KR101846375B1 - Transformer circuit for transceiving bluetooth signal and rf input/output circuit having the transformer - Google Patents

Abstract

An RF input/output circuit comprises: a switch; a first transformer including two input terminals and two output terminals, and composed so that one input terminal of the two input terminals is connected to the switch when inputting an RF signal; and a second transformer including the two input terminals and the two output terminals, composed so that one output terminal of the two output terminals is connected to the switch when outputting the RF signal. The second transformer is located inside the first transformer on a floor plan of a layout design. A transformer circuit for transceiving a Bluetooth signal and the RF input/output circuit including the same can optimize reception and transmission properties of the RF signal by using the two transformers, and can minimize an area on a semiconductor chip.

Description

TECHNICAL FIELD [0001] The present invention relates to a transformer circuit for transmitting / receiving a Bluetooth signal, and an RF input / output circuit including the transformer. [0002]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a transformer circuit for transmitting and receiving a Bluetooth signal, and an RF input / output circuit including the transformer. More particularly, the present invention relates to a transformer, A transformer circuit for transmitting and receiving a Bluetooth signal, and an RF input / output circuit including the transformer.

In the case of a general RF input / output circuit, it is preferable that a single-ended antenna interface is applied so that the RX input and the TX output share the same pin.

In addition, the RF output and the TX input employ a differential structure to minimize common-mode noise, and a balun transformer for interfacing with an RF input / output terminal for signal input / output from the antenna, .

1 shows a configuration diagram of an RF input / output circuit 100 according to a first embodiment of the present invention.

1, the RF input / output circuit 100 according to the first embodiment uses two balun transformers 120a and 120b, and uses a switch 110 with the antenna ANT Selects the receiving transformer 120a when receiving the signal, and selects the transmitting transformer 120b when transmitting the signal.

Since the RF input / output circuit 100 according to the first embodiment of FIG. 1 uses two transformers 120a and 120b, a low noise amplifier 130 for receiving signals and a power amplifier (not shown) for transmitting signals 140 and the transformers 120a, 120b connected to the transformers 120a, 120b. However, since the two transformers 120a and 120b are used, there is a problem that the area is increased on the semiconductor chip, leading to an increase in cost.

2 shows a configuration diagram of an RF input / output circuit 200 according to the second embodiment of the present invention.

2, the RF input / output circuit 200 according to the second embodiment uses one balun transformer 220, and two input terminals of the low-noise amplifier 230 and the power amplifier 240 The switches 210a, 210b, 210c, and 210d are connected to the two output terminals of the switch 210a. That is, the RF input / output circuit 200 according to the second embodiment of the present invention has a structure in which one transformer 220 is shared when signals are received and transmitted.

Since the RF input / output circuit 200 according to the second embodiment of the present invention as shown in FIG. 2 uses one transformer 220, the cost can be reduced as the area of the semiconductor chip is minimized.

However, since the load characteristics for achieving the best performance are different in receiving and transmitting signals, optimized characteristics of the low noise amplifier and the power amplifier can not be obtained.

An object of the present invention is to solve the technical problem as described above, and it is an object of the present invention to provide a method and apparatus for transmitting and receiving a Bluetooth signal, which can minimize the area on a semiconductor chip while optimizing reception and transmission characteristics of an RF signal by using two transformers And an RF input / output circuit including the transformer circuit for the transformer circuit.

According to a preferred embodiment of the present invention, a transformer circuit includes: a first transformer; And a second transformer disposed within the first transformer on a top view of the layout design.

Specifically, the two input terminals of the first transformer are connected to the sides of the first transformer opposite to the sides to which the two output terminals of the first transformer are connected, and the two input terminals of the second transformer are connected, And the second transformer is connected to the side of the second transformer opposite to the side to which the two output terminals are connected.

And two input terminals of the second transformer are located on the sides of the second transformer parallel to the sides of the first transformer, which are at 90 degrees to the sides of the first transformer to which the two input terminals are connected, do.

It is preferable that the first transformer has a peripheral circuit configured to receive an RF signal and the second transformer has a peripheral circuit configured to output an RF signal.

An RF input / output circuit according to a preferred embodiment of the present invention includes: a switch; A first transformer including two input terminals and two output terminals, wherein an input terminal of one of the two input terminals is connected to the switch when an RF signal is input; And a second transformer including two input terminals and two output terminals, wherein an output terminal of one of the two output terminals is connected to the switch when an RF signal is output.

In addition, it is preferable that the second transformer is disposed inside the first transformer on a plan view of the layout design.

The other input terminal of the first transformer is connected to the ground terminal, and the two output terminals of the first transformer output differential signals. The other output terminal of the second transformer is connected to the ground terminal, and the two input terminals of the second transformer receive the differential signal.

Preferably, the two input terminals of the first transformer are connected to the sides of the mutually opposing sides of the sides of the first transformer to which the two output terminals are connected, and the two input terminals of the second transformer And the second transformer is connected to the side of the second transformer opposite to the side to which the two output terminals are connected. It is preferable that two input terminals of the second transformer are located on the sides of the second transformer parallel to the sides of the first transformer, which are at an angle of 90 degrees with the sides where the two input terminals of the first transformer are connected .

In addition, a signal input through and output from the RF input / output circuit is a Bluetooth signal.

According to the transformer circuit for transmitting and receiving the Bluetooth signal of the present invention and the RF input / output circuit including the transformer, the receiving and transmitting characteristics of the RF signal can be optimized using the two transformers, and the area on the semiconductor chip can be minimized.

