KR101075755B1 - Apparatus and method for eliminating noise of wireless transceiver - Google Patents

Abstract

According to an aspect of the present invention, there is provided a noise canceling apparatus for a wireless transceiver, comprising: a notch filter including a lumped element to remove a transmission signal from a received signal; A temperature compensation table for storing a voltage value for compensating for a characteristic change of the notch filter according to the present invention, and a voltage value for compensating for a characteristic change of the notch filter by comparing a current temperature measurement value with a temperature measurement value of the temperature compensation table. And a temperature compensating circuit for compensating for the characteristic change caused by the temperature change of the notch filter according to the voltage value output from the modem. Therefore, the present invention has the effect that it is possible to implement a noise canceling device of a wireless transceiver having a small size and low qualification by using a notch filter.

Radio Transceivers, Noise Rejection, Notch Filters, Temperature Compensation Tables, Modems

Description

Apparatus and method for removing noise of a wireless transceiver {APPARATUS AND METHOD FOR ELIMINATING NOISE OF WIRELESS TRANSCEIVER}             

1 is a block diagram of a wireless transceiver according to the prior art

2 is a view illustrating a noise generation process in a wireless transceiver

3 is a block diagram illustrating a wireless transceiver according to an embodiment of the present invention.

4 is a detailed circuit diagram of an apparatus for removing noise of a wireless transceiver according to an embodiment of the present invention.

5 is an example of a temperature compensation table of a noise removing device of a wireless transceiver according to an exemplary embodiment of the present invention.

6 is a flowchart illustrating a temperature compensation process of an apparatus for removing noise of a wireless transceiver according to an embodiment of the present invention.

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a radio transceiver, and more particularly, to an apparatus for removing noise from a radio transceiver for removing noise generated in a receiver due to an inflow of a transmission signal by a transmitter in a radio transceiver.

Recently, in order to improve reception performance, wireless transceivers having a diversity receiver in which a sub receiver is added in addition to the main receiver have been developed. However, the diversity receiver has to have a main receiver and a sub receiver together in one receiver chip, and a radio frequency (RF) filter is required in each of the main receiver and the sub receivers, which causes a large size problem. Accordingly, various methods for reducing the size of the diversity receiver have been proposed.

One way to reduce the size of a diversity receiver, for example, is to use a high performance band pass filter (BPF) for the main receiver, but a small and low cost interstage for the sub receiver. How to use a filter. An interstage filter is a filter inserted between stages, such as between a power amplifier and a mixer inside a receiver.

A diagram of a wireless transceiver having such a diversity receiver is shown in FIG. 1 is a block diagram of a wireless transceiver according to the prior art. Referring to FIG. 1, the diversity radio transceiver further includes a sub receiver 130 in addition to the RF transmitter 110 and the main receiver 120. The diversity radio transceiver uses an external bandpass filter having good performance as shown in reference numeral 122 for the main receiver 120, and a power amplifier 131 for the sub receiver 130 as shown in reference numeral 133. A relatively small interstage filter is inserted between the mixer and the mixer 133. In this case, the interstage filter may be implemented by being inserted into various types of filters such as a band pass filter or a high pass filter. However, when the interstage filter is implemented as a band pass filter and inserted, the size of the sub-receiver 130 increases, and thus, when a relatively high size high pass filter (HPF) is used as shown in FIG. There are many.

However, when the high pass filter is used in the sub receiver 130 as described above, the size of the sub receiver 130 may be reduced, but the performance of filtering the noise may be deteriorated.

2 is a diagram illustrating a noise generation process in a wireless transceiver. Referring to FIG. 2, as shown in FIG. 2A, the sub-receiver 130 receives not only the actual reception signal but also some of the transmission signals output through the transmitter 110. The transmission signal received by the sub receiver 130 passes through an active element such as the low noise amplifier 131 to generate CM noise.

In the related art, a band pass filter (BPF) is used to remove a transmission signal from a reception signal by passing only an actual reception signal. However, even though the transmission signal is removed in this way, a part of the transmission signal remains in the reception signal. As such, the transmission signal still remaining in the reception signal is modulated with an in-band single tone jammer as shown in FIG. 2 (b) while passing through a low noise amplifier and a mixer to generate CM noise. In addition, the CM noise acts as a noise in the frequency band of the received signal and degrades the reception performance. Therefore, to prevent the generation of CM noise, the transmission signal must be sufficiently removed.

