CN201699720U - Radio-frequency testing system of mobile communication terminal - Google Patents
Radio-frequency testing system of mobile communication terminal Download PDFInfo
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- CN201699720U CN201699720U CN2010202682271U CN201020268227U CN201699720U CN 201699720 U CN201699720 U CN 201699720U CN 2010202682271 U CN2010202682271 U CN 2010202682271U CN 201020268227 U CN201020268227 U CN 201020268227U CN 201699720 U CN201699720 U CN 201699720U
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Abstract
The utility model relates to a radio-frequency testing system of a mobile communication terminal, which belongs to the field of radio-frequency testing of the mobile communication terminal. The radio-frequency testing system comprises an integrated tester, a spectrum analyzer, a vector signal source, a broadband signal source, a power meter, a DC source, a temperature control box, a switch control unit, a controller of the switch control unit and a system control platform; wherein the system control platform is respectively connected with the controller of the switch control unit, the temperature control box, the integrated tester, the spectrum analyzer, the vector signal source, the broadband signal source, the power meter and the DC source; and the integrated tester, the spectrum analyzer, the vector signal source and the broadband signal source are respectively connected with the switch control unit and a terminal to be tested. The utility model has the advantages of simple operation, clear test process, high testing speed, rigorous processing of testing results, high reliability, and high stability, and can rapidly and accurately develop testing cases according to needs, realize the diverse and customized testing. Moreover, the utility model can be flexibly expanded to control other instruments so as to realize the flexible configuration of the system.
Description
Technical field
The utility model belongs to mobile communication terminal radio frequency testing field, relates to radio-frequency technique, the communication technology, electronic measurement technique, system integration technology, particularly the radio frequency test system for mobile communication terminal architecture design.
Background technology
The radio frequency testing of mobile communication terminal is the test of carrying out for the radio-frequency performance that guarantees terminal meets the requirement of relevant international standard.Test process can be divided into two stages: development and authentication phase.The authentication phase test is a kind of minimum requirements test, is finished by national structure or international organization, obtains the market access by this; Authentication phase test at present, the state structure in the whole world or international organization mainly adopt the complete radio frequency test system through authentication, the manufacturer of existing this type systematic of production comprises the Agilent company of the U.S. and the Rohde ﹠ Schwarz Representative Office etc. of Germany, the system design complexity, costs an arm and a leg.
The development test is a kind of limiting performance test, and production firm finishes by terminal, constantly terminal is improved by this, promote the radio-frequency performance index and the quality of terminal, so the development test is very strict, and is stricter than standard code, limit value requires harsh more; Very flexible, can adopt and the complete reverse method of testing of standard same test index, can adopt and the diverse parameter setting of standard same method of testing; Very comprehensive, test specification than standard-required more comprehensively, as all channel sweep test.Development test at present, terminal production firm mainly adopts following two kinds of methods:
One, use independently instrument and meter, as comprehensive tester and spectrum analyzer, by manual system, manual setting, the manual process test result of building, there are the following problems for this method:
(1) by hand builds system: can't calibrate comprehensively and cause measuring accuracy poor, can't finish complicated test
(2) the manual setting: inefficiency, repeatable poor, the error rate height can't be finished complicated test
(3) manual process test result: simple record only, can't handle mass data and error rate height,
This method efficient is low, time length, low precision, repeatable poor, and also test is very not comprehensive, can only finish simple test, as power measurement; Can't finish complicated test, as BER Search, all channel scanning etc.This is unfavorable for the overall understanding of terminal production firm, debugging, promotes the terminal radio frequency performance index, directly causes terminal quality low, causes the time lengthening of authentication phase test and expense to increase indirectly.Present most terminal production firm adopts this method to finish the development test
Two, the complete radio frequency test system that the terminal factory chamber of commerce use authentication phase that indivedual strength are very strong is just used is finished the development test, though can significantly promote measuring accuracy, repeatability and data-handling capacity than first method, but still there are the following problems:
(1) this type systematic is only at authentication phase testing requirement design, and whole design of hardware and software can only satisfy part and research and develop testing requirement, especially hardware designs and can't satisfy the comprehensive requirement of research and development test.
(2) the test program basic fixed, can't not change, can't customize more and can not satisfy the requirement of research and development test flexibility to user's open interface.
