JP4398190B2 - Power supply for CATV system - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a power supply circuit of a device having a built-in battery voltage state monitoring function, a power supply device including the power supply circuit, and a CATV system including the power supply device.
[0002]
[Prior art]
As shown in FIG. 3, the CATV (cable television) system includes a CATV center 1 and a CATV transmission path 2, and the CATV transmission path 2 mainly includes a cable 3, a repeater 4, and a repeater 4. It is comprised from the power supply device 5 which supplies electric power. For example, in the CATV system disclosed in Patent Document 1, when a commercial power supply that supplies power to the power supply 5 fails, a battery, a charging circuit, or the like as a backup power supply built in the power supply 5 may fail. In order to prevent program supply from being stopped, the power supply 5 has a function of monitoring the voltage state of the battery and transmitting the monitored result to the CATV center 1 as a battery voltage detection signal as necessary.
[0003]
The CATV center 1 includes a head end 11 that outputs a television signal, a computer 12 that outputs information data, a modem 13 that converts information data from the computer 12 into an analog signal, and an analog signal from the modem 13. An adder 14 for mixing the television signal from the head end 11 is provided.
[0004]
The computer 12 stores battery voltage control data for monitoring the power supply 5 and outputs the battery voltage control data as necessary. The modem 13 converts battery voltage control data from the computer 12 into an analog signal. The adder 14 mixes the analog signal from the modem 13 and the television signal from the head end 11 and guides it to the output terminal 15 of the CATV center 1.
[0005]
A signal from the output terminal 15 is supplied to a plurality of terminal devices (not shown) via the CATV transmission line 2.
[0006]
The modem 13 is also supplied with a battery voltage detection signal from the power supply 5. Thus, the modem 13 converts the battery voltage detection signal into measurement data and supplies it to the computer 12. The computer 12 grasps the state of the battery from the measurement data.
[0007]
FIG. 4 is a connection circuit diagram of a conventional power supply circuit provided in the power supply. As shown in the figure, the power supply 5 shown in FIG. 3 uses a battery 51, a battery voltage detection circuit 52 for constantly monitoring the voltage state of the battery 51 , and the battery 51 as a power supply for use as a power supply voltage for the control circuit. A control voltage generation circuit 53 for obtaining a desired DC voltage is provided.
[0008]
A battery voltage detection circuit 52 is connected to the battery 51. The battery voltage detection circuit 52 includes an insulation amplifier 52a and a voltage correction circuit 52b, and is an insulation amplifier for detecting a battery voltage by being insulated from the output of the battery 51. 52a is connected to the isolation amplifier 52a, and a voltage correction circuit 52b for connecting the battery voltage to the CATV center 1 to an appropriate level as a battery voltage detection signal is connected to the insulation amplifier 52a.
[0009]
Also in the battery 51, its output is converted to a desired DC voltage and the control voltage generation circuit 53 for the constant voltage is connected. In the control voltage generating circuit 53, a primary winding 53a of a transformer and a switching element 53c, for example, a transistor are formed in a series circuit, and this series circuit is connected in series with the battery 51, and the secondary winding of the transformer A rectifier circuit 53d made of one diode is connected to 53b, a capacitor 53e for smoothing the output is connected to the rectifier circuit 53d, and a drive for switching the switching element 53c by feeding back the output of the rectifier circuit 53d. A circuit 53f is provided. The target of power supply from the control voltage generation circuit is the control circuit and other electronic circuits in the power supply 5.
[0010]
[Patent Document 1]
Japanese Unexamined Patent Publication No. 5-292500 (second page, FIG. 1)
[0011]
[Problems to be solved by the invention]
Since the circuit of the insulation amplifier 52a is complicated, the design is complicated, and there is a problem that the cost is unavoidable if manufactured. Further, since the device-insulated insulation amplifier 52a has many connection terminals, there is a problem that wiring work becomes complicated and the cost is high. Furthermore, since it is necessary to provide a voltage correction circuit 52b for setting the output of the insulation amplifier 52a to an appropriate level as a battery voltage detection signal at the center, there is a problem that the cost is further increased as a whole.
[0012]
An object of the present invention is to provide a power supply for a CATV system that includes a power supply circuit having a function of monitoring a voltage state of a battery, which is simplified and can be easily manufactured .