Accordingly, as illustrated in FIG. 1, a noise canceller 150 having a plurality of band pass filters connected to the front end of the sub receiver 130 has been sufficiently removed. However, the method of connecting a plurality of bandpass filters is expensive, and there is a problem in that the volume of the wireless transceiver is increased by installing a plurality of bandpass filters.

Therefore, in recent years, a lumped element such as R, L, C, etc. is used instead of the bandpass filter to create a filter that does not pass only the signal of the transmission frequency band, that is, a notch filter to reduce the number of filters and to reduce the volume. This is under development. However, since the lumped device is temperature sensitive, it is difficult to implement a notch filter using a lumped device, and even if the lumped device is implemented, it is difficult to actually apply it.

Accordingly, an object of the present invention is to provide a noise removing device that accurately removes a transmission signal included in a received signal while using a notch filter implemented as a lumped element in a wireless transmitter, while using less space and using less space. have.

It is also an object of the present invention to provide a noise removing device for accurately removing a signal of a transmission frequency band from a received signal by installing a notch filter in a receiver of a wireless transmitter and compensating for a characteristic change of a notch filter according to temperature change.

According to an aspect of the present invention, there is provided a noise canceling apparatus for a wireless transceiver, comprising a notch filter configured to include a lumped element to remove a transmission signal from a received signal, a temperature sensing unit for outputting a current temperature measurement value, and a temperature. A temperature compensation table for storing a voltage value for compensating for a characteristic change of the notch filter according to the measured value and the temperature measurement value, and comparing the present temperature measurement value with the temperature measurement value of the temperature compensation table to determine the characteristic of the notch filter. And a temperature compensating circuit for outputting a voltage value for compensating for the change, and a temperature compensating circuit for compensating for the characteristic change according to the temperature change of the notch filter according to the voltage value output from the modem.

In another aspect of the present invention, a method of removing noise from a wireless transceiver includes: receiving a current temperature measurement value, and comparing a temperature measurement voltage stored in a temperature compensation table with a temperature measurement voltage according to a current temperature measured by a temperature sensing unit. And determining whether or not the temperature change is to the extent that the characteristic of the notch filter removes the transmission signal from the received signal, and if the temperature change is to the extent that the characteristic of the notch filter is changed. Compensating for the characteristic change according to the temperature change of the.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. Note that the same components in the drawings are represented by the same reference numerals and symbols as much as possible even if shown in different drawings. In addition, in describing the present invention, when it is determined that a detailed description of a related known function or configuration may unnecessarily obscure the subject matter of the present invention, the detailed description thereof will be omitted.

3 is a block diagram of a wireless transceiver according to an embodiment of the present invention. Referring to FIG. 3, a radio transceiver according to an embodiment of the present invention is a diversity structure having a main receiver and a sub receiver. The wireless transceiver according to the embodiment of the present invention is an RF transmitter 310, a first RF receiver 320, a second RF receiver 330, a duplexer 330, a band pass filter 352, and a notch filter 354. ), A temperature compensation circuit unit 356, a temperature sensor 358, a modem 360, and a temperature compensation table 362.

The RF transmitter 310 receives the baseband transmission signal to be transmitted from the modem 360 and up-converts the signal to output the transmission signal of the transmission frequency band.

The duplexer 330 outputs a transmission signal from the RF transmitter 310 through the main antenna, and provides an RF signal corresponding to the received signal among the signals received through the main antenna to the first RF receiver 320.

The first RF receiver 320 down-converts the RF received signal provided from the duplexer 330 as a main receiver and outputs the first received signal of the baseband.

The second RF receiver 340 down-converts an RF signal received through a separate sub antenna as a sub receiver and outputs a second received signal of a baseband.

However, in many cases, the RF signal received through the separate sub-antenna includes a transmission signal output from the main antenna, and the transmission signal included in the reception signal causes noise.                     

Accordingly, an embodiment of the present invention provides an apparatus for removing noise from a wireless transceiver for removing a transmission signal included in an RF received signal received through a separate sub antenna. For example, in FIG. 3, the band pass filter 352, the notch filter 354, the temperature sensor 356, the temperature compensation table 358, the modem 360, and the temperature compensation circuit 370 according to an embodiment of the present disclosure are provided. Corresponds to the noise reduction device of the wireless transceiver.