(3) software and hardware is combined closely, and system control program only can be realized the control to the native system instrument and meter, can't realize that autgmentability is poor to the control of other manufacturer's instrument and meters
(4) price and costliness thereof, testing cost is high.This type systematic must bulk/volume buying, and easily more than ten million, and the later stage upgrading, safeguarding must production firm of dependence system and charge high.
In sum, very high because the development test request is very strict, flexible, comprehensive to the requirement of test macro software and hardware, incomplete at present radio frequency test system at the mobile communication terminal development.
The utility model content
The purpose of this utility model is for overcoming the deficiency of existed system, design a kind of radio frequency test system that aims at the test of mobile communication terminal development, this system operation flow process is simple, clear testing process, fast, the serious processing on testing result of test speed, and good reliability and stability are arranged.The test case that the development interface of user by system control program can quick and accurate exploitation satisfies self-demand realizes variation, customizes test, but and this system also flexible expansion realize the flexible configuration of system to control to other instrument and meters.
A kind of radio frequency test system for mobile communication terminal of the utility model, it is characterized in that this system comprises: comprehensive tester, spectrum analyzer, vector signal source, wideband signal source, power meter, DC source, temperature-controlled cabinet, switch control unit, switch control unit controller and system's controlling platform;
Described system controlling platform is connected with the switch control unit controller by the RJ45 interface;
Described switch control unit controller is connected with switch control unit by parallel interface;
Described system controlling platform is connected with temperature-controlled cabinet by the RS485 interface, and is connected with comprehensive tester, spectrum analyzer, vector signal source, wideband signal source, power meter, DC source respectively by gpib interface;
Described comprehensive tester, spectrum analyzer, vector signal source, wideband signal source are connected with terminal to be measured with switch control unit by radio frequency line respectively;
Described DC source is powered to terminal to be measured by power line;
Described terminal to be measured is positioned in the temperature-controlled cabinet.
Further, described switch control unit comprises a plurality of filters, a plurality of attenuator, a plurality of power splitter, a plurality of circulator, a plurality of switch, described switch is connected between each filter, attenuator, power splitter, the circulator, and the switching by switch forms many paths.
The utility model possesses following main feature and effect:
1) the utility model system is specially adapted to the test of GSM/GPRS/EGPRS mobile communication terminal development, and hardware designs fully takes into account development and tests comprehensive demand, design redundancy height.
2) this system provides development interface, and the user can be according to self differentiated demand independent development test case.
3) this system can make amendment to test case, and can preserve automatically, handle test data, and the development interface that provides data to preserve, handle, the user can be according to self-demand customization data storage format and processing mode.
4) system of the present utility model controlling platform can merge main flow instrument and meter control interfaces such as GPIB, RJ45, RS232 comprehensively, and the software and hardware extensibility is good.
5) the substantive test data show, this system testing precision height, efficient height, favorable repeatability.
Description of drawings
Fig. 1 is a system global structure block diagram of the present utility model.
Fig. 2 is a system control program workflow diagram of the present utility model.
Fig. 3 is a switch control unit structure connection layout of the present utility model.
Embodiment
The radio frequency test system for mobile communication terminal of the utility model design is described with reference to the accompanying drawings as follows:
System global structure block diagram of the present utility model as shown in Figure 1, this system is made of comprehensive tester, spectrum analyzer, vector signal source, wideband signal source, power meter, DC source, temperature-controlled cabinet, switch control unit and controller thereof and system's controlling platform; This system's controlling platform is connected with the switch control unit controller by the RJ45 interface; This switch control unit controller is connected with switch control unit by parallel interface; This system's controlling platform is connected with temperature-controlled cabinet by the RS485 interface, is connected with comprehensive tester, spectrum analyzer, vector signal source, wideband signal source, power meter, DC source respectively by gpib interface; This comprehensive tester, spectrum analyzer, vector signal source, wideband signal source are connected with terminal to be measured with switch control unit by radio frequency line respectively; This DC source is powered to terminal to be measured by power line; Terminal to be measured is positioned in the temperature-controlled cabinet.So just formed the radio frequency test system for mobile communication terminal that to control automatically fully.
