KR20040039519A - Rf transceiver - Google Patents

Abstract

PURPOSE: An RF(Radio Frequency) transceiver is provided to remove a combiner and to insert a new type band pass filter in order to cancel the loss due to the combiner and to prevent an ACPR(Adjustment Channel Power Ratio) characteristic from being lowered due to the combiner loss. CONSTITUTION: An RF transceiver comprises a power amplifier(210), an inductive band pass filter(220), a high power detection signal generation part(230), an isolator(240), a transmit-receive changeover part(250), and an antenna(260). The power amplifier(210) amplifies an inputted signal and outputs it to the inductive band pass filter(220). The inductive band pass filter(220) creates an inductive signal and outputs it to the high power detection signal generation part(230). The high power detection signal generation part(230) converts the inductive signal into a DC signal. The isolator(240) transfers a signal, inputted from the inductive band pass filter(220), to the transmit-receive changeover part(250). The transmit-receive changeover part(250) protects a receiver from transmit power in transmitting and supplies an echo signal to the receiver in receiving. The antenna(260) sends signals, inputted from the transmit-receive changeover part(250), through the air or receives signals from the air.

Description

RF Transceiver {RF TRANSCEIVER}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an RF transceiver, and more particularly, to an RF transceiver that is installed in an RF (Radio Frequency) transceiver in a mobile communication terminal and a base station, so that transmission power can be stably adjusted by detecting transmission power.

1 is a block diagram illustrating a conventional RF transceiver, which includes a RF band pass filter 110 for passing a high frequency (Radio Frequency) signal and blocking the remaining bands; A power amplifier 120 which receives the amplified high frequency signal from the RF band pass filter 110 and amplifies and outputs the amplified signal; A combiner 130 for providing a signal input from the power amplifier 120 to two paths including a high power detection signal output terminal; An isolator 140 which transmits a signal input from the combiner 130; Duplexer, which protects the receiver (not shown) from the transmit output when transmitting for use jointly for transmission and reception, and supplies an echo signal to the receiver (not shown) when receiving 150; And an antenna 160 which transmits a signal received from the duplexer 150 through the air and receives the signal from the space.

However, in the above-described conventional RF transceiver, the coupler 130 is used for high power detection. Since the coupler is a passive element, in order to generate a combined signal used as a high power detection signal, a problem of power loss occurs. have. That is, since the combined signal is output to the output terminal after a loss of several to tens of dB of the input power depending on the combiner, the gain of the amplifier must be increased to compensate for this loss, and accordingly, the ACPR characteristic is adjusted. There is a problem of this deterioration.

The present invention devised to solve the above problems, by eliminating the coupler, inserting a new type of band pass filter, eliminates the loss caused by the coupler, and prevents the ACPR (Adjustment Channel Power Ratio) degradation due to the coupler loss Its purpose is to provide an RF transceiver.

1 is a block diagram showing a conventional RF transceiver,

2 is a block diagram illustrating an RF transceiver according to an embodiment of the present invention.

Explanation of symbols on the main parts of the drawings

210: power amplifier 220: induction band pass filter

230: high power detection signal generator 240: isolator

250: handset converter 260: antenna

In order to achieve the above object, the RF transceiver of the present invention comprises: a power amplifier for receiving and amplifying a signal; An induction band pass filter configured to pass a high frequency signal, block signals in the remaining bands except for the high frequency region, and generate an induction signal through a current induction process; A high power detection signal generator for converting the induction signal input from the induction band pass filter into a DC signal and outputting the DC signal as a high power detection signal; An isolator for transferring a signal input from the inductive band pass filter; A handset switch for receiving a signal output from the isolator and switching a transmission / reception function; And an antenna for transmitting a signal received from the handset converter through a space and receiving a signal from the space.

Hereinafter, the most preferred embodiments of the present invention will be described with reference to the accompanying drawings so that those skilled in the art can easily implement the technical idea of the present invention. .

2 is a block diagram illustrating an RF transceiver according to an embodiment of the present invention. The RF transceiver of the present invention includes a power amplifier 210, an induction band pass filter 220, a high power detection signal generator 230, An isolator 240, a handset diverter 250, and an antenna 260.

The power amplifier 210 receives a signal, amplifies it, and outputs the amplified signal to an induction band pass filter 220 to be described later.

In addition, the induction band pass filter 220 passes a high frequency (Radio Frequency) signal, blocks signals in the remaining bands except for the high frequency region, and generates a induction signal through a current induction process to generate a high power detection signal which will be described later. It serves to output to the generation unit 230. Here, the induction band pass filter 220 will be described in detail as follows.

The first capacitor 221 mounted in the induction band pass filter 220 has a first terminal connected to an output terminal of the power amplifier 210 and a second terminal grounded to provide a charge / discharge function. Do it.

In addition, a first inductor 222 mounted in the induction band pass filter 220 has a first terminal connected to an output terminal of the power amplifier 210 and a second terminal grounded to provide inductance. Do it.

On the other hand, the second capacitor 223 mounted in the induction band pass filter 220, the first terminal is connected to the output terminal of the power amplifier 210, and serves to provide a charge and discharge function.

In addition, the second inductor 224 mounted in the induction band pass filter 220 has a first terminal connected to a second terminal of the second capacitor 223, and the second terminal isolator 240 described later. It is connected to the input terminal of, and serves to provide inductance.