[0013]
[Means for Solving the Problems]
The present invention relates to an output terminal connected to a cable of a CATV system including a CATV center, and a CATV transmission line having a cable and a repeater and transmitting a signal transmitted from the CATV center to a plurality of terminal devices. A battery, an inverter circuit that converts the output voltage of the battery into an AC voltage, a changeover switch that switches between a state of outputting the output of the commercial power supply from the output terminal and a state of outputting the output of the inverter circuit from the output terminal; A control circuit having a battery voltage detection circuit for detecting a voltage of the battery, a function for controlling the changeover switch, and a function for transmitting a detection signal obtained from the battery voltage detection circuit to the CATV center as a result of monitoring the battery voltage state; A control voltage generator that generates a constant DC voltage using the battery as the power supply voltage for the control circuit. Power supply for a CATV system in which the changeover switch is controlled so that the output of the commercial power supply is supplied to the output terminal in a steady state and the output of the inverter circuit is supplied to the output terminal in an emergency when the commercial power supply is interrupted It is related to the vessel.
[0014]
In the present invention, a DC-DC converter circuit including a transformer having a primary winding and first and second secondary windings is provided, and the primary winding and the battery are connected, The battery voltage detection circuit is configured to rectify the output of the first secondary winding of the DC-DC converter circuit to obtain a battery voltage detection signal. The control voltage generation circuit is configured to rectify the output of the second secondary winding of the DC-DC converter circuit and generate a DC voltage used as a power supply voltage for the control circuit.
[0015]
In the invention described in claim 2, the switching element is connected in series to the primary winding of the DC-DC converter circuit, and the battery is connected to both ends of the series circuit of the primary winding and the switching element.
[0016]
In the present invention, one DC-DC converter circuit provided with a transformer is shared by the battery voltage detection circuit and the control voltage generation circuit, and the battery voltage detection circuit detects the battery voltage of the battery. In the generation circuit, the output of the battery is converted into a desired DC voltage as a control power source. According to the present invention, the main circuit including the primary winding of the transformer is simplified.
[0017]
DETAILED DESCRIPTION OF THE INVENTION
FIG. 1 is a schematic configuration diagram showing an embodiment of a CATV system including a power supply device according to the present invention. As shown in the drawing, the input terminal 61 of the power supply 6 is an input terminal of the commercial power supply 7, and the input terminal 61 is connected to the first input terminal 62 a of the changeover switch 62 and is connected to the input side of the rectifier circuit 63. It is connected.
[0018]
The rectifier circuit 63 supplies a DC voltage obtained by rectifying the AC voltage from the commercial power supply 7 to the charging circuit 64. The charging circuit 64 charges the battery 65 by applying the DC voltage from the rectifying circuit 63. An inverter circuit 66 is connected to the battery 65, and the battery 65 supplies a DC voltage to the inverter circuit 66. The inverter circuit 66 guides the AC voltage obtained by converting the DC voltage to the second input terminal 62 b of the changeover switch 62.
[0019]
A battery voltage detection circuit 67 is also connected to the battery 65 to detect the battery voltage of the battery 65, and a control voltage generation circuit 68 is connected to the battery 65, using the output of the battery 65 as a control power source. Converted to DC voltage. The target of power supply from the control voltage generation circuit 68 is the control circuit 69 in the power supply 6 and other electronic circuits.
[0020]
The changeover switch 62 is controlled by a changeover control signal from the control circuit 69, and an AC voltage from the commercial power supply 7 or an AC voltage from the inverter circuit 66 is output from the common terminal 62c. The battery voltage detection circuit 67 supplies the detected battery voltage to the A / D conversion circuit 70. A common terminal 62 c of the changeover switch 62 is connected to the output terminal 71 of the power supply 6. The output terminal 71 is connected to the cable 3.
[0021]
The modem 72 is connected to the output terminal 71 and communicates with the CATV center 1. That is, the modem 72 supplies the power supply monitoring control data from the CATV center 1 to the control circuit 69, converts the battery voltage data from the control circuit 69 into an analog signal, and supplies the analog signal to the CATV center 1.
[0022]
The control circuit 69 also converts the digital signal from the A / D conversion circuit 70 into battery voltage data based on the power supply monitoring control data from the modem 72 and supplies the battery voltage data to the modem 72.
[0023]
FIG. 2 is a schematic configuration diagram showing an embodiment of a power supply circuit according to the present invention. As illustrated, the power supply circuit includes a battery 65, a battery voltage detection circuit 67, and a control voltage generation circuit 68.
[0024]
The battery voltage detection circuit 67 includes, for example, one DC-DC converter circuit including a transformer having a primary winding having a common iron core and first and second secondary windings. The battery voltage of the battery is detected using the first secondary winding of the converter circuit. The primary winding 67a is formed in, for example, one switching element 67b, for example, a transistor and a series circuit, and this series circuit is connected in series with the battery 65. Further, for example, one primary winding 67a is connected to the first secondary winding 67c. A first rectifier circuit 67d made of a diode is connected, and a capacitor 67e for smoothing the output is connected to the rectifier circuit.
