Rohde&Schwarz FSV3-K106 User Manual

R&S®FSV3-K106
LTE NB-IoT Measurement Application
(Downlink)
User Manual

(;ÜêP2)

1178923202
Version 06

This manual applies to the following R&S®FSV3000 and R&S®FSVA3000 models with firmware version

1.90 and higher:

●

R&S®FSV3004 (1330.5000K04) / R&S®FSVA3004 (1330.5000K05)

●

R&S®FSV3007 (1330.5000K07) / R&S®FSVA3007 (1330.5000K08)

●

R&S®FSV3013 (1330.5000K13) / R&S®FSVA3013 (1330.5000K14)

●

R&S®FSV3030 (1330.5000K30) / R&S®FSVA3030 (1330.5000K31)

●

R&S®FSV3044 (1330.5000K43) / R&S®FSVA3044 (1330.5000K44)

●

R&S®FSV3050 (1330.5000K50) / R&S®FSVA3050 (1330.5000K51)

The following firmware options are described:

●

R&S®FSV3-K106 LTE NB-IoT Downlink Measurement Application (order no. 1346.3418.02)

© 2022 Rohde & Schwarz GmbH & Co. KG
Muehldorfstr. 15, 81671 Muenchen, Germany
Phone: +49 89 41 29 - 0
Email: info@rohde-schwarz.com
Internet: www.rohde-schwarz.com
Subject to change – data without tolerance limits is not binding.
R&S® is a registered trademark of Rohde & Schwarz GmbH & Co. KG.
Trade names are trademarks of the owners.

1178.9232.02 | Version 06 | R&S®FSV3-K106

Throughout this manual, products from Rohde & Schwarz are indicated without the ® symbol , e.g. R&S®FSW is indicated as
R&S FSW.

R&S®FSV3-K106

1 Documentation overview.......................................................................7

1.1 Getting started manual................................................................................................. 7

1.2 User manuals and help.................................................................................................7

1.3 Service manual..............................................................................................................8

1.4 Instrument security procedures.................................................................................. 8

1.5 Printed safety instructions...........................................................................................8

1.6 Data sheets and brochures.......................................................................................... 8

1.7 Release notes and open-source acknowledgment (OSA).........................................8

1.8 Application notes, application cards, white papers, etc........................................... 9

2 Welcome to the LTE NB-IoT measurement application....................10

Contents

Contents

2.1 Installation................................................................................................................... 10

2.2 Starting the LTE NB-IoT measurement application..................................................10

2.3 Understanding the display information.................................................................... 11

3 Measurements and result displays.................................................... 13

3.1 Selecting measurements............................................................................................13

3.2 Selecting result displays............................................................................................ 14

3.3 Performing measurements.........................................................................................15

3.4 I/Q measurements....................................................................................................... 15

3.5 Time alignment error...................................................................................................29

3.6 Frequency sweep measurements..............................................................................30

4 Configuration........................................................................................34

4.1 Configuration overview.............................................................................................. 34

4.2 I/Q measurements....................................................................................................... 36

4.2.1 Defining signal characteristics.......................................................................................36

4.2.2 Test scenarios............................................................................................................... 41

4.2.3 Configuring MIMO setups............................................................................................. 41

4.2.4 NPDSCH settings..........................................................................................................42

4.2.5 Configuring the control channel.................................................................................... 43

4.2.6 Input source configuration.............................................................................................43

4.2.7 Frequency configuration................................................................................................45

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4.2.8 Amplitude configuration.................................................................................................46

4.2.9 Configuring the data capture.........................................................................................50

4.2.10 Trigger configuration..................................................................................................... 51

4.2.11 Parameter estimation and tracking............................................................................... 53

4.2.12 Configuring demodulation parameters.......................................................................... 54

4.2.13 Automatic configuration.................................................................................................56

4.3 Time alignment error measurements........................................................................ 56

4.4 Frequency sweep measurements..............................................................................57

4.4.1 Channel power ACLR measurement configuration.......................................................57

4.4.2 SEM measurement configuration..................................................................................57

5 Analysis................................................................................................ 60

5.1 General analysis tools................................................................................................ 60

Contents

5.1.1 Data export....................................................................................................................60

5.1.2 Microservice export....................................................................................................... 61

5.1.3 Diagram scale............................................................................................................... 61

5.1.4 Zoom............................................................................................................................. 62

5.1.5 Markers......................................................................................................................... 62

5.2 Analysis tools for I/Q measurements........................................................................63

5.2.1 Layout of numerical results........................................................................................... 63

5.2.2 Evaluation range........................................................................................................... 64

5.2.3 Result settings...............................................................................................................66

5.3 Analysis tools for frequency sweep measurements............................................... 67

6 Remote control.....................................................................................68

6.1 Common suffixes........................................................................................................ 68

6.2 Introduction................................................................................................................. 69

6.2.1 Conventions used in descriptions................................................................................. 69

6.2.2 Long and short form...................................................................................................... 70

