JP2010258960A - Reception sensitivity measuring system for radio terminal - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a reception sensitivity measuring system for a radio terminal, which measures reception sensitivity in an inexpensive configuration. <P>SOLUTION: In the reception sensitivity measuring system for a mobile radio terminal, a terminal control means 240 in a radio terminal 200 receives a sensitivity measurement telegraphic message transmitted from a tester 100, a received data signal is compared with a data signal 430 stored in a terminal storage means 250 by using a terminal comparing means 270, and the number of mismatched bits is transmitted to an external device 300. Thus, no receiving means is required in the tester 100, thereby achieving a simple and inexpensive configuration. Moreover, reception sensitivity can be accurately measured, since the number of error bits is transmitted to the external device 300. <P>COPYRIGHT: (C)2011,JPO&INPIT

Description

  The present invention relates to a reception sensitivity measurement system for a wireless terminal that measures reception sensitivity of a wireless terminal using a test apparatus.

  Conventionally, this kind of wireless terminal reception sensitivity measurement system is based on a method of measuring reception sensitivity by connecting an expensive measuring instrument to the wireless terminal, and the presence / absence of a response message from the wireless telephone terminal to the test message from the test device. There is a method of measuring reception sensitivity (see, for example, Patent Document 1).

  FIG. 6 shows a conventional radio terminal reception sensitivity measuring system described in the publication. As shown in FIG. 6, the test apparatus 100 includes a test apparatus 100 and a radio terminal 200. The test apparatus 100 transmits a test radio message to the apparatus radio transmission unit 110 and sets a test message transmission output level. Means 120, device wireless reception means 130 for receiving a response message from the wireless terminal 200, device determination 140 for determining a response message from the transmitted test message, and device control means 150 for controlling each means. Then, the wireless terminal 200 returns a response message to the test message to the terminal wireless reception unit 210 that receives the test message, and the terminal determination unit 220 that determines whether the message received by the terminal wireless reception unit 210 is a test message. It comprises a terminal wireless transmission means 230 and a terminal control means 240 for controlling the means.

  The apparatus control means 150 in the test apparatus 100 sets the transmission output level of the test message using the apparatus transmission output level setting means 120, and transmits the test message to the wireless terminal 200 using the apparatus wireless transmission means 110. Terminal control means 240 in wireless terminal 200 determines that the message received using terminal wireless reception means 210 is a test message using terminal determination means 220, and uses terminal transmission means 230 for test apparatus 100. A response message is returned. The test apparatus 100 repeatedly transmits the above test message while changing the transmission output level using the apparatus transmission output level setting means 120, and sets the transmission output level of the previous test message that cannot receive a reply from the wireless terminal 200. The reception sensitivity of the wireless terminal 200 is measured.

JP 08-288915 A

  However, in the conventional configuration, the test apparatus requires a receiving means for receiving a message from the wireless terminal, which leads to high cost of the test apparatus. In addition, since it is not known how many bits of error occurred in the transmitted test message data, the reception sensitivity cannot be measured accurately. Furthermore, since it is necessary to repeat transmission and reception, the test time becomes longer. Furthermore, when an error occurs in the reply from the wireless terminal due to the radio wave environment, there is a problem that the wrong reception sensitivity may be measured and the test procedure is complicated.

  The present invention solves the above-described conventional problems, and the test apparatus has a simple configuration and is inexpensive, and can accurately measure reception sensitivity. It is another object of the present invention to provide a radio terminal reception sensitivity measurement system capable of reducing the test time and facilitating the test procedure.

  In order to solve the conventional problems, a reception sensitivity measurement system for a wireless terminal according to the present invention includes a device wireless transmission unit that transmits a sensitivity measurement message as a test device, and transmission of the sensitivity measurement message using the device wireless transmission unit. Device control means for setting an output level, the wireless terminal receives terminal wireless reception means for receiving the sensitivity measurement message, terminal storage means in which the message content of the sensitivity measurement message is stored in advance, and an external device, Terminal interface means for performing communication of the terminal, terminal comparison means for comparing the sensitivity measurement message received by the terminal wireless reception means and the message content of the sensitivity measurement message stored in the terminal storage means, and each means Terminal control means.

  Thereby, the terminal control means transmits the result of comparison by the terminal comparison means to the external device via the terminal interface means.

