Rohde&Schwarz FSW-K82,FSW-K83 User Manual

R&S®FSW-K82/-K83
CDMA2000® Measurements

User Manual

(;×ëR2)

1173933402
Version 25

This manual applies to the following R&S®FSW models with firmware version 3.20 and higher:

●

R&S®FSW8 (1312.8000K08)

●

R&S®FSW13 (1312.8000K13)

●

R&S®FSW26 (1312.8000K26)

●

R&S®FSW43 (1312.8000K43)

●

R&S®FSW50 (1312.8000K50)

●

R&S®FSW67 (1312.8000K67)

●

R&S®FSW85 (1312.8000K85)

The following firmware options are described:

●

R&S FSW-K82 (1313.1468.02)

●

R&S FSW-K83 (1313.1474.02)

The software contained in this product uses several valuable open source software packages. For information, see the "Open
Source Acknowledgment" on the user documentation CD-ROM (included in delivery).
Rohde & Schwarz would like to thank the open source community for their valuable contribution to embedded computing.

© 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.
CDMA2000® is a registered trademark of the Telecommunications Industry Association (TIA -USA).
Trade names are trademarks of the owners.

1173.9334.02 | Version 25 | R&S®FSW-K82/-K83

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®FSW-K82 / R&S®FSW-K83 is indicated as R&S FSW-K82/-K83

R&S®FSW-K82/-K83

Contents

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

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

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

1.3 Service manual..............................................................................................................7

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........................................... 8

2 Welcome to the CDMA2000 applications.............................................9

Contents

2.1 Starting the CDMA2000 applications........................................................................ 10

2.2 Understanding the display information.................................................................... 10

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

3.1 Code domain analysis................................................................................................ 13

3.2 RF measurements....................................................................................................... 28

4 Measurement basics............................................................................36

4.1 PCGs and sets.............................................................................................................36

4.2 Channels, codes and symbols...................................................................................36

4.3 Code display and sort order...................................................................................... 38

4.4 Scrambling via PN offsets and long codes.............................................................. 40

4.5 Code mapping and branches.....................................................................................40

4.6 Radio configuration.................................................................................................... 41

4.7 Transmission with multiple carriers and multiple antennas...................................41

4.8 Channel detection and channel types.......................................................................43

4.9 Test setup for CDMA2000 tests..................................................................................46

4.10 CDA measurements in MSRA operating mode........................................................ 48

5 I/Q data import and export.................................................................. 50

6 Configuration........................................................................................51

6.1 Result display..............................................................................................................51

6.2 Code domain analysis................................................................................................ 52

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6.3 RF measurements....................................................................................................... 94

7 Analysis................................................................................................ 99

7.1 Code domain analysis settings................................................................................. 99

7.2 Evaluation range....................................................................................................... 102

7.3 Traces.........................................................................................................................103

7.4 Markers...................................................................................................................... 104

8 Optimizing and troubleshooting the measurement........................ 111

8.1 Error messages......................................................................................................... 111

9 How to perform measurements in CDMA2000 applications.......... 112

10 Measurement examples.....................................................................116

10.1 Meas 1: measuring the signal channel power........................................................ 116

Contents

10.2 Meas 2: measuring the spectrum emission mask..................................................117

10.3 Meas 3: measuring the relative code domain power and frequency error.......... 118

10.4 Meas 4: measuring the triggered relative code domain power............................ 120

10.5 Meas 5: measuring the composite EVM..................................................................121

10.6 Meas 6: measuring the peak code domain error and the RHO factor..................123

11 Remote commands for CDMA2000 measurements........................125

11.1 Introduction............................................................................................................... 125

11.2 Common suffixes......................................................................................................130

11.3 Activating the measurement channel..................................................................... 130

11.4 Selecting a measurement.........................................................................................135

11.5 Configuring code domain analysis......................................................................... 136

11.6 Configuring RF measurements................................................................................199

11.7 Configuring the result display................................................................................. 201

11.8 Starting a measurement........................................................................................... 209

11.9 Retrieving results......................................................................................................213

11.10 General analysis........................................................................................................235

11.11 Importing and exporting I/Q data and results........................................................ 246

11.12 Configuring the secondary application data range (MSRA mode only).............. 247

11.13 Querying the status registers.................................................................................. 249

11.14 Deprecated commands.............................................................................................252

11.15 Programming examples for CDMA2000 BTS measurements............................... 253

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Annex.................................................................................................. 256

A Annex - reference data...................................................................... 256

A.1 Reference: predefined channel tables.................................................................... 256

A.2 Reference: code tables.............................................................................................259

A.3 Reference: supported bandclasses........................................................................ 262

A.4 Abbreviations............................................................................................................ 263

List of commands (CDMA2000)........................................................ 265

Index....................................................................................................270

Contents

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Contents

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1 Documentation overview

This section provides an overview of the R&S FSW user documentation. Unless speci­fied otherwise, you find the documents on the R&S FSW product page at:

www.rohde-schwarz.com/manual/FSW

1.1 Getting started manual

Introduces the R&S FSW 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.

