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Technical Overview
Keysight Technologies 89601B/BN-B7T cdma2000®/1xEV-DV Modulation Analysis
89601B/BN-B7W 1xEV-DO Modulation Analysis
89600B Vector Signal Analysis Software
2
Gain a thorough understanding of
your signal’s performance using Op-
tion B7T cdma2000®/1xEV-DV and
Option B7W for 1xEV-DO modulation
analysis.
With Option B7T, you can descramble,
despread and demodulate forward
link and reverse link cdma2000,
spread rate one (SR1) modulated
signals. Optionally, you may also en-
able analysis of forward link 1xEV-DV
signals.
Option B7W allows you to de-
scramble, despread, and demodulate
signals modulated by the 1xEV-DO
Revision 0 standard. This option sup-
ports conigurations in the reverse link (mobile station or access terminal)
and forward link (base station or ac-
cess network) channels.
Both options will automatically iden-
tify all active channels regardless of
the symbol rate or Walsh code length.
Signal analysis capabilities include
composite code domain power,
composite time, and channel speciic analysis. Display up to 20 measure-
ment traces or tables simultaneously,
with up to 20 markers per trace. For
maximum visibility into your signal,
look at pre-demodulated signal data,
CDP and CDE trace data for the
composite signal or a speciied code layer; or error data for a single code
channel, or the composite signal.
cdma2000, 1xEV-DV, and 1xEV-
DO are just some of over 70 signal
standards and modulation types
for which the 89600B vector signal
analysis (VSA) creates a window into
what’s happening inside your com-
plex wireless devices. The 89600B
tools provide views of virtually every
facet of a problem, helping you see
the “why?” behind signal problems.
Whether you’re working with emerg-
ing or established standards, Key-
sight’s industry-leading 89600B VSA
software helps you see through the
complexity.
cdma2000®/1xEV-DV and 1xEV-DO Modulation Analysis
Try before you buy!
Download the 89600B software and use it free for 14 days to make
measurements with your analysis hardware, or use our recorded
demo signals by selecting
File > Recall > Recall Demo > cdma2000/1xEVDO > on the software
toolbar.
Request your free trial license today:
www.keysight.com/ind/89600B_trial
Key Features
– Troubleshoot and evaluate
signals with robust toolset
– Descramble, despread
and demodulate forward
and reverse-link signals
– Quickly analyze signals
with automatic active
channel detection
– Examine CDP and CDE errors
for a single layer or
composite signal
– Get a 20:20 view of the overall
signal using 20 traces,
each with 20 markers
3
cdma2000/1xEVDV/1xEV-DO technology overview
As the wireless industry moved into its
third generation, data services started
to become a larger portion of the
industry’s revenue stream. Short
message service (SMS) and packet
data emerged as the two dominant
types of data services.
SMS systems operate on circuit-
switched networks with great
eficiency. Since SMS message length is limited, data can be sent to a phone
in a single message on the control
channel. However, applications that
require large data packets, such as
internet browsing or streaming video,
require higher throughput than an
SMS system can handle. Packet-data
systems can, however, handle the
throughput requirements of services
such as internet browsing and stream-
ing video, as resources are assigned
only as needed for the data transfer
and may be shared among many users
with real time low control. The 1xEV-DV format is best suited for
SMS systems and maintains back-
ward compatibility, while the 1xEV-DO
standard is optimized for packet data
service. The 1xEV-DO standard can
incorporate these data-only services
into a 3G system by sacriicing voice service parameters to increase packet
data throughput, providing new ca-
pability at the expense of backward
compatibility.
Option B7T supports the following
standard:
– 1xEV-DV: 3GPP2 C.S0003-C
Medium Access Control (MAC)
Standard for cdma2000 Spread
Spectrum Systems version 1.0
Option B7W supports the following
1xEV-DO standards:
– 3GPP2 C.S0024 v2.01 1xEV-DO
High Rate Packet Data Air Inter-
face
– 3GPP2 C.S0032 1xEV-DO
Inter-Operability Speciication (IOS) for CDMA 2000 Access
Network
– 3GPP2 C.P9012 Recommended
Minimum Performance Standards
for 1xEV-DO High Rate Packet
Data Access Terminal
– TIA/EIA/IS-856 1xEV-DO High
Rate Packet Data Air Interface
Speciication
Analysis and Troubleshooting
Gain insight into your signal with 20:20 visibility at the composite or layer level
The 89600B displays up to 20 traces
with 20 markers each, letting you
display CDE and CDP trace data for
a speciic code layer, as well as that layer’s EVM and IQ error traces. You
can also look at a channel’s demodu-
lated symbols and view its associated
EVM errors.