  In the wireless terminal reception sensitivity measuring system of the present invention, the test apparatus does not need to be provided with a receiving means, and the number of error bits is calculated by the wireless terminal itself and transmitted to an external device, so that the number of error bits is measured. The dedicated measuring instrument is no longer required, and the receiving circuit uses the receiving circuit of the wireless terminal without using the receiving circuit of the measuring instrument, and the reception sensitivity can be measured in the same way as in actual communication. The reception sensitivity can be measured more accurately. Further, since the wireless terminal does not need to transmit, an error does not occur in the reply from the wireless terminal due to the radio wave environment, and the wrong reception sensitivity is not measured. In addition, the test procedure can be facilitated.

Usage environment diagram of radio terminal reception sensitivity measurement system according to Embodiment 1 of the present invention Configuration diagram of a radio terminal reception sensitivity measurement system according to the first embodiment of the present invention. FIG. 3 is a frame configuration diagram of a radio message according to the first embodiment of the present invention. Flow chart of radio terminal reception sensitivity measurement system in Embodiment 1 of the present invention Sequence diagram of radio terminal reception sensitivity measurement system according to Embodiment 1 of the present invention Configuration diagram of conventional radio terminal reception sensitivity measurement system

  According to a first aspect of the present invention, the test apparatus includes: a device wireless transmission unit that transmits a sensitivity measurement message; and a device control unit that sets a transmission output level of the sensitivity measurement message using the device wireless transmission unit. Is a terminal wireless reception means for receiving the sensitivity measurement message, a terminal storage means for storing the message content of the sensitivity measurement message in advance, a terminal interface means for communicating with an external device, and the terminal wireless reception means. The test apparatus has a terminal comparison unit that compares the received sensitivity measurement message with the message content of the sensitivity measurement message stored in the terminal storage unit, and a terminal control unit that controls each unit. There is no need to provide a means, and since the wireless terminal itself calculates the number of error bits and transmits it to an external device, a dedicated expensive instrument for measuring the number of error bits is not required There, moreover it is possible to accurately measure than for measuring the reception sensitivity actual communication the same way. Further, since the wireless terminal does not need to transmit, an error does not occur in the reply from the wireless terminal due to the radio wave environment, and the wrong reception sensitivity is not measured. In addition, the test procedure can be facilitated.

  In the second invention, the apparatus control means can measure the reception sensitivity for various transmission output levels in a short time by continuously transmitting sensitivity measurement messages having different transmission output levels using the apparatus wireless transmission means. Can be shortened.

In the third invention, in particular, the device control means in the first invention or the second invention includes a control message including information on the sensitivity measurement message separately from the transmission of the sensitivity measurement message using the device wireless transmission means. When the transmission speed and sensitivity measurement message format are different, it is possible to switch the reception conditions of the wireless terminal using the control message, so the reception sensitivity of various wireless terminals can be measured easily and in a short time. can do.

  In the fourth aspect of the invention, in particular, in any one of the first to third aspects of the invention, the sensitivity measurement message includes information on the transmission output level, so that the external device can control the transmission output level of the test apparatus. Since the number of error data (number of bits) at the wireless terminal can be easily obtained, the reception sensitivity can be easily measured.

  In the fifth invention, in particular, in any one of the first to fourth inventions, a terminal reception electric field strength measuring means for measuring a reception electric field strength of a radio telegram and whether or not to receive the radio telegram is received. A terminal reception storage means for determining using a threshold value, and the terminal control means measures the reception field strength level of the sensitivity measurement message using the terminal reception field strength measurement means, and uses the measured level as a reception determination threshold value. By setting the terminal reception storage means, the reception determination threshold can be measured simultaneously with the reception sensitivity measurement, so that the test time can be further shortened.

  According to a sixth aspect of the present invention, in particular, in any one of the first to fifth aspects, the sensitivity measurement message transmitted from the apparatus wireless transmission means is a broadcast message that can be received by a plurality of wireless terminals. Since the reception sensitivity of the wireless terminal can be measured at a time, the test time can be shortened.