Documentation overview

Service manual

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 FSW is not
included.

The contents of the user manuals are available as help in the R&S FSW. 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.

1.3 Service manual

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):

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https://gloris.rohde-schwarz.com

1.4 Instrument security procedures

Deals with security issues when working with the R&S FSW 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

Documentation overview

Application notes, application cards, white papers, etc.

The data sheet contains the technical specifications of the R&S FSW. 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/FSW

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 open-source acknowledgment document provides verbatim license texts of the
used open source software.

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

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

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

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

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2 Welcome to the CDMA2000 applications

The CDMA2000 options are firmware applications that add functionality to the
R&S FSW to perform measurements on downlink or uplink signals according to the
CDMA2000 standard.

R&S FSW-K82 performs Base Transceiver Station (BTS) measurements on forward
link signals on the basis of the 3GPP2 Standard (Third Generation Partnership Project

2).

R&S FSW-K83 performs Mobile Station (MS) measurements on reverse link signals on
the basis of the 3GPP2 Standard (Third Generation Partnership Project 2).

The measurements are based on the "Physical Layer Standard for CDMA2000 Spread
Spectrum Systems Release C" of version C.S0002-C V1.0 dated May 2002 and "Rec­ommended Minimum Performance Standard for CDMA2000 Spread Spectrum Base
Stations" of version C.S0010-B dated December 2002. This standard has been adop­ted by the following authorities with the specified norm:

TIA: TIA/EIA-97-E dated February 2003 (also known as IS-97-E)

Welcome to the CDMA2000 applications

Reference made to the CDMA2000 specification in the following text alludes to these
standards.

The application firmware R&S FSW-82 supports radio configurations 1 to 5 and 10.
Thus, IS95A/B signals conforming to radio configurations 1&2 can also be measured
with this application firmware. Channels and modulation types of the 1xEV– DV
enhancement are supported as well.

The application firmware R&S FSW-83 supports the radio configurations 3 and 4. Apart
from CDMA2000 reverse link signals, the 1xEV-DV reverse link channels of Release C
are also supported. Code Domain Analysis is also possible at signals where the pilot
channel is active in at least one of the captured power control groups (pilot gating).

In addition to the code domain measurements described in the CDMA2000 standard,
the CDMA2000 applications feature measurements in the spectral range such as chan­nel power, adjacent channel power, occupied bandwidth and spectrum emission mask
with predefined settings.

This user manual contains a description of the functionality that the applications pro­vide, 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 FSW User Manual. The latest version is available
for download at the product homepage

http://www.rohde-schwarz.com/product/FSW.html.

Installation

You can find detailed installation instructions in the R&S FSW Getting Started manual
or in the Release Notes.

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2.1 Starting the CDMA2000 applications

The CDMA2000 measurements require special applications on the R&S FSW.

To activate the CDMA2000 applications

1. Press the [MODE] key.

2. Select the "cdma2000 BTS" or "cdma2000 MS" item.

The measurement is started immediately with the default settings. It can be configured
in the CDMA2000 "Overview" dialog box, which is displayed when you select the
"Overview" softkey from any menu (see Chapter 6.2.1, "Configuration overview",
on page 53).

Welcome to the CDMA2000 applications

Understanding the display information

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

The R&S FSW opens a new measurement channel for the CDMA2000 application.

Multiple Measurement Channels and Sequencer Function

When you activate a CDMA2000 application, a new measurement channel is created
which determines the measurement settings for that application. The same application
can be activated with different measurement settings by creating several channels for
the same application.

The number of channels that can be configured at the same time depends on the avail­able memory on the instrument.

Only one measurement can be performed at any time, namely the one in the currently
active channel. However, in order to perform the configured measurements consecu­tively, a Sequencer function is provided.

If activated, the measurements configured in the currently active channels are per­formed one after the other in the order of the tabs. The currently active measurement is
indicated by a
are updated in the tabs (as well as the "MultiView") as the measurements are per­formed. Sequential operation itself is independent of the currently displayed tab.

For details on the Sequencer function see the R&S FSW User Manual.

symbol in the tab label. The result displays of the individual channels

2.2 Understanding the display information

The following figure shows a measurement diagram in the CDMA2000 BTS applica­tion. All different information areas are labeled. They are explained in more detail in the
following sections.

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(The basic screen elements are identical in the CDMA2000 MS application.)