6.2.3 Numeric suffixes............................................................................................................70

6.2.4 Optional keywords.........................................................................................................71

6.2.5 Alternative keywords..................................................................................................... 71

6.2.6 SCPI parameters...........................................................................................................71

6.3 NB-IoT application selection......................................................................................74

6.4 Screen layout...............................................................................................................77

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6.4.1 General layout...............................................................................................................77

6.4.2 Layout of a single channel............................................................................................ 79

6.5 Measurement control..................................................................................................86

6.5.1 Measurements.............................................................................................................. 86

6.5.2 Measurement sequences..............................................................................................88

6.6 Trace data readout...................................................................................................... 90

6.6.1 The TRACe[:DATA] command...................................................................................... 90

6.6.2 Result readout.............................................................................................................101

6.7 Numeric result readout.............................................................................................102

6.7.1 Result for selection......................................................................................................102

6.7.2 Time alignment error................................................................................................... 107

6.7.3 Marker table................................................................................................................ 108

6.7.4 CCDF table..................................................................................................................112

Contents

6.8 Configuration.............................................................................................................113

6.8.1 General configuration.................................................................................................. 113

6.8.2 I/Q measurements.......................................................................................................115

6.8.3 Time alignment error measurements.......................................................................... 145

6.8.4 Frequency sweep measurements............................................................................... 145

6.9 Analysis..................................................................................................................... 147

6.9.1 Trace export................................................................................................................ 148

6.9.2 Microservice export..................................................................................................... 149

6.9.3 Evaluation range......................................................................................................... 149

6.9.4 Y-axis scale................................................................................................................. 152

6.9.5 Result settings.............................................................................................................154

Annex.................................................................................................. 156

A Performing time alignment measurements..................................... 156

List of Commands (NB-IoT DL).........................................................157

Index....................................................................................................161

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Contents

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1 Documentation overview

1.1 Getting started manual

Documentation overview

User manuals and help

This section provides an overview of the R&S FSV/A user documentation. Unless
specified otherwise, you find the documents at:

www.rohde-schwarz.com/manual/FSVA3000

www.rohde-schwarz.com/manual/FSV3000

Further documents are available at:

www.rohde-schwarz.com/product/FSVA3000

www.rohde-schwarz.com/product/FSV3000

Introduces the R&S FSV/A and describes how to set up and start working with the
product. Includes basic operations, typical measurement examples, and general infor­mation, e.g. safety instructions, etc.

A printed version is delivered with the instrument. A PDF version is available for down­load on the Internet.

1.2 User manuals and help

Separate user manuals are provided for the base unit and the firmware applications:

●

Base unit manual
Contains the description of all instrument modes and functions. It also provides an
introduction to remote control, a complete description of the remote control com­mands with programming examples, and information on maintenance, instrument
interfaces and error messages. Includes the contents of the getting started manual.

●

Firmware application manual
Contains the description of the specific functions of a firmware application, includ­ing remote control commands. Basic information on operating the R&S FSV/A is
not included.

The contents of the user manuals are available as help in the R&S FSV/A. The help
offers quick, context-sensitive access to the complete information for the base unit and
the firmware applications.

All user manuals are also available for download or for immediate display on the Inter­net.

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1.3 Service manual

1.4 Instrument security procedures

Documentation overview

Release notes and open-source acknowledgment (OSA)

Describes the performance test for checking the rated specifications, module replace­ment and repair, firmware update, troubleshooting and fault elimination, and contains
mechanical drawings and spare part lists.

The service manual is available for registered users on the global Rohde & Schwarz
information system (GLORIS):

R&S®FSVA3000/FSV3000 Service manual

Deals with security issues when working with the R&S FSV/A in secure areas. It is
available for download on the Internet.

1.5 Printed safety instructions

Provides safety information in many languages. The printed document is delivered with
the product.

1.6 Data sheets and brochures

The data sheet contains the technical specifications of the R&S FSV/A. It also lists the
firmware applications and their order numbers, and optional accessories.

The brochure provides an overview of the instrument and deals with the specific char­acteristics.

See www.rohde-schwarz.com/brochure-datasheet/FSV3000 /

www.rohde-schwarz.com/brochure-datasheet/FSVA3000

1.7 Release notes and open-source acknowledgment (OSA)

The release notes list new features, improvements and known issues of the current
firmware version, and describe the firmware installation.

The software makes use of several valuable open source software packages. An open­source acknowledgment document provides verbatim license texts of the used open
source software.

See www.rohde-schwarz.com/firmware/FSV3000 /

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1.8 Application notes, application cards, white papers,

Documentation overview

Application notes, application cards, white papers, etc.

www.rohde-schwarz.com/firmware/FSVA3000

etc.

These documents deal with special applications or background information on particu­lar topics.

See www.rohde-schwarz.com/application/FSV3000 /

www.rohde-schwarz.com/application/FSVA3000

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2 Welcome to the LTE NB-IoT measurement

Welcome to the LTE NB-IoT measurement application

Starting the LTE NB-IoT measurement application

application

The LTE NB-IoT measurement application is a firmware application that adds function­ality to measure on NB-IoT signals according to the 3GPP standard to the R&S FSV/A.