  In the seventh invention, in particular, the terminal interface means according to any one of the first to sixth inventions is a serial communication system that regulates data exchange between a plurality of devices by two signals. By conforming to a certain I2C (Inter-Integrated Circuit), even when a plurality of external devices are connected to the wireless terminal, it is not necessary to provide a plurality of interface means. In addition, even when another external device is already connected to the wireless terminal, the external device can be connected without removing the other external device from the wireless terminal, so that convenience can be improved. Furthermore, since it shifts to the inspection mode which is a specific mode for receiving a sensitivity message and measures the sensitivity, the sensitivity measurement can be easily and quickly performed.

  Hereinafter, embodiments of the present invention will be described with reference to the drawings. Note that the present invention is not limited to the present embodiment.

(Embodiment 1)
FIG. 1 is a diagram showing an example of a usage environment of a reception sensitivity measurement system for a wireless terminal according to the first embodiment of the present invention, a test apparatus 100 that transmits a sensitivity measurement message, and a terminal under test that receives the sensitivity measurement message. And the external device 300 that performs reception control of reception sensitivity information from the wireless terminal 200 and transmission control of the sensitivity measurement message of the test apparatus 100.

  The connection between the test apparatus 100 and the wireless terminal 200 and the external device 300 may be a wired connection (RS232C, USB, LAN, GPIB). Further, as a wireless communication method between the test apparatus 100 and the wireless terminal 200, specific low power wireless such as 400 MHz band, 800 MHz, 900 MHz, 2.4 GHz band, and the like can be considered, and the wireless terminal 200 includes a low power wireless device, A wireless terminal having a wireless communication function, such as a mobile phone device or a PDA (Personal Digital Assistant), can be considered.

  Next, an example of the configuration of the test apparatus 100 and the wireless terminal 200 will be described. FIG. 2 is a diagram illustrating an example of the configuration of the test apparatus 100 and the wireless terminal 200.

The test apparatus 100 includes a device wireless transmission unit 110 that transmits a sensitivity measurement message, a device transmission output level setting unit 120 that sets a transmission output level of the sensitivity measurement message using the device wireless transmission unit 110, and communication with an external device 300. The apparatus interface means 160 which is the interface of the apparatus, and the apparatus control means 150 which governs each means.

  The wireless terminal 200 includes a terminal wireless reception unit 210 that receives the sensitivity measurement message, a terminal storage unit 250 that stores in advance the message content of the sensitivity measurement message, a terminal interface unit 260 that communicates with the external device 300, and a terminal A terminal comparison unit 270 that compares the sensitivity measurement message received by the wireless reception unit 210 with the message content of the sensitivity measurement message stored in the terminal storage unit 250; and a terminal control unit 240 that controls each of the units.

  Next, operations related to wireless communication between the test apparatus 100 and the wireless terminal 200 will be described. (A) in FIG. 3 is an example of a frame structure of a wireless message used in wireless communication.

  The frame 400 in FIG. 3A includes a bit synchronization area 410, a frame synchronization area 420, and a data area 430. The bit synchronization area 410 is an area for generating a clock for receiving the subsequent frame synchronization area 420 and data area 430. Here, the signal in the bit synchronization area is referred to as a bit synchronization signal. The frame synchronization area 420 is an area for identifying the head of the data area 430. Here, the signal in the frame synchronization area is referred to as a frame synchronization signal. The data area 430 is an area that includes actual data for measuring the reception sensitivity of the wireless terminal 200. Here, the signal in the data area is referred to as a data signal.

  FIG. 3B shows a signal content list 440 of the bit synchronization signal 410, the frame synchronization signal 420, and the data signal 430 in the frame 400. Here, a 31-bit M-sequence code, which is a pseudo-random signal, is adopted as the frame synchronization signal 420, but in general, 1 bit is added to make it a multiple of 8 so that it can be handled easily by a computer or the like to be 32 bits. . The data signal 430 has a probability of occurrence of “1” / “0”, which is generally used for measuring the reception sensitivity of wireless communication, equal to 1/2, and can be generated by a 9th bit shift circuit with a power of 2 9. As with the frame synchronization signal 420, 1 bit is added to the PN9 signal which is a pseudo random pattern of length (Pseud random pattern) to form 512 bits. In this embodiment, the terminal storage unit 250 will be described assuming that this data signal is stored in advance.

  An example in which the wireless terminal 200 receives a sensitivity measurement message and measures reception sensitivity will be described with reference to a flowchart S100 illustrated in FIG.