1

2

3

4

Welcome to the CDMA2000 applications

Understanding the display information

5

1 = Channel bar for firmware and measurement settings
2 = Window title bar with diagram-specific (trace) information
3 = Diagram area with marker information
4 = Diagram footer with diagram-specific information, depending on measurement
5 = Instrument status bar with error messages, progress bar and date/time display

MSRA operating mode

In MSRA operating mode, additional tabs and elements are available. A colored back­ground of the screen behind the measurement channel tabs indicates that you are in
MSRA operating mode. RF measurements are not available in MSRA operating mode.

For details on the MSRA operating mode see the R&S FSW MSRA User Manual.

Channel bar information

In CDMA2000 applications, the R&S FSW shows the following settings:

Table 2-1: Information displayed in the channel bar in CDMA2000 applications

Ref Level Reference level

Freq Center frequency for the RF signal

Att Mechanical and electronic RF attenuation

Channel Channel number (code number and spreading factor)

PCG Power control group (see Chapter 4.1, "PCGs and sets", on page 36)

Power Ref Reference used for power results

SymbRate Symbol rate of the currently selected channel

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In addition, the channel bar also displays information on instrument settings that affect
the measurement results even though this is not immediately apparent from the display
of the measured values (e.g. transducer or trigger settings). This information is dis­played only when applicable for the current measurement. For details see the
R&S FSW Getting Started manual.

Window title bar information

For each diagram, the header provides the following information:

1 2

Figure 2-1: Window title bar information in CDMA2000 applications

1 = Window number
2 = Window type
3 = Trace color
4 = Trace number
5 = Detector

Welcome to the CDMA2000 applications

Understanding the display information

4

3

5

Diagram footer information

The diagram footer (beneath the diagram) contains the following information, depend­ing on the evaluation:

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.

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3 Measurements and result displays

Access: "Overview" > "Select Measurement"

The CDMA2000 applications provide several different measurements for signals
according to the CDMA2000 standard. The main and default measurement is Code
Domain Analysis. In addition to the code domain power measurements specified by the
CDMA2000 standard, the CDMA2000 applications offer measurements with predefined
settings in the frequency domain, e.g. RF power measurements.

For details on selecting measurements, see "Selecting the measurement type"
on page 51.

Evaluation methods

The captured and processed data for each measurement can be evaluated with vari­ous different methods. All evaluation methods available for the selected CDMA2000
measurement are displayed in the evaluation bar in SmartGrid mode.

The evaluation methods for CDA are described in Chapter 3.1.2, "Evaluation methods

for code domain analysis", on page 16.

Measurements and result displays

Code domain analysis

● Code domain analysis.............................................................................................13

● RF measurements...................................................................................................28

3.1 Code domain analysis

Access: "Overview" > "Select Measurement" > "Code Domain Analyzer"

The CDMA2000 firmware applications feature a Code Domain Analyzer. It can be used
used to perform the measurements required in the CDMA2000 standards with regard
to the power of the different codes and code channels (concentrated codes). In addi­tion, the modulation quality (EVM and RHO factor), frequency errors and trigger–to–
frame time, as well as the peak code domain errors are determined. Constellation eval­uations and bitstream evaluations are also available. Furthermore, the timing and
phase offsets of the channels to the pilot can also be calculated. The observation
period can be set as multiples of the power control group (PCG).

Basically, the firmware differentiates between the following result classes for the evalu­ations:

●

Results which take the overall signal into account over the whole observation
period (all PCGs)

●

Results which take the overall signal into account over a power control group
(PCG)

●

Results which take one channel into account over the whole observation period (all
PCGs)

●

Results which take one channel into account over a power control group (PCG)

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Remote command:

CONF:CDP:MEAS CDP, see CONFigure:CDPower[:BTS]:MEASurement
on page 135

● Code domain parameters........................................................................................14

● Evaluation methods for code domain analysis........................................................16

3.1.1 Code domain parameters

In the "Result Summary", three different types of measurement results are determined
and displayed:

●

●

●

In the "Channel Table", channel results for all channels are displayed.

Measurements and result displays

Code domain analysis

General results for the current set
PCG results for the current set and PCG
Channel results for the selected channel

General Results

Under "General Results", the measurement results that concern the total signal (that is,
all channels) for the entire period of observation (that is, all PCGs) are displayed:

Table 3-1: General code domain power results for the current set

Parameter Description

Carrier Frequency Error Shows the frequency error referred to the center frequency of the R&S FSW.

The absolute frequency error is the sum of the frequency error of the R&S FSW
and that of the device under test. Frequency differences between the transmitter
and receiver of more than 1.0 kHz impair synchronization of the Code Domain
Power measurement. It is strongly recommended that you synchronize the trans­mitter and the receiver.

The frequency error is available in the units Hz or ppm referred to the carrier fre­quency.