During whole system work, system's controlling platform at first can be carried out the temperature setting to temperature-controlled cabinet by the RS485 interface, by gpib interface DC source is carried out the voltage setting, makes terminal works to be measured in the test environment of needs; System's controlling platform is by comprehensive tester in the RJ45 interface control switch control unit controller opens switch control unit and the radio frequency path between the terminal to be measured then, and controls comprehensive tester and carry out the parameter setting input and output make it to set up speech with terminal to be measured or data are connected with radio frequency; Next system's controlling platform is according to the test needs, or open the radio frequency path between terminal to be measured and the spectrum analyzer and spectrum analyzer setting is finished transmitter spectrum analysis classes test by gpib interface, or open the vector signal source, radio frequency path between wideband signal source and the terminal to be measured also carries out the test that parameter setting is finished the receiver error rate class under the disturbed condition by gpib interface to these signal sources, at last in test, system's controlling platform reads the test result of spectrum analyzer or comprehensive tester by gpib interface, finishes the storage and the processing of test result.
The function of every instrument and meter and embodiment are described as follows in the said system:
Comprehensive tester: the comprehensive tester CMU200 that adopts German Rohde ﹠ Schwarz Representative Office to produce, as base station simulator, be used to generate that terminal to be measured is registered with the base station, authentication ciphering, be connected and signaling that resource allocation etc. is required to simulate the mutual of terminal to be measured and base station; Generate the useful test signal of base station down of varying level, different channels, different time-gap and different modulating encoding scheme; Order terminal to be measured to enter dissimilar test patterns, carry out the transmitter and receiver performance measurement in the band.
Spectrum analyzer: the spectrum analyzer FSU that adopts German Rohde ﹠ Schwarz Representative Office to produce is used for the phase place that transmits, frequency, power, frequency spectrum to terminal to be measured, index such as spuious is measured.
The vector signal source: the vector signal source SMIQ that adopts German Rohde ﹠ Schwarz Representative Office to produce, be used to generate interference signal in the band of varying level, different frequency and different modulating mode that standard and test case require, be used for receiver test.
Wideband signal source: the wideband signal source SMP that adopts German Rohde ﹠ Schwarz Representative Office to produce, be used to generate the standard and the different frequency of test case requirement, the continuous wave interference signal of varying level, be mainly used in and block and the spurious response test.
Power meter: the NRVD that adopts German Rohde ﹠ Schwarz Representative Office to produce, have two high-precision power probes, be used for system calibration.
DC source: the DC source NGSM that adopts German Rohde ﹠ Schwarz Representative Office to produce, for terminal power supply to be measured, provide normal and limiting voltage, can finish the program-controlled voltage conversion.
Temperature-controlled cabinet: the temperature-controlled cabinet MHQ-120CLSI that adopts Chinese Dongguan thyrite company to produce, for terminal to be measured provides normal and limiting temperature environment, can finish program control temperature conversion.
Switch control unit: be connected between described each instrument and meter and the terminal to be measured, control it by the switch control unit controller and open corresponding radio frequency path, call the required instrument and meter of test, and converge the signal that instrument and meter produces and be input to terminal to be measured as received signal by radio frequency line, also can receive transmitting and passing to the required instrument and meter of test of terminal to be measured.Major function is to set up the radiofrequency signal path and radiofrequency signal is carried out filtering or attenuation processing, the hinge that it is whole system radiofrequency signal stable transfer, switch, continue, merge.
Switch element control controller: adopt the general purpose PC that hardware controls plate and control program are installed, the radio frequency path that is used for control switch unit opens and closes.
System's controlling platform: adopt the general purpose PC that system control program is installed, be used to control whole system operation.
System control program workflow of the present utility model may further comprise the steps as shown in Figure 2:
1) call the development interface instruction and write test case: work out whole control commands of all appts instrument in advance, control command is all joined in the instruction database by objectification encapsulation packing and (as vector signal source level instruction, frequency configuration instruction is set; The sweep time of spectrum analyzer instruction is set, scan width is provided with instruction etc.), the user calls required control command according to testing requirement according to certain logical order and writes test case (as according to the integration test instrument parameter being set earlier and opening it and set up voice with the radio frequency path of terminal to be measured or data are connected, and then open other radio frequency paths, other instrument and meter parameters are set, carry out at last and measure, control commands such as read test result order);
2) test case debugging or operation: the test case that the user writes is debugged, and the user positions and revises by monitor window and the error reporting mistake to this test case, after the test case debugging is errorless, moves test case automatically;
3) test case is resolved: during the test case operation, every control command is resolved to be the control command of switch control unit path and the control command of instrument and meter work;
4) transmission of control command: the control command of instrument and meter work is delivered to corresponding instrument and meter according to the GPIB address, and the control command of switch control unit path is delivered to switch control unit by parallel interface;
5) execution of control command: finish the instrument and meter parameter according to the logical order of the control command of instrument and meter work and be provided with or carry out and measure (as the vector signal source being carried out parameter settings such as level, frequency, or the order comprehensive tester is carried out error rate measurement, the order spectrum analyzer is carried out spectrum measurement etc.); The control command of switch control unit path is carried out radio frequency path control, the transmission of setting up radiofrequency signal by parallel interface to switch control unit;
6) test result reads: the test result (for example reading the error rate test result of comprehensive tester or the spuious test result of spectrum analyzer) that reads the measuring instrument instrument by gpib interface;
7) test result is handled: the test result that reads is stored in the glue file automatically, or user's call instruction is controlled the test result processing according to the storage format, the memory location that oneself need.
