KR20020029168A - Power detector of transmission and reception double use in base station - Google Patents

Abstract

PURPOSE: An apparatus for detecting both transmit power and receive power in a base station is provided to detect the power of a received signal and the power of a transmitting signal in common using a 2:1 structured switch. CONSTITUTION: An apparatus for detecting both transmit power and receive power in a base station consists of an Rx filter part(11), a variable low power amplifier(12), a Tx filter part(13), a variable attenuator(14), a switch part(15), a linear detector(16), and a non-inverse amplifier(17). The Rx filter part(11) filters an RF signal, received to the base station through an antenna(Ant), using an Rx filter or an Rx channel filter according to a detection condition. The variable low power amplifier(12) variably amplifies the power of the RF signal passed through the Rx filter part(11) in accordance with the range based on the linearity of the linear detector(16). The Tx filter part(13) filters an RF signal to be transmitted through an antenna(Ant) using a Tx filter or a Tx channel filter according to the detection condition. The variable attenuator(14) variably attenuates the power of the RF signal passed through the Tx filter part(13) in accordance with the range based on the linearity of the linear detector(16). The switch part(15) selects a power detection path using a 2:1 structured switch. The linear detector(16) converts either the received RF signal or the transmitting RF signal, inputted according to a power detection path selected at the switch part(15), into a DC voltage. The non-inverse amplifier(17) amplifies the converted DC voltage.

Description

Transmitter and receiver power detection device in base station {POWER DETECTOR OF TRANSMISSION AND RECEPTION DOUBLE USE IN BASE STATION}

The present invention relates to a power transmission and reception device for both base transceiver stations, and more particularly, to a power transmission and reception apparatus for both base transceiver stations capable of jointly detecting the power of a received signal and the power of a transmitted signal using a 2: 1 switch. will be.

The base station of the conventional mobile communication system is provided with a power detection device for detecting the power of the received signal and the power of the transmission signal.

In the conventional power detection apparatus, as shown in (a) and (b) of FIG. 1, the receiving side and the transmitting side are separately configured.

That is, the conventional power detection apparatus for the received signal in the base station includes an Rx filter and a low noise amplifier (LNA) 1, first and second mixers 3 and 4, and an AGC as shown in FIG. (DowN Converter Unit) (DNCU) having an Auto Gain Controller (5), and a power detection device of a transmission signal in a base station includes a Tx filter 6 as shown in FIG. It consists of a BTS Transceiver Unit (BTRU) 7 with a power detector 8.

The power detection device of the received signal detects the power of the received signal received by the base station through the AGC (5), and the power detection device of the transmission signal through the self power detector (8) in the BTRU (7) Detect the power of the transmission signal sent by

However, in the conventional power detection device as described above, in the case of the power detection device of the received signal, the received signal received by the base station is not limited to the Rx filter and the internal devices such as the LNA (1) and the first and second mixers (3, 4). As attenuation occurs as devices pass through, there is a problem that incorrect power detection can be achieved.

In addition, since the power detection apparatus is implemented separately for each receiving and transmitting side, there is a problem in that power detection for each signal is inconvenient, and in particular, there is a problem that only the power of the reception signal and the transmission signal of one channel has to be detected. .

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems, and an object thereof is to provide a power transmission and reception device for both base transceiver stations capable of jointly detecting power of a received signal and power of a transmitted signal using a switch of a 2: 1 structure. To provide.

Another object of the present invention is to provide a power transmission and reception device for both base transceiver stations capable of detecting power of a reception signal of a full frequency band and a transmission signal of a full frequency band.

Another object of the present invention is to provide a power transmission and reception device for both base transceiver stations capable of detecting power of a received signal and a transmitted signal of one channel.

Still another object of the present invention is to provide a power transmission and reception device for both base transceiver stations capable of detecting power for coherent spurious other than a reception frequency band.

1 (a) is a block diagram of a power detection device for a conventional reception signal in a base station, (b) is a block diagram of a power detection device for a transmission signal in a conventional base station,

2 is a block diagram of a power transmission and reception device for both base stations according to the present invention;

FIG. 3A is a circuit diagram of the non-inverting amplifier of FIG. 2, and FIG. 3B is a graph showing the input / output relationship of the non-inverting amplifier.

