DE102009053081B4 - A test apparatus and method for testing a wireless communication communication device - Google Patents

Abstract

Test device for testing a wireless communication device (2), the test device comprising a receiving device (27) for receiving signals from the communication device (2) to be tested, a transmitting device (24) for sending signals to the communication device (2) to be tested and a measuring device (20) for determining at least one measured value, characterized in that the test device (6) has an output device (22) for outputting a result determined from the at least one measured value in the form of a voice data signal, and in that the transmitting device (24) is set up such that the voice data signal output by the output device (22) is converted into a transmission signal and the transmission signal is sent to the communication device (2) to be tested.

Description

The invention relates to a test device and method for testing a communication device provided for wireless communication, in particular such a test device and method, which is particularly suitable for mobile use.

In order to be able to test radios in mobile use for errors and disturbances, a mobile test device is needed to measure the radio parameters. A tester of the prior art is thereby connected between the antenna terminal of the radio and the antenna. The tester measures the relevant parameters to check the functionality of the radio and displays them on a display. Since the test device should also be operated by relatively simply trained radio personnel, a particularly simple operation of the test device is desired. In addition, such a mobile test device for transport should be small and particularly robust.

A test device according to the preamble of appended claim 1 is described in TEAM Electronic GmbH: SWR-HF7000 Instruction Manual, June 2008.

From the DE 40 39 214 A1 is a hand-held device with a measured value characterizing acoustic voice output known.

The object of the invention is to provide an improved test method or an improved test device for testing a communication device provided for wireless communication. In particular, it is desirable to downsize the tester, to make it more robust, and to simplify the operation.

The object is achieved by the test device for testing a wireless communication device according to claim 1 and the method according to claim 8.

The testing device according to the invention has a receiving device for receiving signals of the communication device to be tested, a transmitting device for transmitting signals to the communication device to be tested and a measuring device for determining at least one measured value. The at least one measured value is further processed in the measuring device to a result, which is given to an output device. The output device outputs the result determined from the at least one measured value in the form of a voice data signal.

First, for this purpose, at least one measured value with respect to the communication device is determined from a signal transmitted by the device to be tested, and this at least one measured value is further processed into a result. This result is output in the form of a voice data signal by an output device.

The voice data signal output by the output device is sent by the transmission device as a transmission signal to the communication device to be tested and does not have to be output directly from the test device as an acoustic signal. The communication device under test normally already has an acoustic output device, e.g. B. a speaker. If the voice data signal is sent as a transmission signal to the communication device, the transmission signal received there can be output by the loudspeaker already present in the communication device.

Replacing the optical output of the result with a voice data signal greatly simplifies the operation of the tester. The user no longer has to look at the screen while the test result is being output, but can record the result in the form of speech. This can additionally save the screen of the tester and the size of the tester can be significantly reduced and its resistance can be increased.

The subclaims relate to advantageous developments of the invention.

It is furthermore advantageous that the test device automatically starts the determination of the at least one measured value by means of the control device when a signal of the communication device to be tested is received at the test device. During the transmission mode of the communication device, the most important transmission parameters of the communication device such. As power, frequency, modulation and the adaptation of the antenna can be measured. By automatically starting the measurement process, a keyboard can still be saved on the test device and, in addition, the user-friendliness of the test device can be increased, its size reduced and its stability in mobile use increased.

Any existing cursor keys for scrolling various results in the display are also no longer needed since the results can be output sequentially via the voice data signal. It is particularly advantageous to determine the at least one measured value during the entire transmission time of the communication device. If the communication device ends the transmission mode, a result can be formed from the at least one measured value, the result is converted into a voice data signal and sent back to the communication device as a transmission signal. Alternatively, the determination of the at least one measured value can be ended after a certain time, before the reception of the transmission signal is ended. In this case, it is particularly advantageous to temporarily store the at least one measured value, the result, the voice data signal or the transmission signal until the communication device to be tested returns to the reception mode, in order then to resume further processing of the buffered data.

It is also advantageous that the test device has a first connection for communication with the antenna connection of the communication device and a second connection for connection with the antenna of the communication device. In particular, the first terminal should be connected to the second terminal and the first and the second terminal connected to the measuring device z. B. be connected via a coupling device. As a result, all relevant parameters of the communication device, especially the adaptation to the antenna, can be measured.

