JP4136218B2 - Transmission signal amplifier and bidirectional CATV system - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a bidirectional CATV system configured to connect a center device and a terminal device via a CATV transmission line and transmit an upstream signal from the terminal device to the center device, and from the terminal device to the center device. The present invention relates to a transmission signal amplifier that amplifies an upstream signal to be transmitted.
[0002]
[Prior art]
Conventionally, a bidirectional CATV capable of transmitting an upstream signal from a terminal device (such as a personal computer) connected to the terminal terminal to the center device (head end) is connected to the center device via a CATV transmission line. In the system, normally, an upstream signal input from a terminal terminal to a CATV transmission line is amplified and transmitted by a transmission signal amplifier (upstream signal amplifier) provided on the CATV transmission line. The transmission signal amplifier is not only installed as a bi-directional amplifier in which an upstream signal amplifier and a downstream signal amplifier are combined, but also included in a branch amplifier or an extension amplifier.
[0003]
By the way, the downlink signal (television broadcast signal) transmitted from the center apparatus to the terminal terminal is transmitted substantially continuously, but the uplink signal transmitted from the terminal terminal to the center apparatus is necessary. In response, it is transmitted intermittently. For this reason, a technique has been proposed in which noise is not transmitted by prohibiting transmission of an upstream signal in a transmission signal amplifier during a period in which the upstream signal is not transmitted. FIG. 3 is a block diagram for explaining the configuration of a conventional transmission signal amplifier (upstream signal amplifier). FIG. 3 shows a state where transmission of the upstream signal (noise) is prohibited.
[0004]
As shown in FIG. 3, the conventional upstream signal amplifier 10 includes an input terminal T1, an output terminal T2, an amplifier circuit 81, a switching circuit 83, an amplifier circuit 85, a resistor 87, a resistor 89, and a control circuit 91. The control circuit 91 controls the connection state of the switching circuit 83 to switch permission / prohibition of uplink signal transmission. The control circuit 91 operates in response to a command from the center device.
[0005]
Specifically, when the transmission of the upstream signal is permitted, the amplifying circuits 81 and 85 are connected by connecting the contact P1 and the contact P2 constituting the switching circuit 83 and connecting the contact P4 and the contact P5. The input terminal T1 and the output terminal T2 are connected via Then, the upstream signal input from the input terminal T1 is amplified by the amplifier circuits 81 and 85 and output from the output terminal T2.
[0006]
On the other hand, when the transmission of the upstream signal is prohibited, the contact P1 and the contact P3 constituting the switching circuit 83 are connected, and the contact P4 and the contact P6 are connected to each other through the amplifier circuit 81 and the resistor 87. The input terminal T1 is grounded, and the output terminal T2 is grounded via the amplifier circuit 85 and the resistor 89. Then, even if an upstream signal is erroneously input from the input terminal T1, the upstream signal is not output from the output terminal T2. The resistance value of the resistor 87 is selected so that the impedance before and after the input terminal T1 matches. That is, the impedance is selected so that the impedance of the transmission line connected to the input terminal T1 matches the impedance when the inside of the upstream signal amplifier 10 is viewed from the input terminal T1. Similarly, the resistance value of the resistor 89 is selected so that the impedance of the transmission line connected to the output terminal T2 matches the impedance when the inside of the upstream signal amplifier 10 is viewed from the output terminal T2.
[0007]
[Problems to be solved by the invention]
However, even if the contact P1 and the contact P3 are connected, and the contact P4 and the contact P6 are connected, the gap between the contact P1 and the contact P2, the gap between the contact P4 and the contact P5, and the contact P3 and the contact P6. The gap is not completely isolated and acts like a capacitor. Therefore, noise having a high frequency may be transmitted from the input terminal T1 to the output terminal T2 over the gaps. In addition, the noise transmitted in this way is greatly attenuated when jumping over each gap, but conversely, it is greatly amplified when passing through the amplifying circuits 81 and 85, so that in some cases, the input terminal T1. It is possible that the noise input to is amplified and output from the output terminal T2. For this reason, a technique for reliably attenuating such noise is desired. In this case, it is necessary not only to improve the noise attenuation rate but also to consider impedance matching at the input terminal and the output terminal.
