JP2013165322A - Radio terminal measurement device and radio terminal measurement method - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a radio terminal measurement device and a radio terminal measurement method which, for a terminal apparatus having a plurality of antenna units conforming to a plurality of communication standards, can connect all of the antenna units without using an external switch box and also can switch the antenna units to be measured from one to another.SOLUTION: A radio terminal measurement device comprises: a connection unit 11 having a plurality of terminals which can connect a plurality of antenna units of a terminal apparatus 10; a signal generation unit 12 which generates a test signal conforming to a plurality of communication standards and outputs the generated signal to the terminal apparatus 10; a signal analysis unit 13 which analyzes a response signal or a transmitted signal from the terminal apparatus 10; and a switch unit 14 which selectively connects one of the antenna units of the terminal apparatus 10 capable of performing full duplex communication to the signal generation unit 12 and the signal analysis unit 13, or selectively connects one or two of the antenna units capable of performing full duplex communication to at least one of the signal generation unit 12 and the signal analysis unit 13.

Description

  The present invention relates to a wireless terminal measuring apparatus and a wireless terminal measuring method for measuring a terminal device having a plurality of wireless communication antennas corresponding to a plurality of communication standards.

  In recent years, with the progress of multimedia, wireless terminal devices (cell phones, personal computers, etc.) on which a plurality of antennas for wireless communication such as cellular and wireless LAN are mounted are actively produced (for example, , See Patent Document 1).

  In such a terminal device production line, for each wireless communication antenna of the terminal device, the output of the transmission radio wave and the reception sensitivity determined for each communication standard are measured, and whether or not a predetermined standard is satisfied. An inspection to determine whether or not

  As the measurement system for performing the above inspection, for example, a system in which a dedicated device corresponding to each communication standard is connected to each wireless communication antenna via a measurement cable or a shield box is employed.

  However, in the present situation where inspection of tens of thousands of terminal devices can be required per day, the inspection time that can be applied to each device is very limited, and efficient measurement is required in a short time. Yes. As described above, when a measurement system using a dedicated device for each communication standard is employed, it may be difficult to clear a predetermined number of inspections.

  Therefore, a general-purpose signal generator and signal analyzer that do not depend on the communication standard are used, and a measurement system in which an external switch box for sequentially switching the wireless communication antenna to be measured is attached to the signal input / output connector of those devices. It has been used to improve the efficiency of inspection.

JP 2007-318678 A

  However, the above measurement system using an external switch box has a problem that the number of connectors and the number of measurement cables is increased, and therefore it is easily affected by external noise. Further, since the external switch box is created by the operator, it takes time and effort to manually evaluate the loss of the wiring around the external switch box and manually input the correction value to the measuring device. There was also a problem.

  The present invention has been made to solve such a conventional problem, and without using an external switch box for a terminal device having a plurality of antenna units corresponding to a plurality of communication standards. It is an object of the present invention to provide a wireless terminal measuring apparatus and a wireless terminal measuring method capable of connecting all antenna units and switching the antenna unit to be measured.

  In order to solve the above problems, a wireless terminal measurement apparatus according to claim 1 of the present invention includes an antenna unit that performs full-duplex communication and an antenna unit that performs half-duplex communication, corresponding to a plurality of communication standards. A wireless terminal measurement device that performs measurement on a terminal device, the connection unit having a plurality of terminals to which the plurality of antenna units can be connected, and a test signal corresponding to the plurality of communication standards, A signal generation unit that outputs a signal to the terminal device connected to the connection unit, and a signal analysis unit that analyzes a response signal from the terminal device to which the test signal is input or a transmission signal from the terminal device And selectively connecting one of antenna units that performs the full-duplex communication of the terminal device to the signal generation unit and the signal analysis unit via the connection unit, or Antenna unit for heavy communication Any one or two of which have a structure characterized in that it and a switching unit for selectively connecting at least one of the signal generator and the signal analyzer.

  With this configuration, since the switching unit selectively connects the plurality of antenna units of the terminal device to the signal generation unit and the signal analysis unit, the terminal device having a plurality of antenna units corresponding to a plurality of communication standards, All the antenna units can be connected without using an external switch box, and the antenna unit to be measured can be switched.