Note: Unless noted, all measurements
shown are available for both Option B7T
cdma2000®/1xEV-DV modulation analysis and
Option B7W 1xEV-DO modulation analysis. The
actual display contents may vary per format.
CDE and CDP data is shown in a multi-color format that assigns a unique color to each code layer, for
easy visual identiication. Markers on the composite trace help you identify code layers.
4
Analysis and Troubleshooting
Gain insight into your signal with 20:20 visibility at the composite or layer level
The 89600B displays up to 20 traces
with 20 markers each, letting you
display CDE and CDP trace data for
a speciic code layer, as well as that layer’s EVM and IQ error traces. You
can also look at a channel’s demodu-
lated symbols and view its associated
EVM errors.
Note: Unless noted, all measure-
ments shown are available for both
Option B7T cdma2000/1xEV-DV
modulation analysis and Option B7W
1xEV-DO modulation analysis. The
CDE and CDP data is shown in a multi-color format that assigns a unique color to each code layer, for
easy visual identiication. Markers on the composite trace help you identify code layers.Open a window into your signal’s underlying behavior with detailed measurement parameter control
Choose the desired despread channel
and CDP layer for display, as well as
your analysis channel and modulation
type, and provide long code masks
and other format parameters. You
can select active channel detection,
semi-automatic detection, or pre-
deined active channel detection. The 89600B provides you with tools to
handle standard signals, as well as to
set up the analyzer for identiication of failed test causes. Additionally, you
can save your measurement setup for
easy recall at a later time.
Dynamic Help links you to comprehensive help text. Click on the Demod Properties menu to instantly
bring up information on manually adjusting 1xEV parameters on the Channel/Layer tab used to focus
measurements.
5
Use statistical analysis tools to help analyze cdma2000 and 1x signals
CCDF, CDF, and PDF traces provide
useful information for high peak/RMS
ratio signals. Other igures of merit, such as Rho, EVM, and I/Q errors are
available for the composite signal.
Speciic traces for each modulation format, such as Overall 1 and Overall
2 measurements for forward direction
1xEV-DO signals, or slot information
for reverse direction, are also avail-
able.
Comprehensive error data is available, including statistical characterization. Use the new cumulative
history display to identify the density of occurrence for rare events over long time periods—especially
useful on error traces.
6
Save and recall signals for more effective troubleshooting
The 89600B VSA includes signal
capture and playback capabilities.
Use it to capture burst and transient
signals for analysis. Take advantage
of tools like overlap processing for
detailed “slow motion” analysis and
the spectrogram and cumulative his-
tory traces for evaluating the dynamic
frequency and amplitude behavior of
your signal over time.
Save a signal and analyze it using the player window or the restart/stop buttons in the toolbar. You
can also replay the signal in “slow motion” using overlap processing—a helpful diagnostic tool.
Choosing between 89600B VSA software and X-Series measurement applications
89600B VSA is the industry-leading measurement software for evaluating
and troubleshooting wireless signals in R&D. PC-based and supporting
numerous measurement platforms, the 89600B provides the lexibility and sophisticated measurement tools essential to inding and ixing signal problems.
X-Series advanced measurement applications provide embedded format-
speciic, one-button measurements for X-Series analyzers. With fast measurement speed, pass/fail testing and simplicity
of operation, these applications are ideally suited for design veriication and manufacturing.
www.keysight.com/ind/X-Series_Apps.
7
Signal acquisition
Result length 1 to 64 PCGs forward link; 1 and 48 PCGs reverse link maximum. Value hardware-dependent.
Samples per symbol 1
Triggering Single/continuous, external
Measurement region Length and offset adjustable within result length
Signal playback
Result length Adjustable from 1 to 64 PCGs, forward link; 1 to 4 PCGs, reverse link maximum. Value
hardware-dependent.
Capture length (gap-free analysis at 0%
overlap; 2.6 MHz span)
Capture length is dependent on hardware. See hardware speciications for more information.
