JP7504709B2 - Repeater Device - Google Patents

Description

An embodiment of the present invention relates to a repeater device.

Repeater devices are known as relay devices that relay wireless communications between base stations and terminals.

JP 2016-19033 A

In the repeater device as described above, a configuration may be adopted in which a second signal of a second frequency is output in response to an input of a first signal of a first frequency, and a first signal of the first frequency is output in response to an input of a second signal of the second frequency. In this case, in addition to frequency conversion of the first and second signals, amplification of the first and second signals may also be performed.

In the above-described configuration for performing frequency conversion and amplification, if an amplifier for amplifying the input of the first signal, an amplifier for amplifying the input of the second signal, an amplifier for amplifying the output of the first signal, and an amplifier for amplifying the output of the second signal are each provided separately, the repeater device will become large and heavy. However, there is an increasing demand for smaller and lighter repeater devices.

The repeater device according to the embodiment includes a first duplexer, a second duplexer, a frequency converter, and at least one of a common input amplifier and a common output amplifier. The first duplexer transmits and receives a first signal of a first frequency. The second duplexer transmits and receives a second signal of a second frequency different from the first frequency. The frequency converter includes a first input port to which the first signal from the first duplexer is input, a second input port to which the second signal from the second duplexer is input, a first output port to which the first signal to the first duplexer is output, and a second output port to which the second signal to the second duplexer is output. The frequency converter performs frequency conversion on the first signal and the second signal so that when the first signal is input via the first input port, the frequency converter outputs the second signal via the second output port, and when the second signal is input via the second input port, the frequency converter outputs the first signal via the first output port. The common input amplifier is connected to both the first input port and the second input port, and performs both the amplification of the first signal and the amplification of the second signal by itself. The common output amplifier is connected to both the first output port and the second output port, and performs both the amplification of the first signal and the amplification of the second signal by itself.

FIG. 1 is an exemplary schematic diagram showing a usage mode of a repeater device according to a first embodiment. FIG. 2 is an exemplary schematic diagram illustrating a hardware configuration of the repeater device according to the first embodiment. FIG. 3 is an exemplary schematic diagram illustrating a hardware configuration of a repeater device according to the second embodiment. FIG. 4 is an exemplary schematic diagram illustrating a hardware configuration of a repeater device according to the third embodiment.

Below, several embodiments of the present disclosure will be described with reference to the drawings. The configurations of the embodiments described below, as well as the actions and effects brought about by the configurations, are merely examples and are not limited to the contents described below.

First Embodiment
FIG. 1 is an exemplary schematic diagram showing a usage mode of a repeater device 100 according to the first embodiment.

As shown in FIG. 1, at least two repeater devices 100 according to the first embodiment are provided between a base station BS and a terminal T as TDD (time division duplex) relay devices that relay wireless communication between the base station BS and the terminal T. Each repeater device 100 is equipped with a first antenna 11 and a second antenna 21 for transmitting and receiving wireless signals. The first antenna 11 and the second antenna 21 correspond to different frequencies.

As described in detail below, each repeater device 100 is configured to perform frequency conversion and amplification of a radio signal. As a result, each repeater device 100 is configured to perform the following: generating a second signal at a second frequency to be output from a second antenna 21 by performing frequency conversion and amplification on a first signal at a first frequency input from a first antenna 11; and generating a first signal at a first frequency to be output from a first antenna 11 by performing frequency conversion and amplification on a second signal at a second frequency input from a second antenna 21.

In the first embodiment, the first antenna 11 and the second antenna 21 are made to correspond to different frequencies in order to prevent the output from the first antenna 11 based on the input from the second antenna 21 from leaking back into the second antenna 21, or the output from the second antenna 21 based on the input from the first antenna 11 from leaking back into the first antenna 11.

However, in a relay device that performs frequency conversion and amplification for a first signal and a second signal that have different frequencies, such as the repeater device 100 described above, if an amplifier that amplifies the input of the first signal, an amplifier that amplifies the input of the second signal, an amplifier that amplifies the output of the first signal, and an amplifier that amplifies the output of the second signal are each provided separately, the relay device becomes large and heavy. However, there is an increasing demand for smaller and lighter relay devices.

Therefore, in the first embodiment, the repeater device 100 is configured to have a hardware configuration as shown in the following Figure 2, thereby making the repeater device 100 smaller and lighter.