<Description of the symbols for the main parts of the drawings>

11: Rx filter unit 12: variable low power amplifier

13 Tx Filter Part 14 Variable Attenuator

15 switch 16: linear detector

17: non-inverting amplifier

In accordance with an aspect of the present invention, there is provided a base station transmitting / receiving power detection apparatus including an Rx filter unit for filtering an RF received signal received at a base station through an antenna according to a detection condition, and an RF reception passing through the Rx filter unit. A variable low power amplifier that variably amplifies the power of the signal according to the linearity of the linear detector, a Tx filter unit for filtering an RF transmission signal to be transmitted through an antenna in accordance with a detection condition by a base station, and the Tx filter unit. A variable attenuator for variably attenuating the power of the RF transmission signal according to the linearity of the linear detector; a switch unit for selecting a power detection path for the RF reception signal or the RF transmission signal using a 2: 1 switch; Linear to convert the RF receiving signal or the RF transmission signal input according to the power detection path selected by the switch unit into a DC voltage And a non-inverting amplifier for amplifying the DC voltage converted by the linear detector.

Hereinafter, with reference to the accompanying drawings will be described in detail the configuration and operation of the base station for transmitting and receiving power detection device according to the present invention.

FIG. 2 is a block diagram of a power transmission and reception apparatus for both base transceiver stations according to the present invention, wherein an Rx filter or an Rx channel filter filters an RF received signal received at a base station through an antenna according to a detection condition. A filter unit 11, a variable low power amplifier 12 for variable amplifying the power of the RF received signal passing through the Rx filter unit 11 according to the linearity of the linear detector, and an antenna at the base station ( Ant) and the Tx filter unit 13 for filtering the RF transmission signal to be transmitted through the Tx filter or the Tx channel filter according to the detection condition, and the power of the RF transmission signal passing through the Tx filter unit 13. Power attenuation whether the power of the received signal or the power of the transmitted signal is detected using a variable attenuator 14 that variably attenuates according to the linearity of the linear detector according to a linearity and a 2: 1 switch. A switch unit 15 for selecting a path, a linear detector 16 for converting an RF reception signal or an RF transmission signal input according to a power detection path selected by the switch unit 15 into a DC voltage; The non-inverting amplifier 17 amplifies the DC voltage converted by the linear detector 16.

3A is a circuit configuration diagram of the non-inverting amplifier 17 of FIG. 2, and includes two resistors R1 and R2 and one OP amplifier OP. As a graph illustrating the input / output relationship of the non-inverting amplifier 17 of FIG. 2, it can be seen that the input / output relationship is a proportional relationship.

Referring to the operation of the dual base transceiver system of the present invention configured as described above is as follows.

First, the power detection path is selected using a 2: 1 switch in the switch unit 15.

That is, it is selected whether the power of the received signal or the power of the transmitted signal is detected by turning on / off the switch of the 2: 1 structure to the receiving side path or the transmitting side path.

Here, if the power of the received signal is to be detected first, the operation is as follows.

The Rx filter unit 11 filters the RF received signal received by the base station through the antenna according to a detection condition. In this case, when the detection condition is the detection of the received signal power of the entire frequency band, the Rx filter is used. The RF received signal is filtered, and when the received signal power of one channel is detected, the corresponding RF received signal is filtered using an Rx channel filter.

Subsequently, the variable low power amplifier 12 variably amplifies the power of the RF received signal passing through the Rx filter unit 11 according to the linearity of the linear detector 16.

In this case, since the linearity detector 16 has a range of 60 dB in linearity (-70 dBm to -10 dBm) in the frequency band of 0.1 GHz to 2.5 GHz, for example, to detect the received signal power of -100 dBm to -40 dBm, the variable low power. The gain of amplifier 12 should be designed to be 30 dB.

Thereafter, the linear detector 16 inputs the RF received signal amplified by the variable low power amplifier 12 through the switch unit 15 and converts it into a DC voltage.

At this time, the linear detector 16 outputs an RF received signal of -70 dBm to -10 dBm at a DC voltage of 0.45 to 1.7 V.