  The external device 300 transmits a sensitivity measurement start command to the wireless terminal 200.

  Subsequently, the wireless terminal 200 receives the sensitivity measurement start command via the terminal interface unit 260 under the control of the terminal control unit 240 (step S101).

  Subsequently, the terminal control unit 240 analyzes the content of the sensitivity measurement start command, and sets reception parameters for the terminal receiving unit 210 based on the analyzed content (step S103). As the reception parameter, a transmission rate, a modulation method, a reception digital filter value, and the like can be considered.

  Subsequently, the terminal control unit 240 continues the reception state until it detects the bit synchronization signal of the sensitivity measurement message shown in FIG. 3 using the terminal wireless reception unit 210 (step 103).

The external device 300 transmits a command for instructing the transmission output level of the sensitivity measurement message and the transmission start to the test apparatus 100, and the test apparatus 100 transmits this command via the apparatus interface means 160 under the control of the apparatus control means 150. It receives and analyzes the command contents, and transmits the sensitivity measurement message to the wireless terminal 200 through the apparatus wireless transmission means 110 at the instructed transmission output level using the apparatus transmission output level setting means 120.

  Subsequently, the terminal control means 240 detects the frame synchronization signal shown in FIG. 3 following the detection of the bit synchronization signal (step S104). Here, if the bit synchronization signal and the frame synchronization signal have not been detected even after a predetermined time has elapsed (step 105), an error message is transmitted to the external device 300 via the terminal interface means 260 (step 106). .

  Subsequently, the terminal control unit 240 acquires the data signal shown in FIG. 3 included in the sensitivity measurement message. The content of the acquired data signal and the content of the data signal stored in advance in the terminal storage unit 250 are acquired, and the number of mismatch bits is calculated using the terminal comparison unit 270 (step S107).

  Subsequently, the terminal control unit 240 transmits the previously calculated number of mismatch bits to the external device 300 via the terminal interface unit 260 (step S108).

  Subsequently, the terminal control unit 240 ends reception of the wireless telegram using the terminal wireless reception unit 210 (step S109).

  As a message format to be transmitted from the wireless terminal 100 to the external device 300, for example, a method of expressing a mismatch bit number and an error state at the time of receiving a sensitivity measurement message with 2 bytes: 00 (h) to FF (h) can be considered. For example, a case of a bit synchronization error that cannot receive the bit synchronization signal 410 and a frame synchronization error that cannot receive the frame synchronization signal 420 are set to FF (h), and the case where the number of mismatch bits of the PN9 signal 430 is 253 bits is 00 (h) to FD. (H), and when the number of mismatch bits is 254 bits or more, there is a method in which all are set to FE (h) (steps 106 and 108).

  As the timeout time for waiting for reception of the bit synchronization signal 410 (step S105), since the external device 300 transmits a command to the test apparatus 100 after transmitting a command to the wireless terminal 200, the time difference at this time is taken into consideration. It can be considered to be about 5 seconds. Further, as the timeout period for waiting for reception of the frame synchronization signal 420 (step S105), it is conceivable that the timeout period corresponds to the time of sensitivity measurement message length + frame synchronization signal length.

  In this embodiment, the PN9 signal is used as the data signal 430. However, the PN15 or PN23 that can be generated by a 15-stage or 23-stage bit shift circuit can also be used.

  As described above, in the present embodiment, the terminal control unit 240 in the wireless terminal 200 receives the sensitivity measurement message transmitted from the test apparatus 100, and the received data signal and the data signal stored in the terminal storage unit 250. 430 is compared using the terminal comparison unit 270, and the number of mismatch bits is transmitted to the external device 300, so that it is not necessary to provide the reception unit in the test apparatus 100, so that the configuration is simple and inexpensive. In addition, since the number of error bits is transmitted to the external device 300, accurate reception sensitivity can be measured. Further, since it is not necessary to repeat transmission / reception, the test time can be shortened, and further, since there is no need for the wireless terminal 200 to perform wireless transmission, an error does not occur in a reply from the wireless terminal 200 due to the radio wave environment, and the error The reception sensitivity is not measured. In addition, the test procedure can be facilitated.