Figure 2 is an exemplary schematic diagram showing the hardware configuration of the repeater device 100 according to the first embodiment.

As shown in FIG. 2, the repeater device 100 includes a first transmitter/receiver 10 and a second transmitter/receiver 20.

The first duplexer 10 includes a first antenna 11 and a first bandpass filter (first BPF) 12, and the second duplexer 20 includes a second antenna 21 and a second bandpass filter (second BPF) 22.

As described above, the first antenna 11 is an antenna corresponding to the first frequency. The first bandpass filter 12 is a filter that extracts a component corresponding to the first frequency from a signal passing through the first bandpass filter 12. Based on this configuration, the first duplexer 10 transmits and receives a first signal of the first frequency.

As described above, the second antenna 21 is an antenna corresponding to the second frequency. The second bandpass filter 22 is a filter that extracts components corresponding to the second frequency from the signal passing through the second bandpass filter 22. Based on this configuration, the second duplexer 20 transmits and receives a second signal of the second frequency.

The repeater device 100 also includes a frequency converter 30. The frequency converter 30 includes a first input port 31, a second input port 32, a first output port 33, and a second output port 34.

The first input port 31 receives a first signal from the first duplexer 10. The second input port 32 receives a second signal from the second duplexer 20. The first output port 33 outputs the first signal to the first duplexer 10. The second output port 34 outputs the second signal to the second duplexer 20. Based on this configuration, the frequency converter 30 performs frequency conversion on the first and second signals so that when the first signal is input via the first input port 31, the frequency converter 30 outputs the second signal via the second output port 34, and when the second signal is input via the second input port 32, the frequency converter 30 outputs the first signal via the first output port 33.

Here, in the first embodiment, in order to reduce the size and weight of the repeater device 100, an amplifier that amplifies the input of the first signal and an amplifier that amplifies the input of the second signal are shared, and an amplifier that amplifies the output of the first signal and an amplifier that amplifies the output of the second signal are shared.

That is, in the first embodiment, the repeater device 100 includes a common input amplifier 40 that functions as both an amplifier that amplifies the input of a first signal and an amplifier that amplifies the input of a second signal, and a common output amplifier 50 that functions as both an amplifier that amplifies the output of the first signal and an amplifier that amplifies the output of the second signal. The common input amplifier 40 is connected to both the first input port 31 and the second input port 32, and performs both the amplification of the first signal and the amplification of the second signal by itself, and the common output amplifier 50 is connected to both the first output port 33 and the second output port 34, and performs both the amplification of the first signal and the amplification of the second signal by itself.

Furthermore, in the first embodiment, the repeater device 100 is equipped with a plurality of switches (SW) 61 to 66 as circuits that appropriately control the transmission paths of the first and second signals within the repeater device 100.

The switch 61 is configured as a first output switch that switches between connecting the output of the common input amplifier 40 to the first input port 31 or the second input port 32. The switch 62 is configured as a first input switch that switches between connecting the input of the common output amplifier 50 to the first output port 33 or the second output port 34.

The switch 63 is configured as a first transmission/reception switch of the SPDT type (single pole double through type) that switches whether the first transmission/reception duplexer 10 is connected to the input of the common input amplifier 40 or to the output of the common output amplifier 50. The switch 64 is configured as a second transmission/reception switch of the SPDT type that switches whether the second transmission/reception duplexer 20 is connected to the input of the common input amplifier 40 or to the output of the common output amplifier 50.

The switch 65 is configured as a second input switch that switches whether the input of the common input amplifier 40 is connected to the switch 61 as the first transmission/reception switch or to the switch 62 as the second transmission/reception switch. The switch 66 is configured as a second output switch that switches whether the output of the common output amplifier 50 is connected to the switch 61 as the first transmission/reception switch or to the switch 62 as the second transmission/reception switch.

Based on the above configuration, the repeater device 100 according to the first embodiment operates as follows:

First, the operation of the repeater device 100 when the first antenna 11 receives a radio signal will be described. In this case, the switches 61, 63, and 65 are switched so that the first signal output from the first bandpass filter 12 in response to reception of the radio signal by the first antenna 11 is input to the first input port 31 of the frequency converter 30 via the common input amplifier 40. The first signal input to the first input port 31 is then subjected to frequency conversion by the frequency converter 30 and output as a second signal from the second output port 34. The switches 62, 64, and 66 are then switched so that the second signal output from the second output port 34 is input to the second bandpass filter 22 via the common output amplifier 50. The second antenna 21 then transmits a radio signal corresponding to the second signal output from the second bandpass filter 22.