  Further, in the wireless terminal measuring apparatus according to claim 2 of the present invention, the plurality of terminals of the connection unit include at least one full-duplex communication terminal connectable to the antenna unit that performs the full-duplex communication, You may have the structure characterized by including the at least 2 terminal for half duplex communication which can be connected with the antenna part which performs duplex communication.

  Further, in the wireless terminal measuring apparatus according to claim 3 of the present invention, the switching unit is a first switch group for connecting any one of the full-duplex communication terminals to the signal generation unit and the signal analysis unit. And either one of the half-duplex communication terminals is connected to the signal generation unit or the signal analysis unit, or any two of the half-duplex communication terminals are connected to the signal generation unit and A second switch group for connecting to the signal analysis unit; and outputting the test signal from the signal generation unit to the full-duplex communication terminal, and connecting the full-duplex communication terminal from the terminal device. And a directional coupler that outputs the response signal input via the signal analysis unit to the signal analysis unit.

  In addition, the wireless terminal measurement method according to claim 4 of the present invention is compatible with a plurality of communication standards, and can connect a terminal device having an antenna unit that performs full-duplex communication and an antenna unit that performs half-duplex communication. A wireless terminal measurement method using a wireless terminal measurement device including a connection unit having a plurality of terminals, a signal generation unit, a signal analysis unit, and a switching unit, wherein the plurality of antenna units are connected to the connection unit. One of the antenna units that perform the full-duplex communication of the terminal device is connected to the signal generation unit and the signal analysis through the connection unit by the connection unit connected to each terminal and the switching unit. A switching step of selectively connecting to a unit, and the signal generating unit generates a test signal corresponding to the plurality of communication standards, and the test signal is connected to the signal generating unit and the signal analyzing unit Signal output to the unit And floor, by the signal analyzing section has a configuration which comprises a signal analyzing step for analyzing the response signal from the antenna portion in which the test signal is input.

  With this configuration, since it has a switching stage for selectively connecting a plurality of antenna units of a terminal device to a signal generation unit and a signal analysis unit, for a terminal device having a plurality of antenna units corresponding to a plurality of communication standards, All the antenna units can be connected without using an external switch box, and the antenna unit to be measured can be switched.

  The wireless terminal measurement method according to claim 5 of the present invention is compatible with a plurality of communication standards, and can connect a terminal device having an antenna unit that performs full-duplex communication and an antenna unit that performs half-duplex communication. A wireless terminal measurement method using a wireless terminal measurement device including a connection unit having a plurality of terminals, a signal generation unit, a signal analysis unit, and a switching unit, wherein the plurality of antenna units are connected to the connection unit. One of the antenna units that perform the half-duplex communication of the terminal device is selectively selected as the signal generation unit via the connection unit by the connection unit that connects to each terminal and the switching unit. A first switching step of connecting, and a signal generation step of generating a test signal corresponding to the plurality of communication standards by the signal generation unit and outputting the test signal to the antenna unit connected to the signal generation unit And the switching unit A second switching step of selectively connecting the antenna unit connected to the signal generation unit via the connection unit to the signal analysis unit; and the antenna to which the test signal is input by the signal analysis unit And a signal analysis stage for analyzing the response signal from the unit.

  The wireless terminal measurement method according to claim 6 of the present invention is compatible with a plurality of communication standards, and can connect a terminal device having an antenna unit that performs full-duplex communication and an antenna unit that performs half-duplex communication. A wireless terminal measurement method using a wireless terminal measurement device including a connection unit having a plurality of terminals, a signal generation unit, a signal analysis unit, and a switching unit, wherein the plurality of antenna units are connected to the connection unit. One of the antenna units that perform the half-duplex communication of the terminal device is selectively selected as the signal generation unit via the connection unit by the connection unit that connects to each terminal and the switching unit. A third switching stage to be connected and an antenna unit different from the antenna unit connected to the signal generation unit among the plurality of antenna units via the connection unit by the switching unit to the signal analysis unit. 4th switching stage to selectively connect And a signal generation step of generating a test signal corresponding to the plurality of communication standards by the signal generation unit and outputting the test signal to the antenna unit connected to the signal generation unit, and the signal analysis unit And a signal analysis step of analyzing a transmission signal from the antenna unit connected to the signal analysis unit.

