JP4234852B2 - CATV system power signal transmission limiting device - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention is provided in a CATV system that supplies power to each subscriber premises via a drop cable that draws a signal from the tap-off to each subscriber premises by superimposing a power signal on a broadcast signal transmitted from the center device. The present invention relates to a CATV system power signal transmission restriction device that restricts transmission of a power signal when an abnormality occurs in a drop cable and cancels restriction on transmission of a power signal when the drop cable is repaired.
[0002]
[Background Art and Problems to be Solved by the Invention]
The conventional CATV system is configured to transmit a broadcast signal from the center apparatus to each subscriber premises. However, it does not simply transmit the broadcast signal, but also transmits a power signal (for example, a frequency of about 60 Hz and a voltage of about 90 V). ) Is superposed and transmitted, it is useful because it can be used as operating power for electrical equipment such as telephones installed in the subscriber premises.
[0003]
By the way, for example, when a flying object hit by a strong wind collides with the transmission line, in some cases, the transmission line is short-circuited (specifically, contact between the inner conductor and outer conductor of the coaxial cable) or opened (specifically, coaxial). If an abnormality such as a short circuit or an open circuit occurs in this way, the maintenance line repairs the transmission line. However, for safety, it is necessary to limit the transmission of the power signal (reducing the voltage or transmitting it completely) until it is repaired after a short circuit or open occurs. . In particular, a drop cable for drawing a signal from the tap-off to each subscriber's home can be touched relatively easily even by a person other than the maintenance worker. There is a possibility that. For this reason, in the unlikely event that an abnormality such as a short circuit or an open circuit occurs in a drop cable, there is a demand for a technique for quickly limiting transmission of a power signal.
[0004]
As a technology to limit power signal transmission when a short circuit occurs, for example, a fuse is built into the tap-off, and when a short circuit occurs in the drop cable and an excessive current flows, the fuse blows and restricts transmission of the power signal If it is configured in this way, after the drop cable is repaired, it is necessary to replace the blown fuse with a new one to remove the restriction on the transmission of the power signal There is a problem that work takes a long time. In addition, since no current flows in the first place when an open circuit occurs, there is a problem that the fuse does not function at all and the transmission of the power signal cannot be restricted. For this reason, a technique for quickly restricting the transmission of a power signal when either a short-circuit or an open-circuit occurs in a drop cable, and for quickly releasing the restriction of the transmission of a power signal when the drop cable is repaired Is required.
[0005]
Accordingly, the present invention provides a CATV system that supplies power to each subscriber premises via a drop cable that draws the signal from the tap-off to each subscriber premises by superimposing a power signal on the broadcast signal transmitted from the center apparatus. CATV that is provided and can quickly limit power signal transmission when an abnormality occurs in the drop cable, and can quickly release the restriction on power signal transmission when the drop cable is repaired An object of the present invention is to provide a power signal transmission limiting device for a system.
[0006]
[Means for solving the problems and effects of the invention]
In order to achieve such an object, the CATV system power signal transmission limiting device according to the present invention, as described in claim 1, superimposes the power signal on the broadcast signal transmitted from the center device. , Provided in a CATV system that supplies power to each subscriber premises via a drop cable that draws a signal from the tap-off to each subscriber premises, and transmission of a power signal to the drop cable when an abnormality occurs in the drop cable And a power signal transmission limiting device for a CATV system that releases a restriction on transmission of a power signal when the drop cable is repaired, and transmits a power signal with a normal voltage to the drop cable. The power signal is transmitted at a voltage lower than the normal voltage through the transmission path and the voltage reducing means for reducing the voltage. A switching member for selectively switching between transmission paths and a detection signal that generates a detection signal of a predetermined frequency at each subscriber premises of the drop cable and supplies the detection signal to the tap-off side of the drop cable via the drop cable A signal supply means; a signal detection means for detecting the detection signal at a tap-off end point of the drop cable; and a detection member that detects the detection signal based on a detection result by the signal detection means. Selection means for selecting a first transmission path and causing the switching member to select the second transmission path when the detection signal is not detected.
