KR102277032B1 - Spectrum Analyzer Having a Capability of Selectively Measuring an Antenna Signal - Google Patents

Abstract

A spectrum analysis device is provided. The spectrum analyzer includes a measurement unit, an input interface configured to select a measurement target antenna, and a control unit configured to generate and wirelessly transmit an antenna designation signal designating the selected measurement target antenna to an antenna unit. The antenna unit includes a plurality of antennas. including, wherein antenna signals are respectively supplied to the plurality of antennas, and the antenna unit outputs an antenna signal supplied to the selected measurement target antenna among the antenna signals in response to receiving the antenna designation signal; and a signal input unit connectable to the antenna unit to receive the output antenna signal. Here, the measuring unit may be configured to analyze the output antenna signal.

Description

Spectrum Analyzer Having a Capability of Selectively Measuring an Antenna Signal

The present invention relates to a spectrum analysis apparatus for analyzing a spectrum of a signal, and more particularly, to a spectrum analysis apparatus having a function of selectively measuring an antenna signal in an active antenna unit.

5G NR (5th), the currently commercialized mobile communication standard Generation New Radio) uses a large number of antennas such as 8 antennas, 16 antennas, 32 antennas, and 64 antennas in the form of an array, and these antennas are called an active antenna unit. The active antenna unit can be said to be essential equipment to implement the massive MIMO (Multi-Input Multi-Output) required in 5G NR. However, a spectrum analyzer is generally used to analyze and measure an antenna signal to determine whether an antenna is faulty. In the case of an active antenna unit, since it includes a plurality of antennas and the antenna signals provided therefrom are also plural, in order to analyze and measure the antenna signal provided to a specific antenna in the active antenna unit by the spectrum analyzer, the It is necessary to individually and appropriately control the corresponding antenna. Therefore, it is inconvenient to use a spectrum analyzer to determine whether the active antenna unit is faulty.

An object of the present invention is to provide a spectrum analysis apparatus having a function of selecting and measuring an antenna signal provided to a measurement target antenna without individually controlling the measurement target antenna in the active antenna unit.

The problems to be solved by the present invention are not limited to the problems mentioned above, and other problems not mentioned will be clearly understood by those skilled in the art from the following description.

In one aspect, a spectrum analysis apparatus is provided. The spectrum analyzer includes a measurement unit, an input interface configured to select a measurement target antenna, and a control unit configured to generate and wirelessly transmit an antenna designation signal designating the selected measurement target antenna to an antenna unit. The antenna unit includes a plurality of antennas. including, wherein antenna signals are respectively supplied to the plurality of antennas, and the antenna unit outputs an antenna signal supplied to the selected measurement target antenna among the antenna signals in response to receiving the antenna designation signal; and a signal input unit connectable to the antenna unit to receive the output antenna signal. The measuring unit may be configured to analyze the output antenna signal.

In an embodiment, the control unit is further configured to wirelessly transmit the antenna designation signal to the antenna unit by Bluetooth pairing with the antenna unit.

In one embodiment, the control unit is further configured to wirelessly transmit the antenna designation signal to the antenna unit by WiFi connection.

In one embodiment, the antenna unit further comprises a switch switchable between a plurality of states.

In one embodiment, the antenna unit further includes a switch control unit for controlling the switch in response to the antenna designation signal so that the switch is in any one of the plurality of states.

In an embodiment, when the switch is in the one state, the antenna unit outputs an antenna signal supplied to the selected measurement target antenna among the antenna signals.

In an embodiment, the measurement unit is an Output Power (Channel Power) measurement item, an Occupied Bandwidth (OBW) measurement item, an Adjacent Channel Leakage Rate (ACLR) measurement item, and a Spectrum (SEM) for the antenna signal supplied to the selected measurement target antenna. It is further configured to measure according to at least one of an Emission Mask) measurement item and a Spurious Emission (SE) measurement item or to output PCI (Physical Cell ID) information by demodulating the antenna signal.

In another aspect, a spectrum analysis apparatus is provided. The spectrum analyzer is configured to generate an antenna designation signal that is connectable to a measurement unit, an input interface configured to select a measurement target antenna, and an antenna unit and designates the selected measurement target antenna, and is configured to be output by the antenna unit to receive Control unit - the antenna unit includes a plurality of antennas, and antenna signals are respectively supplied to the plurality of antennas, and the antenna unit transmits the selected one of the antenna signals to the selected measurement target antenna in response to receiving the antenna designation signal outputting the supplied antenna signal; and a signal input unit connectable to the antenna unit to receive the output antenna signal. The measuring unit may be configured to analyze the output antenna signal.

