JPS6362153B2 - - Google Patents

Description

[Detailed Description of the Invention] This invention is directed to CATV ( Community Antenna ).
This invention relates to a terminal control method in a televison system. In a CATV system, when information or data is to be transmitted from the central transmission equipment to the terminals by selecting specific residences, blocks, etc., the transmission equipment must control the terminals for selection. This information or data is modulated at a specific frequency, sent to a transmission cable, and announced at each terminal. Conventionally, this terminal control method includes a frequency division method in which frequencies are assigned to each terminal residence or block, a method in which multiple transmission cables are installed, or a method in which special signals are superimposed on information or data for transmission. There is. However, in either method, the entire system becomes very complicated, and the terminals in each residence or block also become complicated and economically expensive. This invention was made in view of the above circumstances.
The purpose is to provide a terminal control method for a CATV system that allows terminal selection and terminal control to be performed easily and economically. In this invention, when information or data signals are modulated and sent to a transmission cable, special modulation is performed and a terminal is controlled by the modulated signal. In the present invention, frequency modulation (FM), phase modulation (PM), frequency shift modulation (FSK) modulation, etc. are used as modulation methods when transmitting information or data, but among these modulation methods, amplitude is modulated. Only modulation methods that are constant regardless of waves (constant amplitude modulation) are considered effective. For example, in the case of frequency modulation, information or data signals are transmitted by changing the frequency of a carrier wave. When extracting this modulated information or data signal as an original signal, it is sufficient to install a receiver in the terminal and demodulate it. Furthermore, these demodulators include an amplitude limiting circuit (limiter circuit), and it is well known that noise components and the like are removed by this amplitude limiting circuit. This invention focuses on the operation of this amplitude limiting circuit, and further modulates the amplitude of the above-mentioned FM or PM carrier wave with a constant amplitude using a specific frequency or coded pulse signal (control signal) for terminal control. (AM), so-called FM-AM, PM-
It performs multiple modulation such as AM and sends it out to the transmission cable. When this multiplex modulated signal is received by a terminal receiver, the AM signal is demodulated as a control signal, and the FM or PM signal is demodulated as an information or data signal. The AM signal for control is subjected to envelope detection, and by controlling the terminal using this detected signal, the terminal can be easily controlled from the transmitting side. Note that the degree of modulation when performing amplitude modulation depends on the characteristics of the amplitude limiting circuit of the receiver of the terminal, so it must be performed within the operation of this circuit. Hereinafter, one embodiment of the present invention will be described with reference to the drawings. FIG. 1 is a block diagram of the entire system.
In the figure, 1 is a television receiving antenna, 2 is an amplifier for amplifying received radio waves (television signals), and 3 is a television signal.
A mixer mixes signals such as information and data and sends the mixture to a transmission cable 4; 5 is an individual oscillator that outputs a control signal for selecting a terminal's residence, for example; An FM modulator 7 for frequency modulating is an AM modulator for further amplitude modulating the FM signal output from the FM modulator 6 using the oscillation frequency of the individual oscillator 5.
Note that 11 indicates a transmission facility constituted by these devices. The television signal is received by antenna 1,
After being amplified by an amplifier 2, the signal is sent to a transmission cable 4 via a mixer 3. These are usually done
This is the same as retransmission in CATV. The information or data signal enters the input 6 ₁ of the FM modulator 6 . And this FM modulator 6
The signal is frequency modulated and becomes an FM signal, which has a waveform as shown in Figure 2a. The output of this FM modulator 6 is supplied to the next AM modulator 7, which generates an individual oscillator 5.
The output signal is amplitude modulated. This individual oscillator 5 includes individual selection oscillators 511, 512...51
It is composed of an n group and a switch 521, 522...52n group. Individual oscillators 511, 512...
51n output signals with different frequencies ₁ , ₂ ... _o , respectively, and these outputs are sent to switches 521, 522...
52n to the AM modulator 7. FIG. 2b shows, for example, the oscillation output of the individual oscillator 511.
₁ and FIG. 2c show the oscillation output ₂ of the individual oscillator 512, respectively. Further, FIG. 2 d shows a signal in which the information or data signal frequency-modulated by the FM modulator 6 is further amplitude-modulated by the oscillation output ₁ , resulting in a double modulation signal, that is, an FM-AM signal.
