AGILENT GS-8830

Agilent GS-8830 Series
RF Design Verification Test Systems
GS-8832 2G RF Design Verification Test
GS-8833 3G RF Design Verification Test
GS-8834 cdma2000®/1xEV-DO RF Design Verification Test
GS-8835 UMTS (2G+3G) RF Design Verification Test
Data Sheet
GS-8830 Series RF
Design Verification Test
System
A single platform for
• GSM, GPRS, EGPRS, and DARP
(Bands GSM 850, GSM 900, DCS
1800, and PCS 1900)
o 3GPP TS51.010-01. Section 12, 13,
14, and 21.
• W-CDMA, HSDPA, and HSUPA
(Bands I to IX)
o 3GPP TS34.121-1. Section 5, 6, 7,
9, and 10.
o Rel.99, Rel.5, Rel.6, and Rel.7
• cdmaOne, cdma2000, 1xEV-DO,
and 1xEV-DO Rev.A (Band Class
0, 1, 3, 4, 6 and 15)
o 3GPP2 C.S0011-A1 and 3GPP2
C.S0033 V2.0
GS-8832
The GS-8830 Series is designed for
mobile phone design verification and
pre-conformance testing. In the design
verification environment, tests can be
easily configured or modified to suit
your specific test requirements.
The GS-8830 Series is one of the
families of scalable systems designed
on the GS-8800 platform of test
systems covering the entire product
lifecycle:
• GS-8830 Series - design verification
• GS-8850 Series - conformance
• GS-8810 Series – manufacturing,
quality assurance and R&D entrylevel users.
The GS-8830 can be upgraded to the
GS-8850 to perform conformance test,
or scaled to the GS-8810 to support
manufacturing and quality assurance
test applications by re-using the
GS-8830 hardware and software. The
GS-8830 can also be easily upgraded
to support new wireless formats to
keep up to date with the latest
technologies and safeguard your
investment.
GS-8830 Series RF
GS-8830 Series System
Design Verification Test Characteristics
System Overview
Flexibility
The GS-8830 Series RF design
verification test (DVT) systems are
full-featured test systems for design
verification and pre-conformance
testing of multiple mobile technology
formats. The GS-8830 Series systems
perform high accuracy measurements
and provide excellent repeatability and
performance test. The multitechnology test platform supports
GSM/GPRS/EGPRS (3GPP TS51.01001), W-CDMA/HSDPA/HSUPA (3GPP
TS34.121-1), and cdmaOne/
cdma2000/1xEV-DO/1xEV-DO Rev.A
(3GPP2 C.S0011-A1 and 3GPP2
C.S0033 V2.0).
Agilent GS-8830 Series systems are
designed to meet existing radio format
requirements while providing a flexible
upgrade path for future formats.
The system architecture makes it easy
to modify or scale the system
configuration to provide the test
capabilities needed for the different
stages of your product’s life cycle and
perform conformance test, and
manufacturing or quality assurance
test applications.
Plus, the system’s single-platform
scalability for multiple radio
technology formats, bands, and
product life-cycle safeguards your
investment.
The GS-8830 Series supports multiple
formats and bands
• GSM/GPRS/EGPRS (GSM 850,
GSM 900, DCS 1800, PCS 1900)
• W-CDMA/HSDPA/HSUPA (Bands I
to IX)
• cdmaOne/cdma2000/1xEV-DO/
1xEV-DO Rev.A (Band Class 0, 1, 3,
4, 6 and 15)
In addition, the flexible measurement
software provides users full control
over parameters, as well as the ability
to stress designs through a broad
range of frequencies and power levels.
Easy-to-use UI (user interface)
GS-8830 Series systems are equipped
with an easy-to-use UI, which makes it
simple for end users to change test
parameters and run design verification
tests.
Scalability and upgradability
The GS-8830 2G, 3G, and
cdma2000/1xEV-DO systems can each
be easily upgraded to include other
radio formats on the same hardware
platform by adding the necessary radio
format software option.
In addition, the systems can be scaled
up to the GS-8850 for conformance
testing, or scaled to the GS-8810 to
support manufacturing and quality
assurance testing.
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Accuracy and repeatability
GS-8830 Series systems provide
accurate measurements and
repeatable results due to equipment
stability and complete system
calibration. They leverage the
measurement speed, accuracy, and
repeatability strengths of Agilent
products; creating reliable, high
performance design verification test
systems.
Comprehensive test coverage
The GS-8830 Series systems cover a
large array of test cases specified in
3GPP TS51.010-01, 3GPP TS34.121-1,
3GPP2 C.S0011-A1, and 3GPP2
C.S0033 V2.0. Agilent is committed to
supporting more test case sections
and enhancing test coverage as
technology standards evolve.
Hardware Architecture
The GS-8830 base system is
comprised of multiple racks (1.6 m in
height) with integrated test equipment
and test software.