On the other hand, the third capacitor 225 mounted in the induction band pass filter 220, the first terminal is connected to the input terminal of the isolator 240, which will be described later, the second terminal is grounded, providing a charge and discharge function It plays a role.

In addition, the third inductor 226 mounted in the induction band pass filter 220 has a first terminal connected to an input terminal of an isolator 240 which will be described later, and the second terminal is grounded to provide inductance. Do it.

On the other hand, the fourth inductor 227 mounted in the induction band pass filter 220, the first terminal is connected to the input terminal of the high power detection signal generator 230 to be described later, the second terminal is grounded, The induced signal is generated by using current induced by interaction with the second inductor 224.

In addition, the high power detection signal generator 230 converts the induction signal input from the induction band pass filter 220 into a DC signal, and converts the DC signal into a central processing unit (not shown) as a high power detection signal. It plays a role of outputting. Here, the high power detection signal generator 230 will be described in detail as follows.

The diode 231 mounted in the high power detection signal generator 230 receives the induction signal through an anode and serves to half-wave rectify the induction signal.

In addition, the fourth capacitor 232 mounted in the high power detection signal generator 230 has a first terminal connected to a cathode of the diode 231 and a second terminal grounded to provide a charge / discharge function. Play a role.

On the other hand, the fifth inductor 233 mounted in the high power detection signal generator 230, the first terminal is connected to the cathode of the diode 231, serves to provide inductance.

In addition, the fifth capacitor 234 mounted in the high power detection signal generator 230 has a first terminal connected to the second terminal of the fifth inductor 233, and the second terminal is grounded, thereby charging and discharging. It provides a function. The fourth capacitor 232, the fifth inductor 233, and the fifth capacitor 234 form a pi (π) type smoothing circuit.

On the other hand, the isolator (240), and transmits the signal input from the induction band pass filter 220 to the handset 250 to be described later.

In addition, the handset switching device 250 protects the receiver (not shown) from the transmission output when transmitting the antenna 260, which will be described later, for joint use for transmission and reception. Not supplied).

On the other hand, the antenna 260, and transmits the signal received from the transmitter / switch 250 through the air (Air), and serves to receive a signal from the space.

Referring to the operation of the RF transceiver of the present invention described above are as follows.

When the transmit / receive signal is input to the power amplifier 210, the transmit / receive signal is amplified and then input to the induction band pass filter 220. Subsequently, the induction band pass filter 220 passes a high frequency (Radio Frequency) signal, cuts out signals in the remaining bands except for the high frequency region, and outputs the signal to the isolator 240. Thereafter, the isolator 240 transmits the signal input from the induction band pass filter 220 to the handset switcher 250, and the handset switcher 250 receives a receiver (not shown) from the transmission output. The high frequency signal is transmitted to the air through the antenna 260. On the other hand, the induced signal generated through the current induction process of the induction band pass filter 220 is input to the high power detection signal generator 230, the high power detection signal generator 230 from the induction band pass filter 220 The input guidance signal is converted into a DC signal, and the DC signal is output as a high power detection signal to a central processing unit (not shown). Here, the induced signal is generated by mutual inductance.

The present invention described above is capable of various substitutions, modifications, and changes without departing from the technical spirit of the present invention for those skilled in the art to which the present invention pertains. It is not limited to the drawings shown.

The present invention has the advantage of eliminating the coupler and inserting a new type of band pass filter to eliminate losses caused by the coupler and to prevent degradation of the adjustment channel power ratio (ACPR) characteristics due to the coupler loss.

Claims (3)

A power amplifier receiving and amplifying a signal; An induction band pass filter configured to pass a high frequency signal, block signals in the remaining bands except for the high frequency region, and generate an induction signal through a current induction process; A high power detection signal generator for converting the induction signal input from the induction band pass filter into a DC signal and outputting the DC signal as a high power detection signal; An isolator for transferring a signal input from the inductive band pass filter; A handset switch for receiving a signal output from the isolator and switching a transmission / reception function; And An antenna for transmitting a signal received from the handset converter through a space, and receiving a signal from the space RF transceiver comprising a. The filter of claim 1, wherein the induction band pass filter comprises: A first terminal is connected to the output terminal of the power amplifier, and the second terminal is a grounded first capacitor; A first inductor connected to an output terminal of the power amplifier and a second terminal grounded; A second capacitor having a first terminal connected to an output terminal of the power amplifier; A first inductor connected to a second terminal of the second capacitor, and the second terminal connected to an input terminal of the isolator; A first capacitor connected to an input terminal of the isolator, and a second terminal connected to a grounded third capacitor; A first inductor connected to an input terminal of the isolator, and a second terminal to a grounded third inductor; And A first terminal is connected to an input terminal of the high power detection signal generator, and a second terminal is grounded to generate a fourth inductor using the current induced by interaction with the second inductor. RF transceiver comprising a. The high power detection signal generator of claim 1 or 2, A diode receiving the guidance signal at an anode and half-wave rectifying the guidance signal; A first capacitor is connected to a cathode of the diode, and a second terminal is grounded; A first terminal comprising: a fifth inductor connected to the cathode of the diode; And A first terminal is connected to the second terminal of the fifth inductor, and the second terminal is a grounded fifth capacitor RF transceiver comprising a.