  In the present embodiment, as an operation for transmitting a sensitivity measurement message, the device control unit 150 in the test apparatus 100 receives a command from the external device 300, and the device transmission output level setting unit 120 sets a transmission output level. The device control unit 150 automatically transmits a plurality of sensitivity measurement messages set to different transmission output levels using the device transmission output level setting unit 120. By doing so, the reception sensitivity for various transmission output levels can be measured in a short time, so that the test time can be shortened.

  Further, in the present embodiment, the terminal control unit 240 in the wireless terminal 200 has been described as setting the predetermined wireless reception parameter in the terminal wireless reception unit 210 (step S102), but the test apparatus 100 transmits a sensitivity measurement message. Prior to transmission, a control message including the wireless reception parameters may be transmitted. Specifically, it is conceivable that the transmission frequency and transmission speed of the control message are determined in advance, and the message type information indicating that the message is a control message and the information of the previous wireless reception parameter are inserted into the data signal 430. As described above, by transmitting the control message before the transmission of the sensitivity measurement message, the sensitivity measurement mode of the wireless terminal 200 can be switched by the control message when the transmission rate and the message format of the sensitivity measurement message are different. Therefore, it is possible to easily measure the reception sensitivity of various wireless terminals in a short time.

  In the present embodiment, the data signal 430 is described as 512 bits (PN9: 511 bits + 0) as shown in the signal content list 440. For example, 16 bits are added to the data signal, and the 16 bits are used as a test apparatus. The device control unit 150 in 100 indicates the information on the transmission output level set by using the device transmission output level setting unit 120, so that the sensitivity measurement message includes information on the transmission output level, and the external device 300 Thus, since the number of error data (number of mismatch bits) at the wireless terminal 200 with respect to the transmission output level of the test apparatus 100 can be easily obtained, the reception sensitivity can be accurately measured. In addition, a plurality of sensitivity measurement messages with different transmission output levels are transmitted from the test apparatus 100. Even if some sensitivity measurement messages are lost due to radio wave environment or the like, the sensitivity measurement message includes information on the signal output level. Therefore, the radio terminal 200 can easily determine the reception sensitivity.

  Further, in the present embodiment, the terminal reception electric field strength measuring means 240 for measuring the reception electric field strength of the radio telegram, the reception determination threshold value indicating whether or not to receive the radio telegram is stored in addition to the data signal of the sensitivity measurement telegram. Terminal storage means 250 and terminal determination means 280 for determining whether or not to receive a wireless message in addition to the comparison of received sensitivity measurement messages. 280 is used to measure the received electric field strength level of the sensitivity measurement message, and the measured level is set in the terminal storage means 250 as a reception determination threshold, and when receiving a wireless message, the received electric field strength of the received message is set. The reception determination threshold value is compared using the terminal comparison unit 270 to determine whether or not to receive a wireless message. As described above, since the reception determination threshold can be set simultaneously with the reception sensitivity measurement, the test time can be further shortened.

  In the present embodiment, the message format in the sensitivity measurement message does not include information for designating the wireless terminal of the transmission partner, that is, the sensitivity measurement transmitted by the test apparatus 300 by transmitting the broadcast message. The configuration can be such that a plurality of wireless terminals can simultaneously receive a message, and the reception sensitivity of the plurality of wireless terminals can be measured at a time, so the test time can be shortened.

In the present embodiment, the terminal interface unit 260 is a serial communication system that defines the exchange of data between a plurality of devices using two signals (a data signal and a clock signal). In accordance with the Integrated Circuit), the wireless terminal 200 performs serial communication with the external device 300 when the power is turned on, shifts to the inspection mode for receiving the sensitivity measurement message, and measures the reception sensitivity in the inspection mode. You can also. An example will be described with reference to the communication sequence diagram of FIG.

  When the power of the wireless terminal 200 is turned on (step 201), the terminal control unit 240 uses the terminal interface unit 260 compliant with I2C to check whether the external device 300 is connected or not. An external device connection confirmation command is transmitted to (step 202). Then, when an external device connection response command is received from the external device 300 (step 203), the test mode transition notification for notifying the external device 300 of the transition to the test mode is made at the same time as the transition to the test mode for measuring sensitivity. A command is transmitted (step 204). Similarly to the above description, the terminal control unit 240 transmits the mismatch bit number calculated by the mismatch bit number notification command to the external device 300 via the terminal interface unit 260 (step S206).