Adjustable parameters
Format
Single button presets Forward, reverse
Direction Forward, reverse
Chip rate Continuously adjustable
Long code mask (reverse) 0
Base code length 64, 128 (forward link only)
Enable 1xEV-DV analysis Off, On
PN offset 0 x 64 to 511 x 64 chips
Wash code QOF 0,1,2,3
Channel/Layer
Walsh code length (Despread channel) Speciies the Despread Channel Walsh Code Length used along with the Despread Channel Walsh Code Number to specify the channel used for many measurement results
Walsh code number (Despread channel) Sets the Walsh Code Number used, along with the Despread Channel Walsh Code Length, to
specify the channel used for many trace data results
IQ Branch Determines which bits (the “I” bits or the “Q” bits) are displayed in the Channel Syms/Errs data
results; reverse link only
Modulation Speciies how the VSA detects the modulation format for the forward link F-PDCH channel (Walsh code length 32); forward link only; enable 1xEV DV analysis ON
Walsh code length (CDP layer) Selects the active code domain layer (Walsh Code Length) for the code domain power CDP
Layer and CDE Layer trace data
Predeined channels
Deined active channels1 Off, On
Walsh code column index1 0,1,2,3
Walsh mask1 0 to 1111111111111 (binary)
F-PDCH0/1 number of channels1 F-PDCH0 + F-PDCH1 ≤ 28
F-PDCH0/1 modulation scheme1 QPSK, 8PSK, 16QAM
Option B7T cdma2000®/1xEV-DV Software Features
1. Value subject to Force Code Group Setting.
8
Time parameters
Measurement interval Speciies the time length of Result Length data that is used for computing and displaying the trace data results
Measurement offset Speciies the number of measurement offsets in PCG (Power Control Groups)
Result length Determines the signal capture length in terms of Power Control Groups (PCGs) or equivalent
PCG time
Gated active channel detection Off, On; forward link only
Gated modulation detection1 Off, On; forward link only; enable 1xEV DV analysis ON
Advanced parameters
Active channel threshold Auto, manual (0 dBc to –120 dBc)
Include IQ offset in EVM Controls whether the Composite IQ Offset is included in the Composite EVM data result
Mirror frequency spectrum Allows correct demodulation of frequency spectrums that are mirrored (lipped) about the center frequency
Normalize IQ traces Affects the CDP, CDE and Code Domain Offsets table data results
Multi-carrier ilter Off, On
Measurement results
Composite All code channels at once or all symbol rates taken together
Code domain power Composite (all symbol rates together); individual symbol rates (9.6, 19.2, 38.4, 76.8, 153.6,
307.2 ksps)
Code domain error Composite (all symbol rates together); individual symbol rates (9.6, 19.2, 38.4, 76.8, 153.6,
307.2 ksps)
I-Q measured Time, spectrum
I-Q reference Time, spectrum (reference computed from detected symbols)
I-Q error versus time Magnitude and phase (IQ measured versus reference)
Error vector Time, spectrum (vector difference between measured and reference symbol point)
Symbol table and error summary EVM, magnitude error, phase error, rho, peak active CDE, peak CDE, trigger,
frequency error, IQ (origin) offset, PCG number
Code domain offset table Timing and phase offset for each active code
Channel Individual code channels
I-Q measured Time
I-Q reference Time (reference computed from detected symbols)
I-Q error versus time Magnitude and phase (IQ measured versus reference symbol)
Error vector Time (vector difference between measured and reference symbol)
Symbol table and error summary EVM, magnitude error, phase error, PCG number, modulation format
Other measurement results
Pre-demodulation Time, spectrum, PDF, CDF, CCDF, correction, raw main time, instantaneous spectrum
Display formats
CDP measurements results I and Q shown separately on same trace
Channel measurement results I and Q shown separately
Code order Hadamard, bit reverse
1. Value subject to Force Code Group Setting.
9
Option B7W 1xEV-DO Software Features
Signal acquisition
Result length
Forward link 1 to 64 slots maximum. Value hardware dependent.
Reverse link 1 to 64 slots maximum. Value hardware dependent.
Samples per symbol 1
Triggering Single/continuous, external
Measurement region (applies to CDP
results)
Interval and offset adjustable within result length
Signal playback
Result length
Forward link 1 to 64 slots maximum. Value hardware dependent.
Reverse link 1 to 64 slots maximum. Value hardware dependent.
Capture length (gap-free analysis at 0%
overlap at 1.5 MHz span)
Capture length is hardware dependent. See hardware speciications for more information.
