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<WCDMA Inner Loop Power Control tests, test pattern E&F,G&H using ARB files on the R&S CMW 500> Application Note
Products:
| R&SCMW500
| R&SCMW-KW400
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Table of Contents
<1CM78_0E> Rohde & Schwarz < WCDMA Inner Loop Power Control tests, test pattern E&F,G&H, using ARB files on the R&S CMW 500> 2
Table of Contents 1 Test Equipment Setup ........................................................... 4 1.1 R&S CMW500 WCDMA Arbitrary Waveform Playback Setup.................4 1.1.1 Step 1 – Enable the General Purpose RF Generator ................................4 1.1.2 Step 2 – Configure the General Purpose RF Generator ...........................4 1.1.3 Step 3 – Select the ARB File........................................................................5 1.1.4 Step 4 – Turn ON the General Purpose RF Generator..............................6 1.1.5 – Table of the General Purpose RF Generator Settings...........................7 1.1.6 Rohde & Schwarz WCDMA Non-signaling test arbitrary waveform
configuration.................................................................................................7 1.1.7 Rohde & Schwarz WinIQSIM2 control sequence ......................................8 1.1.7.1 Reset the tool................................................................................................8 1.1.7.2 Defining a TPC pattern with 120 zeros and 120 ones...............................9 1.1.7.3 Defining a the data list directory and write the TPC pattern to a file
e:\\120zeros120ones.dm_iqd.......................................................................9 1.1.7.4 Defining the scrambling code.....................................................................9 1.1.7.5 Primary CPICH definition.............................................................................9 1.1.7.6 Secondary CPICH definition (inactive).......................................................9 1.1.7.7 Primary SCH definition ..............................................................................10 1.1.7.8 Secondary SCH definition .........................................................................10 1.1.7.9 Primary CCPCH definition .........................................................................10 1.1.7.10 Secondary CCPCH definition (inactive) ...................................................10 1.1.7.11 PICH definition............................................................................................10 1.1.7.12 AICH definition (inactive)...........................................................................10 1.1.7.13 AP_AICH definition (inactive)....................................................................11 1.1.7.14 PDSCH definition (inactive).......................................................................11 1.1.7.15 Downlink DPCCH definition (inactive) .....................................................11 1.1.7.16 DPCH definition ..........................................................................................11 1.1.7.17 Definition of all other channels (12 to 137)..............................................12 1.1.7.18 Marker definition.........................................................................................12 1.1.7.19 ARB Length.................................................................................................12 1.1.7.20 Query for the relative total power.............................................................12 1.1.7.21 Query for channel conflicts, syntax errors in the remote sequence ....12 1.1.7.22 Creation of the arbitrary waveform file ....................................................13
Table of Contents
<1CM78_0E> Rohde & Schwarz < WCDMA Inner Loop Power Control tests, test pattern E&F,G&H, using ARB files on the R&S CMW 500> 3
1.1.8 R&S CMW500 Configuration for GPRF Power Uplink Signal Measurement ..............................................................................................13