[0025]
Control voltage generating circuit 68 is to convert the output of the battery to a desired DC voltage using a second secondary winding of the DC-DC converter circuit as described above. For example, a second rectifier circuit 68b made of, for example, one diode is connected to the second secondary winding 68a, and a capacitor 68c for smoothing the output is connected to the rectifier circuit. A voltage stabilizing circuit 68d for stabilizing the output of the rectifier circuit 68c is connected. When the voltage stabilizing circuit 68d is connected to the output of the second rectifier circuit 68b, the output of the control voltage generating circuit 68 becomes a desired DC constant voltage as a control power source.
[0026]
The switching element 67b is provided with a driving circuit 67f for switching the switching element, and the battery voltage of the battery 65 is transmitted to the CATV center 1 by controlling the pulse width output from the driving circuit 67f. The voltage detection signal is at an appropriate level and is output from the battery voltage detection circuit 67, converted into a desired DC voltage, and output from the control voltage generation circuit 68.
[0027]
As described above, when the pulse voltage is variably controlled in order to set the battery voltage of the battery 65 to an appropriate level as a battery voltage detection signal transmitted to the CATV center 1 and to convert it to a desired DC voltage, the primary winding The ratio between the line 67a and the first secondary winding 67b and the ratio between the primary winding 67a and the second secondary winding 68a may be appropriately fixed. When the pulse width is controlled to be constant, the ratio between the primary winding 67a and the first secondary winding 67b and the ratio between the primary winding 67a and the second secondary winding 68a are appropriately selected. That's fine.
[0028]
Although the example in which the DC-DC converter circuit is configured by one switching element has been shown, another configuration may be used, and the transistor may be configured by another switching element.
[0029]
The power supply circuit is shown as an example applied to a power supply of a CATV system, and the power supply is shown as an example applied to a CATV system. You may apply to the system which has a function, for example, the unmanned vehicle driving system carrying a battery, the shared use system of an electric vehicle, etc.
[0030]
Although the transmission is a wired system, it may be a wireless system .
[0031]
【The invention's effect】
According to the present invention, a single DC-DC converter circuit including a transformer is shared by the battery voltage detection circuit and the control voltage generation circuit, and the battery voltage detection circuit detects the battery voltage of the battery, and the control In the voltage generation circuit, the output of the battery is converted into a desired DC voltage used as the power supply voltage of the control circuit . According to the present invention, since the main circuit including the primary winding of the transformer is simplified, the battery voltage detection circuit is simplified and can be easily manufactured, or the battery voltage detection circuit and The main circuit of the control voltage generation circuit can be simplified to the maximum, and the driving circuit of the switching element can be simplified.
[Brief description of the drawings]
FIG. 1 is a schematic configuration diagram illustrating an embodiment of a CATV system including a power supply device according to the present invention.
FIG. 2 is a schematic configuration diagram showing an embodiment of a power supply circuit according to the present invention.
FIG. 3 is a schematic configuration diagram showing CATV (cable television).
FIG. 4 is a connection circuit diagram of a conventional power supply circuit provided in a power supply device.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 CATV center 2 CATV transmission path 4 Repeater 6 Power supply 65 Battery 67 Battery voltage detection circuit 68 Control voltage generation circuit 67a Primary winding 67c 1st secondary winding 68a 2nd secondary winding

Claims (2)

An output terminal connected to the cable of the CATV system, comprising a CATV center, and a CATV transmission line having a cable and a repeater and transmitting a signal transmitted from the CATV center to a plurality of terminal devices; An inverter circuit that converts the output voltage of the battery into an AC voltage, a changeover switch that switches between a state of outputting the output of a commercial power supply from the output terminal and a state of outputting the output of the inverter circuit from the output terminal; A battery voltage detection circuit for detecting the voltage of the battery, a function of controlling the changeover switch, and a function of transmitting a detection signal obtained from the battery voltage detection circuit to the CATV center as a monitoring result of the voltage state of the battery. A control circuit having the battery as a power source and the power supply voltage of the control circuit And a control voltage generation circuit for generating a constant DC voltage, supplying the output of the commercial power supply to the output terminal in a steady state, and outputting the output of the inverter circuit to the output terminal in an emergency when the commercial power supply is out of power. In a CATV system power supply in which the changeover switch is controlled to supply,
A DC-DC converter circuit comprising a transformer having a primary winding and first and second secondary windings is provided, the primary winding and the battery are connected;
The battery voltage detection circuit is configured to rectify an output of the first secondary winding of the DC-DC converter circuit to obtain a detection signal of the battery voltage;
The control voltage generation circuit is configured to rectify an output of the second secondary winding of the DC-DC converter circuit to generate a DC voltage used as a power supply voltage of the control circuit;
A power supply for a CATV system. 2. The CATV system according to claim 1, wherein a switching element is connected in series to a primary winding of the DC-DC converter circuit, and the battery is connected to both ends of a series circuit of the primary winding and the switching element. Power supply.

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