Hereinafter, the components corresponding to the apparatus for removing noise of a wireless transceiver according to an exemplary embodiment of the present invention will be described. First, the bandpass filter 352 passes only signals of a reception frequency band in an RF reception signal received through a sub antenna. Perform bandpass filtering.

The notch filter 354 comprises a lumped element, and removes the signal of the transmission frequency band from the bandpass filtered reception signal to once again remove the signal of the transmission frequency band remaining in the bandpass filtered reception signal. Performs filtering.

However, since the lumped element is sensitive to temperature, the filtering characteristic of the notch filter 354 changes with temperature. As such, when the filtering characteristic is changed, the notch filter 354 may not accurately remove a signal of a transmission frequency band from the received signal. Therefore, the filter characteristic change of the notch filter 354 according to the temperature change should be compensated for.

Accordingly, the temperature sensor 356 measures and provides a current temperature. The temperature compensation table 358 stores voltage values for compensating for the characteristic change of the notch filter 354 according to the temperature change. The temperature compensation table 362 may be stored by the modem 360 itself or may be stored in a memory external to the modem 360.

In the embodiment of the present invention, it is assumed that the temperature compensation table 362 is stored and used in the form of a radio analog sub system (RAS) table in the modem 360.

Accordingly, the modem 360 stores the temperature compensation table 362 in the form of a RAS table and controls to change the capacitance value of the variable capacitor C1 of the notch filter 354 using the RAS concept used for wireless transmission and reception. To perform. In this case, the RAS concept is to predict a nonlinear change value in advance, and store a compensation value for making the nonlinear change value as a linear change value in a table in advance and use the prestored table to change the nonlinear change in a linear manner.

That is, the modem 360 compares the current temperature measured by the temperature sensing unit 356 with the temperature of the temperature compensation table 362 to compensate for the change in the filter characteristic of the notch filter 354 that is different from the temperature change. Is output to the temperature compensation circuit 370.

The temperature compensation circuit 370 compensates for the characteristic change caused by the temperature change of the notch filter according to the voltage value output from the modem 360.

Therefore, the apparatus for removing noise of a wireless transceiver according to the embodiment of the present invention as described above almost eliminates a transmission signal, that is, noise, from an RF received signal received through a sub antenna, and passes only a signal of an actual reception frequency band accurately.

Hereinafter, an apparatus for removing noise of a wireless transceiver according to an exemplary embodiment of the present invention as described above will be described in more detail. 4 is a detailed circuit diagram illustrating an apparatus for removing noise of a wireless transceiver according to an exemplary embodiment of the present invention.                     

Referring to FIG. 4, the notch filter 354 includes a circuit in which an inductance L and a variable capacitance C1, which are lumped elements, are connected in series, and are transmitted from a reception signal bandpass filtered from the bandpass filter 352. Remove the signal in the frequency band. In this case, the variable capacitance C1 may be configured as a varactor diode.

The temperature sensor 356 may be configured as a thermometer and outputs a temperature measurement voltage corresponding to the current temperature by using a resistance whose value changes according to a temperature change.

The temperature compensation table 362 corresponds to and stores the temperature measurement voltage of the temperature sensing unit 356 and a pulse digital modulation (PDM) output voltage to be provided to compensate for the characteristic change of the notch filter 354 according to the temperature change. .

5 is a diagram of a temperature compensation table 362 according to an embodiment of the present invention. Referring to FIG. 5, temperature (° C.) represents degrees Celsius, and temperature measurement voltage (V) represents an output voltage of the temperature sensing unit 356 at each degree Celsius. And PDM output voltage (V) represents the value of the PDM output voltage (V) to be provided to compensate for the characteristic change of the notch filter 354 according to each temperature measurement voltage. 5 illustrates an example in which the PDM output voltage V is linearly changed according to the temperature measurement voltage. In this case, the PDM output voltage V may be stored differently according to the capacity or characteristics of the variable capacitor C1 constituting the notch filter 354, and the capacity or characteristic of the variable capacitor C1 constituting the notch filter 354. Can be changed non-linearly.

The modem 360 checks the temperature measurement voltage measured by the temperature sensor 356, reads the PDM output voltage corresponding to the temperature measurement voltage checked in the temperature compensation table 362, and then reads the PDM signal accordingly. Output to the compensation circuit 370.