1.1.9 Measurement Settings ...............................................................................14 1.1.10 RF Settings..................................................................................................14 1.1.11 Measurement Control ................................................................................21 1.1.11.1 Repetition ....................................................................................................21 1.1.11.2 Display.........................................................................................................22 1.1.11.3 Marker..........................................................................................................22 1.1.12 Start the Measurement...............................................................................23 1.1.13 Automating a GPRF Power Measurement with the R&S CMW500 ......23 1.1.13.1 Configure the arbitrary signal generator to play the waveform ............24 1.1.13.2 Configure the R&S CMW500 analyzer to make a GPRF power
measurement ..............................................................................................24 1.1.13.3 Arm the measurement ...............................................................................25 1.1.13.4 Get the power measurement results ........................................................25 1.2 Test Equipment Setup for ILPC test pattern tests G&H .........................25 1.2.1 R&S CMW500 Configuration for GPRF Power Uplink Signal
Measurement ..............................................................................................26 1.2.2 Automating a GPRF Power Measurement with the R&S CMW500 ......30 1.2.2.1 Configure the arbitrary signal generator to play the waveform ............30 1.2.2.2 Configure the R&S CMW500 analyzer to make a GPRF power
measurement ..............................................................................................30 1.2.2.3 Arm the measurement ...............................................................................31 1.2.2.4 Get the power measurement results ........................................................32
2 Summary............................................................................... 32
3 References............................................................................ 32
Test Equipment Setup
<1CM78_0E> Rohde & Schwarz < WCDMA Inner Loop Power Control tests, test pattern E&F,G&H, using ARB files on the R&S CMW 500> 4
1 Test Equipment Setup
1.1 R&S CMW500 WCDMA Arbitrary Waveform Playback Setup
The following details how to configure the R&S CMW500 General Purpose RF Generator for playback of an arbitrary waveform used for WCDMA inner loop power control tests, test pattern E & F. The waveform to execute playback on is:
• D:\Rohde-Schwarz\CMW\Data\waveform\RMC12_2_IlpcEF_0_9_16.wv
To start this arbitrary waveform file a software option KW400 on the R&S CMW500 is required
1.1.1 Step 1 – Enable the General Purpose RF Generator
1.1.2 Step 2 – Configure the General Purpose RF Generator
Test Equipment Setup
<1CM78_0E> Rohde & Schwarz < WCDMA Inner Loop Power Control tests, test pattern E&F,G&H, using ARB files on the R&S CMW 500> 5
1.1.3 Step 3 – Select the ARB File
To select the arbitrary waveform, press the ARB soft key on left side of R&S CMW screen, followed by the “Select ARB File …” soft key on the bottom
Test Equipment Setup
<1CM78_0E> Rohde & Schwarz < WCDMA Inner Loop Power Control tests, test pattern E&F,G&H, using ARB files on the R&S CMW 500> 6
Navigate through the pop up dialog, e.g. rotating the spin wheel and select the desired arbitrary waveform file by pushing the spin wheel. Navigate the focus of the dialog to the OK button by rotating the spin wheel again. After selecting the OK button push the spin wheel again
1.1.4 Step 4 – Turn ON the General Purpose RF Generator
To begin playing the arbitrary waveform, press the On/Off hard key button on the R&S CMW500 front panel, located along the top of the instrument, above the spin wheel.
Test Equipment Setup