Next, the operation of the repeater device 100 when the second antenna 21 receives a radio signal will be described. In this case, the switches 61, 64, and 65 are switched so that the second signal output from the second bandpass filter 22 in response to reception of the radio signal by the second antenna 21 is input to the second input port 32 of the frequency converter 30 via the common input amplifier 40. The second signal input to the second input port 32 is then subjected to frequency conversion by the frequency converter 30 and output as a first signal from the first output port 33. The switches 62, 63, and 66 are then switched so that the first signal output from the first output port 33 is input to the first bandpass filter 12 via the common output amplifier 50. The first antenna 11 then transmits a radio signal corresponding to the first signal output from the first bandpass filter 12.

In this way, the repeater device 100 according to the first embodiment performs frequency conversion and amplification of the first and second signals having different frequencies appropriately according to the situation.

As described above, the repeater device 100 according to the first embodiment includes a first duplexer 10, a second duplexer 20, a frequency converter 30, a common input amplifier 40, and a common output amplifier 50. The first duplexer 10 transmits and receives a first signal at a first frequency. The second duplexer 20 transmits and receives a second signal at a second frequency different from the first frequency.

The frequency converter 30 includes a first input port 31 to which the first signal from the first duplexer 10 is input, a second input port 32 to which the second signal from the second duplexer 20 is input, a first output port 33 to which the first signal to the first duplexer 10 is output, and a second output port 34 to which the second signal to the second duplexer 20 is output. The frequency converter 30 performs frequency conversion on the first and second signals so that when the first signal is input via the first input port 31, the frequency converter 30 outputs the second signal via the second output port 34, and when the second signal is input via the second input port 32, the frequency converter 30 outputs the first signal via the first output port 33.

Here, the common input amplifier 40 is connected to both the first input port 31 and the second input port 32, and performs both the amplification of the first signal and the amplification of the second signal by itself. Also, the common output amplifier 50 is connected to both the first output port 33 and the second output port 34, and performs both the amplification of the first signal and the amplification of the second signal by itself.

With the above configuration, unlike the case where the amplification of the first signal input, the amplification of the second signal input, the amplification of the first signal output, and the amplification of the second signal output are each performed by separate amplifiers, these amplifications can be performed by two amplifiers (common input amplifier 40 and common output amplifier 50). Therefore, the number of amplifiers required to be provided in the repeater device 100 is reduced, making it possible to reduce the size and weight of the repeater device 100.

Second Embodiment
In the above-described first embodiment, a configuration in which one SPDT switch is associated with each of the first and second duplexers is illustrated. However, as shown in the following Fig. 3, a configuration in which two SPDT switches are replaced with one DPDT (double-pole double-through) switch may be considered as a second embodiment.

Figure 3 is an exemplary schematic diagram showing the hardware configuration of the repeater device 200 according to the second embodiment. In the following, the same reference numerals are used to denote the hardware configuration common to the second and first embodiments, and the description will be omitted as appropriate.

As shown in FIG. 3, the repeater device 200 according to the second embodiment includes a switch 67 instead of the switches 63 to 66 according to the first embodiment described above. The switch 67 is configured as a third transmission/reception switch of a DPDT type that independently switches between connecting the first transmission/reception duplexer 10 to the input of the common input amplifier 40 or the output of the common output amplifier 50, and connecting the second transmission/reception duplexer 20 to the input of the common input amplifier 40 or the output of the common output amplifier 50.

The repeater device 200 in the second embodiment operates as follows:

First, the operation of the repeater device 200 when the first antenna 11 receives a radio signal will be described. In this case, the switches 61 and 67 are switched so that the first signal output from the first bandpass filter 12 in response to reception of the radio signal by the first antenna 11 is input to the first input port 31 of the frequency converter 30 via the common input amplifier 40. The first signal input to the first input port 31 is then subjected to frequency conversion by the frequency converter 30 and output as a second signal from the second output port 34. The switches 62 and 67 are then switched so that the second signal output from the second output port 34 is input to the second bandpass filter 22 via the common output amplifier 50. The second antenna 21 then transmits a radio signal corresponding to the second signal output from the second bandpass filter 22.