  The present invention is capable of connecting all antenna units to a terminal device having a plurality of antenna units corresponding to a plurality of communication standards without using an external switch box and switching the antenna unit to be measured. A wireless terminal measurement device and a wireless terminal measurement method are provided.

The block diagram which shows an example of a structure of the radio | wireless terminal measuring device which concerns on this invention The front view of the radio | wireless terminal measuring device which concerns on this invention The conceptual diagram which shows the correspondence of the switching part, the terminal of a connection part, and the antenna part of a terminal device Flowchart of a wireless terminal measurement program executed by the control unit of the wireless terminal measurement apparatus according to the present invention The flowchart of the 1st radio | wireless terminal measurement routine which the control part of the radio | wireless terminal measurement apparatus which concerns on this invention performs The flowchart of the 2nd radio | wireless terminal measurement routine which the control part of the radio | wireless terminal measurement apparatus which concerns on this invention performs

  Hereinafter, embodiments of a wireless terminal measuring apparatus and a wireless terminal measuring method according to the present invention will be described with reference to the drawings. The wireless terminal measurement device according to the present embodiment is compatible with a plurality of communication standards, and for a terminal device having an antenna unit that performs full-duplex communication and an antenna unit that performs half-duplex communication (or unidirectional communication). Measures the output of received radio waves and reception sensitivity.

  FIG. 1 is a block diagram illustrating an example of the configuration of the wireless terminal measurement device 1 of the present embodiment. The wireless terminal measurement device 1 includes a connection unit 11 having a plurality of terminals 11-1 to 11-M (M ≧ N) to which a plurality of antenna units 10-1 to 10-N of a terminal device 10 to be measured can be connected. A signal generation unit 12 that generates a test signal corresponding to a plurality of communication standards and outputs the test signal to the terminal device 10 connected to the connection unit 11, and a response signal from the terminal device 10 to which the test signal is input Or a signal analysis unit 13 that analyzes a transmission signal from the terminal device 10 (hereinafter referred to as a terminal transmission signal) and an antenna unit that performs full-duplex communication of the terminal device 10 via the connection unit 11. One is selectively connected to the signal generation unit 12 and the signal analysis unit 13, or one or two of the antenna units that perform half-duplex communication is connected to the signal generation unit 12 and the signal analysis unit 13. Selectively connect to at least one of Comprising a switching unit 14, a.

  In addition, the wireless terminal measurement device 1 includes a control unit 15 that controls operations of the signal generation unit 12, the signal analysis unit 13, and the switching unit 14. The control unit 15 may be connected to an external device such as a personal computer via an interface (not shown). In addition, an operation unit 16 through which an operator inputs various instructions and a display unit 17 that displays an analysis result of the signal analysis unit 13 may be connected to the external device.

  In addition, the wireless terminal measurement device 1 may include a reception signal analysis unit (not shown) that measures the reception function of the terminal device 10 for the test signal from the signal generation unit 12. Further, the wireless terminal measurement device 1 may include a determination unit (not shown) that determines whether or not the measurement value satisfies a predetermined standard. This determination is performed, for example, by evaluating a magnitude relationship between a predetermined threshold value and a measured value.

  Each antenna unit 10-1 to 10-N of the terminal device 10 to be measured has a wireless communication antenna and an RF circuit. Of the antenna units 10-1 to 10-N, at least one performs full duplex communication, and at least two perform half duplex communication or unidirectional communication.

  Here, a plurality of communication standards of the terminal device 10 include cellular (LTE, W-CDMA, GSM (registered trademark), CDMA2000, 1xEV-DO, TD-SCDMA, etc.), WLAN (IEEE802.11a / b / g / n), Bluetooth (registered trademark), GNSS (GPS, Galileo, GLONASS, Compass, etc.), FM radio broadcasting, and television broadcasting (DVB-H, DMB, One Seg, etc.).

  In addition, the terminal device 10 to be measured has a full-duplex communication for cellular, a full-duplex communication or half-duplex communication for WLAN and Bluetooth (registered trademark), and a half-duplex communication or simplex for FM broadcast and television broadcast. Unidirectional communication is performed for directional communication and GNSS.