<1CM78_0E> Rohde & Schwarz < WCDMA Inner Loop Power Control tests, test pattern E&F,G&H, using ARB files on the R&S CMW 500> 7
1.1.5 – Table of the General Purpose RF Generator Settings
General Purpose RF Generator RF Configuration Parameter Settings Units
RF Routing User defined (suggest RF1 COM)
External Attenuation User defined (RF cable path loss) dB
Frequency 2112.4 MHz
Level (RMS) -65.0 dBm
Digital Gain 0.0 dB
List Mode Off
Baseband Configuration Baseband Mode ARB
Dual Tone Not applicable
ARB Configuration Repetition Continuous
ARB File Name D:\Rohde-Schwarz\CMW\Data\waveform\
RMC12_2_IlpcEF_0_9_16.wv
Trigger Retrigger Checked
Autostart Checked
Source Not applicable
List Configuration List Elements Not applicable
1.1.6 Rohde & Schwarz WCDMA Non-signaling test arbitrary waveform configuration
The waveform described below is useful for testing WCDMA chipsets in non-signaling test mode using the Rohde & Schwarz CMW500 Wideband Radio Communication Tester. The signal provides everything needed in a downlink signal for a non-signaling test mode enabled device to synchronize and decode on downlink channel 10562. The signal can be used to perform inner loop power control tests for the test pattern E&F in one row. The same arbitrary waveform file can be used for the test pattern G&H. The necessary changes in the analyzer settings are described in the next chapter. Changing the ARB file will cause the mobile to loose the synchronization. To
Test Equipment Setup
<1CM78_0E> Rohde & Schwarz < WCDMA Inner Loop Power Control tests, test pattern E&F,G&H, using ARB files on the R&S CMW 500> 8
prevent this, a multi-segment ARB generator mode is available on the R&S CMW500. Uplink signal measurements from the chip can be performed using the R&S CMW500 GPRF power measurement, which is part of the base instrument. Waveform file name: RMC12_2_IlpcEF_0_9_16.wv Waveform Content 160 millisecond long waveform (16 frames)
DL Primary Scrambling Code 0
DL Secondary Scrambling Code 0
DPCH Channel Code 9
Channel type 12.2kbps RMC
Power Control Bits set 120 times to ‘0’ and 120 times to ‘1’
P-CPICH Level -3.3 dB
P-SCH Level -8.3 dB
S-SCH Level -8.3 dB
P-CCPCH Level –5.3 dB
PICH Level -8.3 dB
DPCH Level -10.3 dB
1.1.7 Rohde & Schwarz WinIQSIM2 control sequence
The Rohde & Schwarz tool WinIQSIM2 can also be remote controlled to define the parameters, which are used to generate the arbitrary waveform file. The remote interface behaves like a standard remote interface of a signal generator based on a SCPI syntax using an VISA driver to control a TCP/IP connection to “localhost”. The leading “WinIQSIM: ” is not part of the command, this is only used as a address symbol in this Rohde & Schwarz remote script tools
1.1.7.1 Reset the tool
buffout = [ ] WINIQSIM2: *IDN? WINIQSIM2: *RST WINIQSIM2: *CLS WINIQSIM2: BB:W3GP:STAT OFF
Test Equipment Setup
<1CM78_0E> Rohde & Schwarz < WCDMA Inner Loop Power Control tests, test pattern E&F,G&H, using ARB files on the R&S CMW 500> 9
1.1.7.2 Defining a TPC pattern with 120 zeros and 120 ones
1.1.7.3 Defining a the data list directory and write the TPC pattern to a file e:\\120zeros120ones.dm_iqd
1.1.7.4 Defining the scrambling code
The primary scrambling code is defined with 4 digits followed by the secondary scrambling code with 1 digit
1.1.7.5 Primary CPICH definition
1.1.7.6 Secondary CPICH definition (inactive)
WINIQSIM2: MMEM:CDIR 'e:\\' WINIQSIM2: MMEM:MDIR 'e:\\' WINIQSIM2: SOUR:BB:DM:DLIS:SEL "e:\\120zeros120ones" buffout = "SOUR:BB:DM:DLIS:DATA " + ilpc_tpc_pattern WINIQSIM2.write(buffout)
ilpc_tpc_pattern = "0" for index in range (0,119): ilpc_tpc_pattern = ilpc_tpc_pattern + ',0' for index in range (120,240): ilpc_tpc_pattern = ilpc_tpc_pattern + ',1'
WINIQSIM2: BB:W3GP:BST1:CHAN1:STAT OFF WINIQSIM2: BB:W3GP:BST1:CHAN1:POW -3.3 WINIQSIM2: BB:W3GP:BST1:CHAN1:CCOD 7
WINIQSIM2: BB:W3GP:BST1:CHAN0:STAT ON WINIQSIM2: BB:W3GP:BST1:CHAN0:POW -3.3
WINIQSIM2.write('BB:W3GP:BST1:SCOD #H0000') WINIQSIM2: BB:W3GP:BST1:SCOD:STAT ON
Test Equipment Setup
<1CM78_0E> Rohde & Schwarz < WCDMA Inner Loop Power Control tests, test pattern E&F,G&H, using ARB files on the R&S CMW 500> 10