This user manual contains a description of the functionality that the application pro­vides, including remote control operation. Functions that are not discussed in this man­ual are the same as in the spectrum application and are described in the R&S FSV/A
user manual. The latest versions of the manuals are available for download at the
product homepage.

https://www.rohde-schwarz.com/manual/fsv3000.

● Installation...............................................................................................................10

● Starting the LTE NB-IoT measurement application.................................................10

● Understanding the display information....................................................................11

2.1 Installation

Find detailed installing instructions in the getting started or the release notes of the
R&S FSV/A.

2.2 Starting the LTE NB-IoT measurement application

The LTE NB-IoT measurement application adds a new application to the R&S FSV/A.

Starting the NB-IoT application

1. Press the [MODE] key on the front panel of the R&S FSV/A.

A dialog box opens that contains all operating modes and applications currently
available on your R&S FSV/A.

2. Select the "NB-IoT" item.

The R&S FSV/A opens a new measurement channel for the NB-IoT measurement
application.

The application is started with the default settings. It can be configured in the "Over­view" dialog box, which is displayed when you select the "Overview" softkey from the
"Meas Setup" menu.

For more information, see Chapter 4, "Configuration", on page 34.

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2.3 Understanding the display information

Welcome to the LTE NB-IoT measurement application

Understanding the display information

The following figure shows a measurement diagram during NB-IoT operation. All differ­ent information areas are labeled. They are explained in more detail in the following
sections.

1 2 3 4 5 6

1 = Toolbar
2 = Channel bar
3 = Diagram header
4 = Result display
5 = Status bar
6 = Softkeys

Channel bar information

In the LTE NB-IoT measurement application, the R&S FSV/A shows the following set­tings:

Table 2-1: Information displayed in the channel bar in the NB-IoT measurement application

Ref Level Reference level

Att Mechanical and electronic RF attenuation

Offset Reference level offset

Freq

E-UTRA Freq

Mode NB-IoT standard

MIMO Number of Tx and Rx antennas in the measurement setup

Capture Time Length of the signal that has been captured

Frequency
Center frequency of the LTE channel (in-band deployment only)

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Welcome to the LTE NB-IoT measurement application

Understanding the display information

Frame Count Number of frames that have been captured

Subframe Subframe considered in the signal analysis

In addition, the channel bar displays information on instrument settings that affect the
measurement results even though this is not immediately apparent from the display of
the measured values (for example trigger settings). This information is displayed only
when applicable for the current measurement. For details, see the R&S FSV/A getting
started manual.

Window title bar information

The information in the window title bar depends on the result display.

The "Constellation Diagram", for example, shows the number of points that have been
measured.

Status bar information

Global instrument settings, the instrument status and any irregularities are indicated in
the status bar beneath the diagram. Furthermore, the progress of the current operation
is displayed in the status bar.

Regarding the synchronization state, the application shows the following labels.

●

"Sync OK"
The synchronization was successful. The status bar is green.

●

"Sync Failed"
The synchronization was not successful. The status bar is red.
There can be three different synchronization errors.

– "Sync Failed (Cyclic Prefix)": The cyclic prefix correlation failed.
– "Sync Failed (NPSS)": The NPSS correlation failed.
– "Sync Failed (NSSS)": The NSSS correlation failed.

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3 Measurements and result displays

Measurements and result displays

Selecting measurements

The LTE NB-IoT measurement application measures and analyzes various aspects of
an NB-IoT signal.

It features several measurements and result displays. Measurements represent differ­ent ways of processing the captured data during the digital signal processing. Result
displays are different representations of the measurement results. They can be dia­grams that show the results as a graph or tables that show the results as numbers.

Remote command:

Measurement selection: CONFigure[:LTE]:MEASurement on page 113

Result display selection: LAYout:ADD[:WINDow]? on page 79

● Selecting measurements.........................................................................................13

● Selecting result displays..........................................................................................14

● Performing measurements......................................................................................15

● I/Q measurements...................................................................................................15

● Time alignment error...............................................................................................29

● Frequency sweep measurements...........................................................................30

3.1 Selecting measurements

Access: "Overview" > "Select Measurement"

The "Select Measurement" dialog box contains several buttons. Each button repre­sents a measurement. A measurement in turn is a set of result displays that themati­cally belong together and that have a particular display configuration. If these prede­fined display configurations do not suit your requirements, you can add or remove
result displays as you like. For more information about selecting result displays, see

Chapter 3.2, "Selecting result displays", on page 14.

Depending on the measurement, the R&S FSV/A changes the way it captures and pro­cesses the raw signal data.

EVM

EVM measurements record, process and demodulate the signal's I/Q data. The result
displays available for EVM measurements show various aspects of the NB-IoT signal
quality.

