JP2003259150A - Amplifier with tilt circuit - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an amplifier which has a versatile tilt circuit and can make flexible and proper tilt adjustments according to the frequency band and transmission distance of a signal to be sent. <P>SOLUTION: The amplifier 1 is for amplifying a received signal of a satellite broadcast and has the tilt circuit 7 which has a plurality of parallel-connected tilt units 8, at least one of which is connected to an opening/closing switch 10 in series, and can change a tilt point by opening and closing the opening/ closing switch 10. <P>COPYRIGHT: (C)2003,JPO

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an amplifier used in a satellite broadcasting (BS broadcasting, CS broadcasting) receiving system, and particularly in a system that receives only BS broadcasting and also BS broadcasting and CS broadcasting. The present invention relates to an amplifier for a satellite broadcast receiving system that can perform tilt adjustment in a receiving system as well, and a tilt circuit for realizing the amplifier.

[0002]

2. Description of the Related Art A signal transmitted over a predetermined distance by a coaxial cable causes "loss" in proportion to the transmission distance. Therefore, in a satellite broadcast receiving system using a coaxial cable, various amplifiers are used to compensate for such loss (transmission loss).

The amplifiers currently on the market include:
Those that support only BS broadcast signals (BS amplifier),
Not only BS broadcast signals but also CS broadcast signals are supported (BS / CS shared amplifier), and some of these amplifiers include a tilt circuit.

The tilt circuit has a loss frequency characteristic of the coaxial cable (the property that the magnitude of the transmission loss depends on the frequency of the signal to be transmitted. The lower the frequency, the smaller the loss amount, and the higher the frequency, the larger the loss amount. The circuit is configured so that the output level of the signal can be adjusted.

The drop in loss amount generated between frequencies due to this loss frequency characteristic increases in proportion to the length of the transmission distance. Therefore, when the signal transmission distance by the coaxial cable is short, it does not cause much problem, but when the signal transmission distance is long, such as in a receiving system called "building co-listening", the difference in loss amount becomes small. It may be enlarged and exceed the allowable range. In such a case, level adjustment can no longer be performed.

The tilt circuit is for avoiding such a problem, and the tilt circuit has a high level so that the level of the low frequency side signal with a small transmission loss becomes lower than the level of the high frequency side signal with a large transmission loss. It is designed such that the low-frequency side is attenuated in an inclined manner with respect to the low-frequency side as a reference and can be output. Therefore, by using this tilt circuit, it is possible to perform output level adjustment (tilt adjustment) such that the signal level after transmission falls within a certain range.

An example of conventional tilt adjustment using a tilt circuit will be described with reference to FIG. In the graph of FIG. 4, a solid line shows a setting example of the tilt circuit (BS tilt circuit) used in the BS amplifier, and a chain line shows a tilt circuit (BS.BS The setting example of the CS common tilt circuit) is shown.

Specifically, after the BS broadcast signal is received, it is converted into a BS-IF signal by a converter. The frequency band of this BS-IF signal is usually 1032 MHz to 1336 MHz. In the BS tilt circuit of No. 4, the signal of the lowest frequency (1032 MHz) of the BS-IF signal is a predetermined amount (here, 10d).
B) It is possible to add a slope (tilt point = 1336 MHz, attenuation amount = 10 dB) such that the signal of the highest frequency (1336 MHz) that is attenuated is hardly attenuated.

When the BS-IF signal is transmitted over a long distance, a larger loss occurs in a signal on the high frequency side (~ 1336 MHz) than on a signal on the low frequency side (1032 MHz), but as described above. When the transmission is performed after performing various tilt adjustments, it is possible to reduce the difference in the loss amount generated between frequencies.

On the other hand, after receiving the CS broadcast signal, the converter transmits a frequency band (eg, 950) depending on the system.
MHz to 2150 MHz) CS-IF signal. And in the BS / CS common tilt circuit,
Not only such CS-IF signal, but the lower limit is 1032
Since it is necessary to handle the BS-IF signal of MHz, tilt adjustment can be performed in a wide frequency band of 950 MHz to 2150 MHz.