It is also advantageous that the test device has an antenna for communication with the communication device to be tested. This makes the test even easier for the user since the step of interposing the tester between the communication device and the antenna is eliminated. By simply positioning the test device in the vicinity of the communication device and by starting a transmission signal by the communication device, a test can be carried out and the test result in the form of voice data by means of a transmission signal to the communication device are returned and output there as an acoustic voice signal.

A preferred embodiment will be described below with reference to the drawing. The drawing shows:

1 a schematic representation of a first embodiment of the test device according to the invention for testing a communication device in a test arrangement;

2 a flow chart of the steps of the first embodiment of the test method according to the invention; and

3 a schematic representation of a second embodiment of the test device according to the invention for testing a communication device in a test system.

1 shows a first embodiment of the test device according to the invention in a test system 1 , The test system 1 has a radio 2 , a headphone set 3 , a microphone 4 , an antenna 5 and a test device 6 on. The radio 2 as a communication device provided for wireless communication has an output device 7 , an input device 8th and a transmitting and receiving device 9 on. The output device 7 receives from the transmitting and receiving device 9 received radio data and outputs this via a on the headphone jack 10 connected headphones 3 out. Alternatively, the radio can 2 the received radio data z. B. via a speaker. The output device 7 For example, an amplifier unit and / or in the case of a digital radio 2 have a digital / analog converter. The received data is preferably voice or other audio data.

The microphone 4 is via a microphone connection 11 of the radio 2 with the input device 8th connected. The input device 8th can for example in the case of a digital radio 2 have an analog / digital converter. About the microphone 4 can voice data through the input device 8th to the transmitting and receiving device 9 to get redirected. The transmitting and receiving device 9 is via a PTT key 12 (push-to-talk switch, PTT) switched between a transmit and receive mode. In the transmission mode with pressed speech key the radio can 2 only send signals without being able to receive signals while the radio is transmitting 2 can only receive signals in receive mode. Will the talk button 12 pressed, then the voice data of the microphone 4 in the transmitting and receiving device 9 converted into a transmission signal and via an antenna interface 13 to the antenna 5 directed.

The antenna 5 is usually via an antenna cable directly to the antenna connector 13 connected. In the test system 1 becomes the test device 6 between the antenna connector 13 and the antenna 5 connected. This is the antenna connection 13 via a first antenna cable 15 with a first connection 16 of the test device 6 and the antenna 5 via a second antenna cable 14 with the second connection 17 of the test device 6 connected. The first and the second connection 16 and 17 of the test device 6 are internally connected to each other to a normal transmission operation of the radio 2 over the antenna 5 to ensure.

A training and coupling device 18 is between the first port 16 and the second port 17 intended. The extraction and coupling device 18 can from the radio 2 transmitted transmission signals and / or from the antenna 5 decouple received output signals and output. The extraction and coupling device 18 is sensitive to the propagation direction of the decoupled signal. Ie. the extraction and coupling device 18 can selectively only turn in the direction of the antenna 5 propagating transmission signal of the radio 2 Disconnect or according to a from the antenna 5 in the direction of the radio 2 decouple propagating signal. This can be realized for example by two oppositely disposed directional couplers. On the other hand, the training and coupling device 18 also suitable, a transmission signal of the test device 6 on the connecting line between the antenna connection 13 and the antenna 5 couple. In an alternative embodiment, the extraction and coupling device 18 also consist of a simple cable branching.

The test device 6 also has a measuring device 20 on which one over a connection 19 with the extraction and coupling device 18 connected is. The extraction and coupling device 18 is suitable for part of one of the radio 2 to decoupled transmitted transmission signal and this decoupled transmission signal via the connection 19 to the measuring device 20 forward. The measuring device 20 is arranged to determine on the basis of the decoupled transmission signal at least one measured value preferably a plurality of measured values. The measured value does not necessarily have to be determined directly from the transmission signal, but can also be based on a value, eg. As the ambient temperature refer, which, however, may have an effect on the transmission signal. Examples of measured values of the transmission signal are power, frequency, modulation or standing wave ratio. A measured value, which is also very interesting for the functionality of the radio 2 is, is the adaptation of the antenna or the adjustment of the radio 2 to the antenna base point resistance. The power, the frequency and the modulation can z. B. directly from the direction of the antenna 5 current transmission signal are determined. The adaptation of the antenna 5 requires both in the direction of the antenna 5 current transmission signal as well as the reflected from the Antennenfußpunkt transmission signal.