Thereafter, the DC voltage converted by the linear detector 16 is amplified by the non-inverting amplifier 17 to finally detect the power of the RF received signal.

At this time, the non-inverting amplifier 17 is amplified by Vout = (1 + R1 / R2) Vin through the OP amplifier (OP) shown in (a) of Figure 3, the value of the resistor (R1, R2) As you change it, you get the desired Vout value.

Next, the power detection operation of the transmission signal will be described. The Tx filter unit 13 filters the RF transmission signal to be transmitted through the antenna at the base station according to the detection condition, where the detection condition is before the transmission frequency. In the case of detection of the transmission signal power of the band, the corresponding RF transmission signal is filtered using the coupling test port of the Tx filter, and in the case of detection of the transmission signal power of one channel, the coupling test of the Tx channel filter. The port is used to filter the corresponding RF transmission signal.

Subsequently, the variable attenuator 14 variably attenuates the power of the RF transmission signal passing through the Tx filter unit 13 according to the linearity of the linear detector 16.

That is, the gain of the variable attenuator 14 is attenuated so that the maximum value of the RF transmission signal power is -10 dBm, and the gain of the variable attenuator 14 is designed to 30 dB similarly to the design of the variable low power amplifier 12.

Thereafter, the linear detector 16 inputs the RF transmission signal attenuated by the variable attenuator 14 through the switch unit 15 and converts it into a DC voltage.

Thereafter, the DC voltage converted by the linear detector 16 is amplified by the non-inverting amplifier 17 to finally detect the power of the RF transmission signal.

That is, the power of the RF transmission signal is detected in voltage units.

Meanwhile, in the present invention, the Rx filter unit 11 may detect power for coherent spurious other than the reception frequency band by using an Rx notch filter.

As described above, the present invention has an effect that the power of the received signal and the power of the transmitted signal can be jointly detected by using a switch of a 2: 1 structure. In this case, as well as the received signal and the transmitted signal of one channel, It is possible to detect power of the reception signal of the entire frequency band and the transmission signal of the full frequency band.

In addition, power detection for coherent spurious outside the reception frequency band is also possible.

In addition, the power detection device of the present invention can be used by attaching to the FEU in the base station (in which case, the filter unit is excluded), and can be easily developed and used for portable use.

Claims (6)

An Rx filter unit for filtering an RF received signal received at the base station through an antenna using an Rx filter or an Rx channel filter according to a detection condition; A variable low power amplifier configured to variably amplify the power of the RF received signal passing through the Rx filter unit according to the linearity of the linear detector; A Tx filter unit for filtering an RF transmission signal to be transmitted through an antenna by a base station using a Tx filter or a Tx channel filter according to a detection condition; A variable attenuator configured to variably attenuate the power of the RF transmission signal passing through the Tx filter in accordance with the linearity of the linear detector; A switch unit for selecting a power detection path for an RF reception signal or an RF transmission signal using a 2: 1 switch; A linear detector for converting an RF reception signal or an RF transmission signal input into a DC voltage according to the power detection path selected by the switch unit; In-base transceiver transmission and power detection device characterized in that the non-inverting amplifier for amplifying the DC voltage converted by the linear detector. 2. The apparatus of claim 1, wherein the Rx filter unit filters the corresponding RF received signal using an Rx filter when the detection condition of the Rx filter unit is the reception signal power of the entire reception frequency band. 2. The apparatus of claim 1, wherein the RF reception signal is filtered using an Rx channel filter when the detection condition of the Rx filter unit is a detection of power of one channel. The combined base station transmit / receive power according to claim 1, wherein when the detection condition of the Tx filter unit detects transmission signal power of the entire transmission frequency band, the corresponding RF transmission signal is filtered using a coupling test port of the Tx filter. Detection device. 2. The base station transceiver power detection according to claim 1, wherein, when the detection condition of the Tx filter unit is the detection of the transmission signal power of one channel, the corresponding RF transmission signal is filtered using a coupling test port of the Tx channel filter. Device. The apparatus of claim 1, wherein the Rx filter unit detects power for a coherent spurious other than a reception frequency band by using an Rx notch filter.