1.1.7.7 Primary SCH definition
1.1.7.8 Secondary SCH definition
1.1.7.9 Primary CCPCH definition
1.1.7.10 Secondary CCPCH definition (inactive)
1.1.7.11 PICH definition
1.1.7.12 AICH definition (inactive)
WINIQSIM2: BB:W3GP:BST1:CHAN6:STAT ON WINIQSIM2: BB:W3GP:BST1:CHAN6:POW -8.3 WINIQSIM2: BB:W3GP:BST1:CHAN6:CCOD 16 WINIQSIM2: BB:W3GP:BST1:CHAN6:DATA PN9 WINIQSIM2: BB:W3GP:BST1:CHAN6:TOFF 0
WINIQSIM2: BB:W3GP:BST1:CHAN5:STAT OFF WINIQSIM2: BB:W3GP:BST1:CHAN5:POW -5.3 WINIQSIM2: BB:W3GP:BST1:CHAN5:CCOD 4 WINIQSIM2: BB:W3GP:BST1:CHAN5:DATA PN9 WINIQSIM2: BB:W3GP:BST1:CHAN5:SFOR 4 WINIQSIM2: BB:W3GP:BST1:CHAN5:TOFF 0
WINIQSIM2: BB:W3GP:BST1:CHAN4:STAT ON WINIQSIM2: BB:W3GP:BST1:CHAN4:POW -5.3 WINIQSIM2: BB:W3GP:BST1:CHAN4:CCOD 1 WINIQSIM2: BB:W3GP:BST1:CHAN4:DATA PN9 WINIQSIM2: BB:W3GP:BST:ENH:PCCP:CCOD:STAT ON WINIQSIM2: BB:W3GP:BST:ENH:PCCP:STAT ON
WINIQSIM2: BB:W3GP:BST1:CHAN3:STAT ON WINIQSIM2: BB:W3GP:BST1:CHAN3:POW -8.3
WINIQSIM2: BB:W3GP:BST1:CHAN2:STAT ON WINIQSIM2: BB:W3GP:BST1:CHAN2:POW -8.3
Test Equipment Setup
<1CM78_0E> Rohde & Schwarz < WCDMA Inner Loop Power Control tests, test pattern E&F,G&H, using ARB files on the R&S CMW 500> 11
1.1.7.13 AP_AICH definition (inactive)
1.1.7.14 PDSCH definition (inactive)
1.1.7.15 Downlink DPCCH definition (inactive)
1.1.7.16 DPCH definition
The code channel is 9. It is using aRMC12.2 coded channel with transport format combination index 3. The data source is a PRBS-9 sequence. ILPC defined by data list e:\\120zeros120ones.dm_iqd
WINIQSIM2: BB:W3GP:BST1:CHAN11:STAT ON WINIQSIM2: BB:W3GP:BST1:CHAN11:POW -10.3 WINIQSIM2: BB:W3GP:BST1:CHAN11:CCOD 9 WINIQSIM2: BB:W3GP:BST1:CHAN11:DATA PN9 WINIQSIM2: BB:W3GP:BST1:CHAN11:TOFF 0 WINIQSIM2: BB:W3GP:BST:ENH:CHAN11:DPCH:CCOD:TYPE M12K2 WINIQSIM2: BB:W3GP:BST:ENH:CHAN11:DPCH:CCOD:STAT ON WINIQSIM2: BB:W3GP:BST:ENH:CHAN11:DPCH:STAT ON WINIQSIM2: BB:W3GP:BST:ENH:CHAN11:DPCH:TCH1:DATA PN9 WINIQSIM2: BB:W3GP:BST1:CHAN11:DPCC:TFCI 3 WINIQSIM2: BB:W3GP:BST1:CHAN11:DPCC:TFCI:STATE ON WINIQSIM2: BB:W3GP:BST1:CHAN11:DPCC:TPC:DATA DLIS WINIQSIM2: BB:W3GP:BST1:CHAN11:DPCC:TPC:DATA:DSEL "e:\\120zeros120ones" WINIQSIM2: BB:W3GP:BST1:CHAN11:DPCC:TPC:READ CONT
WINIQSIM2: BB:W3GP:BST1:CHAN10:STAT OFF
WINIQSIM2: BB:W3GP:BST1:CHAN9:STAT OFF
WINIQSIM2: BB:W3GP:BST1:CHAN8:STAT OFF
WINIQSIM2: BB:W3GP:BST1:CHAN7:STAT OFF WINIQSIM2: BB:W3GP:BST1:CHAN7:POW -8.3 WINIQSIM2: BB:W3GP:BST1:CHAN7:CCOD 2
Test Equipment Setup
<1CM78_0E> Rohde & Schwarz < WCDMA Inner Loop Power Control tests, test pattern E&F,G&H, using ARB files on the R&S CMW 500> 12
1.1.7.17 Definition of all other channels (12 to 137)
1.1.7.18 Marker definition
1 = ARB length 2 = ARB length 3 = Slot 4 = Frame
1.1.7.19 ARB Length
Defined with number of frames
1.1.7.20 Query for the relative total power
1.1.7.21 Query for channel conflicts, syntax errors in the remote sequence
WINIQSIM2: BB:W3GP:BST1:DCON? WINIQSIM2: SYST:ERR?
WINIQSIM2: BB:W3GP:SLEN 16 WINIQSIM2: BB:W3GP:STAT ON;*OPC?
WINIQSIM2: SOUR:BB:W3GP:TRIG:OUTP1:MODE CSP WINIQSIM2: SOUR:BB:W3GP:TRIG:OUTP2:MODE CSP WINIQSIM2: SOUR:BB:W3GP:TRIG:OUTP3:MODE SLOT WINIQSIM2: SOUR:BB:W3GP:TRIG:OUTP4:MODE RFR
for index in range (12, 138): buffout = "BB:W3GP:BST1:CHAN" + str(index) + ":STAT OFF" WINIQSIM2.write(buffout) buffout = "BB:W3GP:BST1:CHAN" + str(index) + ":POW 0.0" WINIQSIM2.write(buffout) buffout = "BB:W3GP:BST1:CHAN" + str(index) + ":TOFF 0" WINIQSIM2.write(buffout)
WINIQSIM2: BB:W3GP:POW?
Test Equipment Setup
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1.1.7.22 Creation of the arbitrary waveform file
1.1.8 R&S CMW500 Configuration for GPRF Power Uplink Signal Measurement
The following describes how to configure the R&S CMW500 to perform a measurement on the uplink WCDMA transmitter. First, enable the GPRF TX Measurement option on, by checking its enable radio button from the Measurement Controller sub panel. This menu can be found by pressing the Measure hard key found along the top of the R&S CMW500 front panel, above the number keypad.
WINIQSIM2: SOUR:BB:W3GP:WAV:CRE " e:\RMC12_2_IlpcEF_0_9_16.wv " WINIQSIM2: SYST:ERR?