[0008]
Therefore, the present invention improves the attenuation rate of noise transmitted in a state where upstream signal transmission is prohibited, and matches impedance before and after the input terminal and output terminal of the transmission signal amplifier (upstream signal amplifier). The purpose is to let you.
[0009]
[Means for solving the problems and effects of the invention]
In order to achieve such an object, the transmission signal amplifier according to the first invention transmits an upstream signal from the terminal terminal side to the center apparatus via the CATV transmission line as described in claim 1. In a bidirectional CATV system configured to be possible, a transmission signal amplifier provided on the CATV transmission line and amplifies an upstream signal transmitted from at least the terminal terminal side to the center device, and connects the CATV transmission line And an amplifier circuit that is provided in an in-device transmission path from the input terminal to the output terminal, amplifies a signal input from the input terminal side, and outputs the amplified signal to the output terminal side An interrupt circuit that disconnects the intra-device transmission path based on an external command, and a transmission path disconnection instruction for causing the interrupt circuit to disconnect the intra-device transmission path. A signal transmission prohibition command circuit that outputs power, a power supply cut-off circuit that cuts off the supply of operating power to the amplifier circuit based on a command from the outside, and the same impedance as the impedance of the transmission line connected to the input terminal An input side termination circuit, an input side ground switching circuit for grounding the input terminal via the input side termination circuit based on an external command, and the same impedance as the impedance of the transmission line connected to the output terminal And an output-side ground switching circuit for grounding the output terminal via the output-side termination circuit based on an external command, and the signal transmission inhibition command circuit includes Power supply cutoff for causing the power supply cutoff circuit to cut off the supply of operating power to the amplifier circuit when issuing a transmission path disconnection command to the intermittent circuit In addition, to the input side ground switching circuit, to issue an input terminal ground command for grounding the input terminal via the input side termination circuit, to the output side ground switching circuit, An output terminal grounding command for grounding the output terminal is issued via the output side termination circuit.
[0010]
According to the transmission signal amplifier of the present invention, when the transmission path disconnection command, the power supply cutoff command, the input terminal grounding command, and the output terminal grounding command are not issued from the signal transmission prohibition command circuit, that is, the transmission of the upstream signal is not performed. If permitted, the upstream signal transmitted from the various devices provided in the front stage of the transmission signal amplifier via the transmission line is input from the input terminal into the transmission signal amplifier and from the input terminal to the output terminal. The signal is amplified by an amplifier circuit provided in the transmission path within the device, is output from the output terminal to the outside of the transmission signal amplifier, and is transmitted to various devices provided at the subsequent stage of the transmission signal amplifier via the transmission line.
[0011]
On the other hand, when the transmission of the upstream signal is prohibited, the signal transmission prohibition command circuit issues a transmission path disconnection command to the intermittent circuit, thereby disconnecting the in-device transmission path from the input terminal to the output terminal. . If the in-device transmission path from the input terminal to the output terminal is cut in this way, the signal and noise input from the input terminal should not reach the output terminal. However, as described above, in reality, if the noise has a high frequency, the cut portion may be skipped, and this noise is amplified by the amplifier circuit and output from the output terminal.
[0012]
Therefore, in the transmission signal amplifier according to the present invention, the signal transmission prohibition command circuit supplies power to the power supply cutoff circuit when the transmission path disconnection command is issued to the intermittent circuit to disconnect the in-device transmission path. By issuing a shut-off command, the supply of operating power to the amplifier circuit is shut off. When the supply of operating power to the amplifier circuit is cut off in this way, the amplifier circuit usually turns over from the amplification function and exhibits an attenuation function, so it jumped over the part cut by the intermittent circuit. Even if there is noise, it will be greatly attenuated by the amplifier circuit and output from the output terminal.
[0013]
Thus, according to the transmission signal amplifier according to the present invention, noise is hardly output from the output terminal, and even if it is output temporarily, the output noise is greatly attenuated. Therefore, various devices connected to the tip of the output terminal via the CATV transmission line rarely malfunction due to the influence of noise.
