JP2004214939A - Amplifier for tv reception - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an amplifier for TV reception for optimally amplifying a received signal from a television antenna in a weak electric field area. <P>SOLUTION: The amplifier for TV reception is provided with: a first amplifier unit 30 incorporating a first amplifier 33 to a feeder part 60 of the television antenna; a second amplifier unit 40 provided with power separation filters 41, 44 for passing the current between the output and the input of the unit 40 and a second amplifier 43; a transmission line 62 interconnecting the output of the first amplifier unit 30 to the input of the second amplifier unit 40; a transmission line 63 interconnecting the output of the second amplifier unit 40 to the input of a power supply apparatus 50; and the power supply apparatus 50 for supplying power via the transmission lines 62, 63, the second amplifier unit 40 installed in a distance to directly reach by hand. <P>COPYRIGHT: (C)2004,JPO&NCIPI

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a TV reception amplifying device for amplifying a signal received by a television antenna, and more particularly to a TV reception amplifying device effective for use in a weak electric field region.
[0002]
[Prior art]
Conventionally, as shown in FIG. 6, when an attempt is made to receive, for example, a VHF radio wave particularly in a weak electric field area, the antenna mast 101 is set as high as possible (for example, 10 to 20 m) in consideration of the height pattern of the radio wave, and the television antenna is set. 20 is installed as high as possible, and a first amplifying device 1 which is a component of a high-gain, low-noise TV receiving amplifying device is installed on the antenna mast 101 for reception. According to such an amplifying device for TV reception, the first amplifying device 1 is housed in a case (for example, a resin case made of ABS or the like) having improved waterproofness, installed on the antenna mast 101, and An amplifier having a configuration in which a power supply device is incorporated in the amplification device 10 or the second amplification device 10 is configured to be installed on a television receiver 23 in a house or the like, and the television antenna 20 and the first The connection with the amplification device and the connection between the first amplification device 1 and the second amplification device 10 or the power supply device or the like are connected and arranged via transmission lines 21 and 22, respectively.
In the example of FIG. 5, the signal received by the television antenna is input to the first amplifier 1 via the coaxial cable 21. The input signal is output after the first amplifier 3 or the attenuator 4 is selected by the relays 2-1 and 2-2 as switching means, and after passing through the power supply separation filter 5. This selection is made by turning on and off a switch 14 provided in the second amplifying device 10, from the power supply 15 through the power supply separating filter 11 of the second amplifying device 10, the coaxial cable 22, and the power separating filter 5 of the first amplifying device 1. The power is turned on and off to the relays 2-1 and 2-2, and the relays 2-1 and 2-2 are switched by the power.
Further, an optimal power is supplied from the power supply 15 provided in the second amplifier 10 to the first amplifier 3 and the second amplifier 13 provided in the second amplifier 10. The received signal amplified by the first amplifying device 1 is input to the second amplifying device 10 via the coaxial cable 22. After passing through the power supply separation filter 11, the input signal is appropriately adjusted in gain by the variable attenuator 12, amplified by the second amplifier 13, output, and supplied to the television receiver 23. 24 is an AC plug.
(For example, see Patent Document 1)
[0003]
[Patent Document 1]
JP-A-6-326534
[Problems to be solved by the invention]
However, according to the conventional TV receiver amplifying device, the transmission line loss between the television antenna and the amplifier or the relay provided on the input side of the first amplifier as in the above-described example. The first amplifying device including the amplifier is installed at a position distant from the television antenna, especially in a weak electric field area, even though an object causing high-frequency loss is interposed.
This is a problem that if it is installed too close to the TV antenna, it will affect the characteristics of the TV antenna, and the amplifier of the TV receiver amplifying device, especially in the weak electric field area, is configured to have a high gain. Therefore, if care is not taken in arranging the transmission line between the television antenna and the first amplifier, the first amplifier may oscillate.
Further, especially in a weak electric field area, it is necessary to install the television antenna at a position as high as possible and to lengthen the antenna mast (for example, 10 to 20 m) in order to secure a higher reception level. However, in order to reduce the deterioration of the reception C / N, it is necessary to arrange the transmission line between the television antenna and the first amplifying device as short as possible so as to reduce the transmission loss due to the transmission line. This causes the amplifier to be installed above the antenna mast, and is not installed in a place that can be directly reached by humans. For this reason, when a new receiving system is installed, a TV receiving amplifier for receiving a radio wave transmitted from a distant place is installed on an existing television antenna, or maintenance of the TV receiving amplifier is performed. This is a very dangerous operation because it is necessary to work on high places, such as climbing the antenna mast or putting a ladder to reach the upper part of the mast. However, there is a problem that the transmission line deteriorates due to transmission loss of the transmission line.