Test Equipment Setup
<1CM78_0E> Rohde & Schwarz < WCDMA Inner Loop Power Control tests, test pattern E&F,G&H, using ARB files on the R&S CMW 500> 14
1.1.9 Measurement Settings
Next find and press the following soft key on from the GPRF Power Measurement – screen. If this soft key is not yet visible, use the Tasks hard key.
The Tasks hard key shows the available currently enabled (loaded) software features and to select this feature. Press the soft key “GPRF Power”
The displayed soft keys row along the bottom of the LCD display should change to one of the GPRF Power Measurement controls like shown below.
1.1.10 RF Settings
The total configuration consists of four different parts:
• Trigger configuration • List mode configuration • Filter configuration • Measurement control.
Start by pressing the “Config…” on the right side of the displayed soft keys row along the bottom of the LCD display. Please define the trigger settings in this shown pop up menu now. Additionally configure the Start index (0) and the Stop Index (239) of the list mode and activate the list mode.
Test Equipment Setup
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Press the “Config…” button again to return to the main window. In the second step press the “List Config.” Button on the right side of the displayed soft keys row along the bottom of the LCD display. Start to fill out the pop up dialog like shown below and afterwards press the button “Apply”. Enter the Start Index (0) and the Index Range (28), followed by the Frequency and the Level. The frequency increment and the level increment should both be 0.0
You need to modify now the index range and the level setting. After that use again the button “Apply”
Test Equipment Setup
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This step is now repeated several times, like shown.
Test Equipment Setup
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With this last entry you should enter again the index range and the level. After that press again the button “Apply”, like before.
Test Equipment Setup
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Return to the main screen by the button “Cancel” now. In this main window, the filter configuration and the step configuration can be done. Use the spin wheel to change from edit field to next edit field. The trigger offset 291.66 microseconds belongs to the 1024 chips offset between downlink and the uplink signal plus 25 microseconds guard period.
Test Equipment Setup
<1CM78_0E> Rohde & Schwarz < WCDMA Inner Loop Power Control tests, test pattern E&F,G&H, using ARB files on the R&S CMW 500> 19
The following table summarizes how to configure the following parameters to these values: GPRF Power Measurements RF Configuration Parameter Settings Units
RF Routing User defined (suggest RF1 COM)
External Attenuation User defined (RF cable path loss) dB
Frequency Defined by the list mode configuration MHz
Expected Power Level (RMS) Defined by the list mode configuration dBm
User Margin 6.0 dB
List Mode On
Trigger Trigger Source ‘GPRF Generator : Restart Marker'
Trigger Timeout 1000 (default) msec.
Trigger Offset 291,66 µsec.
Trigger Mode “Trigger once” for single shot measurements or “Retrigger sweep” for single shot and continuous mode
Statistic Counts Power 1 Slot
List Configuration List Elements 240
Start index 0
Stop index 239
Frequency 1922.4 MHz
Expected Power (index 0 to 27) 24.0 dBm
Expected Power (index 28 to 50) -1.0 dBm
Expected Power (index 51 to 68) -21.0 dBm
Expected Power (index 69 to 138) -30.0 dBm
Expected Power (index 139 to 153) -13.0 dBm
Expected Power (index 154 to 165) 0.0 dBm
Expected Power (index 166 to 174) 10.0 dBm
Expected Power (index 175 to 239) 24.0 dBm
Test Equipment Setup
<1CM78_0E> Rohde & Schwarz < WCDMA Inner Loop Power Control tests, test pattern E&F,G&H, using ARB files on the R&S CMW 500> 20
GPRF Power Measurements Filter Configuration Parameter Settings Units
Bandwidth 5.0 or 10.0 MHz
Filter Type Bandpass
Step Configuration Step Length 666.66666666667 (1 slot) µsec.
Measurement Length 616.0 µsec.
The R&S CMW500 LCD screen should look like the following:
The display range of the Y-axis can be optimized by pressing the following soft key on the right-hand column of the LCD screen
Configure the range by pressing the softkey “Y Scale Power…” and the shown popup dialog.
Test Equipment Setup
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Similar like the Y-Axis also the X-Axis of Diagram can be changed by pressing the soft key “X Scale” and changing the parameter of the pop up dialog.
1.1.11 Measurement Control
The big benefit in combining the test steps E&F in the inner loop power control measurement is, that the measurements starts and stops at exactly the same condition with maximum power. That gives additionally the possibility to perform the measurement also in a continuous mode Find and press the following soft key on the right-hand column of the LCD screen.