Chip Rate Error Shows the chip rate error (1.2288 Mcps) in ppm. A large chip rate error results in

symbol errors and, therefore, in possible synchronization errors for Code
Domain Power measurements. This measurement result is also valid if the
R&S FSW could not synchronize to the CDMA2000 signal.

Trigger to Frame Reflects the time offset from the beginning of the recorded signal section to the

start of the first PCG. In case of triggered data recording, this corresponds to the
timing offset:

timing offset = frame trigger (+ trigger offset) – start of first PCG

If it was not possible to synchronize the R&S FSW to the CDMA2000 signal, this
measurement result is meaningless. For the "Free Run" trigger mode, dashes
are displayed.

Active Channels Specifies the number of active channels found in the signal. Detected data chan-

nels as well as special channels are regarded as active. With transmit diversity,
the result applies to the selected Antenna Diversity - Antenna Number.

PCG Results

PCG results concern the total signal (that is, all channels) for the selected PCG.

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Table 3-2: Code domain power results for the current PCG

Parameter Description

Total Power Shows the total power of the signal.

Pilot Power Shows the power of the pilot channel. If antenna 2 is selected, the power of the

RHO Shows the quality parameter RHO. According to the CDMA2000 standard, RHO

"Composite EVM" The composite EVM is the difference between the test signal and the ideal refer-

IQ Imbalance Shows the IQ imbalance of the signal in %.

Offset Shows the IQ offset of the signal in %.

Channel results

Measurements and result displays

Code domain analysis

F-TDPICH is displayed, in all other cases that of the F-PICH. For details on
antenna selection, refer to "Antenna Diversity - Antenna Number" on page 56.

is the normalized, correlated power between the measured and the ideally gen­erated reference signal. When RHO is measured, the CDMA2000 standard
requires that only the pilot channel be supplied.

ence signal. For further details, refer to the Composite EVM result display.

In the "Result Summary", channel results of the selected channel and the selected
PCG are displayed.

In the "Channel Table", channel results for all channels are displayed. For details, see

"Channel Table" on page 17.

Not all channel results displayed in the "Result Summary" are also displayed in the
"Channel Table" and vice versa.

Table 3-3: Channel-specific parameters

Parameter Description

Channel Channel number including the spreading factor (in the form <Channel>.<SF>)

Modulation Type (BTS application only):

Displays the modulation type of the channel and PCG: BPSK, QPSK, 8PSK, or
16QAM

Mapping (MS application only):

Indicates the selected branch (I or Q)

Phase Offset Phase offset between the selected channel and the pilot channel

If enabled (see "Timing and phase offset calculation " on page 101), the maxi­mum value of the phase offset is displayed together with the associated channel
in the last two lines. Since the phase offset values of each active channel can be
either negative or positive, the absolute values are compared and the maximum
is displayed with the original sign.

Power Absolute Absolute (dBm) power of the channel

Power Relative Relative (dB) power of the channel (refers either to the pilot channel or the total

power of the signal)

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Parameter Description

"Symbol EVM" Peak or mean value of the EVM measurement result

Timing Offset Timing offset between the selected channel and the pilot channel

3.1.2 Evaluation methods for code domain analysis

Access: "Overview" > "Display Config"

The captured I/Q data can be evaluated using various different methods without having
to start a new measurement. All evaluation methods available for the selected
CDMA2000 measurement are displayed in the evaluation bar in SmartGrid mode.

Measurements and result displays

Code domain analysis

For further details, refer to the result display "Symbol EVM" on page 27.

If enabled (see "Timing and phase offset calculation " on page 101), the maxi­mum value of the timing offset is displayed together with the associated channel
in the last two lines. Since the timing offset values of each active channel can be
either negative or positive, the absolute values are compared and the maximum
is displayed with the original sign.

The selected evaluation not only affects the result display, but also the results of the
trace data query (see TRACe<n>[:DATA] on page 216).

The Code Domain Analyzer provides the following evaluation methods for measure­ments in the code domain:

Bitstream.......................................................................................................................16

Channel Table............................................................................................................... 17

└ Table Configuration.........................................................................................18

Code Domain Power / Code Domain Error Power........................................................19

Composite Constellation............................................................................................... 20

Composite EVM............................................................................................................ 21

Magnitude Error vs Chip............................................................................................... 22

Peak Code Domain Error..............................................................................................23

Phase Error vs Chip......................................................................................................23

Power vs PCG...............................................................................................................25

Power vs Symbol.......................................................................................................... 25

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

Symbol Constellation.................................................................................................... 26

Symbol EVM................................................................................................................. 27

Symbol Magnitude Error............................................................................................... 27

Symbol Phase Error......................................................................................................28

Bitstream

The "Bitstream" evaluation displays the demodulated bits of a selected channel over a
selected PCG.

All bits that are part of inactive channels are marked as being invalid using dashes.