For further processing of the at least one measured value or the measured values, the measuring device has 20 an analysis device 21 on. In the analyzer 21 the measured values are further processed to a result. In the case of antenna matching, the antenna matching can be determined from the measured intensity of the transmission signal and the intensity of the reflected transmission signal. On the other hand, it is of course also possible to output the measured value directly as a result in the case of direct measurement of the desired measured value. In the preferred embodiment, the measurements become in the analyzer 21 with target readings from a properly working radio 2 compared. The target readings can be limited by upper and / or lower thresholds. This makes it particularly easy to output a binary result. Either the radio 2 works if all measured values lie within the permitted intervals or it works incorrectly if a measured value is outside this interval. This further increases the user-friendliness of the test device 6 because the result is either "works" or "does not work". The result may generally consist of a measurement of a quality assessment or, as described, a binary result. It is important that the result is a statement about the quality and / or the function of the radio 2 gives. The result can also take into account a plurality of measured values.

The test device according to the invention 6 also has an output device 22 on that over the connection 23 with the measuring device 20 connected is. The measuring device 20 or in the measuring device 20 included analyzer 21 sends the output device 22 about the connection 23 the result of the measurement. The output device 22 converts the result of the measuring device, which is normally present in a physical quantity of a number, into a voice data signal. In terms of content, the voice data signal can consist of the numerical value to be read by machine in conjunction with the physical variable. On the other hand, the content of the voice data signal can also be a standard sentence, which provides information about the quality or functionality of the radio 2 meets. Generally, the voice data signal is an analog or digital signal containing spoken words. Preferably, the voice data signal becomes digital in an MP3 chip of the output device 22 generated. An MP3 chip is a modular component that converts digital audio data in MP3 format into audio data into standard digital and / or analog audio formats, such as those used in radio transmissions. The MP3 chip can already contain ready-made components of all possible spoken voice data signals, or these components can be called up in a separate memory from the MP3 chip. Alternatively, the MP3 chip may also include or be connected to a voice generation chip, which may be e.g. B. converted numbers of the result into a speech signal and also in the output device 22 located. For this purpose, an artificial voice, as used in navigation devices, could be used.

The test device 6 also has a transmitting device 24 on which over connection 25 with the output device 22 and about the connection 26 with the extraction and coupling device 18 connected is. The sending device 24 is suitable to Data signals in transmission signals in one of the radio 2 converted transmission standard. The transmission standard includes analog or digital modulation methods, various error correction methods and possibly encryption of the data. Such a processed transmission signal can over the connection 26 to the training and coupling device 18 which transmits the transmission signal to the transmission line between the antenna 5 and the antenna connector 13 couples. So can any signal from the tester 6 to the radio 2 be sent.

The test device 6 also has a receiving device 27 on which over the connection 28 with the extraction and coupling device 18 connected is. The receiving device 27 is suitable to transmit signals coming from the connecting line between the antenna 5 and the first antenna connector 13 based on the transmission standard of the radio 2 to convert into a data signal. The sending device 24 and the receiving device 27 can support multiple transmission standards, so the test device 6 for a variety of radios or a radio 2 is suitable with a plurality of supported transmission standards. The test device 6 also has a control device 29 on which via a control line 30 with receiving device 27 and via another control line 31 with the measuring device 20 connected is.

The following is intended with the help of 2 the operation of the test system according to the invention 1 be explained. In a first step S1, the test system 1 built up. This is done between the radio 2 and the antenna 5 the test device 6 connected. The headphone 3 gets to the headphone jack 10 and the microphone 4 to the microphone connector 11 connected. headphone 3 and microphone 4 can also be used as headset (headset) at a common port for connection to the output device 7 and input device 8th be connected. The test user puts the headphones 3 on, in a second step S2 to start the test, the speech switch 12 and speaks into the microphone 4 , By pressing the talk switch 12 becomes the transmitting and receiving device 9 switched to transmit mode. The spoken message is transmitted via the microphone 11 and the input device 8th to the transmitting and receiving device 9 given. The transmitting and receiving device 9 in a third step S3 converts the test signal into a transmission signal in the transmission standard of the radio 2 and sends this over the antenna connection 13 through the test device 6 to the antenna 5 (Step S3).