[0014]
In addition, in the transmission signal amplifier according to the present invention, when the signal transmission prohibition command circuit issues a transmission path disconnection command to the intermittent circuit and issues a power supply cutoff command to the power supply cutoff circuit, An input terminal ground command is issued to the input side ground switching circuit and an output terminal ground command is issued to the output side ground switching circuit. Then, the input side ground switching circuit grounds the input terminal via the input side termination circuit according to the input terminal ground command, and the output side ground switching circuit grounds the output terminal via the output side termination circuit according to the output terminal ground command. To do. The input-side termination circuit is configured with the same impedance as the transmission line connected to the input terminal, and the output-side termination circuit is configured with the same impedance as the transmission line connected to the output terminal. When the input terminal is grounded via the input side termination circuit and the input terminal is grounded via the output side termination circuit, impedances before and after the input terminal and the output terminal are matched. Therefore, when an input terminal grounding command and an output terminal grounding command are issued from the signal transmission prohibition command circuit, even if a signal or noise is input from the input terminal or output terminal, the signal or noise is reflected. Without being led to the earth.
[0015]
As described above, according to the transmission signal amplifier according to the present invention, the impedance before and after the input terminal and the output terminal can be matched, so that the input terminal and the output terminal are connected via the CATV transmission line. Various devices can be operated satisfactorily.
[0016]
The signal transmission prohibition command circuit may be configured to issue a transmission path disconnection command, a power supply cutoff command, an input terminal grounding command, and an output terminal grounding command in response to a command from the center device. It may be configured to issue a command by judging the use status of the line, and assign a time zone in which the transmission line can be used for each terminal device in advance, and whether or not it is a usable time zone. It may be configured to issue a command upon judgment. Further, the signal transmission prohibition command circuit may be provided with input means such as a push button so that a command is issued according to the operation mode of the input means by the CATV system administrator or the like.
[0017]
The bidirectional CATV system according to the second aspect of the present invention, as described in claim 2, is configured so that an upstream signal can be transmitted from the terminal terminal side to the center device via the CATV transmission line. The transmission signal amplifier according to claim 1 is provided on the CATV transmission line, and an upstream signal transmitted from the terminal terminal side to the center device is amplified by the transmission signal amplifier. To do.
[0018]
In the bidirectional CATV system according to the present invention, since the transmission signal amplifier according to the first invention is provided on the CATV transmission line, the effect of the transmission signal amplifier according to the first invention can be obtained. That is, even if noise is input to the transmission signal amplifier, noise is hardly output from the transmission signal amplifier, and even if it is output, the output noise is greatly attenuated. Even if noises of a plurality of branch lines, distribution lines, and lead-in lines are superimposed, there is a slight effect, and there is an effect that the center device or the like hardly malfunctions due to the noise.
[0019]
Furthermore, since impedances before and after the transmission signal amplifier can be matched, various transmission devices provided on the CATV transmission line, terminal devices connected to the terminal terminals, center devices, etc. can be operated satisfactorily. The effect of is also obtained.
[0020]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, an embodiment of the present invention will be described with reference to the drawings.
First, the configuration of the bidirectional CATV system of this embodiment will be described. FIG. 1 is a block diagram for explaining the configuration of a bidirectional CATV system, and FIG. 2 is a block diagram for explaining the configuration of an upstream signal amplifier.
[0021]
As shown in FIG. 1, the bidirectional CATV system of this embodiment includes a head end 1, a main branching amplifier 2, a branching amplifier 3, a tap-off 4, a bidirectional amplifier 5, a distributor 6, and a terminal terminal. 7.
One terminal terminal 7 is connected to a television receiver 8 that receives and demodulates and reproduces a downstream signal, and another terminal terminal 7 has a personal computer 9 with a built-in cable modem (hereinafter simply “ Personal computer 9 ”), and by transmitting various data (upstream signals) from the personal computer 9 to the head end 1, it is possible to make reservations for viewing paid programs, TV shopping, and the like. It is configured.
[0022]
The bidirectional amplifier 5 includes a downstream signal amplifier 5a for amplifying a downstream signal transmitted from the head end 1 to the terminal terminal 7 and a characteristic part of the bidirectional CATV system of the present embodiment. And an upstream signal amplifier 5b for amplifying the upstream signal transmitted to 1. Note that the amplifiers such as the main branching amplifier 2 and the branching amplifier 3 constituting the bidirectional CATV system of the present embodiment also include an upstream signal amplifier similar to the bidirectional amplifier 5, but in the following, the bidirectional amplifier 5 is referred to as the bidirectional amplifier 5. Only the upstream signal amplifier 5b provided will be described, and the description of the upstream signal amplifier provided in the main branching amplifier 2 and the branching amplifier 3 will be omitted.
