KR20140013464A - Method for rf testing of wireless communication apparatus - Google Patents

Abstract

The present invention relates to a method for an RF performance test of a wireless communication device using at least one wireless communication device, a measuring instrument for testing RF performance of the wireless communication device, and a computing device for controlling the wireless communication device and the measuring instrument to receive all of the required number of test packets required for an Rx performance test of the wireless communication device even when test packet transmission/reception timing does not match between the wireless communication device and the measuring instrument because of a reset time delay. The method comprises the steps of: enabling the measuring instrument to repeatedly transmit a test packet at a constant transmission cycle (T); and enables the wireless communication device to receive the test packet for the same time (TRx) as the transmission cycle (T). [Reference numerals] (AA) Measuring instrument; (BB,EE) Time; (CC) Wireless communication device; (DD) Reception time(T_Rx)

Description

RF performance test method for wireless communication devices {METHOD FOR RF TESTING OF WIRELESS COMMUNICATION APPARATUS}

The present invention relates to a method for testing RF performance of a wireless communication device, and more particularly, to a method for testing Rx performance of a wireless communication device.

Complex electronic, electro-mechanical and mechanical products are generally tested using automated test equipment. These tests are run through various operations that can be performed on the device under test (DUT) and test whether each operation is performed properly.

In particular, an automatic test apparatus dedicated to a wireless communication device for verifying the RF performance of a wireless communication device includes a test vector generator and a test vector analyzer for verifying the Tx performance of the wireless communication device. It includes.

The test vector generator and the test vector analyzer are essential equipments for verifying TX performance (EVM) and RX performance (PER) of the wireless communication device. It is used.

Meanwhile, in order to measure the Tx performance (EVM) of the wireless communication device, the wireless communication device transmits an arbitrary test packet for a wireless communication device in a test controller of the aforementioned auto test device. By setting, a control signal is sent to be in a state capable of generating a test vector. In addition, the automatic test equipment sets the RF switch to communicate with the test vector analyzer of the automatic test equipment so as to receive a test packet of the wireless communication device. After the configuration is completed, the automatic test controller finally analyzes the Tx performance of the wireless communication device by using the packet information analyzed by the test vector analyzer.

Similarly, in order to analyze the RX performance (PER) of the wireless communication device, the test controller of the automatic test device is set to a standby state so that the wireless communication device can analyze the signal generated by the automatic test device, and the automatic test device The test vector generator will set up the device to send a test packet. At this time, the test controller sets the RF switch so that the test vector generator and the wireless communication device can be connected.

After the setting is completed, the automatic test controller can measure the Rx performance of the wireless communication device through the result of detecting the error of the test packet received from the wireless communication device after the generation of the arbitrary test vector. do.

In this regard, Korean Patent Laid-Open Publication No. 10-2010-0037909 discloses a device under test (DUT) for transmitting a radio frequency (RF) signal for testing a wireless device, and the radio frequency transmitted from the device under test (DUT). An instrument for receiving, analyzing and verifying an RF signal, a distributor for connecting a plurality of DUTs to the instrument, and a computer for transmitting control signals for controlling the DUT and the instrument. A wireless device test apparatus that can test a plurality of equipment under test (DUT) at a time is proposed.

However, as described above, when measuring the RF performance of the wireless communication device, a reset process such as setting to a standby state so that the wireless communication device can analyze the signal generated by the instrument is required, such a reset process may be delayed even a little. In this case, the timing of transmission and reception of a test packet may not match between the meter and the wireless communication device. In this case, the wireless communication device may not receive all the test packets necessary for measuring the Rx performance of the wireless communication device, thereby causing a problem in that the accurate RF performance measurement is not performed.

Patent Document: Republic of Korea Patent Publication No. 10-2010-0037909

The present invention is to solve the above problems, the test packet transmission time is separately separated in the measuring instrument and repeatedly transmitted with a constant transmission period (T), and the same time (T) in a constant transmission period (T) in the wireless communication device An object of the present invention is to provide a method for testing RF performance of a wireless communication device receiving a test packet during _Rx ).

The present invention, which was invented to achieve the above object, is a wireless communication using at least one wireless communication device, a measuring instrument for testing the RF performance of the wireless communication device, and a computing device for controlling the wireless communication device and the measuring instrument A method of testing RF performance of a device, the method comprising: repeatedly transmitting a test packet with a constant transmission period (T); And receiving, by the wireless communication device, the test packet for the same time period T _Rx as the transmission period T.