Format parameters
Supported format direction Forward (BTS), reverse (AT)
Single-button presets Forward, reverse
Chip rate Continuously adjustable
Analysis channel (forward) Preamble, pilot, MAC, data
N offset (forward) Continuously adjustable from 0x64 to 511x64 chips
Preamble length (forward) Adjustable from 0 to 1,024 chips or auto detection
Data modulation type (forward) QPSK, 8PSK, 16QAM
Long code mask (reverse) Continuously adjustable from 0x0000000000 to 0x3FFFFFFFFF
Long code mask Q (reverse) Speciies the Q channel Long Code Mask
Channel Layer parameters
Despread channel parameters Speciies the code channel and layer used for the reverse link direction channel trace data results
Walsh code length Shows the current Walsh Code Length used for Code Domain Power analysis; reverse link only
Walsh Code number Speciies the code channel for the channel trace data measurement results; reverse direction only
IQ branch option Controls which IQ branch data bits are shown in the Channel Symbol/Errors trace data results;
reverse direction only
CDP Layer parameters Used to specify the active (displayed) code domain layer for the Code Domain Power (CDP)
Layer and Code Domain Error (CDE) Layer trace data
Walsh code length Selects the active code domain layer (Walsh code length) for the code domain power CDP
Layer and CDE Layer trace data results
10
Channel Layer parameters (Continued from previous page)
Active Channel detection
parameters
Speciies how the active code channels are determined for a measurement
Data W16 (0:15) Forward Trafic Data channel, code layer 16, code channels 0 through 16; forward link only
Data W4 (2): Q Data channel for code layer 4, code channel 2; reverse link only
ACK W8 (4): I Acknowledgement channel, code layer 8, code channel 4, the I branch; reverse link only
DRC W16 (8): Q Data Request Channel, code layer 16, code channel 8, the Q branch; reverse link only
Pilot W16 (0): I Pilot channel, code layer 16, code channel 0, the I branch; reverse link only
Detection Mode
Auto When selected, the VSA determines which of the available “Predeined Active Channel” chan-
nels are included in the composite trace data results; reverse link only
Semi-auto When selected, forces the VSA to include the selected Data, ACK, DRC or Pilot channel data in
the composite trace data results; reverse link only
Pre-deined When cleared, the VSA does not include the cleared Data, ACK, DRC or Pilot channel data in
the composite trace data results; reverse link only
Time parameters
Result length Speciies the signal capture length in terms of slots or equivalent slot time
Measurement offset Sets the number of measurement offsets in increments of half (0.5) slots
Measurement interval Speciies the time length of Result Length data that is used for computing and displaying the trace data results
Advanced parameters
Normalize IQ traces Selects the IQ Normalize function
Mirror frequency spectrum Correctly demodulates frequency spectrums that are mirrored (lipped) about the center frequency
Preamble
Auto-detect When selected, the VSA uses the input signal data to determine the forward channel Preamble
Length; forward direction only
Preamble length Allows manual speciication of the forward channel preamble length (in chips); forward direc-
tion only
Include in overall results When selected, preamble data is included in the Overall trace data result; forward direction
only
I/Q combined check box When selected, shows the combined IQ branch CDP trace data; forward direction only
Include IQ offset in EVM When selected, IQ Offset error data is included in the Error Summary trace data results
Combine TDM channels for composite
results
When selected, the composite trace data results will include the combined data from all for-
ward direction TDM channels; forward direction only
Measurement results
Channel overall
Error summary (forward) Overall 1 and overall 2 results for: rho, EVM, magnitude error, phase error, frequency error, slot
number, and IQ offset
11
Composite All code channels at once or all symbol rates taken together
Code domain power All symbols taken together; individual symbol rates (9.6, 19.2, 38.4, 76.8, 153.6, 307.2 ksps)
Code domain error (reverse) All symbols taken together; individual symbol rates (9.6, 19.2, 38.4, 76.8, 153.6, 307.2 ksps)
IQ measured Time, spectrum
IQ reference Time, spectrum
IQ error versus time Magnitude and phase (IQ measured versus reference)
Error vector Time, spectrum (vector difference between measured and reference)
Error summary (forward) EVM, magnitude error, phase error, rho, frequency error, IQ offset, slot number, preamble
length
Error summary (reverse) EVM, magnitude error, phase error, rho, frequency error, IQ offset, slot number, peak CDE,
pilot, RRI, ACK, DRC, data power
Channel
IQ measured Time
IQ reference Time
IQ error versus time Magnitude and phase (IQ measured versus reference)
Error vector Time (vector difference between measured and reference)
Symbol table and error summary EVM, magnitude error, phase error, slot number
Other
Pre-demodulation Time, spectrum, PDF, CDF, CCDF, correction, raw main time, instantaneous spectrum
Display formats (characteristic)
CDP measurement results I and Q shown separately on same trace
Channel measurement results (reverse) I and Q shown separately
Code order Hadamard, bit reverse
12
Opt B7T cdma2000®/1xEV-DV Key Speciications1
This technical overview provides nominal performance speciications for the software when making measurements with the speciied platform. Nominal values indicate expected performance, or describe product performance that is useful in the application of the product, but is not covered by the product warranty.
