KR19980077196A - Low Noise Amplifier for Mobile Communication Base Station with Switching Method - Google Patents

Abstract

The present invention implements a low noise amplifier for a mobile communication base station using a switching device to reduce the current consumption of the low noise amplifier, to prevent the deterioration of the characteristics of the low noise amplifier according to the temperature characteristics, and to improve the reduction of the base station coverage (COVERAGE) The present invention relates to a low noise amplifier for a mobile communication base station employing a switching scheme.

In the conventional mobile communication low noise amplifier, when any one of the plurality of paths of the first and second path amplifiers fails to operate, the amplification gain decreases by about 6 dB and the noise figure increases by about 3 dB. This characteristic change is less than the available distance when the base station is operating normally, there is a problem that the entire mobile communication subscribers do not receive the service normally, only some of the subscribers receive the service.

In order to solve this problem, the present invention comprises: first switching means for selecting a path of an input high frequency signal; Power supply control means for selectively supplying input driving power according to operating states of the first and second amplifying means; First and second amplifying means driven by a power selectively applied by the power control means to amplify the high frequency signal input according to the path selection of the first switching means to a predetermined level; And second switching means for transmitting the high frequency signal selectively amplified by the first and second amplifying means to the rear stage.

Description

Low Noise Amplifier for Mobile Communication Base Station with Switching Method

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a low noise amplifier for a mobile communication base station using a switching method. In particular, a low noise amplifier for a mobile communication base station is implemented using a switching device, thereby reducing the current consumption of the low noise amplifier and reducing the characteristics of the low noise amplifier according to temperature characteristics. The present invention relates to a low-noise amplifier for a mobile communication base station using a switching scheme that prevents and improves a reduction in base station coverage.

The conventional low noise amplifier for mobile communication base station is a nominal structure using hybrid elements on the input side and the output side, respectively, as shown in Fig. 1, which has a 3dB loss of the input high frequency signal and separately outputs the first hybrid 1 and The first path amplifying unit 2 always amplifies and outputs a high frequency signal input through the first hybrid 1 to a predetermined level, and the power B is always applied. A second path amplifier 3 for amplifying and outputting a high frequency signal input through the first hybrid 1 to a predetermined level, and amplified by the first and second path amplifiers 2 and 3, respectively; It consists of the 2nd hybrid 4 which transmits the output high frequency signal to a back end.

Referring to Figure 1 attached to the operation of the conventional low-noise amplifier for a mobile communication base station configured as described above is as follows.

First, when a high frequency signal is input to the input side, the signal has a 3 dB loss of the high frequency signal through the first hybrid 1 and is separated and transmitted to the first and second path amplifiers 2 and 3, respectively.

Then, each of the high frequency signals transmitted through the first hybrid 1 through the path 1 and the path 2 in the first and second path amplifiers 2 and 3 are amplified to a predetermined level and thus the second hybrid ( Will be printed on 4).

Accordingly, the second hybrid 4 transmits the high frequency signals respectively output through the first and second path amplifiers 2 and 3 to the rear end, thereby being used by the mobile subscriber.

At this time, when any one of the path 1 or the path 2 in the first and second path amplifiers 2 and 3 fails to operate, it is output to another path (path 1 or path 2) corresponding thereto.

However, in the conventional mobile communication low noise amplifier, when any one of the plurality of paths of the first and second path amplifiers fails to operate, the amplification gain decreases by about 6 dB and the noise figure increases by about 3 dB. This characteristic change is less than the available distance when the base station is operating normally, there is a problem that the entire mobile communication subscribers do not receive the service normally, only some of the subscribers receive the service.

In addition, since power must always be supplied to the first and second path amplifiers, the current consumption is increased more than necessary, and the temperature inside the low noise amplifier is increased due to excessive current consumption. There was a problem.

Therefore, the present invention implements a low noise amplifier for a mobile communication base station by using a switching device to reduce the current consumption of the low noise amplifier, to prevent deterioration of the characteristics of the low noise amplifier due to temperature characteristics, and also to reduce the base station coverage. It is an object of the present invention to provide a low noise amplifier for a mobile communication base station employing a switching scheme to improve the performance.