Said procedure can adopt the conventional programming means to realize.
System control program of the present utility model is according to the automatic control of above flow process realization to whole system, and whole control process is very clear, and is very accurate, and speed is also very fast during actual the use.It is the greatest feature of this system control program that development interface is provided, and such function is highly suitable for research and development test demand very flexibly, and the user can be according to self needing the independent development test program to finish test assignment.
With the peak power output of measuring terminal to be measured is the operating process that test case specifies the user: the frequency range that the user calls comprehensive tester by the PC that said procedure is installed is provided with instruction, the instruction of maximum power controlling grade, channel the control commands such as path OPEN between instruction and switch control unit and the terminal to be measured is set, and these instruction sequences are written as test case; The debugging test case press false alarm and is accused the location and revise mistake, as lacking mistakes such as punctuation mark, types of variables do not match, debugs and can directly move test case after errorless; During the test case operation, control command is converted into comprehensive tester and the executable instruction of switch control unit, instruction is delivered to comprehensive tester and finishes frequency range setting, the setting of maximum power controlling grade, channel setting, is delivered to the path that switch control unit is opened comprehensive tester and terminal to be measured; Integration test should be set up earlier with the voice or the data of terminal to be measured and be connected, and carries out maximum power then and measures, and the gpib interface by comprehensive tester reads the peak power output test result and stores in the glue file at last.
Switch control unit example structure of the present utility model as shown in Figure 3, mainly comprise a plurality of filters, attenuator, power splitter, circulator, switch, described switch is connected between each filter, attenuator, power splitter, the circulator, and the switching by switch forms many paths.Among the figure, according to from right to left, order is from top to bottom described the formation of each bar radio frequency path in detail:
Each symbol is defined as among the figure: CMU IN/OUT, CMU IN, CMU OUT are three radio frequency input/output ports of CMU200, wherein the CMUIN/OUT port signal can be imported and can export, CMU IN port signal can only be imported, and CMU OUT port signal can only be exported; The radio-frequency (RF) output end mouth of SMIQ representative vector signal source (SMIQ); SMP represents the radio-frequency (RF) output end mouth of wideband signal source (SMP); FSU represents the rf inputs mouth of spectrum analyzer (FSU); MS represents terminal to be measured; The K representation switch is numbered 3 switch as K3 representative, and K3-1 represents 1 the switch contact of being numbered of K3 switch; Filter is divided into three kinds of band pass filter, low pass filter and high pass filters, as
Represent the band pass filter of 824-915MHz,
Representing cut-off frequency is the low pass filter of 820MH, and wherein LC represents low pass filter,
Representing initial frequency is the high pass filter of 920MHz, and wherein HC represents high pass filter.Divider is a power splitter, and Divider-1 is numbered 1 power splitter.Circulator-1 representative is numbered 1 circulator.
1. comprehensive tester (CMU200) radio frequency input/output port CMU IN/OUT arrives the radio frequency path of terminal to be measured:
1)CMU?IN/OUT->Divider-1->k14-1->MS。
2. comprehensive tester (CMU200) rf inputs mouth CMU IN arrives the radio frequency path of terminal to be measured:
2) CMU IN-〉K1-1-〉824-915MHz band pass filter-k2-1-〉attenuator-K12-1-〉circulator-1-〉K13-1-〉Divider-3-〉K14-2-〉MS;
3) CMU IN-〉K1-2-〉1710-1910MHz band pass filter-k2-2-〉attenuator-K12-2-〉circulator-2-〉K13-2-〉Divider-3-〉K14-2-〉MS.