1.1.11.1 Repetition
Set the repetition mode to “Continuous”
It is possible to analyze the standard deviation of the power results for each TX power step. Press the following soft key on the right-hand column of the LCD screen
Test Equipment Setup
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1.1.11.2 Display
Look for the softkey “Standard Dev”, which toggles between the state “Show” and “Hide”
Press the following soft key on the right-hand column of the LCD screen
1.1.11.3 Marker
In addition press the soft key “Marker…” and change this value e.g. by rotating the spin wheel of the R&S CMW500.
Test Equipment Setup
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The fields above the Marker pop up dialog show the power results at this marker position.
1.1.12 Start the Measurement
The measurement can be manually executed (triggered) by pressing the ON/OFF hard key on the front panel of the R&S CMW500, located along the top of the instrument, above the spin wheel.
1.1.13 Automating a GPRF Power Measurement with the R&S CMW500
The following SCPI command code is an example of how to configure the R&S
CMW500 signal generator and signal analyzer to perform a non-signaling WCDMA uplink TX measurement on non signaling enabled WCDMA chipset. The leading “CMW: ” is not part of the command, this is only used as a address symbol in Rohde & Schwarz remote script tools.
Test Equipment Setup
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1.1.13.1 Configure the arbitrary signal generator to play the waveform
Whenever loading an ARB file, you should ensure it was present on the selected path. The verification can be achieved by querying the currently loaded ARB file. A return string "No File Selected" would be an indication, that the file is not present.
1.1.13.2 Configure the R&S CMW500 analyzer to make a GPRF power measurement
Slot timing and filter configuration, user margin corresponding to the crest factor of the signal
Trigger timing defined by generator marker. The trigger mode could also be “trigger once” instead of “retrigger sweep, but the “retrigger sweep” mode also works in continuous mode
List mode uses 240 entries for the same frequency
List mode uses 240 entries for the expected power
buffout = "CONF:GPRF:MEAS:POW:LIST:FREQ:ALL 1.9224E9" for index in range (1,240): buffout = buffout + ",1.9224E9" CMW.write(buffout)
CMW: TRIG:GPRF:MEAS:POW:SOUR "GPRF Gen1: Restart Marker" CMW: TRIG:GPRF:MEAS:POW:MODE SWE CMW: CONF:GPRF:MEAS:POW:TRIG:OFFS 291.66E-6 CMW: CONF:GPRF:MEAS:POW:TRIG:TOUT 300 CMW: CONF:GPRF:MEAS:POW:LIST ON
CMW: CONF:GPRF:MEAS:RFS:ENP 24 CMW: CONF:GPRF:MEAS:RFS:UMAR 6 CMW: CONF:GPRF:MEAS:POW:SLEN 666.67E-6 CMW: CONF:GPRF:MEAS:POW:MLEN 616.60E-6 CMW: CONF:GPRF:MEAS:POW:SCO 1 CMW: CONF:GPRF:MEAS:POW:FILT:TYPE BAND CMW: CONF:GPRF:MEAS:POW:FILT:BAND:BWID 10E6
CMW: ROUT:GPRF:GEN1:RFS:CONN RF1C CMW: SOUR:GPRF:GEN1:BBM ARB CMW: SOUR:GPRF:GEN1:RFS:FREQ 2112.4e6 CMW: SOUR:GPRF:GEN1:RFS:EATT 1 CMW: SOUR:GPRF:GEN1:RFS:LEV -65 CMW: SOUR:GPRF:GEN1:ARB:FILE 'd:\\ :\\Rohde-Schwarz\\CMW\\data\\waveform\\RMC12_2_IlpcEF_0_9_16.wv' CMW: SOUR:GPRF:GEN1:ARB:FILE? CMW: SOUR:GPRF:GEN1:ARB:REP CONT CMW: TRIG:GPRF:GEN1:ARB:RETR ON CMW: TRIG:GPRF:GEN1:ARB:AUT ON CMW: SOUR:GPRF:GEN1:LIST OFF CMW: SYST:ERR? CMW: SOUR:GPRF:GEN1:STAT ON;*OPC?