In one embodiment, the antenna unit further comprises a switch switchable between a plurality of states.

In one embodiment, the antenna unit further includes a switch control unit for controlling the switch in response to the antenna designation signal so that the switch is in any one of the plurality of states.

In an embodiment, when the switch is in the one state, the antenna unit outputs an antenna signal supplied to the selected measurement target antenna among the antenna signals.

In an embodiment, the measurement unit is an Output Power (Channel Power) measurement item, an Occupied Bandwidth (OBW) measurement item, an Adjacent Channel Leakage Rate (ACLR) measurement item, and a Spectrum (SEM) for the antenna signal supplied to the selected measurement target antenna. It is further configured to measure according to at least one of an Emission Mask) measurement item and a Spurious Emission (SE) measurement item or to output PCI (Physical Cell ID) information by demodulating the antenna signal.

According to embodiments of the present invention, it is possible to provide a spectrum analysis apparatus having a function of selecting and measuring an antenna signal provided to a measurement target antenna without individually controlling the measurement target antenna in the active antenna unit. It works.

1 is a diagram illustrating an embodiment of a block diagram of an active antenna unit.
2 is a diagram illustrating an embodiment of a block diagram of a spectrum analysis apparatus.

Advantages and features of the present invention and a method of achieving them will become apparent with reference to the embodiments described below in detail in conjunction with the accompanying drawings. However, the present invention is not limited to the embodiments disclosed below, but will be implemented in a variety of different forms, and these embodiments merely allow the disclosure of the present invention to be complete, and those of ordinary skill in the art It is provided to fully inform the person of the scope of the invention, and the present invention is only defined by the scope of the claims.

The terms used herein are used only to describe specific embodiments and are not intended to limit the present invention. For example, a component expressed in a singular should be understood as a concept including a plurality of components unless the context clearly means only the singular. In addition, in the specification of the present invention, terms such as 'comprise' or 'have' are only intended to designate that the features, numbers, steps, operations, components, parts, or combinations thereof described in the specification exist, and such The use of the term does not exclude the possibility of the presence or addition of one or more other features or numbers, steps, operations, components, parts, or combinations thereof. Also, in the embodiments described in this specification, a 'module' or a 'unit' may mean a functional part that performs at least one function or operation.

In addition, unless otherwise defined, all terms used herein, including technical or scientific terms, have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. Terms such as those defined in a commonly used dictionary should be interpreted as having a meaning consistent with the meaning in the context of the related art, and unless explicitly defined in the specification of the present invention, it should be interpreted in an ideal or excessively formal meaning. doesn't happen

Hereinafter, embodiments of the present invention will be described in more detail with reference to the accompanying drawings. However, in the following description, if there is a risk of unnecessarily obscuring the gist of the present invention, detailed descriptions of well-known functions or configurations will be omitted.

1 is a diagram illustrating an embodiment of a block diagram of an active antenna unit.

As shown in FIG. 1 , the active antenna unit 100 includes a digital baseband processing unit 110 , a plurality of amplifiers 120 connected to the digital baseband processing unit 110 , and a plurality of amplifiers 120 . It may include a plurality of couplers 130 respectively connected to each other, and a plurality of antennas 140 respectively connected to the first outputs 130 - 1 of the plurality of couplers 130 . The active antenna unit 100 may further include a switch 150 connected to the second outputs 130 - 2 of the plurality of couplers 130 and a switch control unit 160 configured to control the switch 150 . .

The digital baseband processing unit 110 performs a baseband signal processing function such as D/A conversion of channel signals input to the active antenna unit 100 or A/D conversion of channel signals output from the active antenna unit 100 . can be configured to The plurality of amplifiers 120 may be configured to respectively amplify signals processed by the digital baseband processing unit 110 . The signal amplified and output from each of the plurality of amplifiers 120 is supplied to the corresponding antenna 140 through the corresponding coupler 130. In this regard, in this specification, this signal will be referred to as an 'antenna signal' for convenience of description. do. Each of the plurality of couplers 130 may be configured to receive the antenna signal provided from the corresponding amplifier 120 and output the first output 130 - 1 and the second output 130 - 2 . The antenna signals provided to the first outputs 130 - 1 are respectively transmitted as radio signals through the corresponding antennas 140 . The switch 150 may be switched between a plurality of states, and may be switched to any one of the plurality of states under the control of the switch controller 160 . When the switch 150 is switched to a specific state, the antenna signal provided to the second output 130 - 2 of the specific coupler may be provided as an output. For example, when the switch 150 is switched to the first state, the antenna signal provided to the second output 130 - 2 of the first coupler 130 is provided as an output. As another example, when the switch 150 is switched to the N-th state, the antenna signal provided to the second output 130-2 of the N-th coupler 130 is provided as an output (where N is from 1 to the number of antennas). natural number up to the corresponding number). In one embodiment, switch 150 may be an electronically controlled switch. By controlling the switch 150 in this way, it is possible to output the same antenna signal as the antenna signal supplied to a specific antenna.

