KR200449198Y1 - Multiplexer Which Is Merged LNA - Google Patents

Abstract

The present invention relates to a multiplexer in which an LNA is integrated, and the multiplexer in which the LNA is integrated according to the present invention includes a donor antenna for transmitting and receiving RF signals to and from a base station antenna, and a service antenna for transmitting and receiving RF signals to and from a terminal antenna. A multiplexer having an integrated LNA connected to a rear end of a donor antenna of a communication repeater system, the RF signal of a base station connected to the donor antenna and transmitted from the base station antenna and received at the donor antenna, is input from the terminal antenna. An RF input / output common port formed by transmitting and receiving the RF signal of the terminal received from the service antenna to the donor antenna and formed at one end of the PCB; Selectively filtering the RF signal of the base station received by the donor antenna according to the frequency, selectively filtering the RF signal of the terminal received and transmitted by the service antenna according to the frequency, on the PCB on which the RF input / output common port is formed A plurality of ceramic resonator filters disposed and connected; A plurality of RF input ports for inputting RF signals of the terminal received and transmitted to the service antenna to the plurality of ceramic resonator filters and formed at the other end of the PCB; A plurality of RF output ports received at the donor antenna and outputting RF signals of the base station filtered by the plurality of ceramic resonator filters and formed at the other end of the PCB; A plurality of LNAs disposed between the plurality of ceramic resonator filters and each PCB pattern connection part connecting the plurality of RF output ports to amplify the RF signal output from the RF output port; And a plurality of power supply ports connected to the plurality of LNAs by a pair of PCB patterns to supply power to the LNAs.

Therefore, the multiplexer integrated with the LNA of the present invention integrates the LNA into the multiplexer, thereby eliminating the standing wave ratio tuning process of the mobile communication repeater system, thereby simplifying the manufacturing process and reducing manufacturing cost and improving work efficiency. .

Repeater, Multiplexer, LNA, Ceramic Resonator Filter, PCB

Description

LNA integrated multiplexer {Multiplexer Which Is Merged LNA}

The present invention relates to a multiplexer in which an LNA is integrated. The LNA, an active element provided in an output terminal, is integrated into a multiplexer, which is a passive element provided in an input terminal of a mobile communication repeater system, to integrate and integrate an LNA that is efficient in manufacturing a repeater. The present invention relates to an LNA integrated multiplexer.

1 is a block diagram of a conventional mobile communication repeater system.

As shown in FIG. 1, in general, two types of multiplexers are provided in one mobile communication repeater system, a first multiplexer and a second multiplexer.

The first multiplexer includes an RF input / output common port connected to a donor antenna for receiving an output signal (Down Link) transmitted from a base station to receive an output signal (Down Link). In addition, it has an RF output port connected to a low noise amplifier (LNA) to output an output signal (Down Link) received by the RF input and output common port, RF connected to HPA (High Power Amplifier) It is provided with an input port and the service antenna receives the output signal (Up Link) received from the terminal amplified by the HPA.

The second multiplexer includes an RF input / output common port connected to a service antenna for receiving an output signal (Up Link) transmitted from a terminal to receive an output signal (Up Link). In addition, the RF output port connected to the LNA and outputs the output signal (Up Link) received by the RF input and output common port, and has an RF input port connected to the HPA output signal received by the donor antenna from the base station (Down Link is amplified in HPA and input.

In addition, a BPF (Band Pass Filter) is inserted into each path connecting the first multiplexer and the second multiplexer provided in one mobile communication repeater system, and the first multiplexer and the second multiplexer are provided. The LNA is inserted and disposed at each path connecting the plurality of RF output ports and the BPF, and the HPA is inserted and disposed at each path connecting the BPF and the plurality of RF input ports included in the first and second multiplexers.

The mobile communication repeater system includes a plurality of single components coupled using a cable and an RF transmission line, and propagation loss and propagation distortion occur when impedance matching between the single components is different.

In order to solve the above problems, a tuning process is required. In the related art, after the individual tuning of the multiplexer and the tuning of the LNA, each of them is coupled to a mobile communication repeater system, and again, the standing wave ratio is tuned in the mobile communication repeater system. In general, the tuning process of the multiplexer is performed by connecting the ceramic resonator filter with the jig to the measuring instrument, and adjusting the size of the ceramic resonator filter through trimming to adjust the RF characteristics (input / output loss, standing wave ratio, etc.) of each port. Tune it. In the case of tuning the standing wave ratio in the mobile communication repeater system, a process for impedance matching between the multiplexer and the LNA, which is combined as a single device, was required and this process was expensive.

Therefore, there is an urgent need for a more realistic and high-efficiency solution in which the tuning process is efficient and economical in terms of cost by simplifying the mobile communication repeater system.