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Figure 3-1: Bitstream result display for the BTS application

To select a specific symbol, press the [MKR] key. If you enter a number, the marker
jumps to the selected symbol. If there are more symbols than the screen can display,
use the marker to scroll inside the list.

The number of symbols per PCG depends on the spreading factor (symbol rate) and
the antenna diversity. The number of bits per symbol depends on the modulation type.

For details, see Chapter 4, "Measurement basics", on page 36.
Remote command:

LAY:ADD? '1',RIGH, 'XTIM:CDP:BSTR', see LAYout:ADD[:WINDow]?
on page 202

Measurements and result displays

Code domain analysis

Channel Table

The "Channel Table" evaluation displays the detected channels and the results of the
code domain power measurement over the selected PCG. The analysis results for all
channels are displayed. Thus, the "Channel Table" can contain up to 128 entries, cor­responding to the highest base spreading factor of 128.

The first entries of the table indicate the channels that must be available in the signal to
be analyzed and any other control channels (PICH, SYNC etc.).

The lower part of the table indicates the data channels that are contained in the signal.
If the type of a channel can be fully recognized, based on pilot sequences or modula-

tion type, the type is indicated in the table. In the BTS application, all other channels
are of type CHAN.

The channels are in descending order according to symbol rates and, within a symbol
rate, in ascending order according to the channel numbers. Therefore, the inactive
codes are always displayed at the end of the table (if "Show inactive channels" is
enabled, see "Table Configuration" on page 18.

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Figure 3-2: Channel Table display for the BTS application

Remote command:
LAY:ADD? '1',RIGH, CTABle, see LAYout:ADD[:WINDow]? on page 202

Table Configuration ← Channel Table

You can configure which parameters are displayed in the "Channel Table" by clicking
(not double-clicking!) a column header.

A "Table Configuration" dialog box is displayed in which you select the columns to be
displayed.

Measurements and result displays

Code domain analysis

By default, only active channels are displayed. To display all channels, including the
inactive ones, enable the "Show Inactive Channels" option.

The following parameters of the detected channels are determined by the CDP mea­surement and can be displayed in the "Channel Table" result display. (For details, see

Chapter 3.1.1, "Code domain parameters", on page 14.)

Table 3-4: Code domain power results in the channel table

Parameter Description

Channel Type Shows the channel type ('---' for inactive channels)

Walsh Ch.SF Channel number including the spreading factor (in the form <Channel>.<SF>)

(P Offs [mrad]) Phase offset between the selected channel and the pilot channel

If enabled (see "Timing and phase offset calculation " on page 101), the maximum
value of the phase offset is displayed together with the associated channel in the
last two lines. Since the phase offset values of each active channel can be either
negative or positive, the absolute values are compared and the maximum is dis­played with the original sign.

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Parameter Description

Pwr [dBm]) Absolute (dBm) power of the channel

Pwr [dB] Relative (dB) power of the channel (refers either to the pilot channel or the total

RC (BTS application only):

Mapping (MS application only):

Status Channel status; Unassigned codes are identified as inactive channels

Symbol Rate [ksps] Symbol rate at which the channel is transmitted (9.6 ksps to 307.2 ksps)

(T Offs [ns]) Timing offset between the selected channel and the pilot channel

Measurements and result displays

Code domain analysis

power of the signal)

Radio configuration

Branch the data is mapped to

If enabled (see "Timing and phase offset calculation " on page 101), the maximum
value of the timing offset is displayed together with the associated channel in the
last two lines. Since the timing offset values of each active channel can be either
negative or positive, the absolute values are compared and the maximum is dis­played with the original sign.

Code Domain Power / Code Domain Error Power

The "Code Domain Power" evaluation shows the power of all possible code channels
in the total signal over the selected PCG.

"Code Domain Error Power" is the difference in power between the measured and the
ideal signal.

The x-axis represents the channel (code) number, which corresponds to the base
spreading factor. The y-axis is a logarithmic level axis that shows the (error) power of
each channel. With the error power, both active and inactive channels can be evalu­ated at a glance.

Both evaluations support either Hadamard or BitReverse code sorting order (see

Chapter 4.3, "Code display and sort order", on page 38).

MS application only: the (error) power is calculated only for the selected branch (I or
Q).

Figure 3-3: Code Domain Power Display for the BTS application

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Figure 3-4: Code Domain Error Power result display for the MS application

Active and inactive data channels are defined via the Inactive Channel Threshold. The
power values of the active and inactive channels are shown in different colors. In addi­tion, codes with alias power can occur (see "Alias power" on page 39).

Table 3-5: Assignment of colors in CDEP result display

Color Usage

Red Selected channel (code number)

Measurements and result displays

Code domain analysis

Yellow Active channel

Green Inactive channel

Light blue Alias power of higher spreading factor

Magenta Alias power as a result of transmit diversity

Note: If codes with alias power are displayed, set the highest base spreading factor

available in the Base Spreading Factor field.
It is not recommended that you select more detailed result displays (such as "Symbol
Constell") for unassigned or inactive codes, since the results are not valid.