Therefore, the present invention has been made to solve such a problem.
The purpose is to provide an amplifying device for TV reception.
An object of the present invention is to provide an amplifying device for TV reception particularly suitable for a weak electric field region.
Another object is to provide an amplifying device for TV reception suitable for a television antenna installed at a high place in a weak electric field area.
Another object of the present invention is to provide an amplifying device for TV reception including a first amplifying device, a second amplifying device, and a power supply device.
It is another object of the present invention to provide a TV receiver amplifying device in which the second amplifying device and the power supply device are installed in a range that can be directly reached by human hands.
[0005]
[Means for Solving the Problems]
In order to solve the above problem, the invention of claim 1 is directed to an amplifying device for TV reception for amplifying a signal received by a television antenna,
A first amplifying device including a first amplifier built in a feeder of the television antenna,
A second amplifying device including a power supply separation filter configured to pass a current between the output terminal and the input terminal and a second amplifier;
Power supply device,
The first amplifying device is provided at an upper portion of the support, and the second amplifying device is provided at a lower portion of the support;
The power supply is provided between the output terminal of the first amplifying device and the input terminal of the second amplifying device and the transmission line connecting the output terminal of the second amplifying device and the input terminal of the power supply device. The power is supplied from the device to the first amplifier device and the second amplifier device, and the second amplifier device is configured to be disposed at least at a position where the device can be directly touched.
[0006]
According to a second aspect of the present invention, the second amplifying device is configured to be disposed at least at a position where it is directly touched by a hand.
[0007]
According to a third aspect of the present invention, a power supply device having the second amplifier built therein is formed in the power supply device, and an output terminal of the first amplification device is connected to an input terminal of the power supply device. Power is supplied from the power supply device to the first amplifier via a transmission line, and the power supply device is arranged at least at a position where the power supply device can be directly touched.
[0008]
According to a fourth aspect of the present invention, the power supply device is arranged at least at a position where the power supply device is directly touched by a hand.
[0009]
According to a fifth aspect of the present invention, the first amplifying device and the second amplifying device each include at least an amplifier for amplifying a VHF band of a television signal.
[0010]
[Embodiment of the present invention]
Hereinafter, an example of an embodiment embodying the present invention will be described in detail with reference to the drawings. FIG. 1 shows an example of a circuit block of an amplifying device for TV reception according to the present invention, and FIG. 2 shows an example showing an installation state of the amplifying device for TV reception according to the present invention. 3 and 4 show another embodiment of the circuit block of the amplifying device for TV reception according to the present invention. FIG. 5 shows an example of a circuit block of a conventional TV receiving amplifier, and FIG. 6 shows an example of a state of installation of the conventional TV receiving amplifier.
[0011]
FIG. 1 shows a block diagram of an amplifying device for TV reception according to the present invention. In this figure, reference numeral 30 denotes a first amplifying device including a first amplifier 33 built in a power supply section 60 of a television antenna. Reference numeral 34 denotes a power supply separation filter for separating and taking out the power transmitted through the coaxial cable 62 and supplying the power to the first amplifier 33. Reference numeral 31 denotes a matching device, and reference numeral 32 denotes an interference wave removing filter for taking measures against a reception failure caused by, for example, a pager, and is constituted by, for example, a filter such as a trap circuit. 35 is a switching means.
In the present application, the interference wave elimination filter 31 is arranged before the first amplifier 33. However, instead of the filter 31, an attenuator configured to be freely turned on and off may be used. You may comprise an attenuator. Also, it may not be necessary.
[0012]
The first amplifying device 30 is connected to the second amplifying device 40 via a coaxial cable 62. In the second amplifying device 40, reference numeral 41 denotes a power supply separation filter for transmitting power superimposed on a coaxial cable 63 from a power supply device 50, which will be described later, to the first amplifying device 40. 43 is a second amplifier for amplifying the television signal transmitted from the first amplifier 30. 42 is a variable attenuator for adjusting the gain of the amplifying device 40. Reference numeral 44 denotes a power supply separation filter for supplying power superimposed on the coaxial cable 63 from a power supply 50 to be described later to the second amplifier 43 and the first amplifier 33.