The temperature compensation circuit 370 may be configured as a circuit composed of a capacitance C2 connected in parallel with the resistor R. The temperature compensation circuit 370 converts the PDM output signal from the modem 360 into a constant DC voltage to change the notch filter 354. It is applied to capacitance C1.

 In the variable capacitance C1 of the notch filter 354, the capacitance value is changed according to the DC signal input from the temperature compensation circuit 370 to compensate for the characteristic change caused by the temperature change of the notch filter 354, thereby notifying the notch filter 354. This ensures that the filtering characteristic of is kept constant.

Accordingly, the notch filter 354 is not affected by the temperature change, and removes the transmission signal, that is, the noise, from the bandpass filtered reception signal and accurately passes only the signal of the actual reception frequency band.

Hereinafter, the operation of the modem 360 for compensating for the change in the filtering characteristic according to the temperature change of the notch filter 354 in the noise removing device of the wireless transceiver will be described in detail.

6 is a flowchart illustrating a temperature compensation process in the apparatus for removing noise of a wireless transceiver according to an embodiment of the present invention.

Referring to FIG. 6, the modem 360 receives a current temperature measurement in step 602. That is, the modem 360 receives the measured current temperature measurement value from the temperature sensor 356.

In operation 604, the modem 360 compares the temperature measurement voltage stored in the temperature compensation table 362 with the temperature measurement voltage according to the current temperature measured by the temperature sensor 356.

In operation 606, the modem 360 determines whether the temperature compensation of the notch filter 354 is necessary. That is, the modem 360 determines whether or not the temperature change is such as to change the characteristics of the notch filter 354.

If the temperature compensation of the notch filter 354 is not necessary, the modem 360 returns to step 602 and repeats steps 602 to 606.

If the temperature compensation of the notch filter 354 is necessary, the modem 360 adjusts the capacitance value of the variable capacitor C1 of the notch filter 354 in step 608.

While the present invention has been described in connection with what is presently considered to be practical exemplary embodiments, it is to be understood that the invention is not limited to the disclosed embodiments. Therefore, the scope of the present invention should not be defined by the described embodiments, but should be determined by the equivalent of claims and claims.

As described above, the present invention has an effect that a noise canceling device of a wireless transceiver having a small size and a low qualification can be implemented by using a notch filter.

In addition, the present invention has the effect of increasing the accuracy of the transmission signal cancellation using the notch filter by compensating for the characteristic change according to the temperature change of the notch filter implemented by the rump element.

In addition, the present invention has the effect of reducing the generation of CM noise by removing the transmission signal included in the received signal in the sub-receiver of the radio transceiver having a diversity structure using a notch filter.

Claims (6)

In the noise removing device of the radio transceiver, A notch filter composed of a lumped element to remove the transmitted signal from the received signal, A temperature sensor for outputting a current temperature measurement value; A temperature compensation table for storing a temperature measurement value and a voltage value for compensating for a characteristic change of the notch filter according to the temperature measurement value; A modem for comparing a current temperature measurement value with a temperature measurement value of the temperature compensation table and outputting a voltage value for compensating for a characteristic change of the notch filter; And a temperature compensation circuit for compensating for a characteristic change according to a temperature change of the notch filter according to the voltage value output from the modem. The method of claim 1, The voltage value for compensating for the characteristic change of the notch filter is a pulse digital modulation (PDM) signal output voltage value output from the modem. The method of claim 2, wherein the notch filter is And an inductor and a variable capacitor in series, wherein a capacitance component of the variable capacitor is changed according to a predetermined DC signal input. The method of claim 3, And the temperature compensation circuit converts the PDM signal output voltage from the modem into a constant DC voltage and provides the variable capacitor of the notch filter to compensate for the characteristic change caused by the temperature change of the notch filter. In the noise removal method of the wireless transceiver, The modem receives the current temperature reading, Comparing, by the modem, the temperature measurement voltage stored in the temperature compensation table with the temperature measurement voltage according to the current temperature measured by the temperature sensing unit; Determining, by the modem, whether or not the temperature change is such as to change a characteristic of a notch filter that removes a transmission signal from a received signal; And if the temperature change is such that the characteristic of the notch filter changes, the modem compensates for the characteristic change according to the temperature change of the notch filter. The method of claim 5, Compensating for the characteristic change according to the temperature change of the notch filter is a process in which the modem adjusts the capacitance value of the variable capacitor of the notch filter by the characteristic change according to the temperature change.

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