Remote command:

CDP:

LAY:ADD? '1',RIGH, CDPower, see LAYout:ADD[:WINDow]? on page 202
CALC:MARK:FUNC:CDP:RES? CDP or CALC:MARK:FUNC:CDP:RES? CDPR; see

CALCulate<n>:MARKer<m>:FUNCtion:CDPower[:BTS]:RESult? on page 214

CDEP:

LAY:ADD? '1',RIGH, CDEPower, see LAYout:ADD[:WINDow]? on page 202
CALC:MARK:FUNC:CDP:RES? ; see CALCulate<n>:MARKer<m>:FUNCtion:

CDPower[:BTS]:RESult? on page 214.

Composite Constellation

In "Composite Constellation" evaluation, the constellation points of the 1536 chips are
displayed for the specified PCG. This data is determined inside the DSP even before
the channel search. Thus, it is not possible to assign constellation points to channels.
The constellation points are displayed normalized with respect to the total power.

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Figure 3-5: Composite Constellation display for the BTS application

Remote command:

LAY:ADD? '1',RIGH, CCON, see LAYout:ADD[:WINDow]? on page 202
CALC:MARK:FUNC:CDP:RES? ; see CALCulate<n>:MARKer<m>:FUNCtion:

CDPower[:BTS]:RESult? on page 214

Measurements and result displays

Code domain analysis

Composite EVM

This result display measures the modulation accuracy. It determines the error vector
magnitude (EVM) over the total signal. The EVM is the root of the ratio of the mean
error power (root mean square) to the power of an ideally generated reference signal.
Thus, the EVM is shown in %. The diagram consists of a composite EVM for each
PCG.

The measurement evaluates the total signal over the entire period of observation. The
selected PCG is highlighted red. You can set the number of PCGs in the "Signal Cap­ture" settings (see "Number of PCGs" on page 81).

Figure 3-6: Composite EVM result display

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Only the channels detected as being active are used to generate the ideal reference
signal. For example, a channel may not be detected as being active due to low power.
In this case, the difference between the test signal and the reference signal - and
therefore the composite EVM - is very large. Distortions also occur if unassigned codes
are wrongly given the status of "active channel". To obtain reliable measurement
results, select an adequate channel threshold via the Inactive Channel Threshold set­ting.

Remote command:

LAY:ADD? '1',RIGH, CEVM, see LAYout:ADD[:WINDow]? on page 202
CALC:MARK:FUNC:CDP:RES? MACCuracy; see CALCulate<n>:MARKer<m>:

FUNCtion:CDPower[:BTS]:RESult? on page 214

Magnitude Error vs Chip

The Magnitude Error versus chip display shows the magnitude error for all chips of the
selected slot.

The magnitude error is calculated as the difference of the magnitude of the received
signal to the magnitude of the reference signal. The reference signal is estimated from
the channel configuration of all active channels. The magnitude error is related to the
square root of the mean power of reference signal and given in percent.

Measurements and result displays

Code domain analysis

Where:

MAG

k

s

k

x

k

k Index number of the evaluated chip

N Number of chips at each CPICH slot

n Index number for mean power calculation of reference signal

Figure 3-7: Magnitude Error vs Chip display for CDMA2000 BTS measurements

Magnitude error of chip number k

Complex chip value of received signal

Complex chip value of reference signal

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Remote command:

LAY:ADD? '1',RIGH, MECHip, see LAYout:ADD[:WINDow]? on page 202

TRACe<n>[:DATA]? TRACE<1...4>

Peak Code Domain Error

The "Peak Code Domain Error" is defined as the maximum value for the Code Domain

Power / Code Domain Error Power for all codes. Thus, the error between the measure-

ment signal and the ideal reference signal is projected onto the code domain at a spe­cific base spreading factor. In the diagram, each bar of the x-axis represents one PCG.
The y-axis represents the error power.

The measurement evaluates the total signal over the entire period of observation. The
currently selected PCG is highlighted red.

You can select the Base Spreading Factor and the number of evaluated PCGs in the
Signal Capture settings (see "Number of PCGs" on page 81).

MS application: the error is calculated only for the selected branch (I or Q).

Measurements and result displays

Code domain analysis

Figure 3-8: Peak Code Domain Error display for the BTS application

Note:

Only the channels detected as being active are used to generate the ideal refer­ence signal. For example, a channel may not be detected as being active due to low
power. In this case, the difference between the test signal and the reference signal is
very large. The result display therefore shows a peak code domain error that is too
high. Distortions also occur if unassigned codes are wrongly given the status of "active
channel". To obtain reliable measurement results, select an adequate channel thresh­old via the Inactive Channel Threshold setting.