In the test device 6 In a fourth step S4, the test signal is received. This is done by the training and coupling device 18 the test signal from the transmission line between the antenna connector 13 and the antenna 5 decoupled. The decoupled test signal is transmitted via the connection 28 to the receiving device 27 given. The receiving device 27 converts the decoupled test signal into a signal and transmits the content of this data and / or only the metadata of the decoupled test signal via the control connection 30 to the control device 29 , Metadata may include the information that the received test signal from the radio 2 comes. Based on the data and / or the metadata, the controller decides 29 whether the test signal from the radio 2 comes. Once the control device 29 the reception of a test signal from the radio 2 has detected, causes the control device 23 over the second control link 31 the measuring device 20 at the beginning of the determination of the at least one measured value.

In a fifth step S5 is in the measuring device 20 at least one measured value, advantageously a plurality of measured values, determined. These are the training and coupling device 18 the decoupled test signal to the measuring device 20 to determine the measured values. In order to determine the antenna matching, the reflected test signal is also sent to the measuring device 20 directed. This can be done sequentially or in parallel. In a sixth step S6, a result is calculated from the at least one measured value or the plurality of measured values. The result can also consist of the at least one measured value or the plurality of measured values. In the preferred embodiment, the result is z. "1" for a properly functioning radio and "0" for a non-functioning radio 2 ,

The result is via the connection line 23 to the output device 22 in which, in a seventh step S7, the result is converted into a voice data signal. In the aforementioned example, the output device could be converted to the result "1" in a stored speech module "radio is OK" or in case of a result "0" in a speech module "radio is not fully functional". Especially in the case of a non-functioning radio 2 For example, the voice data signal may contain further information about the cause of the error if the result provides such information. The error of the radio 2 can z. B. be refined by converting the critical measured value. This requires the presence of a speech generation device for converting "written data" to "speech data".

That in the output device 22 generated voice data signal is transmitted via the connection line 25 to the transmitting device 24 Posted. In an eighth step S8, the voice data signal in the transmitting device 24 converted into a transmission signal. The transmission signal is received by the transmission device in a further step S9 24 about the connection 26 to the training and coupling device 18 given and from the training and coupling device 18 into the connection line between the antenna 5 and the antenna connector 13 coupled. Ie. the transmitting device 24 now transmits the transmission signal containing the converted voice data signal to the radio 2 ,

In a tenth step S10, the radio receives 2 the transmission signal in the transmitting and receiving device 9 , The transmitting and receiving device 9 converts the transmission signal again into a voice data signal and gives it to the output device 7 further. The output device 7 routes the voice data signal through the headphone jack 10 to the headphones 3 which converts the voice data signal into an acoustic signal, that is, in actual spoken language. The acoustical output of the measured value as a language informs the operator acoustically without having to look at the screen.

The at least one measured value, determined by the measuring device 20 , and the result obtained therefrom relates to the transmission signal of the radio 2 or the functionality of the transmission mode of the radio 2 , This is a test of transmit mode (TX test). In addition, a reception test (RX test) is normally also carried out, with the test apparatus 6 a test signal to the radio 2 and test user sends the received test signal into his headphone 3 receives and controlled by the acoustic output. By the invention, the reception test with the transmission of the results of the transmission test to the radio 2 be combined. Receives the user of the radio 2 a result of the broadcasting test, it can at the same time of the correct function of the reception of the radio 2 out. An additional transmission of a separate test signal is thus superfluous. In such a configuration, it is of course necessary that in any case a result of the transmission test to the radio 2 is sent.

In the described embodiment, the test of the transmission mode of the radio is 2 automatically when receiving a signal from the radio 2 started. The test user no longer needs to take a test, eg. B. by an input on the keyboard of the radio 2 , start by hand. The at least one measured value is in the measuring device 20 determined over the entire duration of the transmitted test signal. Leaves the user of the radio 2 the talk button 12 go and go the radio 2 thus again in the receive mode is in the tester 6 via the receiving device 27 and control device 29 registers this status change and the determination of the at least one measured value in the measuring device 20 automatically ended. Then the result is determined and in the output device 22 converted into a voice data signal and by means of the transmitting device 24 and the input and output device 18 as a transmission signal to the radio 2 Posted. This will ensure that the radio 2 is in the transmission of the results as a voice data signal or as a transmission signal in readiness to receive.