For EVM measurements, you can combine the result displays in any way.
For more information on the result displays, see Chapter 3.4, "I/Q measurements",

on page 15.
Remote command:

CONFigure[:LTE]:MEASurement on page 113

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Measurements and result displays

Selecting result displays

Time alignment error

Time alignment error (TAE) measurements record, process and demodulate the sig­nal's I/Q data. The result displays available for TAE measurements indicate how well
the antennas in a multi-antenna system are aligned.

For TAE measurements, you can combine the result displays in any way.
For more information on the result displays, see Chapter 3.5, "Time alignment error",

on page 29.
Remote command:

CONFigure[:LTE]:MEASurement on page 113

Channel power ACLR

ACLR measurements sweep the frequency spectrum instead of processing I/Q data.
The ACLR measurements evaluates the leakage ratio of neighboring channels and

evaluates if the signal is within the defined limits. The measurement provides several
result displays. You can combine the result displays in any way.

For more information on the result displays, see Chapter 3.6, "Frequency sweep mea-

surements", on page 30.

Remote command:

CONFigure[:LTE]:MEASurement on page 113

SEM

SEM measurements sweep the frequency spectrum instead of processing I/Q data.
The SEM measurements tests the signal against a spectrum emission mask and eval-

uates if the signal is within the defined limits. The measurement provides several result
displays. You can combine the result displays in any way.

For more information on the result displays, see Chapter 3.6, "Frequency sweep mea-

surements", on page 30.

Remote command:

CONFigure[:LTE]:MEASurement on page 113

3.2 Selecting result displays

Access:

The R&S FSV/A opens a menu (the SmartGrid) to select result displays. For more
information on the SmartGrid functionality, see the R&S FSV/A Getting Started.

In the default state of the application, it shows several conventional result displays.

●

Capture Buffer

●

Power vs Symbol X Carrier

●

Constellation Diagram

●

Power Spectrum

●

Result Summary

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3.3 Performing measurements

Measurements and result displays

I/Q measurements

From that predefined state, add and remove result displays as you like from the Smart­Grid menu.

Remote command: LAYout:ADD[:WINDow]? on page 79

By default, the application measures the signal continuously. In "Continuous Sweep"
mode, the R&S FSV/A captures and analyzes the data again and again.

●

For I/Q measurements, the amount of captured data depends on the capture time.

●

For frequency sweep measurement, the amount of captured data depends on the
sweep time.

In "Single Sweep" mode, the R&S FSV/A stops measuring after it has captured the
data once. The amount of data again depends on the capture time.

Refreshing captured data

You can also repeat a measurement based on the data that has already been captured
with the "Refresh" function. Repeating a measurement with the same data can be use­ful, for example, if you want to apply different modulation settings to the same I/Q data.

For more information, see the documentation of the R&S FSV/A.

3.4 I/Q measurements

Access: "Overview" > "Select Measurement" > "EVM/Frequency Err/Power"

You can select the result displays from the evaluation bar and arrange them as you like
with the SmartGrid functionality.

Remote command:

Measurement selection: CONFigure[:LTE]:MEASurement on page 113

Result display selection: LAYout:ADD[:WINDow]? on page 79

Capture Buffer...............................................................................................................16

EVM vs Carrier..............................................................................................................17

EVM vs Symbol.............................................................................................................18

EVM vs Subframe......................................................................................................... 19

Frequency Error vs Symbol...........................................................................................19

Power Spectrum............................................................................................................20

Channel Flatness.......................................................................................................... 20

Group Delay..................................................................................................................21

Channel Flatness Difference.........................................................................................21

Constellation Diagram...................................................................................................21

CCDF............................................................................................................................ 22

Allocation Summary...................................................................................................... 23

Bitstream.......................................................................................................................24

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Measurements and result displays

I/Q measurements

EVM vs Symbol x Carrier..............................................................................................25

Power vs Symbol x Carrier............................................................................................25

Allocation ID vs Symbol x Carrier..................................................................................26

Result Summary............................................................................................................26

Marker Table................................................................................................................. 28

Capture Buffer

The "Capture Buffer" shows the complete range of captured data for the last data cap­ture.

The x-axis represents time. The maximum value of the x-axis is equal to the Capture

Time.

The y-axis represents the amplitude of the captured I/Q data in dBm (for RF input).
The capture buffer uses the auto peak detector to evaluate the measurement data. The

auto peak detector determines the maximum and the minimum value of the measured
levels for each measurement point and combines both values in one sample point.

Figure 3-1: Capture buffer without zoom

A colored bar at the bottom of the diagram represents the frame that is currently ana­lyzed. Different colors indicate the OFDM symbol type.

●

Indicates the data stream.

●

Indicates the reference signal and data.

●

Indicates the NPSS and data.

●

Indicates the NSSS and data.

A green vertical line at the beginning of the green bar in the capture buffer represents
the subframe start. The diagram also contains the "Start Offset" value. This value is the
time difference between the subframe start and capture buffer start.