[0023]
As shown in FIG. 2A, the upstream signal amplifier 5b includes an input terminal T1 for connection to the terminal terminal 7 side, an output terminal T2 for connection to the head end 1 side, and an output terminal from the input terminal T1 to the output terminal. Amplifying circuits 11 and 13 that are provided in an in-device transmission path to T2 and amplify a signal input from the input terminal T1 side and output the amplified signal to the output terminal T2 side, and power for connecting the power source and the amplifying circuits 11 and 13 Power supply cutoff circuits 15 and 17 that are provided on the supply line and switch between supply and cutoff of operating power to the amplifier circuits 11 and 13, a control circuit 19 that issues a command to each part in the upstream signal amplifier 5b, and a control circuit 19 In response to a command from the control circuit 19, an intermittent circuit 21 for cutting off the transmission path in the apparatus based on a command from the control circuit 19, a resistor 23 having the same impedance as the impedance of the CATV transmission line connected to the input terminal T1, Therefore, based on the command from the control circuit 19, the input side ground switching circuit 25 that grounds the input terminal T1 via the resistor 23, the resistor 27 having the same impedance as the impedance of the CATV transmission line connected to the output terminal T2, and the control circuit 19. And an output-side ground switching circuit 29 that grounds the output terminal T2 via a resistor 27.
[0024]
The control circuit 19 is for switching permission / prohibition of transmission of the upstream signal in response to a command from the head end 1. When prohibiting transmission of the upstream signal, the control circuit 19 transmits a transmission path to the intermittent circuit 21. A cut command is issued, a power supply cut-off command is issued to the power supply cut-off circuits 15 and 17, an input terminal ground command is issued to the input-side ground switching circuit 25, and an output terminal ground is provided to the output-side ground switch circuit 29. It is configured to issue a command.
[0025]
When the transmission path disconnection command is not issued from the control circuit 19, the interrupt circuit 21 maintains the connection state. Similarly, when the power supply cut-off command is not issued from the control circuit 19, the power supply cut-off circuits 15 and 17 hold a state in which operating power is supplied from the power supply circuit to the amplifier circuits 11 and 13. Similarly, when the input terminal grounding command and the output terminal grounding command are not issued from the control circuit 19, the input-side ground switching circuit 25 holds the input terminal T1 and the resistor 23 in a non-conductive state, and outputs The side ground switching circuit 29 holds the output terminal T2 and the resistor 27 in a non-conductive state.
[0026]
On the other hand, when a transmission path disconnection command, a power supply cutoff command, an input terminal grounding command, and an output terminal grounding command are issued from the control circuit 19, the intermittent circuit 21 disconnects the in-device transmission path, and the power supply cutoff circuits 15 and 17 The supply of operating power to the amplifier circuits 11 and 13 is cut off, the input side ground switching circuit 25 grounds the input terminal T1 through the resistor 23, and the output side ground switching circuit 29 connects the output terminal T2 through the resistor 27. Ground.
[0027]
For example, when the power plug of the upstream signal amplifier 5b is disconnected from the outlet and the power supply to the entire upstream signal amplifier 5b is stopped, the intermittent circuit 21 is disconnected and the power supply cutoff circuits 15 and 17 are amplified. The supply of operating power to the circuits 11 and 13 is cut off, the input side ground switching circuit 25 grounds the input terminal T1 via the resistor 23, and the output side ground switching circuit 29 grounds the output terminal T2 via the resistor 27. In other words, the control circuit 19 is configured to be in the same state as when a transmission path disconnection command, a power supply cutoff command, an input terminal ground command, and an output terminal ground command are issued.
[0028]
Next, a specific circuit configuration of the input side ground switching circuit 25 will be described.
