KR101400739B1 - Co-site cancellation apparatus of push-to-talk terminal - Google Patents

Abstract

More particularly, the present invention relates to an apparatus and method for removing an interference signal at a reception side on another transmission / reception path caused by a transmission signal output on one of transmission / reception paths on adjacent transmission / reception paths The present invention relates to an image forming apparatus. And a second transmission path for outputting a transmission frequency through the first transmission path, wherein the second transmission path does not output the transmission frequency, and a transmission path of the first transmission path, And a reception path of the radio receiving the reception frequency by filtering the transmission frequency to eliminate the interference signal generated between the transmission frequency of the transmission path and the reception frequency to be received and sharing the path of at least a part of the second transmission path A radio-frequency interference canceller is provided.

Description

[Technical Field] The present invention relates to a Co-site cancellation apparatus of a push-to-talk terminal,

More particularly, the present invention relates to an apparatus and method for removing an interference signal at a reception side on another transmission / reception path caused by a transmission signal output on one of transmission / reception paths on adjacent transmission / reception paths The present invention relates to an image forming apparatus.

A conventional transceiver has two transmission / reception paths in one transceiver as shown in FIG. The antenna 1 (5) and the antenna 2 (5 ') are provided immediately adjacent to each other and thus have very low separation characteristics. That is, the transmission signal of Tx ₁ is transmitted to Rx ₂ through the antenna 2 to generate interference (Co-site) in Rx ₂ .

To solve this problem, it is necessary to use filter banks 4 and 4 'having very good blocking characteristics. However, since the output of the high-power amplifier must be increased as much as the loss of the filter bank by using the filter banks, power consumption is increased, There is a problem that the reception sensitivity is deteriorated due to the insertion loss of the antenna.

According to Korean Patent Laid-Open Publication No. 10-2010-0083887 (entitled "Life Radio with Auto Squelch Controller"), the level and frequency of noise introduced into a radio signal during radio communication are detected, And an auto squelch controller in which the sensitivity (amount of noise suppression) is automatically controlled.

SUMMARY OF THE INVENTION Accordingly, the present invention has been made in view of the above problems, and it is therefore an object of the present invention to provide a radio communication method and a radio communication method in which, when two or more transmission / reception paths are provided in a single radio, The present invention is directed to a method for removing Co-site generated when a material is introduced into a substrate.

However, the objects of the present invention are not limited to the above-mentioned objects, and other objects not mentioned can be clearly understood by those skilled in the art from the following description.

The above-described object of the present invention is also achieved by a radio communication apparatus that outputs a transmission frequency with different transmission paths, and when a transmission frequency is output via a first transmission path, a second transmission path includes a transmission path of the radio, A receiver of a radio receiving a reception frequency by filtering a transmission frequency to eliminate an interference signal occurring between a transmission frequency of a first transmission path and a reception frequency to be received and sharing a path of at least a part of the second transmission path, And a path included in the radio interference cancellation signal.

At least one of the transmission paths is shifted in a band corresponding to the transmission frequency and the reception frequency in accordance with the control signal so as to filter and amplify the desired signal; High power amplifying means for amplifying the frequency of the harmonic component by amplification with a large amplifying ratio and an antenna means for radiating the signal outputted from the high power amplifying means to the outside.

At least one of the reception paths includes band elimination filter means for filtering a reception frequency to be received by removing the transmission frequency of the first transmission path among the signals inputted from the antenna means, Amplified and filtered, and then transmitted to the receiving side.

The sharing means includes: an RF switch for switching between a transmission path and a reception path; a bandpass filter for filtering a signal input from the RF switch; A band pass filter for filtering a signal input from the low noise amplifier; and an RF switch for switching a signal input from the band pass filter according to a transmission path or a reception path .

And an RF switch for transmitting the signal output from the high power amplifying means to the antenna means at the time of transmission and for transmitting the signal inputted from the antenna means to the band elimination filter means at the time of reception.

According to the present invention as described above, it is possible to improve the reception sensitivity on the receiving side due to the Co-site problem solving and the low insertion loss due to the use of the tunable filter.

In addition, according to the present invention, the weight and size of the transceiver can be greatly reduced and the cost can be saved by partially sharing the transmission path and the reception path.

According to the present invention, since the insertion loss is much lower than that of the conventional filter bank by using the tunable filter, the output power of the high-power amplifier can be lowered, thereby reducing the total power consumption of the transceiver.

