KR101089930B1 - Input circuit part of receiving system - Google Patents

Abstract

PURPOSE: An input circuit of a receiving system is provided to reduce the influence of a modulation signal and an interference signal by varying a pass band according to the selection of a channel. CONSTITUTION: An input circuit of a receiving system includes a low noise amplifier(100) and a switching filter(200). The low noise amplifier amplifies an RF signal. The switching filter selects a pass band in response to the switching signal according to the selection of the channel. The switching filter passes an RF signal corresponding to the selected pass band among the RF signals of the low noise amplifier.

Description

INPUT CIRCUIT OF RECEIVING SYSTEM}

The present invention relates to an input circuit portion that can be applied to a TV system or a TV set-top box, and more particularly, to an input circuit portion of a receiving system that can reduce the influence of an interference signal and a modulated signal by varying a pass band according to channel selection. will be.

In general, the RF IC is a one chip (1 chip) and the frequency of the input of the RF IC is the full band of the broadcast band is input, resulting in the secondary intermodulation (IM2), cross modulation characteristics It is a problem that is vulnerable to the back.

In general, a receiving system such as a TV system or a TV set-top box includes a low noise amplifier for amplifying the RF signal from the antenna with low noise, and a tuner for tuning a preselected channel among a plurality of channels included in the RF signal from the low noise amplifier. Include.

In this case, a low noise amplifier (LNA) is included for better sensitivity performance, and the frequency characteristics of the low noise amplifier must be constant at all times.

However, the frequency characteristics of low noise amplifiers have a lot of gains in low frequency bands and relatively low gains in high frequency bands, which makes them vulnerable to secondary intermodulation (IM2) or cross modulation. .

An object of the present invention is to solve the above problems of the prior art, the present invention, by varying the passband according to the channel selection, the input circuit portion of the receiving system that can reduce the influence of the interference signal and the modulated signal To provide.

The first technical aspect of the present invention for solving the above problems of the present invention, a low noise amplifier for amplifying the RF signal; And a switching filter for selecting a passband in response to a switching signal according to channel selection and for passing an RF signal corresponding to the selected passband among the RF signals from the low noise amplifier.

In the switching filter, a low pass band or a bypass is selected according to a first switching signal among switching signals according to channel selection among the RF signals from the low noise amplifier, and a switching LPF passing the RF signal corresponding to the selected low pass band. ; And a switching HPF selected from a high pass band or a bypass according to a second switching signal among switching signals according to channel selection among the RF signals from the switching LPF and passing through an RF signal corresponding to the selected high pass band. It features.

The switching LPF of the switching filter includes a first common terminal receiving the RF signal, a first filter stage, and a first bypass stage, and the first common terminal according to a first switching signal among switching signals according to channel selection. A first switch connecting the terminal to one of the first filter stage and the first bypass stage; A first end and a second end connected to a first filter end of the first switch, the RF signal corresponding to a predetermined low pass band of the RF signals from the first switch input through the first end; A low pass filter passing through the first end; A first bypass path connected to a first bypass terminal of the first switch to bypass the RF signal from the first switch; And a second filter terminal connected to the low pass filter, a second bypass terminal and a second common terminal connected to the first bypass path, and the second common terminal according to the first switching signal. And a second switch connected to one of the stage and the second bypass stage.

The switching HPF of the switching filter includes a third common terminal receiving an RF signal from the switching LPF, a third filter terminal, and a third bypass terminal, and according to the second switching signal of the switching signals according to channel selection. A third switch connecting the third common terminal to one of the third filter terminal and the third bypass terminal; A second end connected to a third filter end of the third switch and a second end, and receiving an RF signal corresponding to a preset high pass band among RF signals from the third switch input through the second end; A high pass filter passing through the second end; A second bypass path connected to a third bypass terminal of the third switch to bypass the RF signal from the third switch; And a fourth filter terminal connected to the high pass filter, a fourth bypass terminal and a fourth common terminal connected to the second bypass path, and the fourth common terminal according to the second switching signal. And a fourth switch connected to one of the stage and the fourth bypass stage.

According to the present invention, it is possible to reduce the influence of the interference signal and the modulated signal by varying the pass band according to the channel selection.

1 is a block diagram of an input circuit portion of a receiving system according to the present invention;
2 is a circuit diagram of a switching filter of the present invention.
3 is a characteristic diagram of a low noise amplifier.
4 is an exemplary diagram of secondary intermodulation;
5 is an illustration of a jamming wave.
6 is a diagram illustrating a passband of a switching filter of the present invention.

Hereinafter, embodiments of the present invention will be described with reference to the accompanying drawings.

The present invention is not limited to the embodiments described, and the embodiments of the present invention are used to assist in understanding the technical spirit of the present invention. In the drawings referred to in the present invention, components having substantially the same configuration and function will use the same reference numerals.

1 is a block diagram of an input circuit portion of a receiving system according to the present invention.