As shown in FIG. 2B, the input-side ground switching circuit 25 is connected to the terminal T3 for connecting to the control circuit 19, the terminal T4 for connecting to the input terminal T1, and the amplifier circuit 11. A terminal T5, a terminal T6 for connecting to the resistor 23, an upstream signal blocking choke coil 31, upstream signal passing capacitors 33 and 35, and a diode 37 are provided. For this reason, if the potential of the terminal T3 is 0, the diode 37 is in the OFF state, so that the upstream signal input from the terminal T4 is output from the terminal T5 via the upstream signal passing capacitors 33 and 35. When the circuit 19 sets the potential of the terminal T3 to the HIGH level, the diode 37 is turned on, so that the terminal T4 is grounded via the upstream signal passing capacitor 33, the diode 37, the terminal T6, and the resistor 23. . That is, the input terminal T1 is grounded via the resistor 23 for a signal having a high frequency. When the control circuit 19 sets the potential of the terminal T3 to the HIGH level, an input terminal grounding command to the input side ground switching circuit 25 is obtained.
[0029]
Since the output side ground switching circuit 29 has the same configuration as the input side ground switching circuit 25, the description of the output side ground switching circuit 29 is omitted.
In this embodiment, the bidirectional amplifier 5 (upstream signal amplifier 5b) corresponds to the above-described transmission signal amplifier, the control circuit 19 corresponds to the above-mentioned signal transmission prohibition command circuit, and the resistor 23 corresponds to the above-mentioned input side termination. The resistor 27 corresponds to the above-mentioned output side termination circuit.
[0030]
Next, the effect of the bidirectional CATV system (upstream signal amplifier 5b) of this embodiment will be described.
According to the upstream signal amplifier 5b of the present embodiment, when the upstream signal transmission is prohibited, the control circuit 19 issues a transmission path disconnection command to the intermittent circuit 21 to transmit the transmission path in the apparatus from the input terminal T1 to the output terminal T2. In addition, the power supply cutoff circuit 15 and 17 is given a power supply cutoff command to cut off the supply of operating power to the amplifier circuits 11 and 13, so that there is noise that jumps over the location cut by the intermittent circuit 21. However, the signal is greatly attenuated by the amplifier circuits 11 and 13 and output from the output terminal. Therefore, noise is hardly output from the output terminal T2, and even if it is output, the output noise is greatly attenuated, so that the output terminal T2 is connected via the CATV transmission line. There is almost no adverse effect on the operation of the head end 1 or the like connected earlier.
[0031]
In addition, when the transmission of the upstream signal is prohibited, the control circuit 19 issues an input terminal ground command and an output terminal ground command to the input side ground switching circuit 25 and the output side ground switching circuit 29, respectively, to the input terminal T1. The input terminal T1 is grounded via a resistor 23 having the same impedance as that of the connected CATV transmission line, and the output terminal T2 is connected via a resistor 27 having the same impedance as that of the CATV transmission line connected to the output terminal T2. Since they are grounded, impedances before and after the input terminal T1 and the output terminal T2 are matched. Therefore, when an input terminal ground command and an output terminal ground command are issued from the control circuit 19, even if a signal or noise is input from the input terminal T1 or the output terminal T2, the signal or noise is reflected. Since it is guided to the ground without being connected, it is connected to the personal computer 9 connected to the terminal terminal side of the bidirectional amplifier 5 (upstream signal amplifier 5b) or the head end side of the bidirectional amplifier 5 (upstream signal amplifier 5b). The center device and the like can be operated satisfactorily.
[0032]
As mentioned above, although one Example of this invention was described, this invention is not limited to the Example mentioned above at all, Of course, you may implement in a various aspect.
For example, in the embodiment, resistors are used as the input-side termination circuit and the output-side termination circuit, and the connection between the input terminal T1 and the output terminal T2 and the resistor is switched by ON / OFF of the diode. Other circuit elements may be employed as long as they can be controlled by the control circuit 19. Specifically, it may be configured to be grounded via a PIN diode instead of being grounded via a diode and a resistor, and the input side ground switching circuit 25 and the output side ground switching circuit 29 are configured by relays. May be.