Should the transmission of the result as a voice signal converted into a transmission signal not be completed before the radio 2 returns to the transmit mode, the transmit signal can be cached in a memory and upon detection of a new receive mode of the radio 2 through the control device 29 the cached transmit signal to the radio 2 be sent. The detection of the transmission or reception mode is done by means of the receiving device. This gives z. B. while her a signal from the training and coupling device 18 a status signal is supplied, through which the output device 22 the measuring device 20 and the transmitting device 24 the operating state of the radio is transmitted. On the other hand, the transmission signal, which has not yet been transmitted, could also be buffered and upon detection of the reception mode of the radio 2 be forwarded. The radio could be constructed as in the second embodiment described below.

In a second embodiment, the test device 6 a shared memory 32 on. The additional memory 32 of the second embodiment is in 1 drawn dashed. In the second embodiment, the measuring device 20 designed so that the at least one measured value is determined over a predetermined period of time. This is the memory 32 about the connection 33 with the measuring device 20 connected. The control device 29 connected to the measuring device 20 interrupts the further processing of the at least one measured value until the receiving device 27 the control device 29 notifies that the radio 2 again in a receive mode, that is, the radio 2 stopped sending the test signal. This change is in the receive mode in the control device 29 registered causes the control device 29 the measuring device 20 the cached metrics in the analyzer 21 to process a result and to the output device 22 to give. The further procedure corresponds to the first embodiment. This interruption of the processing of the readings may also be in the output device 22 or the transmitting device 24 be done. This is the memory 32 about the connection 34 with the output device or via the connection 35 with the transmitting device 24 connected. In the time between the end of the determination of the measured values and the change of the radio 2 from a transmitting mode to a receiving mode, the at least one measured value in the measuring device 20 to a result or result in the output device 22 to a voice data signal or in the transmitting device 24 be further processed to a transmission signal. Until you change the radio 2 from the transmitting state to the receiving state, either the result in the memory 32 , the voice data signal in the memory 32 or the transmission signal in the memory 32 cached. Further processing of the buffered result, voice data signal or transmission signal is performed by the control device 29 caused as described in connection with the first embodiment. This is the control device 29 via the control line 36 with the output device 22 or via the control line 37 with the transmitting device 24 connected.

Should in the second embodiment, the change of the radio 2 from the transmission state to the reception state already before the end of the process for determining the at least one measured value in the measuring device 20 required period of time, can either, as in the first embodiment, after switching to the receiving mode of the radio 2 the result is determined, the voice data signal is detected, the voice data signal is generated and the converted transmission signal to the radio 2 be sent. Alternatively and above all, if a meaningful measurement requires a certain period of time, instead of a result, an error signal can be converted into a voice data signal and the voice data signal including the error message in the transmission device 24 be converted into a transmission signal and to the radio 2 be sent. The error message can be the cause of the error, in this case too short an operation of the PTT key 12 include. The user hears the error message through the headphones 3 and can repeat the transmission measurement.

Generalized to all embodiments, this means that the output device 22 in case of a failed measurement in the measuring device 20 instead of a result, can convert an error message into a voice data signal.

The continuation of the first embodiment, as in the second embodiment by latching the transmission signal in the memory 32 will be realized.

3 shows a third embodiment 38 of the test system according to the invention. The test system 38 differs from the first two embodiments in that the antenna 5 of the radio 2 over the antenna cable 14 ' directly on the antenna connection 13 is connected. The test device 39 of the test system 38 has a connection 42 on, which via the antenna cable 41 with its own antenna 40 connected is. The test device 39 receives over the antenna 40 the transmitted test signal of the radio 2 and sends over the antenna 40 Transmission signals to the radio 2 , The receiving device 27 , the transmitting device 24 and the measuring device 20 are no longer with an input and output device 18 as in the radio 6 but directly to the antenna connector 42 of the test device 39 connected. The rest of the test system 38 corresponds to the test system 1 , which is why the same reference characters as in test system 1 be used and a re-description is avoided.