  In the above description, the case where the number of external devices 300 is one has been described. However, when a plurality of external devices are connected, the terminal interface unit 260 specifies a communication partner address and performs serial communication conforming to I2C. For communication, the wireless terminal 200 always transmits a command to the address 01 when the power is turned on, shifts to the inspection mode only when a response command is received, and thereafter communicates with the external device at the address at which the response command is received. Even when a plurality of external devices are connected, the same operation can be performed.

  With the above configuration, even when a plurality of external devices 300 are connected to the wireless terminal 200, it is not necessary to provide a plurality of interface means 260. Further, even if another external device 300 is already connected to the wireless terminal 200, the external device 300 can be connected without removing the other external device 300 from the wireless terminal 200, so that convenience can be improved. it can. Furthermore, since it shifts to the inspection mode which is a specific mode for receiving a sensitivity message and measures the sensitivity, the sensitivity measurement can be easily and quickly performed.

  As described above, the radio terminal reception sensitivity measurement system according to the present invention does not require a receiving unit in the test apparatus, and the radio terminal itself calculates the error bit number and transmits it to the external device. This eliminates the need for a dedicated and expensive measuring instrument for measuring the number, and enables accurate measurement to measure the reception sensitivity in the same way as in actual communication. It can be used for wireless performance evaluation during development.

DESCRIPTION OF SYMBOLS 100 Test apparatus 200 Wireless terminal 300 External apparatus 110 Apparatus wireless transmission means 120 Apparatus transmission output level setting means 130 Apparatus wireless reception means 140 Apparatus determination means 150 Apparatus control means 160 Apparatus interface means 210 Terminal wireless reception means 220 Terminal determination means 230 Terminal wireless Transmission means 240 Terminal control means 250 Terminal storage means 260 Terminal interface means 270 Terminal comparison means 280 Terminal reception electric field strength measurement means

Claims (7)

In a reception sensitivity measurement system that measures the reception sensitivity of the wireless terminal by performing wireless communication between the test apparatus and the wireless terminal, the test apparatus uses a device wireless transmission unit that transmits a sensitivity measurement message, and the device wireless transmission unit And a device control means for setting the transmission output level of the sensitivity measurement message, and the wireless terminal is a terminal wireless reception means for receiving the sensitivity measurement message, and a terminal in which the message content of the sensitivity measurement message is stored in advance Terminal comparison means for comparing storage means, terminal interface means for communicating with an external device, and the sensitivity measurement message received by the terminal wireless reception means and the contents of the sensitivity measurement message stored in the terminal storage means And terminal control means for controlling each means, the terminal control means via the terminal interface means, the terminal comparison means Reception sensitivity measurement system of wireless terminals and transmits the result of comparison to the external device. 2. The reception sensitivity measurement system for a wireless terminal according to claim 1, wherein the apparatus control means continuously transmits sensitivity measurement messages having different transmission output levels using the apparatus wireless transmission means. 3. The wireless terminal reception according to claim 1, wherein the device control means transmits a control message including information on the sensitivity measurement message separately from the sensitivity measurement message using the device wireless transmission means. Sensitivity measurement system. The reception sensitivity measurement system for a wireless terminal according to any one of claims 1 to 3, wherein the sensitivity measurement message includes information on a transmission output level. A terminal reception field strength measuring means for measuring the reception field strength of the wireless message; and a terminal storage means for storing a reception determination threshold value for determining whether or not to receive the wireless message, and the terminal control means measures the terminal reception field strength. 5. The received electric field strength level of the sensitivity measurement message is measured using the means, and the measured level is stored in the terminal storage means as a reception determination threshold value. Radio terminal reception sensitivity measurement system. 6. The wireless terminal reception sensitivity measurement system according to claim 1, wherein the sensitivity measurement message transmitted from the apparatus wireless transmission means is broadcast transmission that can be received by a plurality of wireless terminals. The terminal interface means conforms to I2C (Inter-Integrated Circuit), which is a serial communication method, performs serial communication with an external device when the power is turned on, shifts to an inspection mode for receiving a sensitivity message, and receives in the inspection mode. The radio terminal reception sensitivity measuring system according to any one of claims 1 to 6, wherein sensitivity is measured.

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