter. especially for long-distance transmission between large community The invention enables the processing of the modulating 60 antenna systems, when transferring magnetic signals to the lowest possible frequency (baseband) drawings and when connecting the television studios and avoiding any demodulation or when sending back signals to one another . G 1 sheet of drawings