The measuring device 20 could be beneficial with the receiving device 27 connected to test content and / or metadata of the test signal of the radio 2 to control.

The invention is not limited to the described embodiments. Rather, all embodiments can be combined.

Claims (11)

Test device for testing a communication device provided for wireless communication ( 2 ), the test device having a receiving device ( 27 ) for receiving signals of the communication device under test ( 2 ), a transmitting device ( 24 ) for sending signals to the communication device under test ( 2 ) and a measuring device ( 20 ) for determining at least one measured value, characterized in that the test device ( 6 ) an output device ( 22 ) for outputting a result determined from the at least one measured value in the form of a voice data signal, and in that the transmitting device ( 24 ) is set up so that that of the output device ( 22 ) is converted into a transmission signal and the transmission signal to the communication device under test ( 2 ) is sent. Test device according to claim 1, characterized in that the test device ( 6 ) a control device ( 29 ) connected to the receiving device ( 27 ) and the measuring device ( 20 ), wherein the control device ( 29 ) is arranged to receive a signal from the communication device under test (FIG. 2 ) by the receiving device ( 27 ) the measuring device ( 20 ) so that the determination of the at least one measured value is started. Test device according to claim 1 or 2, characterized in that the control device ( 29 ) is set up so that after the end of the communication device to be tested ( 2 ), or after a fixed period of time ends the determination of the at least one measured value and by the measuring device (FIG. 20 ) a result from the at least one measured value is determined. Test device according to claim 1, 2 or 3, characterized in that the test device ( 6 ) a storage device ( 32 ) for storing the at least one measured value and / or the result and / or the voice data signal and / or the transmission signal and that the measuring device ( 20 ) and / or the output device ( 22 ) and / or the transmitting device ( 24 ) with the control device ( 29 ), the control device ( 29 ) is set up, the measuring device ( 20 ), so that the result from the at least one stored measured value is not available until after the end of a communication device to be tested ( 2 ) is detected, or the measuring device ( 20 ) so that an already stored result can only be determined after the end of a communication device to be tested ( 2 ) or to control the output device in such a way that an already stored voice data signal is not received until after the end of a communication device to be tested ( 2 ) is received, or the transmitting device ( 24 ) in such a way that an already stored transmission signal does not occur until after the end of a transmission device to be tested ( 2 ) received signal is sent. Test device according to one of claims 1 to 4, characterized in that the test device ( 6 ) a first connection ( 16 ) which is for connection to the antenna terminal ( 13 ) of the communication device to be tested ( 2 ), and a second port ( 17 ) for connection to the antenna ( 14 ) of the communication device to be tested ( 2 ) suitable is. Test device according to claim 5, characterized in that the first and second terminals ( 16 . 17 ) and the first connection ( 16 ) and / or the second connection ( 17 ) with the measuring device ( 20 ) via a coupling device ( 18 ) are connected. Test device according to one of claims 1 to 6, characterized in that the test device ( 6 ) an antenna ( 40 ) connected to the transmitting device ( 24 ) and the receiving device ( 27 ) for communication with the communication device under test ( 2 ) connected is. Method for testing a communication device provided for wireless communication ( 2 ), the method comprising the following method steps: - determining at least one measured value (S5) with respect to the communication device ( 2 ); - determining a result (S5) from the at least one measured value; characterized by outputting the result in the form of a voice data signal (S7) by an output device ( 22 ); Converting (S8) the output speech data signal into a transmission signal of the communication device to be tested ( 2 ) - Sending (S9) the transmission signal to the communication device to be tested ( 2 ) and - acoustically outputting (S11) the transmission signal from the communication device under test ( 2 ). A method according to claim 8, characterized in that the determination of the at least one measured value upon receipt of a signal (S4) of the communication device to be tested ( 2 ) on the test device ( 6 . 38 ) is started automatically. A method according to claim 8 or 9, characterized in that the determination of the at least one measured value is automatically terminated after the end of the reception of the signal or after a certain period of time and from the at least one measured value, a result is determined. Method according to one of Claims 8 to 10, characterized in that the at least one measured value and / or the result and / or the voice data signal is buffered and that only after the end of the communication device to be tested ( 2 ), the result from the at least one stored measured value is determined, or an already stored result is output, or an already stored voice data signal is sent as a transmission signal.

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