[0033]
In the embodiment, the control circuit 19 receives an instruction from the head end 1 and switches permission / prohibition of transmission of the upstream signal (intermittent circuit 21, power supply cutoff circuits 15, 17 and input side ground switching circuit 25). The control circuit 19 is provided with an input means such as a push button, and according to the operation mode of the input means by the CATV system administrator or the like. It may be configured to switch permission / prohibition of uplink signal transmission.
[0034]
In the embodiment, various data transmitted from the personal computer 9 to the head end 1 are given as an example of the upstream signal. However, in addition to this, the video data from the TV camera being photographed is used as the upstream signal as a terminal. The data is transmitted from the terminal 7 to the head end 1, and the head end 1 receiving the data processes the data (converting the downlink signal into a frequency, etc.) and transmits the data to the terminal terminal 7 (the television receiver 8 connected to the terminal 7). It is also possible to have a configuration of In the case of such a configuration, the video shot by the TV camera can be broadcast live to the CATV system subscriber.
[Brief description of the drawings]
FIG. 1 is a block diagram for explaining a configuration of a bidirectional CATV system according to an embodiment.
FIG. 2A is a block diagram for explaining a circuit configuration of an upstream signal amplifier, and FIG. 2B is a block diagram for explaining a circuit configuration of an input side ground switching circuit.
FIG. 3 is a block diagram for explaining a circuit configuration of a conventional upstream signal amplifier.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 ... Head end 2 ... Trunk branch amplifier 3 ... Branch amplifier 4 ... Tap-off 5 ... Bidirectional amplifier 5a ... Downstream signal amplifier 5b ... Upstream signal amplifier 6 ... Distributor 7 ... Terminal terminal 8 ... Television receiver 9 ... Personal with built-in cable modem Computer 10 ... Conventional upstream signal amplifier 11, 13 ... Amplifier circuit 15, 17 ... Power supply cutoff circuit 19 ... Control circuit 21 ... Intermittent circuit 23, 27 ... Resistor 25 ... Input side ground switching circuit 29 ... Output side ground switching circuit 31 ... Upward signal blocking choke coils 33 and 35. Upstream signal passing capacitor 37. Diode 81... Amplifying circuit 83... Switching circuit 85. , P6 ... contact T1 ... input terminal T2 ... output terminals T3, T4, T5, T6 ... terminals.

Claims (2)

In a bidirectional CATV system configured to be able to transmit an upstream signal from a terminal terminal side to a center apparatus via a CATV transmission line, the bidirectional CATV system is provided on the CATV transmission line and is transmitted from at least the terminal terminal side to the center apparatus. A transmission signal amplifier for amplifying the upstream signal,
An input terminal and an output terminal for connecting the CATV transmission line;
An amplification circuit that is provided in an in-device transmission path from the input terminal to the output terminal, amplifies a signal input from the input terminal side, and outputs the amplified signal to the output terminal side;
An intermittent circuit that disconnects the in-device transmission path based on an external command;
A signal transmission prohibition command circuit for issuing a transmission path disconnection command for disconnecting the in-device transmission path to the intermittent circuit;
A power supply cutoff circuit that cuts off the supply of operating power to the amplifier circuit based on an external command;
An input-side termination circuit configured to have the same impedance as that of the transmission line connected to the input terminal;
An input side ground switching circuit for grounding the input terminal via the input side termination circuit based on an external command;
An output-side termination circuit configured to have the same impedance as that of the transmission line connected to the output terminal;
An output side ground switching circuit for grounding the output terminal via the output side termination circuit based on an external command;
With
The signal transmission prohibition command circuit is
When issuing a transmission path disconnection command to the intermittent circuit, a power supply cutoff command is issued to the power supply cutoff circuit to cut off the supply of operating power to the amplifier circuit, and the input side An input terminal ground command for grounding the input terminal via the input-side termination circuit is issued to the ground switching circuit, and the output-side ground switching circuit is configured via the output-side termination circuit. A transmission signal amplifier characterized by issuing an output terminal grounding command for grounding an output terminal. A bidirectional CATV system configured to be able to transmit an upstream signal from a terminal terminal side to a center device via a CATV transmission line,
A bidirectional CATV system, wherein the transmission signal amplifier according to claim 1 is provided on the CATV transmission line, and an upstream signal transmitted from the terminal terminal side to the center device is amplified by the transmission signal amplifier.

Images