Therefore, the present invention has been devised to solve the above problems, and since the LNA integrated multiplexer of the present invention incorporates an active element LNA into a passive element multiplexer, the standing wave ratio tuning process is eliminated, thereby manufacturing a mobile communication repeater system. This simplification can reduce manufacturing costs and improve work efficiency.

In order to achieve the above object, a multiplexer integrated with an LNA according to an embodiment of the present invention includes a donor antenna for transmitting and receiving an RF signal with a base station antenna, and a mobile communication repeater having a service antenna for transmitting and receiving an RF signal with a terminal antenna. A multiplexer having an integrated LNA connected to a rear end of a donor antenna of a system, the LNA being directly connected to the donor antenna and inputting an RF signal of a base station received from the base station antenna and received at the donor antenna, and transmitted from the terminal antenna An RF input / output port configured to output an RF signal of the terminal received and transmitted by the service antenna to the donor antenna, and formed at one end of the PCB; Selectively filtering the RF signal of the base station received by the donor antenna according to the frequency, selectively filtering the RF signal of the terminal received and transmitted by the service antenna according to the frequency, on the PCB on which the RF input / output common port is formed A plurality of ceramic resonator filters disposed and connected; A plurality of RF input ports for inputting RF signals of the terminal received and transmitted to the service antenna to the plurality of ceramic resonator filters and formed at the other end of the PCB; A plurality of RF output ports received at the donor antenna and outputting RF signals of the terminal filtered by the plurality of ceramic resonator filters, and formed at the other end of the PCB; A plurality of LNAs disposed between the plurality of ceramic resonator filters and each PCB pattern connection part connecting the plurality of RF output ports to amplify the RF signal output from the RF output port; And a plurality of power supply ports connected to the PCB pattern in pairs with the plurality of LNAs to apply power to the LNAs.

In order to achieve the above object, a multiplexer integrated with an LNA according to another embodiment of the present invention includes a donor antenna for transmitting and receiving an RF signal to and from a base station antenna, and a mobile antenna including a service antenna for transmitting and receiving an RF signal to and from a terminal antenna. A multiplexer having an integrated LNA connected to a rear end of a service antenna of a repeater system, the RF signal of a terminal directly connected to the service antenna and transmitted from the terminal antenna and received at the service antenna, is input from the base station antenna. An RF input / output port which is transmitted to the donor antenna and outputs an RF signal of the base station transmitted to the terminal antenna and is formed at one end of the PCB; Selectively filtering the RF signal of the terminal received by the service antenna according to the frequency, selectively filtering the RF signal of the base station received and transmitted by the donor antenna according to the frequency, on the PCB on which the RF input / output common port is formed A plurality of ceramic resonator filters disposed and connected; A plurality of RF input ports configured to receive RF signals of a base station received and transmitted by the donor antenna to the plurality of ceramic resonator filters, and formed at the other end of the PCB; A plurality of RF output ports received at the service antenna and outputting RF signals of the terminal filtered by the plurality of ceramic resonator filters, and formed at the other end of the PCB; A plurality of LNAs disposed between the plurality of ceramic resonator filters and each PCB pattern connection part connecting the plurality of RF output ports to amplify the RF signal output from the RF output port; And a plurality of power supply ports connected to the PCB pattern in pairs with the plurality of LNAs to apply power to the LNAs.

Therefore, the multiplexer integrated with the LNA of the present invention incorporates the active element LNA into the passive element multiplexer, thereby eliminating the standing wave ratio tuning process, which not only simplifies the manufacturing process of the mobile communication repeater system but also reduces manufacturing cost and improves work efficiency. You can.

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

A multiplexer (100, 100 ') incorporating an LNA (160, 160') according to the present invention is a mobile antenna having a donor antenna for transmitting and receiving an RF signal with a base station antenna and a service antenna for transmitting and receiving an RF signal with a terminal antenna. It is connected to the rear end of the donor antenna of the communication repeater system or to the rear end of the service antenna.

2 is a block diagram of the multiplexer 100 integrated with the LNA 160 according to an embodiment of the present invention.

As shown in FIG. 2, the multiplexer 100 in which the LNA 160 is integrated according to an embodiment of the present invention includes a plurality of ceramic resonators disposed on an RF input / output common port 120 and one PCB 110. A filter 130, a plurality of RF input ports 140, a plurality of RF output ports 150, a plurality of LNAs 160, and a plurality of power supply ports 170, and the rear end of the donor antenna of the mobile communication repeater system Is connected to.

In more detail, the RF input / output common port 120 is directly connected to the donor antenna, the RF signal of the base station transmitted from the base station antenna and received by the donor antenna is directly input from the donor antenna, and transmitted from the terminal antenna. And output the RF signal of the terminal received and transmitted to the service antenna to the donor antenna. The RF input / output common port 120 is formed at one end portion on the PCB 110.