[0007]
In the CATV system power signal transmission limiting device according to the present invention, the detection signal supply means generates a detection signal of a predetermined frequency at each subscriber premises of the drop cable, and the drop cable tap-off side via the drop cable. To supply. Then, the signal detection means detects the detection signal at the end point on the tap-off side of the drop cable, and when the selection means detects the detection signal based on the detection result by the signal detection means, the first transmission path is connected to the switching member. When the detection signal is not detected, the switching member is made to select the second transmission path. And while the 1st transmission path is selected, a power signal is transmitted with a regular voltage, and when switched to the 2nd transmission path, a power signal with a voltage lower than a regular voltage is passed through a step-down means that reduces the voltage. Is transmitted.
[0008]
Therefore, if there is no abnormality in the drop cable, the detection signal is supplied to the tap-off side of the drop cable by the detection signal supply means, and the detection signal is detected by the signal detection means. The power signal is transmitted at a normal voltage. On the other hand, when a short circuit or open occurs in the drop cable due to a collision of flying objects, the detection signal is not supplied to the tap-off side of the drop cable, and the detection signal is not detected. Therefore, the selection unit drives the switching member. To select the second transmission path. Then, the power signal is transmitted with the voltage lowered by the step-down means.
[0009]
After that, when the maintenance worker repairs the drop cable in which the short circuit or the open has occurred, the detection signal is supplied to the tap-off side of the drop cable by the detection signal supply means, and the detection signal is detected by the signal detection means. Therefore, the selection means drives the switching member to select the first transmission path. Then, the power signal is transmitted at a normal voltage, that is, transmitted in the same manner as before the short circuit or the open circuit occurs in the drop cable.
[0010]
As described above, according to the CATV system of the present invention, when a short circuit or an open circuit occurs in the drop cable, it is possible to quickly limit the transmission of the power signal (transmit the voltage at a reduced voltage) and When repaired, the restriction on the transmission of the power signal can be quickly released.
[0011]
According to a second aspect of the present invention, in the CATV system according to the present invention, the detection signal supply means is configured to operate in response to a power signal transmitted via the drop cable. Even better.
In the case of such a configuration, it is not necessary to separately provide a device for supplying power to the detection signal supply means, so that the device configuration can be simplified. Further, when a short circuit or an open circuit occurs in the drop cable, not only the detection signal is not supplied to the tap-off side of the drop cable, but also the detection signal supply means itself does not operate, so that the detection signal is not generated wastefully. .
[0012]
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 CATV system power signal transmission limiting device of this embodiment will be described. FIG. 1 is a schematic configuration diagram for explaining the configuration of a power signal transmission limiting device for a CATV system. Hereinafter, description will be given with reference to FIG.
[0013]
The CATV system power signal transmission limiting device of this embodiment branches the transmission line 1 by superimposing a power signal (frequency 60 Hz, voltage 90 V) on a broadcast signal (frequency 5 MHz or higher) transmitted from a center device (not shown). Provided in a CATV system that supplies power to each subscriber premises via a drop cable 3 that draws a signal from the tap-off 2 to each subscriber premises. In addition to restricting transmission, the control unit 4 provided at the end point on the tap-off 2 side of the drop cable 3 is used to quickly cancel the restriction of transmission of the power signal when the drop cable 3 is repaired. And an oscillating portion 5 provided at the end point on the customer's home side. The power signal may be configured to be superimposed in the center device, or a branching device, a branching amplifier, a distributor, a distribution amplifier (not shown) provided in the transmission line 1 connecting the center device and the tap-off 2, You may comprise so that it may overlap in an extension amplifier etc.
[0014]
Next, specific configurations of the control unit 4 and the oscillation unit 5 will be described. FIG. 2 is an electric circuit diagram for explaining the internal configuration of the control unit 4 and the oscillation unit 5.