More specifically, as shown in FIG.
In the CS common tilt circuit, the lowest frequency (95
A tilt (tilt point = 2150) in which a signal of 0 MHz is attenuated by a predetermined amount (here, 10 dB) and a signal of the highest frequency (2150 MHz) is hardly attenuated.
MHz, attenuation amount = 10 dB).

In the above example, the tilt circuit for BS, B
In each of the S / CS common tilt circuits, the low-frequency side signal is shown to be attenuated by 10 dB, but normally it is not fixed to this attenuation amount, and it depends on the signal transmission distance. By changing the switch appropriately,
The amount of signal attenuation on the low frequency side is, for example, 0 dB, 3 dB, 6 d
It can be selectively set to B, 9 dB, 12 dB, or the like, or a continuously variable circuit allows an arbitrary attenuation within a predetermined range (for example, within a range of 0 to 15 dB). It is configured to be set to a quantity.

[0013]

Among the conventional amplifiers as described above, the amplifier equipped with the BS / CS common tilt circuit is used in a BS broadcast receiving system (system not receiving CS broadcast). There is a problem that adjustment work is difficult.

More specifically, the BS-IF signal to be transmitted in this case has a frequency band of 1032 MHz to 1336 MHz, and the tilt adjustment required here is at the low frequency side (from 1032 MHz) after transmission. In order to reduce the difference between the signal level on the high frequency side (~ 1336MHz) and the signal level on the high frequency side (up to 1336MHz), the BS / CS common tilt circuit uses the 2150MHz as a reference (tilt point) to tilt the low frequency side. Since the signal is attenuated, the highest frequency signal (1
Even 336 MHz) is unnecessarily attenuated.

For example, as shown in FIG.
When trying to attenuate the Hz signal by 10 dB, 133
The 6 MHz signal is attenuated by 5 dB. An amplifier is for amplifying a signal to be transmitted in advance to a high level and outputting the signal in anticipation of transmission loss, but if the tilt adjustment attenuates the output level as a whole, There is a problem that the function as an amplifier is impaired and the function cannot be fully exhibited.

Further, since the BS / CS common tilt circuit is set so that tilt adjustment can be performed in a wide frequency band, there is a problem that it is difficult to increase the tilt angle of the attenuation amount.

The present invention has been made in order to solve the above-mentioned problems of the prior art, and has a versatile tilt circuit, and has a frequency band of a signal to be transmitted and a transmission distance. Accordingly, it is an object of the present invention to provide a tilt circuit capable of flexibly performing optimum tilt adjustment, and an amplifier including the tilt circuit.

[0018]

An amplifier with a tilt circuit according to the present invention has at least one tilt circuit,
When the tilt adjustment is performed by the tilt circuit, the tilt point (a point serving as a reference of inclination on the high frequency side) and the attenuation amount are configured to be changed.

The tilt circuit has a plurality of tilt units connected in parallel, and at least one of the tilt units is connected in series with an opening / closing switch.
It is preferable that the tilt point can be changed by opening / closing the opening / closing switch.

[0020]

BEST MODE FOR CARRYING OUT THE INVENTION Embodiments of the present invention will be described below with reference to the drawings. FIG. 1 is a configuration diagram of an amplifier 1 with a tilt circuit according to a first embodiment of the present invention. In this figure, 2 is an input terminal, 3 is an output terminal, 4
Is an amplifier circuit, 5 is a BS tilt circuit, and 6 is a BS / CS common tilt circuit.

The BS tilt circuit 5 adjusts the highest frequency (1336 MH) according to the frequency band of the BS-IF signal.
z) as a reference (tilt point), the low frequency side (103
2MHz ~) can be attenuated in a slope,
The attenuation amount (tilt amount) can be arbitrarily adjusted in the range of 0 to 20 dB by operating the volume knob.