The ceramic resonator filter 130 selectively filters the RF signal of the base station received by the donor antenna according to the frequency, selectively filters the RF signal of the terminal received and transmitted by the service antenna according to the frequency, and A plurality of RF input / output ports 120 are formed on the PCB 110 and are connected to the RF input / output ports 120.

The RF input port 140 is formed on the other end on the PCB 110 and connected to the plurality of ceramic resonator filters 130 to receive the RF signal of the terminal received and transmitted to the service antenna, respectively Input to the ceramic resonator filter 130.

The RF output port 150 is formed on the other end of the PCB 110, the plurality of ceramic resonator filter 130 is connected to each of the plurality of ceramic resonator filter 130 is received by the donor antenna and the plurality of ceramic resonator filter 130 Outputs the RF signal of the base station filtered by.

The LNA 160 is disposed between the plurality of ceramic resonator filters 130 disposed on the PCB 110 and each PCB pattern connection part connecting the plurality of RF output ports 150 to the ceramic resonator filter. The RF signal received from the base station 130 is amplified and output to the RF output port 150. The LNA 160 amplifies the RF signal of the base station whose power level is reduced due to the effects of attenuation and noise.

The power supply port 170 is formed at the other end of the PCB 110 and is paired with each of the LNA 160 and connected in a PCB pattern to apply power to the LNA 160.

3 is a block diagram of a multiplexer (100 ') integrated with LNA according to another embodiment of the present invention.

As shown in FIG. 3, the multiplexer 100 ′ integrated with the LNA 160 ′ according to another embodiment of the present invention is disposed on the RF input / output common port 120 ′ and one PCB 110 ′. Multiple ceramic resonator filters 130 ', multiple RF input ports 140', multiple RF output ports 150 ', multiple LNAs 160' and multiple power supply ports 170 '. 2 is the same as the multiplexer of FIG. 2, but is connected to the rear end of the service antenna of the mobile communication repeater system, and its function is different.

In more detail, the RF input / output common port 120 'is directly connected to the service antenna and is transmitted from the terminal antenna to receive an RF signal of the terminal directly received from the service antenna. The RF signal of the base station transmitted and received by the donor antenna is output to the service antenna. The RF input / output port 120 'is formed at one end portion on the PCB 110'.

The ceramic resonator filter 130 'selectively filters the RF signal of the terminal received by the service antenna according to the frequency, selectively filters the RF signal of the base station received and transmitted by the donor antenna according to the frequency, A plurality of RF input / output ports 120 'are formed on the PCB 110' and are connected to the RF input / output port 120 '.

The RF input port 140 ', a plurality of RF signal of the base station is formed on the other end on the PCB (110') and connected to the plurality of ceramic resonator filter 130 ', respectively, received and transmitted to the donor antenna The input signal is input to the plurality of ceramic resonator filters 130 '.

The plurality of RF output ports 150 'are formed at the other end of the PCB 110' and are connected to the plurality of ceramic resonator filters 130 ', respectively, and are received by the service antenna to receive the plurality of ceramic resonators. The RF signal of the terminal filtered by the filter 130 'is output.

The LNA 160 'is provided between a plurality of ceramic resonator filters 130' disposed on the PCB 110 'and a plurality of PCB 110' pattern connection portions connecting the plurality of RF output ports 150 '. It is disposed in, and receives the RF signal of the terminal from the ceramic resonator filter 130 'and amplifies and outputs it to the RF output port 150'. The LNA 160 'amplifies the RF signal of the terminal whose power level is reduced due to the effects of attenuation and noise.

The power supply port 170 ′ is formed at the other end of the PCB 110 ′ and is connected to the LNA 160 ′ in pairs with each LNA 160 ′ to supply power to the LNA 160 ′. Let's do it.

The multiplexers 100 and 100 'in which the LNAs 160 and 160' of the present invention are integrated are the first multiplexer 100 which is two types of multiplexers 100 and 100 'existing in one conventional mobile communication repeater system. And the second multiplexer 100 ', respectively.

4 is a block diagram of a mobile communication repeater system to which the multiplexers 100 and 100 'integrated with LNAs 160 and 160' according to the present invention are applied.

As shown in FIG. 4, the mobile communication repeater system employing the multiplexers 100 and 100 'integrated with the LNAs 160 and 160' of the present invention has an LNA 160 and 160 'inside the multiplexer 100 and 100'. ) Are merged, and thus, unlike in the conventional mobile communication repeater system, a plurality of LNAs 160 inserted between each path connecting the BPF and the RF output ports 150 and 150 'of the multiplexer 100 and 100' are inserted. , 160 ') has been removed.