Referring to FIG. 1, the input circuit unit of the reception system according to the present invention includes a low noise amplifier 100 for amplifying an RF signal, a pass band selected in response to a switching signal according to channel selection, and the low noise amplifier 100. It may include a switching filter 200 for passing the RF signal corresponding to the selected passband of the RF signal from.

2 is a circuit diagram of a switching filter of the present invention.

2, in the switching filter 200, a low pass band or a bypass is selected according to a first switching signal among switching signals according to channel selection among RF signals from the low noise amplifier, and the low pass band is selected in the selected low pass band. The high pass band or the bypass is selected according to the switching LPF 210 passing through the corresponding RF signal and the second switching signal among the switching signals according to the channel selection among the RF signals from the switching LPF, and in the selected high pass band. It may include a switching HPF 220 passing through the corresponding RF signal.

The switching LPF 210 of the switching filter includes a first common terminal receiving the RF signal, a first filter terminal, and a first bypass terminal, and includes a first switching signal Ssw1 among switching signals according to channel selection. According to the first switch (SW11) for connecting the first common terminal to one of the first filter stage and the first bypass stage, the first end and the first end connected to the first filter terminal of the first switch (SW11) A low pass filter 211 including the other end and passing an RF signal corresponding to a predetermined low pass band of the RF signals from the first switch SW11 input through the first end to the first other end; A first bypass path BPL1 connected to a first bypass terminal of the first switch SW11 and bypassing an RF signal from the first switch SW11 and to the low pass filter 211. The second filter stage connected and the second bypass connected to the first bypass path BPL1. And a second switch (SW12) including a second common terminal and a second common terminal connected to one of a second filter terminal and a second bypass terminal according to the first switching signal.

The switching HPF 220 of the switching filter includes a third common terminal receiving an RF signal from the switching LPF 210, a third filter stage, and a third bypass stage, and among the switching signals according to channel selection, A third switch SW21 connecting the third common terminal to one of the third filter terminal and the third bypass terminal according to a second switching signal Ssw2, and connected to a third filter terminal of the third switch SW21. A high pass including a second end and a second end and passing an RF signal corresponding to a preset high pass band of the RF signals from the third switch SW21 input through the second end to the second end; A second bypass path BPL2 connected to a filter 221, a third bypass end of the third switch SW21, for bypassing an RF signal from the third switch SW21, and the high pass; The fourth filter stage connected to the pass filter 221 and the second bypass path BPL2. A fourth switch SW22 including a fourth bypass terminal and a fourth common terminal connected to each other, and connecting the fourth common terminal to one of a fourth filter terminal and a fourth bypass terminal according to the second switching signal. can do.

3 is a characteristic diagram of a low noise amplifier.

The characteristic graph shown in FIG. 3 is a characteristic graph of the low noise amplification unit. The low noise amplification unit has a constant frequency characteristic but is not always constant, and has a characteristic of lowering the output level as the frequency increases.

4 is an exemplary diagram of secondary intermodulation.

In the exemplary intermodulation diagram shown in FIG. 4, the intermodulated frequency component (2052 MHz) of two frequency components (1021 MHz. 1031 MHz) is shown.

5 is an exemplary diagram of a jamming wave.

In the example of the interference wave illustrated in FIG. 5, when the RF signal is converted to the IF signal level, it shows that the interference wave exists on both sides around the desired IF signal.

6 is a diagram illustrating a passband of the switching filter of the present invention.

Referring to FIG. 6, the switching filter of the present invention may perform low band selection, middle band selection, and high band selection according to a combination of the selection of the switch LPF and the switch HPF according to the first and second switching signals. Is showing.

Hereinafter, the operation and effects of the present invention will be described with reference to the accompanying drawings.

1 to 6, the input circuit unit of the reception system according to the present invention will be described with reference to FIG. 1. In FIG. 1, the low noise amplifier 100 of the input circuit unit of the reception system according to the present invention may lower the RF signal by a predetermined gain. Amplified by the output to the switching filter 200.

In addition, in the switching filter 200 of the present invention, a passband is determined in response to a switching signal according to channel selection, and the tuner 300 receives an RF signal corresponding to the determined passband from among the RF signals from the low noise amplifier 100. ) Can be passed.

Referring to FIG. 2, when the switching filter 200 includes a switching LPF 210 and a switching HPF 220, the switching LPF 210 may include a first switching signal Ssw1 among switching signals according to channel selection. ), One of the preset low pass band filter 211 or the first bypass path BPL1 may be selected.

For example, when the first and second switches SW11 and SW12 select the low pass band filter 211 by the first switching signal Ssw1, the RF signal from the low noise amplifier 100 is The selected low pass filter 211 may be passed to the switching HPF 220.

Alternatively, when the first and second switches SW11 and SW12 select the first bypass path BPL1 by the first switching signal Ssw1, the RF signal from the low noise amplifier 100 is selected by the first switching signal Ssw1. It may be delivered to the switching HPF 220 through a first bypass path BPL1.