Further, the BS / CS common tilt circuit 6 is
In accordance with the frequency bands of the S-IF signal and the CS-IF signal, with the highest frequency (2150 MHz) as a reference,
The low-frequency side (950 MHz to) can be attenuated in an inclined manner, and in this BS / CS common tilt circuit 6 as well, by operating the volume knob, the attenuation amount can be arbitrarily set in the range of 0 to 20 dB, for example. It can be adjusted.

The amplifier 1 in this embodiment is
Between the amplifier circuit 4 and the output terminal 3, the BS tilt circuit 5
Since the BS and CS shared tilt circuit 6 is arranged in series, it can be used not only in a system capable of receiving BS broadcasts and CS broadcasts but also in a system receiving only BS broadcasts. However, the optimum tilt adjustment can be performed.

Specifically, when used in a system capable of receiving BS broadcast and CS broadcast, the attenuation amount of the BS tilt circuit 5 is set to "0 dB" and the attenuation amount of the BS / CS shared tilt circuit 6 is set. Is set to a desired value according to the signal transmission distance, the tilt point is set to 2150.
MHz, and with this frequency as a reference, the signal on the low frequency side (950 MHz to) can be attenuated in a slope and output.

On the other hand, when used in a system that receives only BS broadcasts, the attenuation amount of the BS tilt circuit 5 is set to a desired value according to the signal transmission distance,
By setting the attenuation amount of the CS shared tilt circuit 6 to “0 dB”, the tilt point can be set to 1336 MHz. With this frequency as a reference, the low frequency side (950 M
The signal of Hz to) can be attenuated in a sloping manner.

As described above, the amplifier 1 in this embodiment is
Are two types of tilt circuits (BS
Tilt circuit 5 and BS / CS common tilt circuit 6)
Are arranged in series, and the tilt point and the attenuation amount can be appropriately changed as necessary by adjusting the attenuation amount of each, depending on the type of signal and the transmission distance. A signal can be output with a suitable inclination.

Next, a second embodiment of the present invention will be described. FIG. 2 is a configuration diagram of an amplifier 1 with a tilt circuit according to a second embodiment of the present invention. In this figure, 2 is an input terminal, 3 is an output terminal, 4 is an amplifier circuit, and 7 is a tilt circuit.

As shown in FIG. 3, the tilt circuit 7 used in this embodiment has a plurality of tilt units 8 (first tilt unit 8a, second tilt unit 8b,
Third tilt unit 8c, fourth tilt unit 8
d), and the tilt points can be appropriately changed by the plurality of tilt units 8.

More specifically, among the plurality of tilt units 8, only the fourth tilt unit 8d is connected in series with the opening / closing switch 10 as shown in the figure, and the opening / closing switch 10 is opened to open the main line. When the connection between 11 and the fourth tilt unit 8d is cut off (OFF state),
With 1336 MHz as the tilt point, the low frequency side (95
0MHz ~) can be attenuated in a slope,
On the other hand, when the open / close switch 10 is closed to bring the main line 11 and the fourth tilt unit 8d into a conductive state (ON state), the low frequency side (950 MHz to) can be attenuated in an inclined manner with 2150 MHz as the tilt point. It is like this.

Then, the open / close switch 10 is "ON",
In any state of "OFF", by operating the volume knob of the variable resistor 9, the low frequency side (95
The attenuation amount of a signal of 0 MHz to) can be arbitrarily adjusted in the range of 0 to 20 dB, for example.

Therefore, when the amplifier 1 is used in a system that receives only BS broadcasts, the open / close switch 10 is opened to be in the "OFF state", and the variable resistor 9 of the variable resistor 9 is changed according to the transmission distance of the signal. By operating the volume knob and setting the attenuation amount on the low frequency side to a desired value, the frequency band (1032 to 1032) of the BS-IF signal to be amplified is set.
1336 MHz), the signal on the low frequency side (950 MHz-) can be attenuated in a tilted manner with 1336 MHz as the tilt point.