As shown in FIG. 2, the control unit 4 includes an input terminal Tin1 connected to the tap-off 2 and an output terminal Tout1 connected to the drop cable 3, and the input terminal Tin1 is used to pass a high-frequency signal. It is connected to the output terminal Tout1 through a bypass capacitor 11 and a parallel resonance circuit (hereinafter referred to as “PRC”) 19 having a resonance frequency of 100 kHz. 11, the PRC 19 and the output terminal Tout 1. The input terminal Tin1 is connected to a power supply circuit 13 via a choke coil 12 for preventing the passage of high-frequency signals. The power supply circuit 13 receives a power signal input via the choke coil 12 and functions as a DC 12V constant voltage source, and supplies operating power to a level determination circuit 22 and a relay drive circuit 23 described later. Further, a relay contact 24 is provided between the input terminal Tin1 and the PRC19. Specifically, the ON terminal of the relay contact 24 is directly connected to the input terminal Tin1, and the OFF terminal is connected to the input terminal Tin1 via the choke coil 12 and the step-down circuit 25. The step-down circuit 25 is for reducing the voltage of the power signal and transmitting it to the drop cable 3 when a short circuit or an open circuit occurs in the drop cable 3 and is configured by a resistor or the like.
[0015]
The oscillating unit 5 includes an input terminal Tin2 connected to the drop cable 3 and an output terminal Tout2 connected to each subscriber's house. The input terminal Tin2 is connected to the output terminal via the PRC 18 having a resonance frequency of 100 kHz. It is connected to Tout1. An oscillator 16 is provided between the input terminal Tin 2 and the PRC 18 via a series resonance circuit (hereinafter referred to as “SRC”) 17 having a resonance frequency of 100 kHz. The SRC 17 is configured by a coil connected to the input terminal Tin2 and a capacitor connected to the oscillator 16. A power supply circuit 15 is connected to a connection point between the coil and the capacitor via a resistor 14. The power supply circuit 15 receives a power signal transmitted through the resistor 14 and functions as a DC 12 V constant voltage source, and is configured to supply operating power to the oscillator 16. The oscillator 16 is for generating a detection signal (frequency 100 kHz, voltage 1 V). Note that the power supply circuit 15 is configured to function as a DC 12 V constant voltage source even when the input power signal is lowered in voltage by the step-down circuit 25.
[0016]
A level discrimination circuit 22 is connected to a connection point between the output terminal Tout1 of the control unit 4 and the PRC 19 via an SRC 20 and a rectifier circuit 21 having a resonance frequency of 100 kHz, and a detection signal generated by the oscillator 16 is detected. Is input to the rectifier circuit via the SRC 17, the input terminal Tin 2, the drop cable 3, and the output terminals Tout 1 and SRC 20. The rectifier circuit 21 is configured to rectify the detection signal input to itself and transmit the rectified signal to the level determination circuit 22. The level determination circuit 22 has a voltage level of a signal transmitted from the rectification circuit 21 of 0.5 V or higher. It is configured to determine whether or not the detection signal is transmitted by determining whether or not, and to transmit the determination result to the relay drive circuit 23. The relay drive circuit 23 is for electromagnetically driving the relay contact 24 to switch the connection state. When the voltage level is 0.5 V or more based on the determination result by the level determination circuit 22, the relay drive circuit 23 When the contact 24 is connected to the ON terminal side and the voltage level is less than 0.5 V, the relay contact 24 is connected to the OFF terminal side.
[0017]
Subsequently, the specific operation of each part of the control unit 4 and the oscillation unit 5 will be described separately when the drop cable 3 is normal, when a short circuit occurs in the drop cable 3, and when an open state occurs in the drop cable 3. To do.
First, when the drop cable 3 is normal, the power signal is supplied to the power supply circuit via the input terminal Tin1, relay contact 24, PRC19, output terminal Tout1, drop cable 3, input terminal Tin2, SRC17 coil, and resistor 14. 15 is input. Then, the power supply circuit 15 functions as a DC 12 V constant voltage source and supplies operating power to the oscillator 16. Then, a detection signal is generated by the oscillator 16, and this detection signal is input to the rectifier circuit 21 via the SRC 17, the input terminal Tin2, the drop cable 3, and the output terminals Tout1, SRC20. Since both the SRC 17 and the SRC 20 have a resonance frequency of 100 kHz and the impedance to the detection signal of 100 kHz generated by the oscillator 16 is very small, the detection signal generated by the oscillator 16 is input to the rectifier circuit 21 with almost no attenuation. Is done. For this reason, the level determination circuit 22 determines that the voltage level of the signal transmitted from the rectifier circuit 21 is 0.5 V or more, and the determination result to that effect is transmitted to the relay drive circuit 23. Then, the relay drive circuit 23 maintains the connection state of the relay contact 24 in the state connected to the ON terminal side.