Next, the operation of the repeater device 200 when the second antenna 21 receives a radio signal will be described. In this case, the switches 61 and 67 are switched so that the second signal output from the second bandpass filter 22 in response to reception of the radio signal by the second antenna 21 is input to the second input port 32 of the frequency converter 30 via the common input amplifier 40. The second signal input to the second input port 32 is then subjected to frequency conversion by the frequency converter 30 and output as a first signal from the first output port 33. The switches 62 and 67 are then switched so that the first signal output from the first output port 33 is input to the first bandpass filter 12 via the common output amplifier 50. The first antenna 11 then transmits a radio signal corresponding to the first signal output from the first bandpass filter 12.

In this way, the repeater device 200 according to the second embodiment, like the repeater device 100 according to the first embodiment described above, performs frequency conversion and amplification of the first signal and the second signal, which have different frequencies, appropriately depending on the situation.

As described above, the repeater device 200 according to the second embodiment includes a switch 67 as a third transmission/reception switch that independently switches between connecting the first transmission/reception duplexer 10 to the input of the common input amplifier 40 or the output of the common output amplifier 50, and between connecting the second transmission/reception duplexer 20 to the input of the common input amplifier 40 or the output of the common output amplifier 50. With this configuration, the connection destination of the first transmission/reception duplexer 10 and the connection destination of the second transmission/reception duplexer 20 can be switched with a simple configuration of a single switch 67.

Third Embodiment
In the first embodiment described above, a configuration is exemplified in which an amplifier that amplifies the input of the first signal and an amplifier that amplifies the input of the second signal are shared, and an amplifier that amplifies the output of the first signal and an amplifier that amplifies the output of the second signal are shared. However, as shown in the following Fig. 4, as a third embodiment, a configuration is also conceivable in which an amplifier that amplifies the output of the first signal and an amplifier that amplifies the output of the second signal are shared, but an amplifier that amplifies the input of the first signal and an amplifier that amplifies the input of the second signal are not shared.

Figure 4 is an exemplary schematic diagram showing the hardware configuration of a repeater device 300 according to the third embodiment. In the following, components common to the third and first embodiments are denoted by the same reference numerals and will not be described as necessary.

As shown in FIG. 4, the repeater device 300 of the third embodiment is provided with a first input amplifier 41 and a second input amplifier 42, instead of the common input amplifier 40 of the first embodiment described above and the switches 61 and 65 that switch the connection destination of the common input amplifier 40. The first input amplifier 41 is connected to the first input port 31 and amplifies the first signal, and the second input amplifier 42 is connected to the second input port 32 and amplifies the second signal.

The repeater device 300 in the third embodiment operates as follows:

First, the operation of the repeater device 300 when the first antenna 11 receives a radio signal will be described. In this case, the switch 63 is switched so that the first signal output from the first bandpass filter 12 in response to reception of the radio signal by the first antenna 11 is input to the first input port 31 of the frequency converter 30 via the first input amplifier 41. The first signal input to the first input port 31 is then subjected to frequency conversion by the frequency converter 30 and output as a second signal from the second output port 34. The switches 62, 64, and 66 are then switched so that the second signal output from the second output port 34 is input to the second bandpass filter 22 via the common output amplifier 50. The second antenna 21 then transmits a radio signal corresponding to the second signal output from the second bandpass filter 22.

Next, the operation of the repeater device 300 when the second antenna 21 receives a radio signal will be described. In this case, the switch 64 is switched so that the second signal output from the second bandpass filter 22 in response to reception of the radio signal by the second antenna 21 is input to the second input port 32 of the frequency converter 30 via the second input amplifier 42. The second signal input to the second input port 32 is then subjected to frequency conversion by the frequency converter 30 and output as a first signal from the first output port 33. The switches 62, 63, and 66 are then switched so that the first signal output from the first output port 33 is input to the first bandpass filter 12 via the common output amplifier 50. The first antenna 11 then transmits a radio signal corresponding to the first signal output from the first bandpass filter 12.

