KR20080017951A - Balun - Google Patents

Abstract

A balun is provided to adjust phase difference of a balance signal simply without whole design tuning, by comprising a phase adjustment unit. A balun includes a first transmission line(210), a second transmission line(220), a third transmission line(230) and a phase difference adjustment unit. The first transmission line has a balance signal port(211). The second transmission line is connected to an unbalance signal port(221). The third transmission line is grounded while maintaining a fixed gap with the second transmission line. The phase difference adjustment unit adjusts the length of a ground(231) of the third transmission line.

Description

Balun {BALUN}

1 is a configuration diagram of a conventional balun

2 is a block diagram of a balun according to an embodiment of the present invention

* Description of the symbols for the main parts of the drawings *

210; First transmission line 211; Balance signal terminal

220; Second transmission line 221; Unbalanced Signal Terminals

230; Third transmission line 231; ground

The present invention relates to a balloon.

Recently, as electronic devices have been miniaturized, components have been designed to be thin, light, and small, but miniaturization and high integration are limited in size in the design of printed circuit boards and low-temperature simultaneous firing ceramic substrates.

Therefore, efficient space layout and size-free design are required, and space layout becomes an important design element, especially in the design of high-frequency embedded passives (filters, baluns, capacitors, coils). Restrictions are needed.

The high frequency embedded passive in balun, which is important for the spatial layout design, is a passive element that converts a balanced signal into an unbalanced signal or a unbalanced signal into a balanced signal, and the balun is shown in FIG. The first transmission line 110 having a length of 2 and the second and third transmission lines 120 and 130 having a length of λ / 4 are arranged in two rows while maintaining a predetermined distance therebetween. One end of the transmission line 120 is open, the other end is connected to the unbalanced signal terminal 121, and one side of the third transmission line 130 to maintain a predetermined distance from the second transmission line 120 and A ground signal is connected to one end and the other end of the first transmission line 110 having a length of λ / 2 facing the second and third transmission lines 120 and 130. ) Will be connected.

Therefore, when a signal is applied to the unbalanced signal terminal 121 of the second transmission line 120, the two other balanced signal terminals 111 of the first transmission line 110 have the same amplitude and 180 degrees of phase difference. A signal having a is designed to be output.

The high-frequency embedded passive balun design of printed circuit boards and low-temperature simultaneous firing ceramic substrates is designed using a transmission line of λ / 2 so that the length of the transmission line is unavoidable during the design tuning. There is a problem that makes it difficult to arrange the space in the internal pattern design.

The present invention is to adjust the phase difference in the balanced signal terminal of the balun.

The balun of the present invention comprises: a first transmission line having a balanced signal terminal; A second transmission line to which an unbalanced signal terminal is connected; A third transmission line grounded at a predetermined distance from the second transmission line; The third transmission line includes phase difference adjusting means for adjusting the phase difference to the balanced signal terminal of the first transmission line.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

2 is a block diagram of a balun according to an embodiment of the present invention.

The first transmission line 210 has a length of lambda / 2 stub, and the balanced signal terminal 211 is connected to one end and the other end to form an output terminal having a 180 degree phase difference.

The second transmission line 220 is disposed at a position facing the first transmission line 210 and has a length of λ / 4 stub, one end of which is open, and the other end of which is connected to an unbalanced signal terminal 221. Configure the input stage.

The third transmission line 230 is disposed at a position facing the first transmission line 210, is arranged to maintain a predetermined distance from the second transmission line 220, and has a length of λ / 4 stub. The ground 231 is configured at one end and the other end.

The third transmission line 230 is provided with phase difference adjusting means.

The phase difference adjusting means is provided in the ground 231.

The phase difference adjusting means comprises a ground via capable of adjusting the ground length.

According to the present invention configured as described above, when an unbalanced signal having a predetermined frequency is input to the unbalanced signal terminal 221 of the second transmission line 220, the unbalanced signal is transmitted to the third transmission line 230 and the first transmission line. The balance signal is output to the balance signal terminal 211 through 210, and at this time, the balance signal terminal 211 outputs a balance signal having a 180 degree phase difference from the input unbalanced signal.

As described above, when the 180 degree phase difference is to be adjusted to the balanced signal output from the balanced signal terminal 211 by the unbalanced signal input to the unbalanced signal terminal 221, the phase difference adjustment provided in the third transmission line 230 is performed. The position X of the ground via is adjusted to the ground 231 as a means, and the ground length λ / 4 + X of the third transmission line 230 is adjusted by adjusting the position of the ground via.

The change in X that is adjusted at this time makes it possible to adjust the impedance imaginary part of the lambda / 2 stub having a 180 degree phase of the total balance signal. The adjustment of the imaginary part enables a change of phase.

Therefore, the unbalanced signal input to the unbalanced signal terminal 221 of the second transmission line 220 is the third transmission line 230 and the first transmission line 210 whose ground length λ / 4 + X is adjusted. Through the balanced signal stage 211, the phase difference is adjusted by the adjusted ground length (λ / 4 + X) to output a balanced signal.

As described above, the present invention provides a balun for outputting a balanced signal having a phase difference of 180 degrees with respect to an input unbalanced signal, so that a phase difference adjusting means capable of adjusting the phase difference of the balanced signal can adjust the phase difference, without overall design tuning. The phase difference of the balanced signal can be easily adjusted.

Claims (3)

A first transmission line having a balanced signal terminal; A second transmission line to which an unbalanced signal terminal is connected; A third transmission line grounded at a predetermined interval from the second transmission line; And said third transmission line includes a phase difference adjusting means for adjusting a phase difference to a balanced signal terminal of the first transmission line. The balun according to claim 1, wherein said phase difference adjusting means adjusts the length of the ground of the third transmission line. The balun according to claim 1, wherein the phase difference adjusting means includes a ground via and adjusts the impedance imaginary part of the first transmission line by adjusting the ground length of the third transmission line through the position of the ground via. .

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