Remote command:

LAY:ADD? '1',RIGH, PCDerror, see LAYout:ADD[:WINDow]? on page 202
CALC:MARK:FUNC:CDP:RES? PCDerror; see CALCulate<n>:MARKer<m>:

FUNCtion:CDPower[:BTS]:RESult? on page 214

Phase Error vs Chip

"Phase Error vs Chip" activates the phase error versus chip display. The phase error is
displayed for all chips of the selected slot.

The phase error is calculated by the difference of the phase of received signal and
phase of reference signal. The reference signal is estimated from the channel configu­ration of all active channels. The phase error is given in degrees in a range of +180° to

-180°.

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Figure 3-9: Calculating the magnitude, phase and vector error per chip

Measurements and result displays

Code domain analysis

Where:

PHI

k

s

k

x

k

k Index number of the evaluated chip

N Number of chips at each CPICH slot

φ(x) Phase calculation of a complex value

Phase error of chip number k

Complex chip value of received signal

Complex chip value of reference signal

Remote command:

LAY:ADD? '1',RIGH, PECHip, see LAYout:ADD[:WINDow]? on page 202

TRACe<n>[:DATA]? TRACE<1...4>

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Power vs PCG

In this result display, the power of the selected channel is averaged for each measured
PCG and referred to the pilot power of the PCG. Therefore the unit of the y-axis is dB
(relative to the Pilot Channel). The result display consists of the number of the PCGs in
the measurement and the power value of each one.

For measurements in which antenna diversity is inactive (OFF) or set to "Antenna 1",
the F-PICH channel is used as reference. The F-TDPICH channel is used for measure­ments in which antenna diversity is set to "Antenna 2".

Note: For signals with enabled power control, use the default reference power setting.
For details, refer to " Power Reference" on page 101.

The measurement evaluates one code channel over the entire period of observation.
The selected PCG is highlighted red.

MS application: the power is calculated only for the selected branch (I or Q).

Measurements and result displays

Code domain analysis

Figure 3-10: Power vs PCG Display for the BTS application

Note:

To detect the start of a power control group correctly, the external trigger must
be used for power-regulated signals.

Remote command:
LAY:ADD? '1',RIGH, PSLot, see LAYout:ADD[:WINDow]? on page 202

Power vs Symbol

The "Power vs. Symbol" evaluation calculates the absolute power in dBm for each
symbol in the selected channel and the selected PCG.

Figure 3-11: Power vs Symbol result display

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Remote command:

LAY:ADD? '1',RIGH, PSYMbol, see LAYout:ADD[:WINDow]? on page 202
CALC:MARK:FUNC:CDP:RES? ; see CALCulate<n>:MARKer<m>:FUNCtion:

CDPower[:BTS]:RESult? on page 214

Result Summary

The "Result Summary" evaluation displays a list of measurement results on the screen.
For details on the displayed values, see Chapter 3.1.1, "Code domain parameters",
on page 14.

Figure 3-12: Result Summary result display

Remote command:

LAY:ADD? '1',RIGH, RSUMmary, see LAYout:ADD[:WINDow]? on page 202
CALC:MARK:FUNC:CDP:RES? ; seeCALCulate<n>:MARKer<m>:FUNCtion:

CDPower[:BTS]:RESult? on page 214

Measurements and result displays

Code domain analysis

Symbol Constellation

The "Symbol Constellation" evaluation shows all modulated symbols of the selected
channel and the selected PCG.

The BTS application supports BPSK, QPSK, 8PSK and 16QAM modulation types. The
modulation type itself depends on the channel type. Refer to Chapter 4.8.1, "BTS

channel types", on page 43 for further information.

Note: QPSK constellation points are located on the diagonals (not x and y-axis) of the
constellation diagram. BPSK constellation points are always on the x-axis.

Figure 3-13: Symbol Constellation display for the BTS application

The number of symbols is in the range from 6 (min) to 384 (max), depending on the
symbol rate of the channel (see Chapter 4, "Measurement basics", on page 36).

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Remote command:

LAY:ADD? '1',RIGH, SCONst, see LAYout:ADD[:WINDow]? on page 202
CALC:MARK:FUNC:CDP:RES? ; see CALCulate<n>:MARKer<m>:FUNCtion:

CDPower[:BTS]:RESult? on page 214

Symbol EVM

The "Symbol EVM" evaluation shows the error between the measured signal and the
ideal reference signal in percent for the selected channel and the selected PCG. A
trace over all symbols of a PCG is drawn.

Figure 3-14: Symbol EVM display for the BTS application

Measurements and result displays

Code domain analysis

The number of symbols is in the range from 6 (min) to 384 (max), depending on the
symbol rate of the channel (see Chapter 4, "Measurement basics", on page 36).