For a complete list of speciications refer to the measurement platform literature.
PXA MXA (Includes Option BBA
as noted)
EXA
Signal playback
Result length Forward link 1 to 64 PCG, Reverse link 1 to 48 PCG
Capture length (Gap free analysis at 0%
overlap; 1.5 MHz span)
>110,000 PCG > 400 PCG > 400 PCG
> 111,200 PCG with Opt BBA
(BBIQ only)
Accuracy Input range ≥ –30 dBm, within 5 dB of total signal power, frequency < 3.6 GHz
Code domain
CDP accuracy
Spread channel power within 20 dB
of total power
±0.3 dB ±0.3 dB1 ±0.3 dB
Symbol power versus time
Spread channel power within 20 dB
of total power averaged over a slot
±0.3 dB ±0.3 dB1 ±0.3 dB
Composite EVM
EVM loor (pilot only) ≤ 1.5% ≤ 1.5%1 ≤ 1.5%
EVM loor (9 active channels) ≤ 1.5% ≤ 1.5% ≤ 1.5%
EVM loor (16 QAM, F-PDCH with 15 codes, 1xEV-DV enabled)
≤ 1.5% ≤ 1.5% ≤ 1.5%
Frequency error
Lock range ±500 Hz ±500 Hz ±500 Hz
Accuracy ±10 Hz ±10 Hz ±10 Hz
X-Series signal analyzers
1. Results apply to MXA with Option BBA.
13
1. For alias protect = false, 5 PCGs with alias protect = true.
PSA ESA
Signal playback
Result length Forward link 1 to 64 PCG Forward link 1 to 24 PCGs1
Reverse link 1 to 48 PCG Reverse link 1 to 24 PCGs1
Capture length (Gap free analysis at 0%
overlap; 1.5 MHz span)
94 PCG 24 PCG1
Accuracy
Conditions Input range ≥ –24 dBm, within 5 dB of total signal power, frequency < 3 GHz
Input range within 5 dB of total signal power,
between 30 MHz and 3 GHz
Code domain
CDP accuracy
Spread channel power within
20 dB of total power
±0.3 dB ±0.3 dB
Symbol power versus time
Spread channel power within
20 dB of total power averaged
over a slot
±0.3 dB ±0.3 dB
Composite EVM
EVM loor (pilot only) ≤ 1.5% ≤ 1.6%
EVM loor (9 active channels) ≤ 1.5% ≤ 1.6%
EVM loor (16 QAM, F-PDCH with 15 codes, 1xEV-DV enabled)
≤ 1.5% ≤ 1.6%
Frequency error
Lock range ±500 Hz ±500 Hz
Accuracy ±10 Hz ±10 Hz
Other analysis platforms
14
Opt B7W 1xEV-DO Key Speciications1
This technical overview provides nominal performance speciications for the software when making measurements with the speciied platform. Nominal values indicate expected performance, or describe product performance that is useful in the application of the product, but is not covered by the product warranty.
For a complete list of speciications refer to the measurement platform literature.
PXA MXA (Includes Option BBA
as noted)
EXA
Signal playback
Result length Forward link 1 to 64 slots Forward link 1 to 64 slots Forward link 1 to 64 slots
Reverse link 1 to 64 slots Reverse link 1 to 64 slots Reverse link 1 to 64 slots
Capture length > 80,000 slots > 300 slots > 300 slots
Gap free analysis at 0% overlap;
1.5 MHz span
> 499,100 slots with Opt.