BRIEF DESCRIPTION OF THE DRAWINGS The accompanying drawings, which are incorporated in and constitute a part of the specification, illustrate preferred embodiments of the invention and, together with the description, serve to further the understanding of the technical idea of the invention, It should not be construed as limited.
FIG. 1 is a diagram showing a configuration of a conventional radio having two transmission / reception paths,
FIG. 2 is a diagram illustrating a configuration of a radio having two transmission / reception paths according to the present invention.

Hereinafter, a preferred embodiment of the present invention will be described with reference to the drawings. In addition, the embodiment described below does not unduly limit the content of the present invention described in the claims, and the entire structure described in this embodiment is not necessarily essential as the solution means of the present invention.

<Interference signal cancellation of the radio  Device  Configuration>

A transceiver having at least two different transmission / reception paths has a first transmission / reception path and a second transmission / reception path located adjacent to one radio. As a result, any one of the transmission through the transmission path signal (f ₁₎ to output the transmission signal (f _1), the output power greater through the receive path on the other transmission paths adjacent to the case that is directly introduced is causing the interference.

The transceiver described in the embodiment of the present invention is a push-to-talk (PTT) system. The PTT system is capable of immediate communication while pressing the switch, Can be provided. The PTT operating frequency is approximately 20 MHz to 512 MHz.

In order to remove the interference signal of the PTT type radio transceiver, the present invention eliminates the interference signal according to the configuration shown in FIG. 2, and the configuration and functions will be described in detail with reference to FIG.

First, the Tx ₁ side transmission path will be described. The transmission path is a path for sequentially transmitting the frequency f ₁ through the low noise amplifier 110, the sharing means 120, the high power amplification means 130, the RF switch 140, and the antenna 10 .

Here, the low noise amplifier 110 amplifies the baseband signal transmitted from the transmitting side (Tx ₁ ) at a relatively small rate as compared with the high power amplifier 131 described later. The signal passed through the low noise amplifier 110 transfers the signal to the sharing means 120.

The RF switch 121 of the sharing means 120 transmits the signal transmitted from the low noise amplifier 110 to the tunable band-pass filter 123. At this time, if the RF switch 121 is not in the transmission mode but in the reception mode, the RF switch 121 switches the contact of the switch from 1 to 2 so as to be the reception path. The tunable band-pass filter 123 removes unnecessary signals of adjacent bands that may be generated in response to the signal amplification of the low noise amplifier 110 described above.

The passband of the tunable bandpass filter 123 is not limited to one band but may be shifted according to a control signal. In other words, the sharing means 120 needs to move the pass band, because the transmission path and the reception path are shared with each other, and the pass band required for transmission and the pass band required for reception are different from each other. The tunable bandpass filter 123 has a smaller size than the conventional filter banks 4 and 4 ', thereby reducing the weight and size of the transceiver.

The signal having passed through the tunable band-pass filter 123 is input to the RF switch 129 through the low noise amplifier 125 and the tunable band-pass filter 127 again. The tunable band-pass filter 127 removes unnecessary signals in the adjacent band according to the amplification of the low noise amplifier 125. The RF switch 129 transmits a signal input from the tunable band-pass filter 127 to the high-power amplifier 131 at the time of transmission, and transmits a signal to the reception side Rx ₁ at the time of reception.

The high power amplifier 131 amplifies the power of the transmission frequency at a relatively large ratio as compared with the amplification of the low noise amplifiers 110 and 125 described above. Accordingly, an unnecessary harmonic frequency component of the adjacent band is generated, and the harmonic filter 133 removes the harmonic frequency described above.

The transmission frequency f ₁ from which the harmonic frequency component is removed by the harmonic filter 133 is transmitted to the antenna 10 by the RF switch 140 and radiated to the outside. At this time, the RF switch 140 transmits the signal input from the harmonic filter 133 to the antenna 10 at the time of transmission, switches the switch contact from 1 to 2 at the time of reception, and outputs a tunable band-stop filter Filter).

At this time, adversely interfere with the received signal (f _s) at the receiving end (Rx ₂₎ which are adjacent due to the power of the transmission frequency (f ₁₎ output by the antenna 10 is considerably larger. Therefore, the reception path of the reception side Rx ₂ removes the transmission frequency f ₁ by the following path to transmit the signal to the reception side.

The functions of the components provided in the Tx ₁ side transmission path and the components provided in the Tx ₂ side transmission path are the same as those described above, and a detailed description thereof will be omitted. However, if the transmission frequency of Tx1 and Tx ₂ different, each component (which is passed through an example of a tunable band-pass filter band to be different from each other) may perform the function corresponding to the frequency

The Rx ₂ side receive path includes an antenna 20, an RF switch 140 ', a tunable band elimination filter 210', an RF switch 121 ', a tunable band pass filter 123', a low noise amplifier 125 '), The tunable band-pass filter 127', and the RF switch 129 '.