Test Equipment Setup
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1.1.13.3 Arm the measurement
1.1.13.4 Get the power measurement results
1.2 Test Equipment Setup for ILPC test pattern tests G&H
The same arbitrary waveform file as it was used for inner loop power control test pattern E&F can also be used for the test pattern G and H:
• D:\Rohde-Schwarz\CMW\Data\waveform\RMC12_2_IlpcEF_0_9_16.wv
The differences in this test pattern G&H are the use of power steps of 2 dB instead of 1dB in the test pattern E&F. This requires a modification of the expected power settings in the general purpose RF power test (“GPRF power”). The rest of the handling is exactly the same, so that only the analyzer configuration is described in this chapter.
buffout = "CONF:GPRF:MEAS:POW:LIST:ENP:ALL 24.0" for index in range (1,28): buffout = buffout + ",24.0" for index in range (0,23): buffout = buffout + ",-1.0" for index in range (0,18): buffout = buffout + ",-21.0" for index in range (0,70): buffout = buffout + ",-30.0" for index in range (0,15): buffout = buffout + ",-13.0" for index in range (0,12): buffout = buffout + ",0.0" for index in range (0,9): buffout = buffout + ",10.0" for index in range (0,65): buffout = buffout + ",24.0" CMW.write(buffout) CMW: CONF:GPRF:MEAS:POW:LIST:STAR 0;STOP 239
CMW: FETC:GPRF:MEAS:POW:CURR?
CMW: INIT:GPRF:MEAS:POW;*OPC?
Test Equipment Setup
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1.2.1 R&S CMW500 Configuration for GPRF Power Uplink Signal Measurement
Most Settings of the General Purpose Power Measurement (GPRF Power) are the same as described for the Inner Loop Power Control Tests with Test Pattern E&F. Only the expected power measurement of the list mode need to be modified, which is described here. Start to fill out the pop up dialog like shown below and afterwards press the button “Apply”. Enter the Start Index (0) and the Index Range (14), followed by the Frequency and the Level. The frequency increment and the level increment should both be 0.0.
You need to modify now the index range and the level setting. After that use again the button “Apply”
This step is now repeated several times, like shown.
Test Equipment Setup
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Test Equipment Setup
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With this last entry you should enter again the index range and the level. After that press again the button “Apply”, like before.
Return to the main screen by the button “Cancel” now. The following screen shots summarizes how to configure the following parameters to these values:
Test Equipment Setup
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GPRF Power Measurements RF Configuration Parameter Settings Units
RF Routing User defined (suggest RF1 COM)
External Attenuation User defined (RF cable path loss) dB
Frequency Defined by the list mode configuration MHz
Expected Power Level (RMS) Defined by the list mode configuration dBm
User Margin 6.0 dB
List Mode On
Trigger Trigger Source ‘GPRF Generator : Restart Marker'
Trigger Timeout 1000 (default) msec.
Trigger Offset 291,66 µsec.
Trigger Mode “Trigger once” for single shot measurements or “Retrigger sweep” for single shot and continuous mode
Statistic Counts Power 1 Slot
List Configuration List Elements 240
Start index 0
Stop index 239
Frequency 1922.4 MHz
Expected Power (index 0 to 13) 24.0 dBm
Expected Power (index 14 to 24) -1.0 dBm
Expected Power (index 25 to 33) -21.0 dBm
Expected Power (index 34 to 128) -30.0 dBm
Expected Power (index 129 to 135) -13.0 dBm
Expected Power (index 136 to 141) 0.0 dBm
Expected Power (index 142 to 145) 10.0 dBm
Expected Power (index 146 to 239) 24.0 dBm
Test Equipment Setup
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GPRF Power Measurements Filter Configuration Parameter Settings Units
Bandwidth 5.0 or 10.0 MHz
Filter Type Bandpass
Step Configuration Step Length 666.66666666667 (1 slot) µsec.
Measurement Length 616.0 µsec.
1.2.2 Automating a GPRF Power Measurement with the R&S CMW500
The following SCPI command code is an example of how to configure the R&S
CMW500 signal generator and signal analyzer to perform a non-signaling WCDMA uplink TX measurement on non signaling enabled WCDMA chipset. The leading “CMW: ” is not part of the command, this is only used as a address symbol in Rohde & Schwarz remote script tools.
1.2.2.1 Configure the arbitrary signal generator to play the waveform
Whenever loading an ARB file, you should ensure it was present on the selected path. The verification can be achieved by querying the currently loaded ARB file. A return string "No File Selected" would be an indication, that the file is not present.
1.2.2.2 Configure the R&S CMW500 analyzer to make a GPRF power measurement
Slot timing and filter configuration, user margin corresponding to the crest factor of the signal
CMW: ROUT:GPRF:GEN1:RFS:CONN RF1C CMW: SOUR:GPRF:GEN1:BBM ARB CMW: SOUR:GPRF:GEN1:RFS:FREQ 2112.4e6 CMW: SOUR:GPRF:GEN1:RFS:EATT 1 CMW: SOUR:GPRF:GEN1:RFS:LEV -65 CMW: SOUR:GPRF:GEN1:ARB:FILE 'd:\\ :\\Rohde-Schwarz\\CMW\\data\\waveform\\RMC12_2_IlpcEF_0_9_16.wv' CMW: SOUR:GPRF:GEN1:ARB:FILE? CMW: SOUR:GPRF:GEN1:ARB:REP CONT CMW: TRIG:GPRF:GEN1:ARB:RETR ON CMW: TRIG:GPRF:GEN1:ARB:AUT ON CMW: SOUR:GPRF:GEN1:LIST OFF CMW: SYST:ERR? CMW: SOUR:GPRF:GEN1:STAT ON;*OPC?