[0013]
Further, the second amplifying device 40 is connected to a power supply device 50 via a coaxial cable 63. In the power supply device 50, a power supply circuit 52 converts a commercial power supply into a power supply corresponding to the first and second amplifying devices 30 and 40, and a power supply circuit 51 connects the power supply to the first and second amplifying device sides 30. , 40, a power supply separation filter, 64 is a television receiver supplied with the output of the power supply device 50, and 65 is an AC plug connected to a commercial power supply.
[0014]
An operation and an example of installation of the amplifying device for TV reception shown in this embodiment will be described with reference to FIGS. The amplifying device for TV reception according to the present invention is an amplifying device particularly suitable for a weak electric field region, and it is necessary for the amplifying device to have low noise and high gain for its use. Also, in order to minimize the reception C / N as much as possible, it is necessary to reduce the loss of the reception signal level input to this amplifier.
Furthermore, it is necessary to consider the length of the antenna mast 101 for installing the television antenna. For example, when receiving a frequency in the VHF band, when a normal building is considered, the reception level can be increased by installing the television antenna 100 as high as possible. Although not shown in the figure, the installation location of the television antenna in the UHF band is higher than the wavelength of the received signal, so that the height of the installation of the television antenna needs to be sufficiently examined.
[0015]
From the above, in the TV receiver amplifying device especially in the weak electric field area, in order to install the television antenna at a high position and to reduce the transmission loss between the television antenna 100 and the first amplifying device 30, As much as possible, it was required to be mounted on the upper part of the antenna mast 101, thereby losing the easiness of mounting and maintenance of the amplifying device for TV reception.
Therefore, in the present application, as shown in FIGS. 1 and 2, the first receiving device 30 constituting the TV receiving amplifying device is built in the power supply section 60 of the TV antenna 100, and the second amplifying device 40 is provided with the antenna mast 101. It is configured so that it can be installed directly below the area where people can reach it.
In this embodiment, the switching means 35 is used to switch a filter, an attenuator, and the like on and off the signal line. The switching means 35 may not be used.
[0016]
The television signal received by the television antenna 100 is amplified by the first amplifier 30. In the embodiment of the first amplifying device 30, a trap circuit 32 is provided. This trap circuit is a filter for removing an interfering wave (for example, a radio wave for a pager) existing near the channel in the receiving band, and is configured to be inserted into or separated from the signal line by the switching means 35. When the occurrence of interference is expected, the switching means is turned on in advance and the television antenna is installed. In the present application, the filter 32 is configured by a trap circuit, but may be configured in any other manner as long as the configuration prevents interference waves. Further, a configuration in which an attenuator is provided instead of the interference wave element filter 32 may be employed.
[0017]
The signal amplified by the first amplifier 33 is output after passing through the power supply separation filter 34, and is transmitted to the second amplifier 40 via the coaxial cable 62. Power from a power supply device 50 is superimposed on the coaxial cable 62 via the second amplifying device 40, and the power is separated by a power supply separation filter 34 and applied to the first amplifier 33.
[0018]
The received signal transmitted by the coaxial cable 62 as described above is input to the second amplifier 40. The input signal passes through the power supply separation filter 41 as it is, is applied to the variable attenuator 42, and the gain is adjusted appropriately. Further, the output signal of the variable attenuator 42 is amplified by a second amplifier 43. The amplified signal passes through the power supply separation filter 44 and is transmitted from the second amplifier 40 to the power supply 50 via the coaxial cable 63. The power supply separated by the power supply separation filter 44 is connected to the power supply separation filter 41, and applies the power from the power supply device 50 supplied via the coaxial cable 63 to the second amplifier 43, and It is configured to pass a current to the first amplifying device 30 side.
[0019]
Thus, the received signal transmitted by the coaxial cable 63 is input to the power supply device 50. The input signal passes through a power supply separation filter 51, is output from the power supply device 50, and is supplied to a television receiver.
[0020]
The signal amplified by the first amplifier 30 as described above is input to the second amplifier 40 via a coaxial cable.