2 is a diagram illustrating an embodiment of a block diagram of a spectrum analysis apparatus.

As shown in FIG. 2 , the spectrum analysis apparatus 200 may include a measurement unit 210 . The measuring unit 210 may be configured to perform a function of analyzing the spectrum of various signals including the antenna signal. In an embodiment, the measurement unit 210 measures an Output Power (Channel Power) measurement item, an Occupied Bandwidth (OBW) measurement item, an Adjacent Channel Leakage Rate (ACLR) measurement item, and a Spectrum Emission Mask (SEM) measurement item for the antenna signal. And by performing measurement according to at least one of the SE (Spurious Emission) measurement items, demodulating the antenna signal, and outputting PCI (Physical Cell ID) information such as EVM (Error Vector Magnetic) and SSB (Synchronization Signal Block) information. By checking, the active antenna unit 100 may be configured to determine whether it operates within the standards prescribed by 3GPP and KCA.

The spectrum analysis apparatus 200 may further include an input interface 220 . The input interface 220 may be composed of hardware and software modules necessary for allowing a user to input a user command for selecting an antenna to be measured in the active antenna unit 100 . In an embodiment, the input interface 220 may include a keyboard, a keypad, a touchpad, a mouse, and the like, but the type of input interface is not limited thereto by those skilled in the art. will recognize

The spectrum analysis apparatus 200 may further include a controller 230 . The controller 230 may be configured to generate an antenna designation signal for designating a measurement target antenna selected through the input interface 220 . The control unit 230 may be configured to have a signal transmission function. The controller 230 may be configured to convert the generated antenna designation signal into a format suitable for transmission and transmit it to the switch controller 160 of the active antenna unit 100 . In an embodiment, the control unit 230 may be configured to wirelessly transmit an antenna designation signal to the switch control unit 160 of the active antenna unit 100 . In one embodiment, the control unit 230 wirelessly transmits the antenna designation signal to the switch control unit 160 of the active antenna unit 100 Bluetooth (Bluetooth) pairing with the switch control unit 160 of the active antenna unit 100 can be configured to run In one embodiment, the control unit 230 executes a WiFi connection to the switch control unit 160 of the active antenna unit 100 in order to wirelessly transmit the antenna designation signal to the switch control unit 160 of the active antenna unit 100 . can be configured. In one embodiment, the control unit 230 may be configured to transmit the antenna designation signal to the switch control unit 160 of the active antenna unit 100 by wire. In this embodiment, the control unit 230 is connected to the switch control unit 160 of the active antenna unit 100 by wire, so that the control unit 230 switches the active antenna unit 100 in response to outputting the antenna designation signal. The controller 160 may control the switch 150 by receiving the antenna designation signal.

The spectrum analysis apparatus 200 may further include a signal input unit 240 . The signal input unit 240 may be connected to the switch 150 of the active antenna unit 100 as shown to receive the antenna signal output from the active antenna unit 100 . The signal input unit 240 may be configured to transmit the received antenna signal to the measurement unit 210 . In an embodiment, the signal input unit 240 may be configured to be controlled by the control unit 230 . In an embodiment, the signal input unit 240 may be configured to bypass the input antenna signal to the measurement unit 210 as it is.

When explaining the operation method of the spectrum analysis apparatus 200, first, when a user command for selecting a measurement target antenna in the active antenna unit 100 is input through the input interface 220, the control unit 230 selects the measurement target antenna. Generates a designating antenna designation signal. For example, when the user selects the fifth antenna as the measurement target antenna, the controller 230 generates an antenna designating signal designating the fifth antenna. The control unit 230 transmits the generated antenna designation signal to the switch control unit 160 of the active antenna unit 100 by wire or wirelessly. The switch control unit 160 of the active antenna unit 100 controls the switch 150 in response to receiving the antenna designation signal. As in the above-described example, when the antenna designating signal is a signal designating the fifth antenna, the switch control unit 160 causes the switch 150 to be switched to the fifth state so that the second output 130-2 of the fifth coupler Make sure that the antenna signal provided to the The antenna signal provided as an output is transmitted to the signal input unit 240 of the spectrum analysis apparatus 200 and again transmitted to the measurement unit 210 to measure the antenna signal according to the radio station measurement item.