  The control unit 15 stores a program for controlling the signal generation unit 12, the signal analysis unit 13, and the switching unit 14 corresponding to the communication standard of the terminal device 10 in the memory 15a in advance. The control unit 15 can receive a new program or a program whose version has been changed from the outside, and can add or update the memory 15a. Further, it is assumed that a correction value for the loss of the wiring inside the wireless terminal measurement device 1 is stored in the memory 15a in advance.

  The signal generation unit 12 includes a baseband signal generation unit 12a and an RF modulation unit 12b. Based on a predetermined clock, the baseband signal generation unit 12a generates an I component baseband signal and a Q component baseband signal that is an orthogonal component signal whose phase is shifted by π / 2 from the I component baseband signal. These baseband signals include control information necessary for the wireless terminal measurement apparatus 1 to operate as a pseudo base station for the terminal device 10. The control information includes, for example, instructions necessary for location registration, incoming call, disconnection, and other tests exchanged between the terminal device 10 and the pseudo base station.

The RF modulation unit 12b generates a test signal corresponding to the frequency of each communication standard by mixing the baseband signal received from the baseband signal generation unit 12a with a local signal corresponding to the frequency of each communication standard, The generated test signal is output toward the terminal device 10.
The signal analysis unit 13 receives the local signal from the RF modulation unit 12b, orthogonally demodulates the response signal from the terminal device 10 or the terminal transmission signal, and converts it into an I component baseband signal and a Q component baseband signal. These baseband signals are decoded and analyzed for measurement. For example, the signal analysis unit 13 may perform modulation accuracy measurement, adjacent channel leakage power measurement, power measurement, and the like.

  That is, the signal analysis unit 13 receives a response signal from the terminal device 10 with respect to the test signal or a terminal transmission signal of unidirectional communication from the terminal device 10, and uses the response signal or the terminal transmission signal to transmit the terminal device. The above-mentioned measurement regarding 10 communication functions is performed. Note that the signal analysis unit 13 corrects the analysis result using the correction value of the loss of the wiring inside the wireless terminal measurement device 1 stored in advance in the memory 15a.

  The connection unit 11 is for electrically connecting the antenna units 10-1 to 10-N of the terminal device 10 and the wireless terminal measurement device 1 of the present embodiment. Specifically, the connection unit 11 includes M terminals 11-1 to 11 -M that are equal to or more than the number N of antenna units 10-1 to 10 -N of the terminal device 10.

  More specifically, the terminals 11-1 to 11-M are at least one full-duplex communication terminal connectable to an antenna unit that performs full-duplex communication, and an antenna that performs half-duplex communication or unidirectional communication. At least two half-duplex communication terminals connectable to the unit.

  The switching unit 14 can take a plurality of connection states (transmission / reception state, transmission state, or reception state) for electrically connecting the antenna units 10-1 to 10 -N to the signal generation unit 12 and the signal analysis unit 13.

  More specifically, the switching unit 14 includes a first switch group for connecting any of the full-duplex communication terminals to the signal generation unit 12 and the signal analysis unit 13, and any of the half-duplex communication terminals. Either one of them is connected to the signal generator 12 or the signal analyzer 13, or a second one for connecting any two of the half-duplex communication terminals to the signal generator 12 and the signal analyzer 13, respectively. The test signal from the switch group and the signal generation unit 12 is output to the full-duplex communication terminal, and the response signal input from the terminal device 10 via the full-duplex communication terminal is output to the signal analysis unit 13 A directional coupler.

  FIG. 2 is a front view of the wireless terminal measurement apparatus 1 of the present embodiment. FIG. 3 is a conceptual diagram illustrating a correspondence relationship between the switching unit 14, the terminals of the connection unit 11, and the antenna unit of the terminal device 10. 2 and 3, the terminal device 10 includes four antenna units 10-1 to 10-4, and the antenna units 10-1 and 10-2 perform full duplex communication. 3, 10-4 perform half-duplex communication or unidirectional communication.