When you zoom into the diagram, you will see that the bar is interrupted at certain
positions. Each small bar indicates the useful parts of the OFDM symbol.

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Measurements and result displays

I/Q measurements

Figure 3-2: Capture buffer after a zoom has been applied

Remote command:
Selection: LAY:ADD ? '1',LEFT,CBUF
Query (y-axis): TRACe:DATA?
Query (x-axis): TRACe<n>[:DATA]:X? on page 100
Subframe start offset: FETCh[:CC<cc>]:SUMMary:TFRame? on page 107

EVM vs Carrier

The "EVM vs Carrier" result display shows the error vector magnitude (EVM) of the
subcarriers. With the help of a marker, you can use it as a debugging technique to
identify any subcarriers whose EVM is too high.

The results are based on an average EVM that is calculated over the resource ele­ments for each subcarrier. This average subcarrier EVM is determined for each ana­lyzed subframe in the capture buffer.

If you analyze all subframes, the result display contains three traces.

●

Average EVM
This trace shows the subcarrier EVM, averaged over all subframes.

●

Minimum EVM
This trace shows the lowest (average) subcarrier EVM that has been found over
the analyzed subframes.

●

Maximum EVM
This trace shows the highest (average) subcarrier EVM that has been found over
the analyzed subframes.

If you select and analyze one subframe only, the result display contains one trace that
shows the subcarrier EVM for that subframe only. Average, minimum and maximum
values in that case are the same. For more information, see "Subframe Selection"
on page 64.

The x-axis represents the center frequencies of the subcarriers. The y-axis shows the
EVM in % or in dB, depending on the EVM Unit.

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Measurements and result displays

I/Q measurements

Remote command:
Selection LAY:ADD ? '1',LEFT,EVCA
Query (y-axis): TRACe:DATA?
Query (x-axis): TRACe<n>[:DATA]:X? on page 100

EVM vs Symbol

The "EVM vs Symbol" result display shows the error vector magnitude (EVM) of the
OFDM symbols. You can use it as a debugging technique to identify any symbols
whose EVM is too high.

The results are based on an average EVM that is calculated over all subcarriers that
are part of a certain OFDM symbol. This average OFDM symbol EVM is determined for
all OFDM symbols in each analyzed subframe.

The x-axis represents the OFDM symbols, with each symbol represented by a dot on
the line. Any missing connections from one dot to another mean that the R&S FSV/A
could not determine the EVM for that symbol.

The number of displayed symbols depends on the subframe selection.
On the y-axis, the EVM is plotted either in % or in dB, depending on the EVM Unit.

Remote command:
Selection: LAY:ADD ? '1',LEFT,EVSY
Query (y-axis): TRACe:DATA?
Query (x-axis): TRACe<n>[:DATA]:X? on page 100

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Measurements and result displays

I/Q measurements

EVM vs Subframe

The "EVM vs Subframe" result display shows the Error Vector Magnitude (EVM) for
each subframe. You can use it as a debugging technique to identify a subframe whose
EVM is too high.

The result is an average over all subcarriers and symbols of a specific subframe.
The x-axis represents the subframes, with the number of displayed subframes being

10.
On the y-axis, the EVM is plotted either in % or in dB, depending on the EVM Unit.

Remote command:
Selection: LAY:ADD ? '1',LEFT,EVSU
Query (y-axis): TRACe:DATA?
Query (x-axis): TRACe<n>[:DATA]:X? on page 100

Frequency Error vs Symbol

Th e "Frequency Error vs Symbol" result display shows the frequency error of each
symbol. You can use it as a debugging technique to identify any frequency errors within
symbols.

The result is an average over all subcarriers in the symbol.
On the y-axis, the frequency error is plotted in Hz.
Note that the variance of the measurement results in this result display can be much

higher compared to the frequency error display in the numerical result summary,
depending on the NPDSCH and control channel configuration. The potential difference
is caused by the number of available resource elements for the measurement on sym­bol level.

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Measurements and result displays

I/Q measurements

Remote command:
Selection: LAY:ADD ? '1',LEFT,FEVS
Query (y-axis): TRACe:DATA?
Query (x-axis): TRACe<n>[:DATA]:X? on page 100

Power Spectrum

The "Power Spectrum" shows the power density of the complete capture buffer in
dBm/Hz.

The displayed bandwidth is always 7.68 MHz.
The x-axis represents the frequency. On the y-axis, the power level is plotted.

Remote command:
Selection: LAY:ADD ? '1',LEFT,PSPE
Query (y-axis): TRACe:DATA?
Query (x-axis): TRACe<n>[:DATA]:X? on page 100

Channel Flatness

The "Channel Flatness" shows the relative power offset caused by the transmit chan­nel.

The currently selected subframe depends on your selection.
The x-axis represents the frequency. On the y-axis, the channel flatness is plotted in

dB.