Test Equipment Setup
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Trigger timing defined by generator marker. The trigger mode could also be “trigger once” instead of “retrigger sweep, but the “retrigger sweep” mode also works in continuous mode
List mode uses 240 entries for the same frequency
List mode uses 240 entries for the expected power
1.2.2.3 Arm the measurement
buffout = "CONF:GPRF:MEAS:POW:LIST:ENP:ALL 24.0" for index in range (1,14): buffout = buffout + ",24.0" for index in range (0,11): buffout = buffout + ",-1.0" for index in range (0,9): buffout = buffout + ",-21.0" for index in range (0,95): buffout = buffout + ",-30.0" for index in range (0,7): buffout = buffout + ",-13.0" for index in range (0,6): buffout = buffout + ",0.0" for index in range (0,4): buffout = buffout + ",10.0" for index in range (0,94): buffout = buffout + ",24.0" CMW: CONF:GPRF:MEAS:POW:LIST:STAR 0;STOP 239
buffout = "CONF:GPRF:MEAS:POW:LIST:FREQ:ALL 1.9224E9" for index in range (1,240): buffout = buffout + ",1.9224E9" CMW.write(buffout)
CMW: TRIG:GPRF:MEAS:POW:SOUR "GPRF Gen1: Restart Marker" CMW: TRIG:GPRF:MEAS:POW:MODE SWE CMW: CONF:GPRF:MEAS:POW:TRIG:OFFS 291.66E-6 CMW: CONF:GPRF:MEAS:POW:TRIG:TOUT 300 CMW: CONF:GPRF:MEAS:POW:LIST ON
CMW: INIT:GPRF:MEAS:POW;*OPC?
CMW: CONF:GPRF:MEAS:RFS:ENP 24 CMW: CONF:GPRF:MEAS:RFS:UMAR 6 CMW: CONF:GPRF:MEAS:POW:SLEN 666.67E-6 CMW: CONF:GPRF:MEAS:POW:MLEN 616.60E-6 CMW: CONF:GPRF:MEAS:POW:SCO 1 CMW: CONF:GPRF:MEAS:POW:FILT:TYPE BAND CMW: CONF:GPRF:MEAS:POW:FILT:BAND:BWID 10E6
Summary
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1.2.2.4 Get the power measurement results
2 Summary The application note explains how to create and use an arbitrary waveform file to perform WCDMA inner loop power control tests, test pattern E&F and G&H for a non-signaling test mode enabled device.
3 References [1] User manual of the R&S CMW 500 or R&S CMW 280 radio communication
tester. [2] Software manual for the R&S WinIQSim Simulation Software [3] Software manual for the R&SWinIQSim Options xxx-K42/ -K242/ -K43/ -
K243/ -K45/ -K245/ -K59/ -K259/ -KW401/ -KW402 3GPP FDD, HSDPA, HSUPA and HSP
Index A
Arm the GPRF Power Measurement................................... 25,31 Automating a GPRF Power Measurement .......................... 23,30
C
Configure the ARB generator.............................................. 24,30 Configure the GPRF Generator.................................................. 4 Configure the GPRF power measurement .......................... 24,30
E
Enable the GPRF Generator...................................................... 4
GGet the GPRF power measurement results......................... 25,32
M
Measurement Control .............................................................. 21
Measurement Settings..............................................................14
R
RF Settings of the GPRF Power Measurement.........................14
S
Select the ARB File ....................................................................5 Start the GPRF Power Measurement .......................................23
T
Table of the GPRF Generator Settings .......................................7 Turn On the GPRF Generator..................................................6,8
WWCDMA Uplink Measurements for test pattern E&F.................13 WCDMA Uplink Measurements for test pattern G&H................26
CMW: FETC:GPRF:MEAS:POW:CURR?
About Rohde & Schwarz Rohde & Schwarz is an independent group of companies specializing in electronics. It is a leading supplier of solutions in the fields of test and measurement, broadcasting, radiomonitoring and radiolocation, as well as secure communications. Established 75 years ago, Rohde & Schwarz has a global presence and a dedicated service network in over 70 countries. Company headquarters are in Munich, Germany.
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