In addition, the transmission period (T) provides an RF performance test method for a wireless communication device, which consists of an ON TIME for transmitting a test packet and an OFF TIME, which is a waiting time.

In addition, some of the wireless communication device provides a method for testing RF performance of a wireless communication device, which receives a test packet for a time T _Rx equal to a transmission period T based on a start point of an ON time. do.

In addition, some of the wireless communication device provides a method for testing RF performance of a wireless communication device, which receives a test packet for a time T _Rx equal to a transmission period T based on a start point of an OFF time. do.

In addition, some of the wireless communication devices, the wireless network for receiving a test packet for a time T _Rx equal to the transmission period (T) on the basis of any time point of the ON TIME or OFF TIME. It provides the RF performance test method of communication device.

According to the RF performance test method of a wireless communication device according to the present invention, even if the timing of transmission and reception of a test packet does not match between the measuring instrument and the wireless communication device due to a reset time delay, All test packets can be received, enabling accurate Rx performance measurement of wireless communication devices.

1 is a configuration diagram of a test apparatus for performing an RF performance test of a wireless communication device.
2 is a timing diagram between a measuring instrument and a wireless communication device in the RF performance test method of the wireless communication device according to the present invention.
3 is another timing diagram between the measuring instrument and the wireless communication device in the RF performance test method of the wireless communication device according to the present invention.
Figure 4 is another timing diagram between the measuring instrument and the wireless communication device made in the RF performance test method of the wireless communication device according to the present invention.

The advantages and features of the present invention and the techniques for achieving them will be apparent from the following detailed description taken in conjunction with the accompanying drawings. The present invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. The present embodiments are provided so that the disclosure of the present invention is not only limited thereto, but also may enable others skilled in the art to fully understand the scope of the invention. Like reference numerals refer to like elements throughout the specification.

The terms used herein are intended to illustrate the embodiments and are not intended to limit the invention. In this specification, the singular forms include plural forms unless otherwise specified in the text. It is to be understood that the terms 'comprise', and / or 'comprising' as used herein may be used to refer to the presence or absence of one or more other components, steps, operations, and / Or additions.

Hereinafter, the configuration and operation effects of the present invention will be described in more detail with reference to the accompanying drawings.

1 is a configuration diagram of a test apparatus for performing an RF performance test of a wireless communication device.

Referring to FIG. 1, a method of testing RF performance of a wireless communication device may include at least one or more wireless communication devices 110, an instrument 120 for testing RF performance of the wireless communication device 110, and the wireless device. The test device 100 includes a communication device 110 and a computing device 130 that controls the instrument 120.

The test device 100 of FIG. 1 illustrates only one example among various test devices for testing RF performance of the wireless communication device 110, and the number, types, and RF of the wireless communication device 110 to be tested. It may be configured in various forms such as a combiner (Combiner) and the like depending on the characteristics.

The wireless communication device 110 may be a wireless communication SoC (System On Chip) having transmission (TX) and reception (Rx) functions or a communication module (for example, a wireless LAN module) including a wireless communication SoC. Can be. The wireless communication device 110 transmits a radio frequency (RF) signal to the measuring instrument 120 according to a control signal transmitted from the computing device 130.

When the wireless communication device 110 is composed of two or more, a divider (Divider, 140) for connecting two or more wireless communication devices 110 to one measuring instrument 120 and the measuring instrument 120 It may be located between the wireless communication device (110). That is, the measuring instrument 120 is connected to one end of the distributor 140, and the other end is connected to the plurality of wireless communication devices 110 through a plurality of RF ports.

Through the splitter 140, the RF performance test of more wireless communication devices 110 may be performed during the same time by continuously operating the meter 120 without a separate idle period.

The measuring instrument 120 is a device for testing the RF performance of the wireless communication device 110, and receives a signal and a vector signal generator (VSG) capable of transmitting radio frequency signals, and can receive and analyze the signal. It can be configured as a Vector Signal Analyzer (VSA).

The measuring unit 120 is provided with one wireless port (not shown), and may be connected to the wireless communication device (distributor when the distributor is located) through an RF cable (for example, 50 kHz coaxial cable). . Through this, by receiving the RF-converted test signal from the wireless communication device 110 or by transmitting the RF-converted test signal to the wireless communication device 110, TX performance (EVM: Error) of the wireless communication device 110 Vector Magnitude and Rx Performance (PER: Packet Error Rate) can be tested.