Next, the switching HPF 220 may select one of a preset high pass band filter 221 or a second bypass path BPL2 according to a second switching signal among switching signals according to channel selection.

For example, when the third and fourth switches SW21 and SW22 select the high pass band filter 221 by the second switching signal Ssw2, the RF signal from the switching LPF 210 is generated. It may be passed through the selected high pass band filter 221.

Alternatively, when the third and fourth switches SW21 and SW22 select the second bypass path BPL2 by the second switching signal Ssw2, the RF signal from the switching LPF 210 is set to the selected first signal. 2 may be passed through the bypass path (BPL2).

The characteristic graph shown in FIG. 3 is a characteristic graph of the low noise amplification unit. The low noise amplification unit has a constant frequency characteristic but is not always constant, and has a characteristic of lowering the output level as the frequency increases.

Due to the characteristics of the low noise amplifier, intermodulation or intermodulation problems occur, and intermodulation and interference can be described through graphs shown in FIGS. 4 and 5.

In the exemplary intermodulation diagram shown in FIG. 4, the intermodulated frequency component 2052 MHz of two frequency components 1021 MHz and 1031 MHz is shown.

In the example of the interference wave illustrated in FIG. 5, when the RF signal is converted to the IF signal level, it shows that the interference wave exists on both sides around the desired IF signal.

Referring to FIG. 6, in the switching filter of the present invention, when LPF is selected in the switch LPF 210 according to the combination of the selection of the switch LPF and the switch HPF according to the first and second switching signals, the low band selection is performed. Can be.

In addition, when LPF is selected in the switch LPF 210 and HPF is selected in the switch HPF 220, middleband selection may be performed. In the case where HPF is selected in the switch HPF 220, highband selection may be performed.

In the present invention as described above, the intermodulation or intermodulation problem that may occur due to the characteristics of the low noise amplification unit can be eliminated by employing a switching filter, thereby improving the performance of the reception system to be applied.

100: low noise amplifier 200: switching filter
210: switching LPF 220: switching HPF

Claims (4)

delete delete Low noise amplifiers for amplifying RF signals; And
A passband selected in response to a switching signal according to channel selection, and a switching filter configured to pass an RF signal corresponding to the selected passband among the RF signals from the low noise amplifier,
In the switching filter, a low pass band or a bypass is selected according to a first switching signal among switching signals according to channel selection among the RF signals from the low noise amplifier, and a switching LPF passing the RF signal corresponding to the selected low pass band. ; And
Among the RF signals from the switching LPF, a high pass band or bypass is selected according to the second switching signal of the switching signal according to the channel selection, and includes a switching HPF passing through the RF signal corresponding to the selected high pass band,
Switching LPF of the switching filter,
And a first common terminal for receiving the RF signal, a first filter terminal, and a first bypass terminal, and the first common terminal according to a first switching signal among switching signals according to channel selection. A first switch connected to one of the bypass stages;
A first end and a second end connected to a first filter end of the first switch, the RF signal corresponding to a predetermined low pass band of the RF signals from the first switch input through the first end; A low pass filter passing through the first end;
A first bypass path connected to a first bypass terminal of the first switch to bypass the RF signal from the first switch; And
A second filter terminal connected to the low pass filter, a second bypass terminal and a second common terminal connected to the first bypass path, and the second common terminal according to the first switching signal; A second switch connecting to one of the second bypass stages
Input circuitry of the receiving system comprising a. Low noise amplifiers for amplifying RF signals; And
A passband selected in response to a switching signal according to channel selection, and a switching filter configured to pass an RF signal corresponding to the selected passband among the RF signals from the low noise amplifier,
In the switching filter, a low pass band or a bypass is selected according to a first switching signal among switching signals according to channel selection among the RF signals from the low noise amplifier, and a switching LPF passing the RF signal corresponding to the selected low pass band. ; And
Among the RF signals from the switching LPF, a high pass band or bypass is selected according to the second switching signal of the switching signal according to the channel selection, and includes a switching HPF passing through the RF signal corresponding to the selected high pass band,
Switching HPF of the switching filter,
And a third common terminal for receiving an RF signal from the switching LPF, a third filter terminal, and a third bypass terminal, and the third common terminal according to a second switching signal among switching signals according to channel selection. A third switch connected to one of the stage and the third bypass stage;
A second end connected to a third filter end of the third switch and a second end, and receiving an RF signal corresponding to a preset high pass band among RF signals from the third switch input through the second end; A high pass filter passing through the second end;
A second bypass path connected to a third bypass terminal of the third switch to bypass the RF signal from the third switch; And
A fourth filter terminal connected to the high pass filter, a fourth bypass terminal and a fourth common terminal connected to the second bypass path, and the fourth common terminal according to the second switching signal; A fourth switch connected to one of the fourth bypass stages
Input circuitry of the receiving system comprising a.

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