Remote command:
Selection: LAY:ADD ? '1',LEFT,FLAT
Query (y-axis): TRACe:DATA?
Query (x-axis): TRACe<n>[:DATA]:X? on page 100

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Measurements and result displays

I/Q measurements

Group Delay

This "Group Delay" shows the group delay of each subcarrier.
The measurement is evaluated over the currently selected slot in the currently selected

subframe.
The currently selected subframe depends on your selection.
The x-axis represents the frequency. On the y-axis, the group delay is plotted in ns.

Remote command:
Selection: LAY:ADD ? '1',LEFT,GDEL
Query (y-axis): TRACe:DATA?
Query (x-axis): TRACe<n>[:DATA]:X? on page 100

Channel Flatness Difference

The "Channel Flatness Difference" shows the level difference in the spectrum flatness
result between two adjacent physical subcarriers.

The currently selected subframe depends on your selection.
The x-axis represents the frequency. On the y-axis, the power is plotted in dB.

Remote command:
Selection: LAY:ADD ? '1',LEFT,FDIF
Query (y-axis): TRACe:DATA?
Query (x-axis): TRACe<n>[:DATA]:X? on page 100

Constellation Diagram

The "Constellation Diagram" shows the in-phase and quadrature phase results and is
an indicator of the quality of the modulation of the signal.

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Measurements and result displays

I/Q measurements

In the default state, the result display evaluates the full range of the measured input
data.

Each color represents a modulation type.

●

●

●

●

●

You can filter the results by changing the evaluation range.

: BPSK
: RBPSK
: MIXTURE
: QPSK
: PSK (CAZAC)

The constellation diagram also contains information about the current evaluation

range, including the number of points that are displayed in the diagram.

Remote command:
Selection: LAY:ADD ? '1',LEFT,CONS
Query: TRACe:DATA?

CCDF

The "Complementary Cumulative Distribution Function (CCDF)" shows the probability
of an amplitude exceeding the mean power. For the measurement, the complete cap­ture buffer is used.

The x-axis represents the power relative to the measured mean power. On the y-axis,
the probability is plotted in %.

In addition to the diagram, the results for the CCDF measurement are summarized in
the CCDF table.

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Measurements and result displays

I/Q measurements

Mean Mean power

Peak Peak power

Crest Crest factor (peak power – mean power)

10 % 10 % probability that the level exceeds mean power + [x] dB

1 % 1 % probability that the level exceeds mean power + [x] dB

0.1 % 0.1 % probability that the level exceeds mean power + [x] dB

0.01 % 0.01 % probability that the level exceeds mean power + [x] dB

Remote command:
Selection: LAY:ADD ? '1',LEFT,CCDF
Query (y-axis): TRACe:DATA?
Numerical results: CALCulate<n>:STATistics:CCDF:X<t>? on page 112
Numerical results: CALCulate<n>:STATistics:RESult<res>? on page 112

Allocation Summary

The "Allocation Summary" shows various parameters of the measured allocations in a
table.

Each row in the allocation table corresponds to an allocation. A set of several alloca­tions make up a subframe. A horizontal line indicates the beginning of a new subframe.

Special allocations summarize the characteristics of all allocations in a subframe
("ALL") and the complete frame (allocation "ALL" at the end of the table).

The columns of the table show the following properties for each allocation.

●

The location of the allocation (subframe number).

●

The ID of the allocation (channel type).

●

Number of resource blocks used by the allocation.

●

The relative power of the allocation in dB.

●

The modulation of the allocation.

●

The power of each resource element in the allocation in dBm.

●

The EVM of the allocation.
The unit depends on the EVM unit

●

The EVM over all codewords in a layer. The layer EVM is calculated for all data
allocations, and not for the DMRS or other physical signals.
The unit depends on the EVM unit

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Measurements and result displays

I/Q measurements

Remote command:
Selection: LAY:ADD ? '1',LEFT,ASUM
Query: TRACe:DATA?

Bitstream

The "Bitstream" shows the demodulated data stream for the data allocations.
At the end of the table is a summary of all total number of bits, total number of coded

bits, total number of bit errors and bit error rate in %. The totals are calculated over all
NPDSCH allocations that contribute to the bitstream. The results are shown under the
following circumstances.

●

Descramble the coded bits.

●

Select NPDSCH reference data = "All 0".

●

Turn off automatic demodulation of the NPDSCH to define the location of the
NPDSCH (subframes and N_RNTI).

Depending on the bitstream format, the numbers represent either bits (bit order) or
symbols (symbol order).

●

For the bit format, each number represents one raw bit.

●

For the symbol format, the bits that belong to one symbol are shown as hexadeci­mal numbers with two digits.

Resource elements that do not contain data or are not part of the transmission are rep­resented by a "-".

The table contains the following information:

●

Subframe

Number of the subframe the bits belong to.

●

Allocation ID

Channel the bits belong to.

●

Codeword

Code word of the allocation.

●

Modulation

Modulation type of the channels.

●

Symbol Index or Bit Index
Indicates the position of the table row's first bit or symbol within the complete
stream.

●

Bit Stream

The actual bit stream.