Inactive channels can be measured, but the result is meaningless since these chan­nels do not contain data.

Remote command:

LAY:ADD? '1',RIGH, SEVM, see LAYout:ADD[:WINDow]? on page 202
CALC:MARK:FUNC:CDP:RES? ; see CALCulate<n>:MARKer<m>:FUNCtion:

CDPower[:BTS]:RESult? on page 214

Symbol Magnitude Error

The "Symbol Magnitude Error" is calculated analogous to symbol EVM. The result is
one symbol magnitude error value for each symbol of the slot of a special channel.
Positive values of symbol magnitude error indicate a symbol magnitude that is larger
than the expected ideal value. Negative symbol magnitude errors indicate a symbol
magnitude that is less than the expected ideal value. The symbol magnitude error is
the difference between the magnitude of the received symbol and that of the reference
symbol, related to the magnitude of the reference symbol.

Figure 3-15: Symbol Magnitude Error display for CDMA2000 BTS measurements

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Remote command:

LAY:ADD? '1',RIGH, SMERror, see LAYout:ADD[:WINDow]? on page 202

TRACe<n>[:DATA]? TRACE<1...4>

Symbol Phase Error

The "Symbol Phase Error" is calculated analogous to symbol EVM. The result is one
symbol phase error value for each symbol of the slot of a special channel. Positive val­ues of symbol phase error indicate a symbol phase that is larger than the expected
ideal value. Negative symbol phase errors indicate a symbol phase that is less than the
expected ideal value.

Measurements and result displays

RF measurements

Figure 3-16: Symbol Phase Error display for CDMA2000 BTS measurements

Remote command:

LAY:ADD? '1',RIGH, SPERror, see LAYout:ADD[:WINDow]? on page 202

TRACe<n>[:DATA]? TRACE<1...4>

3.2 RF measurements

Access: "Overview" > "Select Measurement"

In addition to the Code Domain Analysis measurements, the CDMA2000 firmware
applications also provide some RF measurements as defined in the CDMA2000 stan­dard. RF measurements are identical to the corresponding measurements in the base
unit, but configured according to the requirements of the CDMA2000 standard.

For details on these measurements, see the R&S FSW User Manual.

3.2.1 RF measurement types and results

The CDMA2000 applications provide the following RF measurements:

Power............................................................................................................................29

Channel Power ACLR...................................................................................................29

Spectrum Emission Mask..............................................................................................30

Occupied Bandwidth..................................................................................................... 31

CCDF............................................................................................................................ 32

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Power
Access: "Overview" > "Select Measurement" > "Power"

The Power measurement determines the CDMA2000 signal channel power.
To do so, the CDMA2000 application performs a Channel Power measurement as in

the Spectrum application with settings according to the CDMA2000 standard. The
bandwidth and the associated channel power are displayed in the "Result Summary".

Measurements and result displays

RF measurements

Remote command:
CONF:CDP:MEAS POW, see CONFigure:CDPower[:BTS]:MEASurement
on page 135
Querying results: CALC:MARK:FUNC:POW:RES? CPOW, see CALCulate<n>:

MARKer<m>:FUNCtion:POWer<sb>:RESult? on page 232

CALC:MARK:FUNC:POW:RES? ACP, see CALCulate<n>:MARKer<m>:FUNCtion:

POWer<sb>:RESult? on page 232

Channel Power ACLR
Access: "Overview" > "Select Measurement" > "Channel Power ACLR"

"Channel Power ACLR" performs an adjacent channel power measurement in the
default setting according to CDMA2000 specifications (adjacent channel leakage ratio).

The R&S FSW measures the channel power and the relative power of the adjacent
channels and of the alternate channels. The results are displayed in the "Result Sum­mary".

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Remote command:
CONF:CDP:MEAS ACLR, seeCONFigure:CDPower[:BTS]:MEASurement
on page 135
Querying results:

CALC:MARK:FUNC:POW:RES? ACP, see CALCulate<n>:MARKer<m>:FUNCtion:

POWer<sb>:RESult? on page 232

CALC:MARK:FUNC:POW:RES? ACP, see CALCulate<n>:MARKer<m>:FUNCtion:

POWer<sb>:RESult? on page 232

Measurements and result displays

RF measurements

Spectrum Emission Mask
Access: "Overview" > "Select Measurement" > "Spectrum Emission Mask"

The "Spectrum Emission Mask" measurement determines the power of the CDMA2000
signal in defined offsets from the carrier and compares the power values with a spec­tral mask specified by the CDMA2000 specifications. The limits depend on the selected
bandclass. Thus, the performance of the DUT can be tested and the emissions and
their distance to the limit be identified.

Note: The CDMA2000 standard does not distinguish between spurious and spectral
emissions.

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