  Correspondingly, the plurality of terminals of the connection unit 11 are connected to the antenna units 10-1 and 10-2 that perform full-duplex communication, and are connected to the full-duplex communication terminals 11-1 and 11-2, and half The terminals are classified into half-duplex communication terminals 11-3 and 11-4 that can be connected to the antenna units 10-3 and 10-4 that perform duplex communication or unidirectional communication.

  As shown in FIG. 3, the switching unit 14 includes switches 14 a-1, 14 a-2, 14 b-1 and 14 b-2 as a first switch group, and switches 14 a-1 and 14 a as a second switch group. -2, 14b-3 to 14b-6, and directional couplers 14c-1 and 14c-2. Here, the switches 14a-1 and 14a-2 are included in both the first and second switch groups.

  The directional couplers 14c-1 and 14c-2 are broadband couplers that pass the output frequency of the test signal of the signal generator 12, and are configured by, for example, a Wilkinson distributor. The directional couplers 14c-1 and 14c-2 output test signals from the signal generator 12 to the full-duplex communication terminals 11-1 and 11-2, respectively, from the antenna units 10-1 and 10-2. The response signal is output to the signal analysis unit 13.

  In the example shown in FIG. 3, the transmission / reception states for the antenna units 10-1 and 10-2 that perform full-duplex communication are the first switch groups (switches 14 a-1, 14 a-2, 14 b-1, 14 b-2). ).

  That is, in the transmission / reception state with respect to the antenna unit 10-1, the test signal from the signal generation unit 12 passes through the switch 14a-1, the switch 14b-1, and the directional coupler 14c-1. To reach. Further, the response signal from the antenna unit 10-1 reaches the signal analysis unit 13 via the directional coupler 14c-1, the switch 14b-2, and the switch 14a-2.

  On the other hand, in the transmission / reception state with respect to the antenna unit 10-2, the test signal from the signal generation unit 12 passes through the switch 14a-1 → the switch 14b-1 → the directional coupler 14c-2, and the antenna unit 10-2. To reach. The response signal from the antenna unit 10-2 reaches the signal analysis unit 13 via the directional coupler 14c-2 → switch 14b-2 → switch 14a-2.

  In addition, the transmission state for the antenna unit 10-3 performing half-duplex communication or unidirectional communication is realized by switching the switches 14a-1, 14b-3, and 14b-5 in the second switch group. On the other hand, the reception state for the antenna unit 10-3 is realized by switching the 14a-2, 14b-4, and 14b-5 in the second switch group.

  That is, in the transmission state with respect to the antenna unit 10-3, the test signal from the signal generation unit 12 reaches the antenna unit 10-3 via the switch 14a-1 → the switch 14b-3 → the switch 14b-5. . The response signal or terminal transmission signal from the antenna unit 10-3 reaches the signal analysis unit 13 via the switch 14b-5 → switch 14b-4 → switch 14a-2.

  In addition, the transmission state for the antenna unit 10-4 that performs half-duplex communication or unidirectional communication is realized by switching the switches 14a-1, 14b-3, and 14b-6 in the second switch group. On the other hand, the reception state for the antenna unit 10-4 is realized by switching the 14a-2, 14b-4, and 14b-6 in the second switch group.

  That is, in the transmission state with respect to the antenna unit 10-4, the test signal from the signal generation unit 12 reaches the antenna unit 10-4 via the switch 14a-1 → switch 14b-3 → switch 14b-6. . The response signal or terminal transmission signal from the antenna unit 10-4 reaches the signal analysis unit 13 via the switch 14b-6 → the switch 14b-4 → the switch 14a-2.

  Next, a radio terminal measurement method using the radio terminal measurement apparatus 1 according to the present invention will be described. The wireless terminal measurement method according to the present invention includes a connection stage, a switching stage, a signal generation stage, and a signal analysis stage.

  In the connection stage, as shown in FIG. 2, the operator connects terminals from a plurality of antenna units 10-1 to 10 -N (N = 4 in the example of FIG. 2) of the terminal device 10 and the wireless terminal. The terminals 11-1 to 11-M (M = 4 in the example of FIG. 2) of the connection unit 11 of the measuring apparatus 1 are connected via a cable such as a coaxial cable.