3. comprehensive tester (CMU200) radio-frequency (RF) output end mouth CMU OUT arrives the radio frequency path of terminal to be measured:
4) CMU OUT-〉K3-1-〉869-894MHz band pass filter-K4-1-〉Divider-2-〉K11-1-〉circulator-1-〉K13-1-〉Divider-3-〉K14-2-〉MS;
5) CMU OUT-〉K3-2-〉925-960MHz band pass filter-K4-2-〉Divider-2-〉K11-1-〉circulator-1-〉K13-1-〉Divider-3-〉K14-2-〉MS;
6) CMU OUT-〉K3-3-〉1805-1880MHz band pass filter-K4-3-〉Divider-2-〉K11-2-〉circulator-2-〉K13-2-〉Divider-3-〉K14-2-〉MS;
7) CMU OUT-〉K3-4-〉1930-1990MHz band pass filter-K4-4-〉Divider-2-〉K11-2-〉circulator-2-〉K13-2-〉Divider-3-〉K14-2-〉MS.
4. vector signal source (SMIQ) radio-frequency (RF) output end mouth arrives the radio frequency path of terminal to be measured:
8) SMIQ-〉K5-1-〉869-894MHz band pass filter-K6-1-〉Divider-2-〉K11-1-〉circulator-1-〉K13-1-〉Divider-3-〉K14-2-〉MS;
9) SMIQ-〉K5-2-〉925-960MHz band pass filter-K6-2-〉Divider-2-〉K11-1-〉circulator-1-〉K13-1-〉Divider-3-〉K14-2-〉MS;
10) SMIQ-〉K5-3-〉1805-1880MHz band pass filter-K6-3-〉Divider-2-〉K11-2-〉circulator-2-〉K13-2-〉Divider-3-〉K14-2-〉MS;
11) SMIQ-〉K5-4-〉1930-1990MHz band pass filter-K6-4-〉Divider-2-〉K11-2-〉circulator-2-〉K13-2-〉Divider-3-〉K14-2-〉MS;
5. wideband signal source (SMP) radio-frequency (RF) output end mouth arrives the radio frequency path of terminal to be measured:
12) SMP-〉K7-1-〉820MHz low pass filter-K8-1-〉Divider-3-〉K14-2-〉MS;
13) SMP-〉K7-2-〉920MHz high pass filter-K8-2-〉Divider-3-〉K14-2-〉MS;
14) SMP-〉K7-3-〉0.7-1.4GHz band pass filter-K8-3-〉Divider-3-〉K14-2-〉MS;
15) SMP-〉K7-4-〉1.5-3.0GHz band pass filter-K8-4-〉Divider-3-〉K14-2-〉MS;
16) SMP-〉K7-5-〉1700MHz low pass filter-K8-5-〉Divider-3-〉K14-2-〉MS;
17) SMP-〉K7-6-〉1910MHz high pass filter-K8-6-〉Divider-3-〉K14-2-〉MS;
6. spectrum analyzer (FSU) rf inputs mouth arrives the radio frequency path of surveying terminal:
18) MS-〉K14-1-〉K9-1-〉698-716MHz band pass filter-K10-1-〉FSU;
19) MS-〉K14-1-〉K9-2-〉747-762MHz band pass filter-K10-2-〉FSU;
20) MS-〉K14-1-〉K9-3-〉869-894MHz band pass filter-K10-3-〉FSU;
21) MS-〉K14-1-〉K9-4-〉925-960MHz band pass filter-K10-4-〉FSU;
22) MS-〉K14-1-〉K9-5-〉1805-1880MHz band pass filter-K10-5-〉FSU;
23) MS-〉K14-1-〉K9-6-〉1930-1990MHz band pass filter-K10-6-〉FSU;
24) MS-〉K14-1-〉K9-7-〉824MHz low pass filter-K10-7-〉FSU;
25) MS-〉K14-1-〉K9-8-〉880MHz low pass filter-K10-8-〉FSU;
26) MS-〉K14-1-〉K9-9-〉1710MHz low pass filter-K10-9-〉FSU;
27) MS-〉K14-1-〉K9-10-〉1850MHz low pass filter-K10-10-〉FSU;
28) MS-〉K14-1-〉K9-11-〉915MHz high pass filter-K10-11-〉FSU;
29) MS-〉K14-1-〉K9-12-〉1910MHz high pass filter-K10-12-〉FSU.