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Measurements and result displays

I/Q measurements

Remote command:
Selection: LAY:ADD ? '1',LEFT,BSTR

EVM vs Symbol x Carrier

The "EVM vs Symbol x Carrier" result display shows the EVM for each carrier in each
symbol.

The x-axis represents the symbols. The y-axis represents the subcarriers. Different col­ors in the diagram area represent the EVM. A color map in the diagram header indi­cates the corresponding power levels.

Remote command:
Selection: LAY:ADD ? '1',LEFT,EVSC
Query: TRACe:DATA?

Power vs Symbol x Carrier

The "Power vs Symbol x Carrier" result display shows the power for each carrier in
each symbol.

The x-axis represents the symbols. The y-axis represents the subcarriers. Different col­ors in the diagram area represent the power. A color map in the diagram header indi­cates the corresponding power levels.

Remote command:
Selection: LAY:ADD ? '1',LEFT,PVSC
Query: TRACe:DATA?

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Measurements and result displays

I/Q measurements

Allocation ID vs Symbol x Carrier

The "Allocation ID vs Symbol x Carrier" result display is a graphical representation of
the structure of the analyzed frame. It shows the allocation type of each subcarrier in
each symbol of the received signal.

The x-axis represents the OFDM symbols. The y-axis represents the subcarriers.
Each type of allocation is represented by a different color. The legend above the dia-

gram indicates the colors used for each allocation. You can also use a marker to get
more information about the type of allocation.

Remote command:
Selection: LAY:ADD ? '1',LEFT,AISC
Query: TRACe:DATA?

Result Summary

The Result Summary shows all relevant measurement results in numerical form, com­bined in one table.

Remote command:

LAY:ADD ? '1',LEFT,RSUM

Contents of the result summary

The table shows results that refer to the complete frame. For each result, the minimum,
mean and maximum values are displayed. It also indicates limit values as defined in
the NB-IoT standard and limit check results where available. The font of 'Pass' results
is green and that of 'Fail' results is red.

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Measurements and result displays

I/Q measurements

In addition to the red font, the application also puts a red star ( ) in front of
failed results.

By default, all EVM results are in %. To view the EVM results in dB, change the EVM

Unit.

The second part of the table shows results that refer to a specific selection of the
frame.

The statistic is always evaluated over the subframes.
The header row of the table contains information about the selection you have made

(like the subframe).

EVM All Shows the EVM for all resource elements in the analyzed frame.

FETCh[:CC<cc>]:SUMMary:EVM[:ALL][:AVERage]? on page 103

EVM Phys Channel Shows the EVM for all physical channel resource elements in the analyzed

frame.
A physical channel corresponds to a set of resource elements carrying infor-

mation from higher layers. NPDSCH, NPBCH or NPDCCH, for example, are
physical channels. For more information, see 3GPP 36.211.

FETCh[:CC<cc>]:SUMMary:EVM:PCHannel[:AVERage]? on page 104

EVM Phys Signal Shows the EVM for all physical signal resource elements in the analyzed

frame.
The reference signal, for example, is a physical signal. For more information,

see 3GPP 36.211.

FETCh[:CC<cc>]:SUMMary:EVM:PSIGnal[:AVERage]? on page 104

Frequency Error Shows the difference in the measured center frequency and the reference

center frequency.

FETCh[:CC<cc>]:SUMMary:FERRor[:AVERage]? on page 104

Sampling Error Shows the difference in measured symbol clock and reference symbol clock

relative to the system sampling rate.

FETCh[:CC<cc>]:SUMMary:SERRor[:AVERage]? on page 107

RSTP Shows the reference signal transmit power as defined in 3GPP TS 36.141. It

is required for the "DL RS Power" test.
It is an average power and accumulates the powers of the reference symbols

within a subframe divided by the number of reference symbols within a sub­frame.

FETCh[:CC<cc>]:SUMMary:RSTP[:AVERage]? on page 106

OSTP Shows the OFDM symbol transmit power as defined in 3GPP TS 36.141.

It accumulates all subcarrier powers of the 4th OFDM symbol. The 4th (out of
14 OFDM symbols within a subframe (for frame type 1, normal CP length))
contains exclusively NPDSCH.

FETCh[:CC<cc>]:SUMMary:OSTP[:AVERage]? on page 105

RSSI Shows the Received Signal Strength Indicator. The RSSI is the complete sig-

nal power of the channel that has been measured, regardless of the origin of
the signal.

FETCh[:CC<cc>]:SUMMary:RSSI[:AVERage]? on page 106

Power Shows the average time domain power of the analyzed signal.

FETCh[:CC<cc>]:SUMMary:POWer[:AVERage]? on page 105

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Measurements and result displays

I/Q measurements

NB-IoT Power Shows the power of all resource elements used by NB-IoT.

FETCh[:CC<cc>]:SUMMary:NBPower[:AVERage]? on page 106

Crest Factor Shows the peak-to-average power ratio of captured signal.