At this time, the second amplifying device 40 is installed at a position below the antenna mast 101 and within a range where a human hand can directly reach from the place where the antenna mast 101 is installed.
As a result, when the television antenna is installed in a weak electric field area and the antenna height is 10 m to 20 m, for example, the amplifying device is mounted by climbing the antenna mast 101 or using a means such as a ladder as in the conventional mounting method. Therefore, it is possible to provide an amplifying device for TV reception which is extremely effective in easiness of installation work and maintenance.
Moreover, since the first amplifying device 30 is built in the feeder 60 of the television antenna 101, the loss of the coaxial cable interposed between the television antenna 100 and the first amplifying device 30 as in the conventional installation example is compensated. The received signal is input to the first amplifying device 30, so that reception with a better C / N can be performed without deteriorating the receiving C / N as compared with the TV receiving amplifying device having the conventional configuration.
Further, the arrangement is effective in that the adjustment and the like can be easily performed by arranging the second amplifying device 40 within a range that can be directly reached by human hands.
[0021]
Next, a second embodiment of the present invention will be described with reference to FIG. In the following description, the same reference numerals are given to the same components as those of the TV reception amplifying device of the first embodiment, and the detailed description is omitted.
[0022]
The amplifying device for TV reception in the embodiment of this figure is configured to amplify television signals in the VHF band and the UHF band. Reference numeral 30 denotes a first amplifying device, and reference numeral 36 denotes a UHF amplifier that amplifies a reception signal transmitted from a UHF television antenna (not shown) via a coaxial cable 61. Reference numeral 60 denotes a power supply unit of the VHF television antenna. The power supply unit 60 is connected to the matching unit 31, the filter 32 for removing an interference wave, for example, for taking measures against a reception failure caused by a pager, and the VHF amplifier 33. . 35 is a switching means.
After the output signals of the UHF amplifier 36 and the VHF amplifier 33 are mixed by the mixer 37, the power transmitted through the coaxial cable 62 is separated and taken out, and the signals are output to the UHF amplifier 36 and the VHF amplifier 33. It is output through a power supply separation filter 34 for supplying power.
Each of the above-described components is housed in a housing case (formed of, for example, a synthetic resin material) of the power supply unit 60 of the VHF television antenna 100.
In the present application, the filter 32 for removing the interference wave is arranged in front of the VHF amplifier 33. However, instead of the filter 32, an attenuator that can freely enter and exit the signal line is arranged. Or a variable attenuator may or may not be provided. Further, the filter 32 and the attenuator may not be provided.
[0023]
The first amplifying device 30 is connected to the second amplifying device 40 via a coaxial cable 62. In the second amplifying device 40, reference numeral 41 denotes a power supply separation filter for transmitting power superimposed on a coaxial cable 63 from a power supply device 50 to be described later to the first amplifying device 30. 45 is a duplexer for splitting the television signal transmitted from the first amplifying device 30 into VHF and UHF. 42 is a variable attenuator for adjusting the gain of the VHF amplifier 43, and 43 is a VHF amplifier. 46 is a variable attenuator for adjusting the gain of the UHF amplifier 47, and 47 is a UHF amplifier. 48 is a mixer for mixing the outputs of the VHF amplifier 43 and the UHF amplifier 47. The signal output from the mixer 48 is supplied from a power supply 50, which will be described later, to a power supply superimposed on the coaxial cable 63 and sent to the VHF amplifier 43, the UHF amplifier 47, and the first amplifying device 30. It is output via a power supply separation filter 44 for supplying.
[0024]
Further, the second amplifying device 40 is connected to a power supply device 50 via a coaxial cable 63. In the power supply device 50, 52 is a power supply circuit for converting a commercial power supply into a power supply corresponding to the first and second amplifying devices 30 and 40, and 51 is a power supply circuit for converting the power supply to the first amplifying device 30 side and the second amplifying device. A power supply separation filter for supplying power to the amplifying device 40 side, a television receiver 64 supplied with a signal from the power supply device, and an AC plug 65 connected to a commercial power supply.
[0025]
The operation of the amplifying device for TV reception shown in this embodiment will be described in more detail with reference to FIG. Also in the TV receiver amplifying device of the present invention, the TV receiver amplifying device needs to be mounted on the antenna mast as much as possible. However, this has led to a loss of ease of installation and maintenance of the TV receiving amplifier.