The computing device 130 connected to the measuring instrument 120 through a LAN cable receives a command from a user, and is connected to the wireless communication device 110 and a user interface for informing a user of an RF test result. A driver for driving the device 110 may be included. Accordingly, the computing device 130 transmits various control signals necessary for the RF performance test of the wireless communication device 110 to the measuring instrument 120 and the wireless communication device 110.

Looking at the method for testing the RF performance of the wireless communication device 110, in particular the Rx performance in detail through the test device configured as described above, first, the computing device 130 is the wireless communication device 110 is the instrument ( The signal generated at 120 is set to a reception standby state so that the generated signal can be analyzed. Next, the instrument 120 (specifically, a vector signal generator) is set to transmit a test packet. At this time, the computing device 130 sets the RF switch so that the vector signal generator and the wireless communication device 110 can be connected.

After the setting is completed, the wireless communication device 110 receives the Rx test signal from the measuring instrument 120, tests the Rx performance based on the number of packets of the Rx test signal, and calculates the result of the computing device. Send to 130.

The wireless communication device 110 determines that the Rx performance is good when the number of test packets transmitted from the measuring instrument 120 is equal to or greater than a predetermined number of packets, and determines that the test packet is bad.

As described above, in order to measure the Rx performance of the wireless communication device 110, before the test packet is transmitted from the measurement instrument 120 to the wireless communication device 110, the wireless communication device ( Transmitting a command to enter 110 into an RF reception mode, notifying the measurement device 120 from the wireless communication device 110 that the device has entered the reception mode, and the computing device 130 performing the measurement ( A reset time is required to execute a process of requesting 120 to transmit a test packet.

If the reset time is delayed even a little, an error may occur in which a time point at which the test packet is transmitted by the measuring instrument 120 and a time point at which the test packet is received by the wireless communication device 110 are inconsistent. Can be. In this case, the wireless communication device 110 receives some of the test packets transmitted from the measuring instrument 120 while being lost, thereby preventing accurate Rx performance testing.

However, according to the RF performance test method of the wireless communication device according to the present invention described below, even if the transmission and reception timing of the test packet is inconsistent between the measuring instrument 120 and the wireless communication device 110 according to the reset time delay, The communication device 110 may receive all test packets necessary for measuring Rx performance.

2 is a timing diagram between a measuring instrument and a wireless communication device in the RF performance test method of the wireless communication device according to the present invention. Here, the horizontal lines of the measuring instrument 120 and the wireless communication device 110 represents time.

Referring to FIG. 2, first, the instrument 120 repeatedly transmits a test packet with a constant transmission period T.

Here, a test packet transmitted during one transmission period T includes the number necessary to test the Rx performance of the wireless communication device 110.

That is, when the wireless communication device 110 receives all the test packets transmitted during one transmission period T, when the number of test packets normally received among the received test packets is equal to or greater than a preset number of test packets, the wireless communication device The Rx performance of (110) is judged to be good. Here, the header of each test packet may include information for identifying that the packet is an Rx test packet and information for distinguishing that the packet is for testing the Rx performance of the wireless communication device 110.

As such, the measurement instrument 120 repeatedly transmits the number of test packets necessary for testing the Rx performance of the wireless communication device 110 with a constant transmission period T.

More specifically, each transmission period T consists of an ON TIME for transmitting a test packet and an OFF TIME, which is a waiting time.

That is, the number of test packets required to test the Rx performance of the wireless communication device 110 is transmitted only during the ON TIME. For example, assuming that the transmission period T is 1 second, the test packet is transmitted only during the ON TIME set to 0.2 seconds, and the standby state is maintained at the OFF TIME set to the remaining 0.8 seconds.

At this time, the wireless communication device 110 receives the test packet only for the same time as the transmission period (T). For example, when the time for receiving a test packet from the wireless communication device 110 is T _Rx , the time T _Rx is equal to the transmission period T of the measuring instrument 120.

Accordingly, when the wireless communication device 110 receives the test packet for a time T _Rx equal to the transmission period T based on the start point of the ON time, as shown in FIG. 2, the time T _Rx ) includes all ON TIMEs, so that all the number of test packets necessary for testing the Rx performance of the wireless communication device 110 may be received.

3 is another timing diagram between the measuring instrument and the wireless communication device in the RF performance test method of the wireless communication device according to the present invention.