[0018]
Therefore, when the drop cable 3 is normal, the power signal is transmitted through the input terminal Tin1, the relay contact 24, PRC19, the output terminal Tout1, the drop cable 3, the input terminals Tin2, PRC18, and the output terminal Tout2. It is transmitted to the customer's home. The broadcast signal is transmitted to each subscriber's home via the input terminal Tin1, bypass capacitor 11, PRC19, output terminal Tout1, drop cable 3, input terminals Tin2, PRC18, and output terminal Tout2.
[0019]
On the other hand, when a short circuit occurs in the drop cable 3, the power signal is transmitted (escapes) from the drop cable 3 to the ground via the input terminal Tin1, the relay contact 24, the PRC 19, and the output terminal Tout1. Then, since the power signal is not input to the power supply circuit 15, the power supply circuit 15 stops functioning as a constant voltage source and does not supply operating power to the oscillator 16. Then, no detection signal is generated by the oscillator 16, and no detection signal is input to the rectifier circuit 21. For this reason, the level determination circuit 22 determines that the voltage level of the signal transmitted from the rectifier circuit 21 is less than 0.5 V, and the determination result to that effect is transmitted to the relay drive circuit 23. The contact 24 is connected to the OFF terminal side.
[0020]
Therefore, when a short circuit occurs in the drop cable 3, the power signal is input to the step-down circuit 25 via the input terminal Tin1 and the choke coil 12, and the voltage is lowered in the step-down circuit 25, so that the relay contact 24 (OFF terminal), The data is transmitted to the drop cable 3 via the PRC 19 and the output terminal Tout1.
[0021]
When the drop cable 3 is opened, the power signal is transmitted to the drop cable 3 via the input terminal Tin1, the relay contact 24, the PRC 19, and the output terminal Tout1, but is transmitted only to the location where the opening occurs. . Then, since the power signal is not input to the power supply circuit 15, the power supply circuit 15 stops functioning as a constant voltage source and does not supply operating power to the oscillator 16. As a result, similarly to the case where a short circuit occurs, the relay contact 24 is connected to the OFF terminal side.
[0022]
Accordingly, when the drop cable 3 is opened, the power signal is input to the step-down circuit 25 via the input terminal Tin1 and the choke coil 12 and the voltage is lowered in the step-down circuit 25, as in the case where a short circuit occurs. The signal is transmitted to the drop cable 3 via the relay contact 24 (OFF terminal), the PRC 19 and the output terminal Tout1.
[0023]
After that, when the drop cable 3 is repaired, the power signal is input to the input terminal Tin1, choke coil 12, step-down circuit 25, relay contact 24 (OFF terminal), PRC19, output terminal Tout1, drop cable 3, input terminal Tin2, and so on. The power is input to the power supply circuit 15 via the coil of the SRC 17 and the resistor 14. Then, the power supply circuit 15 again functions as a constant voltage source, and a detection signal is generated by the oscillator 16 and is sent to the rectifier circuit 21 via the SRC 17, the input terminal Tin2, the drop cable 3, and the output terminals Tout1, SRC20. It will be input. Then, the level determination circuit 22 determines that the voltage level is 0.5 V or higher, and the relay drive circuit 23 connects the relay contact 24 to the ON terminal side. For this reason, the power signal is input to the input terminal Tin1, the relay contact 24, PRC19, the output terminal Tout1, the drop cable 3, the input terminals Tin2, PRC18, and the output terminal Tout2, in the same manner as before the short circuit or the open circuit occurs in the drop cable 3. Then, it is transmitted to each subscriber's home.