Therefore, in the present application, as shown in the drawing, the first amplifying device 30 constituting the amplifying device for TV reception includes the UHF amplifier 36 and the VHF amplifier 33 in the power supply unit 60 of the VHF television antenna 100 and the UHF television. Signals from antennas (not shown) are configured to mix. The second amplifying device is configured to be installed in a range directly accessible by humans, for example, below the antenna mast 101.
[0026]
The VHF and UHF television signals received by the television antenna are amplified in the first amplifier 30. In the embodiment on the VHF side in the first amplifying device 30, a trap circuit 32 is provided. The trap circuit 32 is a filter for removing an interfering wave (for example, a radio wave for a pager) existing near the channel in the receiving band, and is inserted into or cut off from the signal line by the switching means 35. When a disturbance is expected to occur, the switching means is turned on in advance and a television antenna is installed.
Then, the respective signals amplified by the VHF amplifier 33 and the UHF amplifier 36 are mixed by the mixer 37, pass through the power supply separation filter 34, and are transmitted to the second amplifier 40 via the coaxial cable 62. . A power supply from a power supply device 50 is superimposed on the coaxial cable 62 via the second amplifying device 40, and the power supply is separated by a power supply separation filter 34 and is separated from the power supply separation filter 34 by the VHF amplifier 33 and the UHF. It is applied to an amplifier 36.
[0027]
The received signal transmitted by the coaxial cable 62 in this manner is input to the second amplifier 40. The input signal passes through the power supply separation filter 41 as it is and is applied to the duplexer 45. The signal applied to the splitter 45 is split into a VHF signal and a UHF signal. The VHF signal is applied to a variable attenuator 42, where the gain is adjusted as needed, and the output signal of the variable attenuator 42 is amplified by a second amplifier 43. The UHF signal is applied to a variable attenuator 46, where the gain is appropriately adjusted as necessary, and the output signal of the variable attenuator 46 is amplified by a second amplifier 47. The signals amplified by the respective amplifiers are mixed by a mixer 48, and then transmitted through a power supply separation filter 44 to be transmitted from the second amplification device 40 to a power supply device 50 via a coaxial cable 63.
The power supply separation filter 41 and the power supply separation filter 44 are connected to each other, and apply power from the power supply device 50 to the VHF amplifier 33 and the UHF amplifier 36 of the second amplification device 40 via the coaxial cable 63. It is configured to pass a current to the first amplifying device 30.
[0028]
Thus, the received signal transmitted by the coaxial cable 63 is input to the power supply device 50. The input signal passes through a power supply separation filter 51, is output from the power supply device 50, and is supplied to a television receiver.
[0029]
The signal amplified by the first amplifier 30 as described above is input to the second amplifier 40 via a coaxial cable.
At this time, the second amplifying device 40 is installed at a position below the antenna mast 101 and within a range where a human hand can directly reach from the place where the antenna mast 101 is installed.
Thus, at the antenna height (for example, 10 m to 20 m), which is common for the installation of a TV antenna in a weak electric field area, for example, without amplifying a device by climbing the antenna mast 101 or using means such as a ladder, Moreover, the signal amplified by the first amplifying device 30 without deteriorating the reception C / N and compensating for the loss of the coaxial cable interposed between the first amplifying device and the second amplifying device is converted to the second amplifying device. By being input to the amplifying device 40, the receiving device having a better C / N ratio than the conventional amplifying device for TV reception can be received, and the amplifying device for TV reception which is extremely effective in easiness of installation work and maintenance. Can be provided. Further, the arrangement is effective in that the adjustment and the like can be easily performed by arranging the second amplifying device 40 within a range that can be directly reached by human hands.
[0030]
Further, as shown in FIG. 4, a method may be adopted in which the second amplifying device 40 and the power supply device 50 are integrated and installed on, for example, a television receiver. As described above, the present invention is not limited to the above-described embodiment, and can be implemented by appropriately changing the configuration and the like of each unit without departing from the spirit of the present invention.