In the above embodiments, it has been described that the measurement target antennas in the active antenna unit 100 are selected one by one through the input interface 220, but several antennas in the active antenna unit 100 are selected as the measurement target antennas at once. An embodiment in which the antenna signals are automatically input sequentially from the active antenna unit 100 to the signal input unit 240 of the spectrum analysis device 200 with a time difference can also be implemented in accordance with the spirit of the present invention and are included within the scope of the present invention. should be recognized as being

In the embodiments disclosed herein, the arrangement of the illustrated components may vary depending on the environment or requirements in which the invention is implemented. For example, some components may be omitted or some components may be integrated and implemented as one. Also, the arrangement order and connection of some components may be changed.

In the above, various embodiments of the present invention have been shown and described, but the present invention is not limited to the specific embodiments described above, and the above-described embodiments depart from the gist of the present invention as claimed in the appended claims. Without this, various modifications may be made by those of ordinary skill in the art to which the present invention pertains, and these modified embodiments should not be understood separately from the technical spirit or scope of the present invention. Accordingly, the technical scope of the present invention should be defined only by the appended claims.

100: active antenna unit
110: digital baseband processing unit
120: amplifier
130: coupler
140: antenna
150: switch
160: switch control unit
200: spectrum analysis device
210: measurement unit
220: input interface
230: control unit
240: signal input unit

Claims (12)

A spectrum analysis device comprising:
measuring unit,
an input interface configured to allow selection of an antenna to be measured;
a control unit configured to generate an antenna designation signal designating the selected measurement target antenna and wirelessly transmit it to an antenna unit, the antenna unit including a plurality of couplers, a plurality of antennas, and a switch switchable between a plurality of states, Each of the couplers has a first output and a second output and receives an antenna signal and provides the antenna signal to the first output and the second output, wherein the first outputs of the plurality of couplers are respectively to the plurality of antennas connected and second outputs of the plurality of couplers coupled to the switch, the antenna unit configured to control the switch to be in any one of the plurality of states in response to receiving the antenna designation signal further comprising: when the switch is in the one state, the antenna unit outputs an antenna signal provided to a second output of a coupler connected to the selected measurement target antenna among the plurality of couplers; and
and a signal input unit connectable to the antenna unit to receive the output antenna signal,
The measuring unit is configured to analyze the output antenna signal, spectrum analysis device. According to claim 1,
The control unit is further configured to wirelessly transmit the antenna designation signal to the antenna unit by Bluetooth pairing with the antenna unit.
According to claim 1,
The control unit is further configured to wirelessly transmit the antenna designation signal to the antenna unit by WiFi connection, spectrum analysis device.
delete delete delete According to claim 1,
The measurement unit is an Output Power (Channel Power) measurement item, an Occupied Bandwidth (OBW) measurement item, an Adjacent Channel Leakage Rate (ACLR) measurement item, and a Spectrum Emission Mask (SEM) measurement item for the antenna signal supplied to the selected measurement target antenna. and Spurious Emission (SE) measurement items according to at least one measurement item or by demodulating the antenna signal to output PCI (Physical Cell ID) information. A spectrum analysis device comprising:
measuring unit,
an input interface configured to allow selection of an antenna to be measured;
A control unit connectable to an antenna unit and configured to generate an antenna designation signal specifying the selected measurement target antenna and output to be received by the antenna unit, the antenna unit being switchable between a plurality of couplers, a plurality of antennas and a plurality of states a switch, wherein each of the plurality of couplers has a first output and a second output and receives an antenna signal and provides the antenna signal to the first output and the second output, wherein the first output of the plurality of couplers comprises: outputs are respectively connected to the plurality of antennas and second outputs of the plurality of couplers are connected to the switch, the antenna unit responsive to receiving the antenna designation signal when the switch is in any one of the plurality of states and a switch control unit configured to control to be in a state, wherein when the switch is in the one state, the antenna unit is an antenna provided to a second output of a coupler connected to the selected measurement target antenna among the plurality of couplers output a signal -, and
and a signal input unit connectable to the antenna unit to receive the output antenna signal,
The measuring unit is configured to analyze the output antenna signal, spectrum analysis device. delete delete delete 9. The method of claim 8,
The measurement unit is an Output Power (Channel Power) measurement item, an Occupied Bandwidth (OBW) measurement item, an Adjacent Channel Leakage Rate (ACLR) measurement item, and a Spectrum Emission Mask (SEM) measurement item for the antenna signal supplied to the selected measurement target antenna. and Spurious Emission (SE) measurement items according to at least one measurement item or by demodulating the antenna signal to output PCI (Physical Cell ID) information.

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