On the other hand, this amplifier 1 is used for BS broadcasting and CS
When used in a system for receiving broadcasts, the open / close switch 10 is closed to be in the "ON state", and
By operating the volume knob of the variable resistor 9 according to the transmission distance of the signal, the frequency bands (950 to 2150 MH) of the BS-IF signal and the CS-IF signal to be amplified are operated.
z), the signal on the low frequency side (950 MHz to) can be attenuated in an inclined manner with 2150 MHz as the tilt point.

In this way, the amplifier 1 according to this embodiment is
Indicates whether the open / close switch 10 is switched (open / closed) or the variable resistance whether it is used in a system that receives only BS broadcasts or in a system that can receive BS and CS broadcasts. The tilt adjustment (setting / changing the tilt point and adjusting the attenuation amount) can be easily and suitably performed by only operating the volume knob of the device 9.

In the present embodiment, the variable resistor 9
The attenuation amount can be adjusted by operating the volume knob of, but a switch for adjusting the attenuation amount is provided, and by appropriately switching this, a specified attenuation amount (for example, 0 dB, 3 dB, 6 dB) can be obtained. , 9d
B, 12 dB, etc.), a desired value can be selectively set.

[0035]

As described above, in the tilt circuit and the amplifier with the tilt circuit according to the present invention, not only the attenuation amount but also the tilt point is appropriately changed according to the frequency band of the signal to be transmitted. Since it can be adjusted, it is highly versatile and suitable for use in a system that can receive BS and CS broadcasts, or even in a system that receives only BS broadcasts. The tilt adjustment can be flexibly performed.

Further, since tilt adjustment can be performed by only a simple operation, it is possible to facilitate the construction work of the receiving system, the expansion work, and the like. Furthermore, since it has versatility, it can be used for different receiving systems. In addition, the manufacturing cost can be reduced as compared with the case of manufacturing a plurality of types of products.

The tilt circuit according to the present invention is not necessarily limited to the amplifier for BS broadcasting or the BS / CS shared amplifier, but may be another amplifier such as a CAT.
It can be suitably used for a V relay amplifier and the like.

[Brief description of drawings]

FIG. 1 is a configuration diagram of an amplifier 1 with a tilt circuit according to a first embodiment of the present invention.

FIG. 2 is a configuration diagram of an amplifier 1 with a tilt circuit according to a second embodiment of the present invention.

3 is a circuit diagram of a tilt circuit 7 used in the amplifier 1 with a tilt circuit shown in FIG.

FIG. 4 is a diagram showing a setting example of tilt adjustment using a conventional tilt circuit.

[Explanation of symbols] 1: Amplifier with tilt circuit, 2: Input terminal, 3: Output terminal, 4: Amplifier circuit, 5: BS tilt circuit, 6: BS / CS common tilt circuit, 7: Tilt circuit, 8: Tilt unit, 8a: first tilt unit, 8b: second tilt unit, 8c: third tilt unit, 8d: fourth tilt unit, 9: Variable resistor, 10: open / close switch, 11: Main line,

   ─────────────────────────────────────────────────── ─── Continued front page    (72) Inventor Toshio Yamamoto             Toshiba, 450 Nakayama-cho, Midori-ku, Yokohama-shi, Kanagawa             Inside Techno Network Co., Ltd. F-term (reference) 5C056 FA08 FA11 GA05 HA01 HA20                 5C064 DA02 DA04                 5J024 AA06 BA11 CA14 CA20 DA01                       DA25 FA01

Claims (3)

[Claims] 1. An amplifier for amplifying a reception signal of satellite broadcasting, comprising at least one tilt circuit, and capable of changing a tilt point and an attenuation amount when performing tilt adjustment by the tilt circuit. An amplifier with a tilt circuit, which is configured. 2. The tilt circuit has a plurality of tilt units connected in parallel, at least one of the tilt units is connected in series with an opening / closing switch, and by opening / closing the opening / closing switch, The amplifier with a tilt circuit according to claim 1, wherein the amplifier has a tilt point that can be changed. 3. A plurality of tilt units connected in parallel, wherein at least one of these tilt units is connected in series with an opening / closing switch, and a tilt point can be changed by opening / closing the opening / closing switch. A tilt circuit that is configured.