[0024]
In this embodiment, the relay contact 24 corresponds to the switching member, the step-down circuit 25 corresponds to the step-down means, the power supply circuit 15 and the oscillator 16 correspond to the detection signal supply means, and the rectifier circuit. 21 and level discriminating circuit 22 correspond to the aforementioned signal detecting means, and relay drive circuit 23 corresponds to the aforementioned selecting means.
[0025]
Then, the effect of the power signal transmission limiting device for CATV system of the present embodiment will be described.
According to the CATV system power signal transmission limiting device of this embodiment, when a short circuit or an open circuit occurs in the drop cable 3, the relay contact 24 that has been connected to the ON terminal side is automatically connected to the OFF terminal side. Since the power signal is transmitted through the step-down circuit 25, the transmission of the power signal can be quickly restricted.
[0026]
When the drop cable 3 is repaired, the relay contact 24 that has been connected to the OFF terminal side until then is automatically connected to the ON terminal side, and the same as before the short-circuit or the open-circuit occurs in the drop cable 3. Since the power signal is transmitted without going through the step-down circuit 25, the restriction on the transmission of the power signal can be quickly released.
[0027]
The oscillator 16 is configured to be supplied with operating power from the power supply circuit 15 that has received the power signal transmitted via the drop cable 3, so that a device for supplying power to the oscillator 16 is provided. Since it is not necessary to provide it separately, the apparatus configuration can be simplified. Further, if a short circuit or an open circuit occurs in the drop cable 3 and the power signal is not transmitted to the power supply circuit 15, the operating power is not supplied to the oscillator 16, and the oscillator 16 does not generate a detection signal, so that the detection signal is wasted. It is never generated.
[0028]
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, the control unit 4 may be provided outside the tap-off 2 as shown in FIG. 1A, or may be built in the tap-off 2 as shown in FIG.
[Brief description of the drawings]
1A and 1B are a schematic configuration diagram (a) and a schematic configuration diagram (b) of a modification for explaining the configuration of a power signal transmission limiting device for a CATV system according to an embodiment.
FIG. 2 is an electric circuit diagram for explaining an internal configuration of a control unit and an oscillation unit.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 ... Transmission line 2 ... Tap-off 3 ... Drop cable 4 ... Control part 5 ... Oscillator 11 ... Bypass capacitor 12 ... Choke coil 13, 15 ... Power supply circuit 14 ... Resistance 16 ... Oscillator 17, 20 ... SRC (series resonance circuit) 18 , 19... PRC (Parallel Resonance Circuit) 21... Rectifier Circuit 22... Level Discriminating Circuit 23... Relay Drive Circuit 24. Relay Contact 25 25 Step-Down Circuits Tin1, Tin2 ... Input Terminals Tout1, Tout2.

Claims (2)

The drop cable is provided in a CATV system that supplies power to each subscriber premises via a drop cable that draws the signal from the tap-off into each subscriber premises by superimposing a power signal on the broadcast signal transmitted from the center device. A power signal transmission limiting device for a CATV system that restricts transmission of a power signal to the drop cable when an abnormality occurs in the network and releases a restriction on transmission of the power signal when the drop cable is repaired. ,
A first transmission path that transmits a power signal to the drop cable at a normal voltage and a second transmission path that transmits a power signal at a voltage lower than the normal voltage via a voltage lowering unit that reduces the voltage are selectively used. A switching member for switching to,
Detection signal supply means for generating a detection signal of a predetermined frequency at each subscriber premises of the drop cable and supplying the detection signal to the tap-off side of the drop cable via the drop cable;
Signal detection means for detecting the detection signal at a tap-off end point of the drop cable;
Based on the detection result by the signal detection means, when the detection signal is detected, the switching member is made to select the first transmission path, and when the detection signal is not detected, the switching member is Selecting means for selecting a second transmission path;
A power signal transmission limiting device for a CATV system, comprising: 2. The CATV system power signal transmission limiting device according to claim 1, wherein the detection signal supply means operates by receiving a power signal transmitted through the drop cable.

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