  Hereinafter, the processes of the switching stage, the signal generation stage, and the signal analysis stage will be described with reference to FIGS. The operator can select one or two antenna units 10-n (n = 1,..., N) to be measured from the operation unit 16 at the same time. When the antenna unit 10-n selected by the operator performs full-duplex communication, the control unit 15 performs the process shown in FIG. When the antenna unit 10-n selected by the operator performs half duplex communication or unidirectional communication, the control unit 15 performs the process illustrated in FIG.

  FIG. 4 is a flowchart of a wireless terminal measurement program executed by the control unit 15 of the wireless terminal measuring apparatus 1.

  First, the control unit 15 confirms that an instruction signal instructing measurement for one or two antenna units 10-n (n = 1,..., N) is transmitted from the operation unit 16 (step S40). ). Hereinafter, the code of the antenna unit that receives the test signal is denoted by 10-n, and the code of the antenna unit that transmits the response signal or the terminal transmission signal is denoted by 10-m.

  When the instruction signal is transmitted from the operation unit 16, the control unit 15 determines whether or not the antenna unit 10-n to be measured performs full-duplex communication (step S41). When the antenna unit 10-n to be measured performs full-duplex communication, the control unit 15 measures the antenna unit 10-n in a first wireless terminal measurement routine described later (step S42). . On the other hand, when the antenna unit 10-n to be measured does not perform full-duplex communication, the antenna unit 10-n is measured by a second wireless terminal measurement routine described later (step S43).

  FIG. 5 is a flowchart of a first wireless terminal measurement routine executed by the control unit 15 of the wireless terminal measuring apparatus 1.

  First, the control unit 15 sends an instruction signal to the switching unit 14, and switches each switch of the switching unit 14 to a transmission / reception state with respect to the antenna unit 10-n that performs full-duplex communication (step S50). That is, the antenna unit 10-n is selectively connected to the signal generation unit 12 and the signal analysis unit 13.

  Next, the control unit 15 sends an instruction signal to the signal generation unit 12 and outputs a test signal corresponding to the communication standard of the antenna unit 10-n to the antenna unit 10-n (step S51).

  Then, the control unit 15 sends an instruction signal to the signal analysis unit 13, analyzes the response signal from the antenna unit 10-n to the test signal, and stores the analysis result in the memory 15a (step S52).

  In step S52, the control unit 15 notifies the signal analysis unit 13 of the correction value of the internal wiring loss related to the transmission / reception state stored in advance in the memory 15a. As a result, it is possible to save the operator from manually inputting the correction value for the loss of the internal wiring in the measurement system using the conventional external switch box.

  FIG. 6 is a flowchart of the second wireless terminal measurement routine executed by the control unit 15 of the wireless terminal measuring apparatus 1.

  First, the control unit 15 sends an instruction signal to the switching unit 14, and switches each switch of the switching unit 14 to a transmission state for the antenna unit 10-n that performs half-duplex communication or unidirectional communication (step S60). That is, the antenna unit 10-n is selectively connected to the signal generation unit 12.

  Next, the control unit 15 determines whether or not n = m for the antenna unit 10-m that transmits the response signal or the terminal transmission signal (step S61). When n = m, the control unit 15 sends an instruction signal to the signal generation unit 12 to transmit a test signal corresponding to the communication standard of the antenna unit 10-n that performs half-duplex communication or unidirectional communication. The data is output to the unit 10-n (step S62).

  Next, the control unit 15 sends an instruction signal to the switching unit 14, and switches each switch of the switching unit 14 to a reception state for the antenna unit 10-n (step S63). That is, the antenna unit 10-n is selectively connected to the signal analysis unit 13.

  Through the processing of these steps S60 to S63, the wireless terminal measurement device 1 outputs a half-duplex communication or unidirectional communication signal (for example, an FM broadcast signal) from the signal generation unit 12 to the antenna unit 10-n. In addition, a half-duplex communication or unidirectional communication signal (for example, an FM broadcast signal) can be received as a terminal transmission signal from the antenna unit 10-n.