1 is a configuration diagram of an RF input / output circuit according to a first conventional example;
2 is a configuration diagram of an RF input / output circuit according to a second embodiment of the related art.
3 is a configuration diagram of an RF input / output circuit according to a preferred embodiment of the present invention.
4 is a plan view of a layout design of a first transformer and a second transformer according to a preferred embodiment of the present invention.

Hereinafter, a transformer circuit for transmitting and receiving a Bluetooth signal and an RF input / output circuit including the transformer according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

It should be understood that the following embodiments of the present invention are only for embodying the present invention and do not limit or limit the scope of the present invention. It will be understood by those of ordinary skill in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims.

3 shows a configuration diagram of an RF input / output circuit 300 according to a preferred embodiment of the present invention.

3, the RF input / output circuit 300 according to the preferred embodiment of the present invention includes a switch 310, a first transformer 320a, a second transformer 320b, a low noise amplifier An amplifier (LNA) 330, and a power amplifier (PA)

The switch 310 is connected to the first transformer 320a when receiving a signal from the antenna ANT and to the second transformer 320b when transmitting a signal through the antenna ANT. That is, the switch 310 enables the RF input / output circuit 300 of the present invention to receive and transmit signals using one antenna ANT.

The first transformer 320a is a transformer for receiving an RF signal when receiving a signal from the antenna ANT. The first transformer 320a includes two input terminals and two output terminals. One input terminal of the two input terminals is connected to the switch 310 when the RF signal is input. In addition, another input terminal of the first transformer 320a is preferably connected to the ground terminal.

In addition, the two output terminals of the first transformer 320a output differential signals and input them to the low noise amplifier 330. [ That is, the first transformer 320a receives one input signal and outputs a differential signal.

The second transformer 320b is a transformer for outputting an RF signal when a signal is transmitted to the antenna ANT. The second transformer 320b includes two input terminals and two output terminals, and one output terminal of the two output terminals is configured to be connected to the switch 310 when the RF signal is output. In addition, the other output terminal of the second transformer 320b is preferably connected to the ground terminal.

The two input terminals of the second transformer 320b receive the differential signal from the power amplifier 340. [ That is, the second transformer 320b receives the differential signal and outputs one signal.

It is preferable that the first transformer 320a and the second transformer 320b use a balun transformer.

The low noise amplifier 330 receives a signal from the first transformer 320a, amplifies the signal, and outputs the amplified signal. In addition, the power amplifier 340 amplifies the signal and outputs the amplified signal to the second transformer 320b.

FIG. 4 is a plan view of a layout diagram Loyout of a first transformer 320a and a second transformer 320b according to a preferred embodiment of the present invention.

As can be seen from FIG. 4, the second transformer 320b is disposed inside the first transformer 320a on a plan view of the layout design. In this way, the second transformer 320b is disposed inside the first transformer 320a, so that it is possible to arrange the two transformers 320a and 320b without increasing the area on the semiconductor chip.

Q-factor characteristics are important for the first transformer 320a, which is generally a transformer for receiving signals. In addition, the resistance component causes a decrease in the NF (Noise Factor) characteristic. Therefore, it is necessary to design the radius (Radius) of the first transformer 320a, which is a transformer for receiving signals, to be large.

For this reason, it is preferable that the first transformer 320a is disposed outside and the second transformer 320b is disposed inside.

3, a peripheral circuit is configured to receive the RF signal from the first transformer 320a, and a peripheral circuit is configured to output the RF signal from the second transformer 320b, as described above with reference to FIG. do.

4, the two input terminals of the first transformer 320a are connected to the sides of the first transformer 320a opposite to the sides to which the two output terminals of the first transformer 320a are connected, . It is also preferable that the two input terminals of the second transformer 320b are connected to the sides of the second transformer 320b opposite to each other where the two output terminals are connected.

A second transformer 320b is connected to two input terminals of the second transformer 320b at a side of a second transformer 320b parallel to the sides of the first transformer 320a, Is located.

The Bluetooth standard is a TDD (Time Division Duplex) system in which RX and TX do not operate at the same time. Therefore, the RF input / output circuit of the present invention can reduce the load (Load) for the best performance of each signal transmission and reception by the configuration and arrangement of the first transformer 320a and the second transformer 320b as described above, ) Characteristics can be obtained, so that optimized characteristics of the low noise amplifier and the power amplifier can be obtained.

300: RF input / output circuit
310: switch
320a: first transformer
320b: second transformer
330: Low Noise Amplifier
340: Power amplifier

Claims (8)

delete delete delete In the RF input / output circuit,
switch;
A first transformer including two input terminals and two output terminals, wherein an input terminal of one of the two input terminals is connected to the switch when an RF signal is input; And
And a second transformer including two input terminals and two output terminals, wherein an output terminal of one of the two output terminals is connected to the switch when an RF signal is output,
Wherein the second transformer is disposed inside the first transformer on a plan view of the layout design,
The other input terminal of the first transformer is connected to the ground terminal,
The two output terminals of the first transformer output a differential signal,
And the other output terminal of the second transformer is connected to the ground terminal,
The two input terminals of the second transformer receive a differential signal,
Two input terminals of the first transformer are connected to sides of the first transformer opposite to the sides to which the two output terminals of the first transformer are connected,
Wherein two input terminals of the second transformer are connected to sides of the second transformer opposite to the sides to which the two output terminals of the second transformer are connected,
Wherein two input terminals of the second transformer are positioned on the side of the second transformer parallel to the sides of the first transformer, which is at 90 degrees to the side where the two input terminals of the first transformer are connected,
The signal input / output through the RF input / output circuit is a Bluetooth signal,
Two output terminals of the first transformer are connected to a low noise amplifier,
And two input terminals of the second transformer are connected to a power amplifier. delete delete delete delete

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