This signal is sent via mixer 3 to transmission cable 4. FIG. 2d shows an FM-AM signal in which the frequency-modulated information or data signal is further amplitude-modulated by the oscillation output ₂ . Oscillation output
Similarly, signals ₃ , ₄ , . . . _o become double modulated signals and are sent to the transmission cable 4. The signals sent to these transmission cables 4 are distributed or branched by a tap-off 8, and supplied to the residences 10 ₁ , 10 ₂ . . . 10 _o of each terminal via a protector 9. In each block _of terminal housings 10 ₁ , 10 ₂ . . FIG. 3 is a block diagram showing details of the terminal receiver 10c. In the same figure, 100 is an input terminal;
101 is a tuner, 102 is a bandpass filter, 103
1 is an intermediate frequency amplifier, 104 is a distributor, 105 is a frequency discriminator with an amplitude control circuit (limiter circuit), 1
06 is an audio frequency amplifier, 107 is a speaker, 10
8 is an AM component detection circuit, 109 is a bandpass filter for individual selection, 110 is a rectifier circuit, 111 is a DC amplifier for driving a relay, 112 is a relay circuit, 113 is a DC power supply circuit, and 114 is a power plug. That is, the FM supplied to the terminal receiver 10c
-The AM signal is made into an intermediate frequency by the tuner 101, unnecessary signals are removed by the bandpass filter 102, and then amplified by the intermediate frequency amplifier 103.
The output of this intermediate frequency amplifier 103 is transmitted to the distributor 10
4 and supplied to the FM demodulation system and AM demodulation system, respectively. The FM-AM signal supplied to the AM demodulation system is
The frequency from the individual oscillator 5 modulated on the transmitting side by the detector 108 that performs envelope detection of the AM component.
₁ , ₂ ... _o are demodulated. This demodulated signal passes through an individual selection bandpass filter 109 and is further rectified by a rectifier 110 to become a DC voltage. This DC voltage is current-amplified by a relay-driving DC amplifier 111 and then supplied to a relay circuit 112 to drive the relay. When the relay is driven, power from the DC power supply circuit 113 is applied to the audio frequency amplifier 10.
6. On the other hand, the FM-AM signal supplied to the FM demodulation system is sent to a frequency discriminator 105 with an amplitude limiting circuit, where the AM component for terminal control is removed and frequency demodulated, and then supplied to an audio frequency amplifier 106. be done. As a result, an output is obtained from the audio frequency amplifier 106, and an announcement is made from the speaker 107. In this case, the audio frequency amplifier 106 operates and is notified only when there is a control signal that matches the residence of the terminal selected in the individual oscillator 5 on the transmitting side, for example, the residence ₁₀₁ , but if there is no matching control signal. In this case, the audio frequency amplifier 106 does not operate and no notification is made. This also applies to the operations of the residences 10 ₁ to 10 _o . In the above embodiment, a one-way reception control section has been described, but it goes without saying that uplink signals from terminals can also be controlled when terminal control is performed in a two-way CATV system. As described above, according to the present invention, an information or data signal is subjected to constant amplitude modulation, and this constant amplitude modulation signal is further amplitude-modulated by a control signal for terminal selection, and the amplitude modulation component of this multiplexed modulation signal is used for terminal selection. Therefore, it is possible to provide a terminal control method for a CATV system in which terminal selection and terminal control are easy and economical.

[Brief explanation of drawings]

Fig. 1 is a block diagram showing a system configuration according to an embodiment of the present invention, Figs. 2 a to e are signal waveform diagrams at each point in the above system, and Fig. 3 shows the configuration of a terminal receiver in the above system. FIG. 1...Television receiving antenna, 3...Mixer,
4...Transmission cable, 5...Individual oscillator, 511-5
1n...Individual selection oscillator, 521~52n...Switch, 6...FM modulator, 7...AM modulator, ₁₀₁ ~
_10o ...terminal residence, 10c...terminal receiver.

Claims (1)

[Claims] 1 Send control signals for terminal selection along with information or data signals from the center to control terminals
In a CATV system, the information or data signal is subjected to constant amplitude modulation, and the constant amplitude modulation signal is used as a carrier wave to perform amplitude modulation using the control signal for terminal selection at a modulation degree that matches the characteristics of the amplitude limiting circuit of the terminal receiver. This multiplex modulated signal is received by the tuner of the receiver on the terminal side, and then the specific amplitude modulated signal is demodulated via an envelope detector and an individual selection filter. A terminal control method in a CATV system characterized by controlling terminal selection using demodulated signals.