  Then, the control unit 15 sends an instruction signal to the signal analysis unit 13, analyzes the response signal from the antenna unit 10-n to the test signal, and stores the analysis result in the memory 15a (step S64). In step S64, the control unit 15 notifies the signal analysis unit 13 of the correction value of the internal wiring loss related to the transmission state and the reception state stored in advance in the memory 15a.

  On the other hand, if n ≠ m in step S61, the control unit 15 sends an instruction signal to the switching unit 14 to perform half-duplex communication or unidirectional communication with each switch of the switching unit 14. Switching to the reception state for the unit 10-m (step S65). That is, the antenna unit 10-n is selectively connected to the signal analysis unit 13.

  Through the processing of these steps S60, S61, S65, and S66, the wireless terminal measurement device 1 sends a half-duplex communication or unidirectional communication signal (for example, a GNSS signal) from the signal generation unit 12 to the antenna unit 10-n. In addition to outputting, half-duplex communication or unidirectional communication signals (for example, FM broadcast signals) can be received from the antenna unit 10-m as terminal transmission signals.

  Next, the control unit 15 sends an instruction signal to the signal generation unit 12 and outputs a test signal corresponding to the communication standard of the antenna unit 10-n to the antenna unit 10-n (step S66).

  Then, the control unit 15 sends an instruction signal to the signal analysis unit 13, analyzes the terminal transmission signal from the antenna unit 10-m for the test signal, and stores the analysis result in the memory 15a (step S67). . In step S67, the control unit 15 notifies the signal analysis unit 13 of the correction value of the internal wiring loss related to the transmission state and the reception state stored in advance in the memory 15a.

  That is, by the above processing, the measurement of the reception function of the antenna unit 10-n and the measurement of the transmission function of the antenna unit 10-m (≠ n) can be performed in parallel, and the inspection time can be shortened. it can.

  The control unit 15 can also output the analysis result stored in the memory 15a to an external device in accordance with an instruction from the operation unit 16.

  In addition, in the processing shown in FIGS. 4 to 6, the measurement of each antenna unit is started when the operator selects the antenna unit to be measured via the operation unit 16. After giving an instruction to start measurement via the unit 16, the antenna unit to be measured may be automatically switched sequentially.

  As described above, the wireless terminal measurement device and the wireless terminal measurement method according to the present invention include a switching unit (switching stage) that selectively connects a plurality of antenna units of a terminal device to a signal generation unit and a signal analysis unit. Therefore, it is possible to connect all antenna units to a terminal device having a plurality of antenna units corresponding to a plurality of communication standards without using an external switch box, and to switch the antenna unit to be measured. it can.

  The wireless terminal measurement apparatus according to the present invention is useful as a test apparatus for a mobile phone or a smartphone having a plurality of antennas corresponding to a plurality of communication standards.

DESCRIPTION OF SYMBOLS 1 Radio | wireless terminal measuring apparatus 10 Terminal apparatus 10-1 to 10-N Antenna part 11 Connection part 11-1 to 11-M Terminal 11-1, 11-2 Full duplex communication terminal 11-3, 11-4 Half Duplex communication terminal 12 Signal generation unit 12a Baseband signal generation unit 12b RF modulation unit 13 Signal analysis unit 14 Switching unit 14a-1, 14a-2, 14b-1 to 14b-6 Switch 14c-1, 14c-2 Directionality Coupler 15 Control unit 15a Memory 16 Operation unit 17 Display unit

Claims (6)