[0031]
【The invention's effect】
As described in detail above, the inventions of claim 1 and claim 2 provide a TV receiving amplifying device for amplifying a signal received by a television antenna,
A first amplifying device including a first amplifier built in a feeder of the television antenna,
A second amplifying device including a power supply separation filter configured to pass a current between the output terminal and the input terminal and a second amplifier;
Power supply device,
The first amplifying device is provided at an upper portion of the support, and the second amplifying device is provided at a lower portion of the support;
The power supply is provided between the output terminal of the first amplifying device and the input terminal of the second amplifying device and the transmission line connecting the output terminal of the second amplifying device and the input terminal of the power supply device. Since the power is supplied from the device to the first amplifier and the second amplifier, and the second amplifier is arranged at least at a position where it can be directly touched by a hand, the television antenna Since no coaxial cable or the like which causes high-frequency loss is interposed between the first amplifier and the first amplifier, a TV receiver amplifier with little C / N deterioration can be provided. It is possible to provide an amplifying device for TV reception which has low noise, high gain, and is effective in easiness and safety of installation without mounting by climbing or mounting a ladder.
[0032]
According to the third and fourth aspects of the present invention, a power supply device having the second amplifier built therein is formed in the power supply device, and an output terminal of the first amplification device and a power supply device of the power supply device. Power is supplied from the power supply device to the first amplifier via a transmission line connecting the input terminals, and the power supply device is arranged at least at a position where it can be directly touched. It is possible to provide an amplifying device for TV reception with good installation work convenience.
[0033]
According to the fifth aspect of the present invention, since the first and second amplifying devices include at least an amplifier for amplifying the VHF band of the television signal, the TV receiving amplifier suitable for the weak electric field region of the VHF band. Equipment can be provided.
[Brief description of the drawings]
FIG. 1 shows an example of a circuit block of an amplifying device for TV reception according to the present invention.
FIG. 2 shows an example showing a state of installation of the TV reception amplifying device according to the present invention.
FIG. 3 shows another embodiment of the circuit block of the amplifying device for TV reception according to the present invention.
FIG. 4 shows another embodiment of a circuit block of the amplifying device for TV reception according to the present invention.
FIG. 5 shows an example of a circuit block of a conventional TV reception amplifying device.
FIG. 6 shows an example showing a state of installation of a conventional TV reception amplifying apparatus.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 ... 1st amplification apparatus, 2-1 and 2-2 ... relay, 3 ... 1st amplifier, 4 ... attenuator, 5 ... power supply separation filter, 10 ... 2nd amplification apparatus, 11 ... power supply separation filter, Reference numeral 12: variable attenuator, 13: second amplifier, 14: switch, 15: power supply circuit, 21: coaxial cable, 22: coaxial cable, 23: television receiver, 24: AC plug, 30: first amplifier 31, a matching circuit, 32, a filter, 33, a VHF amplifier, 34, a power separation filter, 35, a switching means, 36, a UHF amplifier, 37, a mixer, 40, a second amplifier, 41, a power separation filter, 42: variable attenuator, 43: VHF amplifier, 44: power supply filter, 50: power supply, 51: power supply filter, 52: power supply circuit, 60: power supply unit, 61: coaxial cable, 62: coaxial cable Le, 63 ... coaxial cable, 64 ... TV receiver, 65 ... AD plug, 100 ... TV antenna (VHF television antenna), 101 ... antenna mast

Claims (5)

In an amplifying device for TV reception that amplifies a signal received by a television antenna,
A first amplifying device including a first amplifier built in a feeder of the television antenna,
A second amplifying device including a power supply separation filter configured to pass a current between the output terminal and the input terminal and a second amplifier;
Power supply device,
The first amplifying device is provided at an upper portion of the support, and the second amplifying device is provided at a lower portion of the support;
The power supply is connected via a transmission line connecting between the output terminal of the first amplifier and the input terminal of the second amplifier and between the output terminal of the second amplifier and the input terminal of the power supply. An amplifying device for TV reception, wherein power is supplied from the device to a first amplifying device and a second amplifying device. 2. The amplifying device for TV reception according to claim 1, wherein the second amplifying device is arranged at least at a position where the second amplifying device is directly touched by a hand. A power supply device having the second amplifier built therein is formed in the power supply device. An amplifying device for TV reception, wherein power is supplied from a power supply device to the first amplifier. 4. The amplifying device for TV reception according to claim 3, wherein the power supply device is arranged at least at a position where the power supply device is directly touched by a hand. 5. The amplifying device according to claim 1, wherein said first and second amplifying devices are each configured of an amplifier for amplifying at least a VHF band of a television signal. apparatus.

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