In this way, the repeater device 300 according to the third embodiment, like the repeater device 100 according to the first embodiment described above, performs frequency conversion and amplification of the first and second signals having different frequencies appropriately according to the situation.

As described above, the repeater device 200 according to the second embodiment includes a first input amplifier 41 and a second input amplifier 42. The first input amplifier 41 is connected to the first input port 31 and amplifies the first signal, and the second input amplifier 42 is connected to the second input port 32 and amplifies the second signal. With this configuration, the first signal and the second signal can be easily amplified by the first input amplifier 41 and the second input amplifier 42, which are provided separately.

As a modification of the third embodiment, a configuration is also possible in which the amplification of the first signal input and the amplification of the second signal input are performed by a common amplifier, and the amplification of the first signal output and the amplification of the second signal output are performed by separate amplifiers. In other words, as a modification of the third embodiment, a configuration is also possible that includes a common input amplifier, a first output amplifier that is connected to the first output port and amplifies the first signal, and a second output amplifier that is connected to the second output port and amplifies the second signal.

Although the above describes the embodiments and modifications of the present invention, the above-mentioned embodiments and modifications are presented as examples and are not intended to limit the scope of the invention. The above-mentioned novel embodiments and modifications can be implemented in various other forms, and various omissions, substitutions, and modifications can be made without departing from the gist of the invention. The above-mentioned embodiments and modifications are included within the scope and gist of the invention, and are included in the scope of the invention and its equivalents described in the claims.

10 First duplexer 20 Second duplexer 30 Frequency converter 31 First input port 32 Second input port 33 First output port 34 Second output port 40 Common input amplifier 41 First input amplifier 42 Second input amplifier 50 Common output amplifier 61 Switch (first output switch)
62 Switch (first input switch)
63 Switch (first transmitting/receiving switch)
64 Switch (second transmission/reception switch)
65 Switch (second input switch)
66 Switch (second output switch)
67 Switch (third transmission/reception switch)
100, 200, 300 Repeater device

Claims (6)

a first duplexer for transmitting and receiving a first signal at a first frequency;
a second duplexer for transmitting and receiving a second signal having a second frequency different from the first frequency;
a frequency converter including a first input port to which the first signal from the first duplexer is input, a second input port to which the second signal from the second duplexer is input, a first output port to which the first signal to the first duplexer is output, and a second output port to which the second signal to the second duplexer is output, the frequency converter performing frequency conversion on the first signal and the second signal so as to output the second signal via the second output port when the first signal is input via the first input port, and to output the first signal via the first output port when the second signal is input via the second input port;
at least one of: a common input amplifier connected to both the first input port and the second input port, and performing both amplification of the first signal and amplification of the second signal by itself , and a first output switch that switches between connecting an output of the common input amplifier to the first input port or the second input port; a common output amplifier connected to both the first output port and the second output port, and performing both amplification of the first signal and amplification of the second signal by itself , and a first input switch that switches between connecting an input of the common output amplifier to the first output port or the second output port;
A repeater device comprising: a common input amplifier and a common output amplifier;
2. The repeater device according to claim 1. a first transmission/reception switch for switching between connecting the first duplexer to an input of the common input amplifier or to an output of the common output amplifier;
a second transmission/reception switch for switching between connecting the second duplexer to the input of the common input amplifier or to the output of the common output amplifier;
a second input switch that switches between connecting an input of the common input amplifier to the first transmission/reception switch or to the second transmission/reception switch;
a second output switch that switches between connecting an output of the common output amplifier to the first transmission/reception switch or to the second transmission/reception switch;
The repeater device of claim 2 further comprising: 3. The repeater device according to claim 2, further comprising a third transmit/receive switch that independently switches between connecting the first transmit/receive duplexer to the input of the common input amplifier or the output of the common output amplifier, and between connecting the second transmit/receive duplexer to the input of the common input amplifier or the output of the common output amplifier. comprising only the common output amplifier,
The repeater device includes a first input amplifier connected to the first input port and amplifying the first signal, and a second input amplifier connected to the second input port and amplifying the second signal.
2. The repeater device according to claim 1. comprising only the common input amplifier,
The repeater device further comprises a first output amplifier connected to the first output port and amplifying the first signal, and a second output amplifier connected to the second output port and amplifying the second signal.
2. The repeater device according to claim 1.

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