KR20050063184A - Apparatus and method of controlling gain for each fa in multi-channel transceiver using pre-distortion - Google Patents

Abstract

The present invention measures the gain for each FA of a transmission output signal fed back for predistortion in a multi-channel transmitter using a pre-distorter to add a separate unit. An apparatus and method for adjusting gain for each FA of a transmission link without using the same. The apparatus according to the present invention is a device for adjusting the gain for each FA of a multi-channel transmitter to which a pre-distortion scheme is applied, and is fed back for pre-distortion from the output of an end amplifier of the transmitter and digitally converted. first means for branching the digitally converted signal; And calculating the power value for each FA of the signal branched by the first means and the power value for each FA of the transmission link, comparing the power values obtained for each FA, and gaining each FA of the transmission link by the difference. It characterized in that it comprises a second means for adjusting the.

Description

Apparatus and method of controlling gain for each FA in multi-channel transceiver using pre-distortion}

The present invention relates to an FA-specific gain adjustment apparatus and method in a multi-channel transmitter using a pre-distortion method. More specifically, in a multi-channel transmitter using a pre-distorter, a separate FA unit is measured by measuring gain of each FA of a transmission output signal fed back for predistortion. An apparatus and a method for adjusting gain for each FA of a transmission link without the addition of the present invention.

Fig. 1 is a diagram showing the configuration of a gain adjusting device of a conventional transmission signal. As shown in FIG. 1, in the conventional digital transmitter 1, the digital transmitter 1 controls the digital transmitter 1 using a separate power measurement module 2 to measure the power of a transmission output. The module 3 is configured to adjust the output gain for each FA of the transmission link in the control module 3.

More specifically, the power of the AMP is measured by the power measurement module 2 and the power of each FA is transmitted to the control module 3 for each FA. The control module 3 receives the power measurement value for each FA from the power measurement module 2 and gives a command to the digital transmitter 1 to adjust the gain by a value corresponding to an error by comparing with the preset power value. The digital transmitter 1 adjusts the gain for each FA of the transmission link by the gain value received from the control module 3.

The prior art as described above not only requires a separate power measurement module 2 to measure the transmission output of the transmitter 1, but also between the power measurement module 2 and the control module 3 and the digital transmitter 1. You need a physical connection for the interface.

The power measurement module 2 must be connected to the AMP to receive the signal and to the control module 3 to deliver the measured power. The control module 3 must be connected to the power measurement module 2 to receive the measured power and to the digital transmitter 1 for adjustment of the gain.

 In the prior art configuration, since a separate power measurement module (2) and control module (3) are required to adjust the gain for each FA in the multi-channel digital transmitter (1), it is not very advantageous in terms of cost in the system. In addition, there is a difficulty in adjusting the gain for each FA of the multi-channel digital transmitter due to the complexity of the interface for connecting each other. In addition, there is a problem in that a separate procedure for adjusting an error due to an adjustment of gain for each FA is required due to an error between the power measurement module 2 and the digital transmitter 1.

The present invention has been made to solve the problems of the conventional transmission signal gain adjusting device as described above, and an object of the present invention is a gain for each FA of a transmission link without additional equipment in a multi-channel digital transmitter adopting a predistortion scheme. It is possible to provide a FA-specific gain adjusting device and method that can increase the stability of the transmission output by allowing the control to be adjusted, and the cost reduction can be innovative due to its simplicity.

Summary of the Invention

As an aspect of the present invention, the apparatus according to the present invention, in the apparatus for adjusting the gain for each FA of the multi-channel transmitter to which the pre-distortion method is applied, the pre-distortion from the output of the terminal amplifier of the transmitter First means for branching a signal which has been fed back for an analogue to digital conversion; And calculating the power value for each FA of the signal branched by the first means and the power value for each FA of the transmission link, comparing the power values obtained for each FA, and gaining each FA of the transmission link by the difference. It characterized in that it comprises a second means for adjusting the.

As another aspect of the present invention, the method according to the present invention, in the FA-specific gain adjustment method of the multi-channel transmitter applying the predistortion method, the signal is digitally converted by the feedback for the pre-distortion from the output of the transmitter end amplifier; A first step of branching; And calculating the power value for each FA of the signal branched by the first means and the power value for each FA of the transmission link, comparing the power values obtained for each FA, and adjusting gain for each FA of the transmission link by the difference. Characterized in that it comprises a second step.

Example

The configuration, operation, effects and other features of the present invention will be understood by the preferred embodiments of the present invention specifically described with reference to the accompanying drawings. 2 is a block diagram of a preferred embodiment of a digital transmitter capable of adjusting gain for each FA according to the present invention.

As shown in Fig. 2, in this embodiment, the baseband signal transmitted from the link block 21 is synthesized by a digital combiner block through a pulse shaping filter (PSF). The signal level is adjusted by the CFR (Crest Factor Reduction) block 23, predistorted in the Digital Pre-Distortion (DPD) block 27, and converted into an analog signal by the DAC 29 to the AMP 30. Is transmitted through the antenna 32 via. The signal output from the AMP 30 and fed back is converted into a digital signal by the ADC 31 and transferred to the DPD 27 for pre-distortion.