Since the present invention includes the LNAs 160 and 160 'and the power supply ports 170 and 170' in the conventional multiplexers 100 and 100 ', the jig used at the time of tuning is also used in the conventional structure. The new structure with the power supply ports 170 and 170 'added is used. However, the tuning method for adjusting the sizes of the ceramic resonator filters 130 and 130 'through trimming is the same as the conventional tuning method.

Accordingly, the mobile communication repeater system employing the multiplexers 100 and 100 'in which the LNAs 160 and 160' of the present invention are integrated, is coupled to the mobile communication repeater system after the individual tuning and the LNA tuning of the conventional multiplexer. In the method of tuning the standing wave ratio in the mobile communication repeater system, the process of tuning the standing wave ratio in the mobile communication repeater system is also eliminated by eliminating the process of combining the multiplexer and the LNA, thereby simplifying the manufacturing process of the mobile communication repeater system. It can reduce manufacturing cost and improve work efficiency.

In the detailed description of the preferred embodiments are disclosed, the specific terms used above are used only for the purpose of describing the present invention, it is used to limit the scope of the invention as defined in the meaning or claims. no.

Therefore, those skilled in the relevant art of the present invention may have various modifications and other equivalent embodiments therefrom, and the true technical protection scope of the present invention should be determined by the technical spirit of the claims.

1 is a block diagram of a conventional mobile communication repeater system.

2 is a block diagram of a multiplexer integrated LNA according to an embodiment of the present invention.

Figure 3 is a block diagram of a multiplexer integrated LNA according to another embodiment of the present invention.

Figure 4 is a block diagram of a mobile communication repeater system applying a multiplexer integrated LNA according to the present invention.

* Description of the main drawing codes *

100, 100 ': LNA integrated multiplexer

110, 110 ': PCB 120, 120': RF I / O port

130, 130 ': Ceramic resonator filter 140, 140': RF input port

150, 150 ': RF output port 160, 160': LNA

170, 170 ': Power-on port

Claims (2)

A multiplexer having an integrated LNA connected to a rear end of a donor antenna of a mobile communication repeater system having a donor antenna for transmitting and receiving an RF signal with a base station antenna and a service antenna for transmitting and receiving an RF signal with a terminal antenna, RF signal of a base station directly connected to the donor antenna and transmitted from the base station antenna and received at the donor antenna is directly input from the donor antenna, and is transmitted from the terminal antenna and received and transmitted to the service antenna. Output to the donor antenna, RF input and output common port formed on one end on the PCB; Selectively filtering the RF signal of the base station received by the donor antenna according to the frequency, selectively filtering the RF signal of the terminal received and transmitted by the service antenna according to the frequency, on the PCB on which the RF input / output common port is formed A plurality of ceramic resonator filters disposed and connected; A plurality of RF input ports for inputting RF signals of the terminal received and transmitted to the service antenna to the plurality of ceramic resonator filters and formed at the other end of the PCB; A plurality of RF output ports received at the donor antenna and outputting RF signals of the base station filtered by the plurality of ceramic resonator filters and formed at the other end of the PCB; A plurality of LNAs disposed between the PCB pattern connecting portions connecting the plurality of ceramic resonator filters and the plurality of RF output ports to amplify RF signals of the base station output by the ceramic resonator filter; And And a plurality of LNA integrated multiplexers, each paired with the plurality of LNAs, each connected in a PCB pattern and having a plurality of power supply ports for supplying power to the LNAs. A multiplexer having an integrated LNA connected to a rear end of a service antenna of a mobile communication repeater system having a donor antenna for transmitting and receiving an RF signal with a base station antenna and a service antenna for transmitting and receiving an RF signal with a terminal antenna, RF signal of a base station directly connected to the service antenna and transmitted from the terminal antenna and received by the service antenna is directly input from the service antenna, and transmitted from the base station antenna and received and transmitted to the donor antenna An RF input / output port formed at one end of the PCB and outputting to the service antenna; Selectively filtering the RF signal of the terminal received by the service antenna according to the frequency, selectively filtering the RF signal of the base station received and transmitted by the donor antenna according to the frequency, on the PCB on which the RF input / output common port is formed A plurality of ceramic resonator filters disposed and connected; A plurality of RF input ports configured to receive RF signals of a base station received and transmitted by the donor antenna to the plurality of ceramic resonator filters, and formed at the other end of the PCB; A plurality of RF output ports received at the service antenna and outputting RF signals of the terminal filtered by the plurality of ceramic resonator filters, and formed at the other end of the PCB; A plurality of LNAs disposed between the PCB pattern connecting portions connecting the plurality of ceramic resonator filters and the plurality of RF output ports to amplify RF signals of the terminal output by the ceramic resonator filter; And And a plurality of LNA integrated multiplexers, each paired with the plurality of LNAs, each connected in a PCB pattern and having a plurality of power supply ports for supplying power to the LNAs.

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