FETCh[:CC<cc>]:SUMMary:CRESt[:AVERage]? on page 103

Marker Table

Displays a table with the current marker values for the active markers.
This table is displayed automatically if configured accordingly.

Wnd Shows the window the marker is in.

Type Shows the marker type and number ("M" for a nor-

mal marker, "D" for a delta marker).

Trc Shows the trace that the marker is positioned on.

Ref Shows the reference marker that a delta marker

refers to.

X- / Y-Value Shows the marker coordinates (usually frequency

and level).

Z-EVM

Z-Power

Z-Alloc ID

Shows the "EVM", power and allocation type at the
marker position.

Only in 3D result displays (for example "EVM vs
Symbol x Carrier").

Tip: To navigate within long marker tables, simply scroll through the entries with your
finger on the touchscreen.

Remote command:
LAY:ADD? '1',RIGH, MTAB, see LAYout:ADD[:WINDow]? on page 79
Results:

CALCulate<n>:MARKer<m>:X on page 109
CALCulate<n>:MARKer<m>:Y on page 110
CALCulate<n>:MARKer<m>:Z? on page 111
CALCulate<n>:MARKer<m>:Z:ALL? on page 111

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3.5 Time alignment error

Measurements and result displays

Time alignment error

Access: "Overview" > "Select Measurement" > "Time Alignment"

The time alignment error measurement captures and analyzes new I/Q data when you
select it.

The time alignment error measurement only works under the following conditions:

●

It is only available in a MIMO setup (2 antennas).
Therefore, you have to mix the signal of the antennas into one cable that you can
connect to the R&S FSV/A. For more information on configuring and performing a
time alignment measurement, see Chapter A, "Performing time alignment mea-

surements", on page 156.

●

It is only available for the stand alone deployment.

In addition to the result displays mentioned in this section, the time alignment measure­ment also supports the following result displays described elsewhere.

●

"Capture Buffer" on page 16

●

"Power Spectrum" on page 20

●

"Marker Table" on page 28

You can select the result displays from the evaluation bar and arrange them as you like
with the SmartGrid functionality.

Remote command:

Measurement selection: CONFigure[:LTE]:MEASurement on page 113

Result display selection: LAYout:ADD[:WINDow]? on page 79

Time Alignment Error.................................................................................................... 29

Time Alignment Error

The time alignment is an indicator of how well the transmission antennas in a MIMO
system are synchronized. The time alignment error is the time delay between a refer­ence antenna (for example antenna 1) and another antenna.

The application shows the results in a table.
Each row in the table represents one antenna. The reference antenna is not shown.
For each antenna, the maximum, minimum and average time delay that has been

measured is shown. The minimum and maximum results are calculated only if the
measurement covers more than one subframe.

In any case, results are only displayed if the transmission power of both antennas is
within 15 dB of each other. Likewise, if only one antenna transmits a signal, results will
not be displayed (for example if the cabling on one antenna is faulty).

For more information on configuring this measurement, see Chapter 4.3, "Time align-

ment error measurements", on page 56.

The "Limit" value shown in the result display is the maximum time delay that may occur
for each antenna (only displayed for systems without carrier aggregation).

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Measurements and result displays

Frequency sweep measurements

You can select the reference antenna from the dropdown menu in the result display.
You can also select the reference antenna in the MIMO Setup - if you change them in
one place, they are also changed in the other.

In the default layout, the application also shows the "Capture Buffer" and "Power Spec­trum" result displays for each component carrier.

Remote command:
Selection: LAY:ADD ? '1',LEFT,TAL
Query: FETCh:TAERror[:CC<cc>]:ANTenna<ant>[:AVERage]? on page 108
Reference antenna: CONFigure[:LTE]:DL[:CC<cc>]:MIMO:ASELection
on page 122

3.6 Frequency sweep measurements

Access (ACLR): "Meas Setup" > "Select Measurement" > "Channel Power ACLR"

Access (SEM): "Meas Setup" > "Select Measurement" > "Spectrum Emission Mask"

The NB-IoT aplication supports the following frequency sweep measurements.

●

Adjacent channel leakage ratio (ACLR)

●

Spectrum emission mask (SEM)

Instead of using I/Q data, the frequency sweep measurements sweep the spectrum
every time you run a new measurement. Therefore, it is mandatory to feed a signal into
the RF input for these measurements. Using previously acquired I/Q data for the fre­quency sweep measurements is not possible (and vice-versa).

Because each of the frequency sweep measurements uses different settings to obtain
signal data it is also not possible to run a frequency sweep measurement and view the
results in another frequency sweep measurement.

Make sure to have sufficient bandwidth to be able to capture the whole signal, includ­ing neighboring channels.

Features of the frequency sweep measurements:

●

Frequency sweep measurements are only available for the stand alone deploy-

ment.

In addition to the specific diagrams and table (see description below), frequency sweep
measurements support the following result displays.

●

"Marker Table" on page 28

●

Marker peak list
Both result displays have the same contents as the spectrum application.

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