The signal received from the antenna 20 is the transmission frequency f ₁ of the above-mentioned large power and the frequency f _s transmitted from another user's radio. At this time, since the switch contact is switched from 1 to 2 at the time of reception, the RF switch 140 'transmits the f ₁ signal and the f _s signal to the tunable band elimination filter 210'. The tunable band elimination filter 210 'is shifted to remove the frequency f ₁ by the control signal. That is, when the f ₁ signal transmits a frequency of 400 MHz, the control signal shifts the erasure band of the tunable band elimination filter 210 'to 400 MHz to filter only the receiving frequency f _s and transmit it to the sharing means 120' .

The RF switch 121 'of the sharing means 120' switches the signal transmitted by the tunable band elimination filter 210 'to the tunable band-pass filter 123' since the switch contact is switched from 1 to 2 upon reception. ). Function under the low noise amplifier (125 ') and a tunable bandpass filter (127') are as described above, the tunable band pass filter (123'.127 ') is a band corresponding to a reception frequency (f _s) And is moved by the control signal to remove signals other than the reception frequency f _s .

The RF switch 129 'finally transfers the reception frequency f _s to the Rx ₂ side because the switch contact is switched from 1 to 2.

Although described with reference to a Rx ₂ side receive path in order to remove the transmission frequency (f ₁₎ transmitted by the above-mentioned Tx _1-side transmission path, on the other hand the transmission frequency (f ₂₎ transmitted by the Tx _2-side transmission path, Rx ₁ side receive paths may also be used to remove.

The RF switches 121, 129 and 140 on the first transmission / reception path, the tunable band-pass filters 123 and 127, the tunable band elimination filter 210 and the like can be controlled by control signals. At this time, the control signal may be generated by control means (for example, an analog or digital circuit configuration) provided in each RF switch and the tunable band-pass filter, or a control signal may be generated by a microprocessor included in the transceiver . Also, components located on the second transmission / reception path are as described above.

Although the present invention has been described with reference to the embodiment thereof, the present invention is not limited thereto, and various modifications and applications are possible. In other words, those skilled in the art can easily understand that many variations are possible without departing from the gist of the present invention.

1, 1 ': Low noise amplifier
2, 2 ': High power amplifier
3, 3 ': RF switch
4, 4 ': band pass filter bank
5, 5 '' antenna
6, 6 ': Low noise amplifier
10: First antenna
20: second antenna
110, 110 ': Low noise amplifier
120,120 ': Sharing means
121, 121 ': RF switch
123,123 ': Tunable bandpass filter
125, 125 ': Low noise amplifier
127,127 ': Tunable bandpass filter
129, 129 ': RF switch
130,130 ': High power amplifying means
131, 131 ': High power amplifier
133,133 ': Harmonic filter
140,140 ': RF switch
210, 210 ': tunable band elimination filter

Claims (5)

A second transmission path for outputting a transmission frequency via a first transmission path and a second transmission path for outputting a transmission frequency through a transmission path of the second transmission path, Includes a receive path of the transceiver that filters the transmit frequency to eliminate interference signals occurring between the transmit frequency of the path and the receive frequency to be received and receives the receive frequency by sharing the path of at least a part of the second transmit path and,
At least one of the transmission paths,
Sharing means for filtering and amplifying a desired signal in a band corresponding to the transmission frequency and the reception frequency according to a control signal,
High power amplifying means for amplifying the signal output from the sharing means with a relatively large amplification ratio as compared with the amplification of the sharing means and filtering the frequency of the harmonic component due to the amplification,
And an antenna means for radiating a signal output from the high power amplifying means to the outside,
Wherein the sharing means comprises:
An RF switch for switching between a transmission path and a reception path,
A bandpass filter for filtering a signal input from the RF switch;
A low noise amplifier for amplifying a signal input from the band-pass filter,
A band-pass filter for filtering a signal input from the low noise amplifier,
And an RF switch for switching a signal input from the band-pass filter according to the transmission path or the reception path.
delete The method according to claim 1,
At least one of the receive paths,
And band elimination filter means for filtering the reception frequency to be received by removing a transmission frequency of the first transmission path among the signals input from the antenna means,
And the reception frequency is amplified by the sharing means of the transmission path, filtered, and transmitted to the reception side.
delete The method of claim 3,
Further comprising an RF switch for transmitting a signal output from the high power amplifying means to the antenna means at the time of transmission and for transmitting a signal inputted from the antenna means to the band elimination filter means at the time of reception Radio interference canceller.

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