In the present embodiment, a signal fed back for predistortion, in particular, a signal transmitted to the DPD is branched to down-convert the branched signal by the down converter 33 and down-converted in the FPGA 35. The FA value of the signal is measured, and each FA value of the transmission link is measured, and the gain of each FA is adjusted by the difference value.

3 is a block diagram of the FPGA 35. In more detail with reference to Figure 3, in the DDC 33, I _fed divided by FA _. , Q _fed. The signal is transmitted to the FPGA 35. The power value measurement module 351 for each FA fed back of the FPGA 35 is fed to each FA for each FA input from the DDC 33 _. , Q _fed. Using the signal, the power value P _{fed. Of} the signal branched by Equation 1 below is measured.

Each power value measuring module 352 by FA in the transmit link of the FPGA (35) is I _link of each of the transmission link FA, by the equation (2) below using a Q _link signal on the FA by the power value (P _link )

The power value comparison module 353 of the FPGA 35 calculates the power value P _{fed. Obtained} by the power value measurement module 351 for each FA of the fed back signal _. And the power value P _link obtained by the power value measuring module 352 for each FA of the transmission _link are compared to obtain the difference.

The gain adjustment module 354 for each FA of the transmission link of the FPGA 35 may use the link block as much as a value corresponding to the difference between the power values P _{fed. And} P _link obtained by the power value comparison module 353 _. Adjust the gain for each FA in 21) to achieve the desired output power at the final stage. In the FA-specific gain adjustment module 354 of the transmission link, the method for adjusting the FA-specific gains of the link block 21 may include coefficient values that vary according to the difference between the power values P _{fed. And} P _{link .} This can be achieved by multiplying each FA of the link block 21.

At this time, the gain in the link block 21 should be set to an initial value, and the baseband attenuation value, the RF attenuation value, and the feedback attenuation value of the combined signal are preset. Must be initialized with a value.

In the above description, a preferred embodiment of a digital transmitter capable of adjusting FA gains according to the present invention will be described. However, it will be apparent to those skilled in the art that the FA adjustment device may be configured as a separate device separate from the transmitter. In addition, it is natural that the present invention can be configured in a manner based on the technical spirit implied in the embodiments described above.

It is apparent to those skilled in the art that the present invention can be embodied in other specific forms without departing from the spirit and essential features of the present invention. Accordingly, the above detailed description should not be construed as limiting in all aspects and should be considered as illustrative. The scope of the invention should be determined by reasonable interpretation of the appended claims, and all changes within the equivalent scope of the invention are included in the scope of the invention.

According to the present invention, the multi-channel digital transmitter adopting the predistortion scheme can adjust the gain for each FA without additional equipment, thereby increasing the stability of the transmission output and reducing the cost due to the simplicity.

1 is a diagram showing the configuration of a gain adjusting device of a conventional transmission signal.

Figure 2 is a block diagram of a preferred embodiment of a digital transmitter capable of adjusting the gain for each FA according to the present invention.

Figure 3 is a block diagram of the configuration of an FPGA component of one embodiment of the present invention.

<Description of Major Reference Drawings>

21 Link Block, 23 CFR Block, 25 BB FA Combiner, 27 DPD, 29 DAC, 30 AMP, 31 ADC, 33 DDC, 35 FPGA

Claims (6)

In the device for adjusting the gain for each FA of a multi-channel transmitter applying a pre-distortion method, First means for branching a signal fed back for predistortion from an output of an end amplifier of the transmitter to an analogue to digital converted signal; And The power value for each FA of the signal branched by the first means and the power value for each FA of the transmission link are calculated, and the power values for each FA of the transmission link are compared by the difference by comparing the power values obtained for each FA. A gain adjusting device for each FA including a second means for adjusting. The method of claim 1, And a means for down converting the signal branched by the first means. The method according to claim 1 or 2, wherein the second means, Means for measuring a power value for each FA of the signal branched by the first means; Means for measuring a power value for each FA of the transmission link, Means for comparing the power value for each FA of the branched signal with the power value for each FA of the transmission link to obtain a difference value; And means for adjusting the gain for each FA of the transmission link according to the difference value. In the gain adjustment method for each FA of a multi-channel transmitter using a predistortion method, Branching a digitally converted signal fed back for predistortion from the output of an end amplifier of the transmitter; And Obtaining a power value for each FA of the signal branched by the first means and a power value for each FA of the transmission link, comparing power values obtained for each FA, and adjusting gain for each FA of the transmission link by the difference. FA-specific gain adjustment method including two steps. The method of claim 4, wherein And down converting the signal branched by the first means. The method of claim 4 or 5, wherein the second step, Measuring a power value for each FA of the signal branched in the first step; Measuring a power value for each FA of the transmission link; Comparing the power value of each FA of the branched signal with the power value of each FA of the transmission link to obtain a difference value; And adjusting the gain for each FA of the transmission link according to the difference value.