Unlike FIG. 2, in FIG. 3, the measuring unit 120 and the wireless communication device 110 do not match the transmission / reception timing of a test packet due to a reset time delay. The test packet is received during the same time period T _Rx as the transmission period T from the start point.

However, even in such a case, in the RF performance test method of the wireless communication device according to the present invention, since the wireless communication device 110 receives a test packet transmitted at the ON time of the next transmission period T2, In addition, all of the number of test packets required to test the Rx performance of the wireless communication device 110 can be received.

If the wireless communication device 110 receives a test packet for a time T _Rx equal to the transmission period T based on a point in time of the OFF time of the transmission period T ₁ , the wireless communication device 110 receives the test packet. Since the wireless communication device 110 receives test packets transmitted at an ON TIME of a next transmission period T ₂ , the number of test packets required to test the Rx performance of the wireless communication device 110 is determined. You can receive all of them.

Figure 4 is another timing diagram between the measuring instrument and the wireless communication device made in the RF performance test method of the wireless communication device according to the present invention.

In FIG. 4, as shown in FIG. 3, the measurement apparatus 120 and the wireless communication device 110 do not match the transmission / reception timing of the test packet due to a reset time delay. In FIG. 4, the wireless communication device 110 transmits a test packet for a time T _Rx equal to the transmission period T based on a point in time of the ON TIME of the transmission period T ₁ . I am receiving it.

In this case, the wireless communication device 110 receives a part of the number of test packets necessary for testing the Rx performance at a part of the ON TIME of the transmission period T ₁ , and transmits the transmission period T according to the timing mismatch. The remaining test packets, which are not received in a portion of the ON TIME of ₁ ), are received in a portion of the ON TIME of the next transmission period T ₂ . Accordingly, the wireless communication device 110 can receive all the number of test packets necessary for testing the Rx performance of the wireless communication device 110.

As described above, according to the RF performance test method of the wireless communication device according to the present invention, the measurement unit 120 separately separates the test packet transmission time and repeatedly transmits a predetermined transmission period T, and the wireless communication device 110. Even if the test packet is received only during the same time period T _Rx as a constant transmission period T, even if the test packet transmission / reception timing does not match between the instrument 120 and the wireless communication device 110 due to a reset time delay, The wireless communication device 110 may receive all of the number of test packets required to test the Rx performance of the wireless communication device 110.

Accordingly, according to the RF performance test method of the wireless communication device according to the present invention, it is possible to accurately measure the Rx performance of the wireless communication device 110.

The foregoing detailed description is illustrative of the present invention. It is also to be understood that the foregoing is illustrative and explanatory of preferred embodiments of the invention only, and that the invention may be used in various other combinations, modifications and environments. That is, it is possible to make changes or modifications within the scope of the concept of the invention disclosed in this specification, the disclosure and the equivalents of the disclosure and / or the scope of the art or knowledge of the present invention. The foregoing embodiments are intended to illustrate the best mode contemplated for carrying out the invention and are not intended to limit the scope of the present invention to other modes of operation known in the art for utilizing other inventions such as the present invention, Various changes are possible. Accordingly, the foregoing description of the invention is not intended to limit the invention to the precise embodiments disclosed. It is also to be understood that the appended claims are intended to cover such other embodiments.

100: test device
110: wireless communication device
120: measuring instrument
130: computing device
140: divider

Claims (5)

A method of testing RF performance of a wireless communication device using at least one wireless communication device, a measuring device for testing the RF performance of the wireless communication device, and a computing device controlling the wireless communication device and the measuring device,
The instrument repeatedly transmitting a test packet with a constant transmission period (T); And
Receiving, by the wireless communication device, the test packet for a time T _Rx equal to a transmission period T;
/ RTI >
RF performance test method of wireless communication device.
The method of claim 1,
The transmission period (T),
Consisting of an ON TIME for transmitting a test packet and an OFF TIME for waiting time,
RF performance test method of wireless communication device.
3. The method of claim 2,
Some of the wireless communication device,
Receiving a test packet for a time T _Rx equal to the transmission period T based on a start point of an ON TIME,
RF performance test method of wireless communication device.
3. The method of claim 2,
Some of the wireless communication device,
Receiving a test packet for a time T _Rx equal to the transmission period T based on a start point of an OFF TIME,
RF performance test method of wireless communication device.
3. The method of claim 2,
Some of the wireless communication device,
Receiving a test packet for a time T _Rx equal to the transmission period T based on any time point of ON TIME or OFF TIME,
RF performance test method of wireless communication device.

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