When switch control unit is worked, according to the difference of test needs, or only need open a path, or need open many path collaborative works, this comes coding to control fully as required.In fact the switching of controlling every path is exactly the switch of controlling on this path, as to article one path, be numbered 1 contact as long as K switch 14 placed, this path has just been opened, so on be that manually control or program control all are to split to close to control, and the switch control unit controller is finished this function exactly.
The switch control unit controller is a PC that hardware controls plate and control program are installed.Wherein the hardware controls plate is the parallel interface hardware controls plate of a general PCI slot, and it provides general development interface to define the stitch attribute of 19 pin parallel interfaces.Control program generates the interface (as shown in Figure 3) of a display switch control unit contact relation, the user utilizes this interface by the control of hardware controls plate development interface realization to this control board, contact of the corresponding switch of each stitch also connects by electric wire, when needs place a certain contact with a certain switch, only need the stitch of this contact correspondence is powered up, switch will place on this contact automatically.Realize that the user can come the radio frequency path of on-off switch control unit by the contact position of mouse control change switch on the interface.
Present embodiment particularly suitable mobile communication terminal development radio frequency testing can fully satisfy the testing requirement in this stage.This entire system framework is clear, and software and hardware all has good extensibility.System control program provides development interface, the user can develop the test program that is applicable to self differentiated demand fast, extraordinary applicability and flexibility are arranged, can also realize that simultaneously the different control modes to different vendor, the instrument and meter of different control commands control, extraordinary extensibility is arranged, the switch control unit of this system has extraordinary controllability, and the user both can also can carry out mouse control by visual interface by program control.The inside that the user can understand switch element at any time connects situation, can open any radio frequency path at any time and carry out test job.
Claims (2)
1. radio frequency test system for mobile communication terminal, it is characterized in that this system comprises: comprehensive tester, spectrum analyzer, vector signal source, wideband signal source, power meter, DC source, temperature-controlled cabinet, switch control unit, switch control unit controller and system's controlling platform;
Described system controlling platform is connected with the switch control unit controller by the RJ45 interface;
Described switch control unit controller is connected with switch control unit by parallel interface;
Described system controlling platform is connected with temperature-controlled cabinet by the RS485 interface, and is connected with comprehensive tester, spectrum analyzer, vector signal source, wideband signal source, power meter, DC source respectively by gpib interface;
Described comprehensive tester, spectrum analyzer, vector signal source, wideband signal source are connected with terminal to be measured with switch control unit by radio frequency line respectively;
Described DC source is powered to terminal to be measured by power line;
Described terminal to be measured is positioned in the temperature-controlled cabinet.
2. a kind of radio frequency test system for mobile communication terminal according to claim 1, it is characterized in that: described switch control unit comprises a plurality of filters, a plurality of attenuator, a plurality of power splitter, a plurality of circulator, a plurality of switch, described switch is connected between each filter, attenuator, power splitter, the circulator, and the switching by switch forms many paths.
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CN105071871B (en) * | 2015-08-07 | 2018-07-31 | 上海斐讯数据通信技术有限公司 | A kind of test system of mobile terminal |
CN108260144A (en) * | 2018-01-12 | 2018-07-06 | 四川斐讯信息技术有限公司 | The automatic test device and method of a kind of wireless radio frequency index |
CN109660306A (en) * | 2019-02-18 | 2019-04-19 | 上海创远仪器技术股份有限公司 | The comprehensive survey device of NB-IoT terminal and its comprehensive survey control method with 8 ports |
CN109660306B (en) * | 2019-02-18 | 2024-02-20 | 上海创远仪器技术股份有限公司 | NB-IoT terminal comprehensive measurement device with 8 ports and comprehensive measurement control method thereof |
CN110429995A (en) * | 2019-07-18 | 2019-11-08 | 深圳市极致汇仪科技有限公司 | A kind of comprehensive test instrument automatic test approach and system |
CN110429995B (en) * | 2019-07-18 | 2021-10-19 | 深圳市极致汇仪科技有限公司 | Automatic test method and system for comprehensive tester |
CN112751968A (en) * | 2020-12-30 | 2021-05-04 | 中电科仪器仪表(安徽)有限公司 | 5G terminal testing device and testing method based on cloud testing platform |
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