BBA (BBIQ only)
Accuracy
Conditions Input range ≥ –30 dBm, within 5 dB of total signal power
Code domain
CDP accuracy
Spread channel power within 20
dB of total power
±0.3 dB ±0.3 dB1 ±0.3 dB
Symbol power versus time
Spread channel power within 20
dB of total power
±0.3 dB ±0.3 dB1 ±0.3 dB
Composite EVM
EVM loor ≤ 1.5% ≤ 1.5%1 ≤ 1.5%
Frequency error
Lock range ±500 Hz ±500 Hz ±500 Hz
Accuracy ±5 Hz ±5 Hz ±5 Hz
X-Series signal analyzers
1. Results apply to MXA with Option BBA.
15
1. For alias protect = false, 3 slots for alias protect = true.
PSA ESA
Signal playback
Result length Forward link 1 to 64 slots Forward link 1 to 18 slots1
Reverse link 1 to 64 slots Reverse link 1 to 18 slots1
Capture length Gap free analysis at 0%
overlap; 1.5 MHz span
65 slots 18 slots1
Accuracy
Conditions Input range ≥ –24 dBm, within 5 dB of total signal power
Input range within 5 dB of total signal power,
between 30 MHz and 3 GHz
Code domain
CDP accuracy
Spread channel power within
20 dB of total power
±0.3 dB ±0.3 dB
Symbol power versus time
Spread channel power within
20 dB of total power
±0.3 dB ±0.3 dB
Composite EVM
EVM loor ≤ 1.5% ≤ 1.6%
Frequency error
Lock range ±500 Hz ±500 Hz
Accuracy ±5 Hz ±10 Hz
Other analysis platforms
16
Model-Option Description Notes
PC/Instrument
license
Floating
license
89601B 89601BN 89600B VSA software Required
89601B-B7T 89601BN-B7T cdma2000/1xEV-DV
modulation analysis
Required for
cdma2000 or
1xEV-DV modulation
analysis
89601B-B7W 89601BN-B7W 1xEV-DO modulation
analysis
Required for
1xEV-DO modulation
analysis
89601B-200 89601BN-200 Basic vector signal
analysis
Required
89601B-300 89601BN-300 Hardware connectivity Required
Ordering Information
Software licensing and conigurationChoose from two license types:
– PC/instrument license: Order
89601B if the software license
will reside on a PC/instrument.
The license can be trans ferred
to another PC/instrument at any
time.
– Floating license: Order 89601BN
if the software license will reside
on a server to be accessed by
multiple users, one at a time.
Hardware coniguration
The 89600B software supports over
30 instrument platforms including
spectrum analyzers, oscilloscopes,
logic analyzers and modular instru-
ment systems with its hardware con-
nectivity option (89601B/BN-300).
Additional Resources
Literature
89600B Vector Signal Analysis Software, Brochure,
p/n 5990-6553EN
89600B Vector Signal Analysis Software, Configuration Guide,
p/n 5990-6386EN
89600B Opt 200 Basic VSA and Opt 300 Hardware Connectivity,
Technical Overview, p/n 5990-6405EN
89600 VSA Software for cdma2000 and 1xEV-DV Evaluation and Troubleshoot-
ing, Self-Guided Demonstration, p/n 5989-0681EN
Keysight Forward Link Measurements for 1xEV-DO Access Networks
AN-1398, Application Note, p/n 5988-6125EN
Web
www.keysight.com/ind/89600B www.keysight.com/ind/cellular
Keep your 89600B VSA up-to-date
With rapidly evolving stan-
dards and continuous ad-
vancements in signal analysis,
the 89601BU/BNU software
update and subscription ser-
vice offers you the advantage
of immediate access to the
latest features and enhance-
ments available for the
89600B VSA software.
www.keysight.com/
ind/89600B
You can upgrade!
All 89600B options can
be added after your initial
purchase and are license-key
enabled. For more information
please refer to
www.keysight.com/
ind/89600B_upgrades
myKeysight
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A personalized view into the information most relevant to you.
Three-Year Warranty
www.keysight.com/find/ThreeYearWarranty
Keysight’s commitment to superior product quality and lower total cost
of ownership. The only test and measurement company with three-year
warranty standard on all instruments, worldwide.
Keysight Assurance Plans
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Up to five years of protection and no budgetary surprises to ensure your
instruments are operating to specification so you can rely on accurate
measurements.
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Keysight Technologies, Inc.
DEKRA Certified ISO 9001:2008
Quality Management System
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breadth, combined with channel partner convenience.
cdma2000 is a US registered certification mark of the Telecommunications
Industry Association.
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17 | Keysight | 89601B/BN-BHC RFID Modulation Analysis, 89600B Vector Signal Analysis Software - Technical Overview
This information is subject to change without notice.© Keysight Technologies, 2011-2014Published in USA, August 1, 20145990-6392ENwww.keysight.com