Wireless that measures a terminal device (10) that supports a plurality of communication standards and includes an antenna unit that performs full-duplex communication and an antenna unit (10-1 to 10-N) that performs half-duplex communication. A terminal measuring device,
A connection portion (11) having a plurality of terminals (11-1 to 11-M) to which the plurality of antenna portions can be connected;
A signal generation unit (12) that generates a test signal corresponding to the plurality of communication standards and outputs the test signal to the terminal device connected to the connection unit;
A signal analysis unit (13) for analyzing a response signal from the terminal device to which the test signal is input or a transmission signal from the terminal device;
One of the antenna units that perform the full-duplex communication of the terminal device is selectively connected to the signal generation unit and the signal analysis unit via the connection unit, or the half-duplex communication A wireless terminal measurement comprising: a switching unit (14) that selectively connects at least one of the antenna units for performing at least one of the signal generation unit and the signal analysis unit apparatus.   The plurality of terminals of the connection unit include at least one full-duplex communication terminal (11-1, 11-2) that can be connected to the antenna unit that performs the full-duplex communication, and an antenna that performs the half-duplex communication. The wireless terminal measurement device according to claim 1, further comprising at least two half-duplex communication terminals (11-3, 11-4) connectable to the unit. The switching unit is
A first switch group (14a-1, 14a-2, 14b-1, 14b-2) for connecting any one of the full-duplex communication terminals to the signal generation unit and the signal analysis unit;
Either one of the half-duplex communication terminals is connected to the signal generation unit or the signal analysis unit, or any two of the half-duplex communication terminals are connected to the signal generation unit and the signal, respectively. A second switch group (14a-1, 14a-2, 14b-3 to 14b-6) for connection to the analysis unit;
The test signal from the signal generation unit is output to the full-duplex communication terminal, and the response signal input from the terminal device via the full-duplex communication terminal is output to the signal analysis unit. The wireless terminal measurement device according to claim 2, further comprising a directional coupler (14 c-1, 14 c-2). A plurality of terminals that can be connected to a terminal device (10) having an antenna unit that performs full-duplex communication and an antenna unit (10-1 to 10-N) that performs half-duplex communication corresponding to a plurality of communication standards. (11-1 to 11-M) A wireless terminal measurement apparatus (1) including a connection unit (11), a signal generation unit (12), a signal analysis unit (13), and a switching unit (14). ) Using a wireless terminal measurement method,
A connection step of connecting the plurality of antenna units to the terminals of the connection unit;
A switching step of selectively connecting one of the antenna units performing the full-duplex communication of the terminal device to the signal generation unit and the signal analysis unit via the connection unit by the switching unit; ,
The signal generation unit generates a test signal corresponding to the plurality of communication standards, and outputs the test signal to the antenna unit connected to the signal generation unit and the signal analysis unit;
And a signal analysis step of analyzing a response signal from the antenna unit to which the test signal is input by the signal analysis unit. A plurality of terminals that can be connected to a terminal device (10) having an antenna unit that performs full-duplex communication and an antenna unit (10-1 to 10-N) that performs half-duplex communication corresponding to a plurality of communication standards. (11-1 to 11-M) A wireless terminal measurement apparatus (1) including a connection unit (11), a signal generation unit (12), a signal analysis unit (13), and a switching unit (14). ) Using a wireless terminal measurement method,
A connection step of connecting the plurality of antenna units to the terminals of the connection unit;
A first switching step of selectively connecting one of the antenna units that perform the half-duplex communication of the terminal device to the signal generation unit by the switching unit via the connection unit;
The signal generation unit generates a test signal corresponding to the plurality of communication standards, and outputs the test signal to the antenna unit connected to the signal generation unit;
A second switching step of selectively connecting the antenna unit connected to the signal generation unit to the signal analysis unit via the connection unit by the switching unit;
And a signal analysis step of analyzing a response signal from the antenna unit to which the test signal is input by the signal analysis unit. A plurality of terminals that can be connected to a terminal device (10) having an antenna unit that performs full-duplex communication and an antenna unit (10-1 to 10-N) that performs half-duplex communication corresponding to a plurality of communication standards. (11-1 to 11-M) A wireless terminal measurement apparatus (1) including a connection unit (11), a signal generation unit (12), a signal analysis unit (13), and a switching unit (14). ) Using a wireless terminal measurement method,
A connection step of connecting the plurality of antenna units to the terminals of the connection unit;
A third switching step of selectively connecting one of the antenna units that perform the half-duplex communication of the terminal device to the signal generation unit via the connection unit by the switching unit;
A fourth switch that selectively connects, to the signal analysis unit, an antenna unit that is different from the antenna unit connected to the signal generation unit among the plurality of antenna units through the connection unit. Stages,
The signal generation unit generates a test signal corresponding to the plurality of communication standards, and outputs the test signal to the antenna unit connected to the signal generation unit;
A radio terminal measurement method comprising: a signal analysis step of analyzing a transmission signal from the antenna unit connected to the signal analysis unit by the signal analysis unit.

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