Technical means of the present invention for achieving this object, the first switching means for selecting the path of the high frequency signal to be input; Power supply control means for selectively supplying input driving power according to operating states of the first and second amplifying means; First and second amplifying means driven by a power selectively applied by the power control means to amplify the high frequency signal input according to the path selection of the first switching means to a predetermined level; And second switching means for transmitting the high frequency signal selectively amplified by the first and second amplifying means to the rear stage.

1 is a block diagram of a conventional low noise amplifier for a mobile communication base station.

2 is a block diagram of a low noise amplifier for a mobile communication base station to which a switching scheme according to the present invention is applied.

Explanation of symbols on the main parts of the drawings

101: first switching unit 102: power control unit

103: first amplifying unit 104: second amplifying unit

105: second switching unit

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

2 is a block diagram of a low noise amplifier for a mobile communication base station to which a switching scheme according to the present invention is applied, comprising: a first switching unit 101 for selecting a path of an input high frequency signal; A power control unit 102 for selectively supplying input driving power according to operating states of the first and second amplifying units 103 and 104; First and second amplifiers 103, which are driven by a power selectively applied by the power control unit 102 and amplify the high frequency signal input according to the path selection of the first switching unit 101 to a predetermined level ( 104); The first and second amplifiers 103 and 104 are composed of a second switching unit 105 for transmitting the high frequency signal selectively amplified.

Referring to Figure 2 attached to the operation and effect of the present invention configured as described above is as follows.

First, in order to amplify an input high frequency signal, the power control unit 102 is adjusted to select the first amplifier 103 or the second amplifier 104.

Here, when the first amplifying unit 103 applies the driving power to the first amplifying unit 103, the first switching unit 101 switches to the first amplifying unit 103 to input the high frequency signal. It is delivered to the amplifier 103.

Then, the first amplifier 103 amplifies the high frequency signal transmitted from the first switching unit 101 to a predetermined level and transfers it to the second switching unit 105.

Accordingly, the second switching unit 105 is switched to the first amplifier 103 to output a high frequency signal transmitted from the first amplifier 103 to the rear stage.

On the other hand, when the power control unit 102 applies the driving power to the second amplifier 104, the first switching unit 101 is switched to the second amplifier 104 is a second high frequency signal input to the second amplifier Forwarded to 104.

Then, the second amplifier 104 amplifies the high frequency signal transmitted from the first switching unit 101 to a predetermined level and transmits it to the second switching unit 105.

Accordingly, the second switching unit 105 is switched to the second amplifier 104 to output a high frequency signal transmitted from the second amplifier 104 to the rear end.

That is, when the driving power is applied to the first amplifier 103 by the power controller 102, the driving power is not applied to the second amplifier 104.

In this case, when the first amplifier 103 is not driven, the power controller 102 automatically switches driving power and applies it to the second amplifier 104.

Accordingly, the second amplifier 104 amplifies the high frequency input by the driving power selectively applied by the power control unit 102 to a predetermined level and transmits it to the rear end through the second switching unit 105. will be.

As described above, since the present invention selectively applies only one of the first amplifying unit and the second amplifying unit, the present invention has an improvement effect of reducing the current consumption by half compared to the conventional method, and also deteriorates characteristics due to temperature changes. There is an effect that can be prevented.

In addition, it is possible to prevent a decrease in base station coverage (COVERAGE) caused by deterioration of the characteristics of the conventional low noise amplifier for mobile communication base station.

Claims (1)

First switching means for selecting a path of an input high frequency signal; Power supply control means for selectively supplying input driving power according to operating states of the first and second amplifying means; First and second amplifying means driven by a power selectively applied by the power control means to amplify the high frequency signal input according to the path selection of the first switching means to a predetermined level; And a second switching means for forwarding the high frequency signal selectively amplified by the first and second amplifying means to a rear end thereof.