The base or ‘standard’ system
consists of:
• 8960 Series 10 (E5515C) wireless
communications test set
• E4445A spectrum analyzer
• E4438C digital signal generator
• E8257D microwave generator
• 66311B power supply
• SR5500 fading simulator
• N1962A GSM filter module
• N1961A RF interface box
• E4418B single channel power meter
• E9304A (H18) 9KHz-18GHz Power
sensor
• Industrial PC
• Wireless test manager software
• GS-8830 measurement software
• GS-883x calibration software
• GS-883x data viewer software
N1961A RF Interface
Box
Automated testing is enabled by the
N1961A RF interface box, which
switches the appropriate instruments
to the user equipment (UE) based on a
particular test. It consists of functional
modules such as a common filter
module, reverse power protection
module, fading module, maximize input
level module, and a GSM/GPRS/
W-CDMA/CDMA filter module. Test
procedure automation is achieved with
a combination of the RF interface box,
automated UE control feature, and the
test software.
Software Architecture
The GS-8830 software is based on the
Agilent wireless test manager (WTM)
platform. GS-8830 software is an
enhanced version of GS-8800 software
and automates RF parametric tests
according to the specified supported
standards. The software’s great value
lies in its functions and features,
which are specially designed to
enhance the user’s R&D design
verification test experience.
The software is also designed with a
user-friendly graphical user interface
(GUI) (see Figure 1). In addition, the
GS-8830 software is able to selectively
perform subtests for a chosen test
step to reduce the time required to
identify root-cause failures.
The GS-8830 software automates test
execution to enable a large number of
test cases to run in a relatively short
time frame.
Optional ‘add-on’ components
include1:
• Plus 1
o Anite fader adapter unit
o Anite baseband processor
• Plus 2
o Anite fader adapter unit
o Two Anite baseband
processors
o One additional 8960 Series 10
(E5515C) wireless
communications test set
o Anite CRMP/combiner
o N8990A-P06 add-on RF test set
Figure 1. GS-8830 software GUI overview
These add-ons are necessary to perform more
comprehensive performance test requirements
in the 3GPP standard, such as transmit diversity
mode, and multi-cells configuration.
.
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3
The GS-8830 measurement software
provides integrated data collection.
Results reporting, saved in a commaseparated value (CSV) format, allow
easy sharing with other applications.
The viewer software application (see
Figure 2), provided as a standard
option, allows you to perform off-line
graphical analysis on measurement
data.
Calibration results are stored in
calibration files and used for all
subsequent measurements. Frequent
system calibration helps prevent bad
cables or worn calibration equipment
from jeopardizing the accuracy and
repeatability of your measurement
results.
The GS-8830 calibration software
provides measurement points to
collect path frequency characteristics,
ensuring system measurements are
within designated accuracy. The
operation is simplified with clear
instructions displayed on the screen.
Figure 2. GS-8830 software data viewer
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Specifications
Input and output
RF input/output
DUT RF IN/OUT
(N1961A front)
CAL RF OUT
(N1961A front)
Maximum input: 4 W CW, 0 VDC
Maximum output: Typically +15 dBm,
Input impedance: 50 Ohm nominal
Maximum output: +15 dBm
Maximum reverse power: 1 W CW, 0 VDC
Nominal impedance: 50 Ohm
External reference input
EXT REF IN
(Located at rear panel of
the rack)
Input frequency: 10 MHz (±5 ppm)
Input level range: 0 to +13 dBm
Input impedance: 50 Ohm nominal
PC/peripheral input/output
USB
Four auxiliary ports are available: one on the front I/O panel, two on the
front panel, and one on the rear panel of the industrial PC
Two on the front I/O panel, DB9 male connector
One on the front I/O panel, one on the real I/O panel (for intra/internet
connection) 100 Base-T Ethernet, RJ-45 connector
One on the front I/O panel for additional instrument connection
Serial (RS-232)
LAN
GPIB
Timebase specification
Internal timebase
External timebase
Internal timebase of the 8960/E5515C wireless communications test set is
fed to all other instruments in the system. The 8960’s internal ovencontrolled crystal oscillator’s specifications are as follows:
•
Aging rates: < ±0.1 ppm per year, < ±0.005 ppm peak-to-peak per day
during any 24-hour period starting 24 hours or more after a cold start
•
Temperature stability: < ±0.01 ppm, frequency variation from +25 °C
over the temperature range 0 to +55 °C
Warm-up time: 5 minutes to be within ±0.1 ppm of frequency at one hour,
15 minutes to be within ±0.01 ppm of frequency at one hour
When the external reference signal is present on the EXT REF IN, the
system instruments will be locked to it
Recommended system path loss calibration interval
Nominal
Exception
One year
System path loss calibration must be performed when any of the following
events occur in the related signal path:
•
Any instrument RF interconnect cable is replaced
•
Any instrument is calibrated
Any instrument is repaired and re-calibrated
General specifications
Operating conditions
General
Storage temperature
Operating temperature
Accuracy specified
temperature
Humidity (relative)
Altitude
Power requirement
Indoor
–20 to +70 °C
+10 to +30 °C
+20 to +30 °C (Refer to measurement accuracy specification of individual
radio technology for further information)
5 to 80% relative humidity (non-condensing)
0 to 2 km
90 to 254 VAC, 50 to 60 Hz, 4118 VA maximum
Rack dimensions
1.6 m rack (EIA: 32 RU)
Two/three racks
configuration
(H x W x D)
1620 mm x 1200 mm x 905 mm (63.8 in x 47.2 in x 35.6 in)
When mounting work surfaces, maximum extra-depth is 500 mm (19.7 in)
Weight
1.6 m rack x 2 racks
1.6 m rack x 3 racks
5
505 kg maximum (1,110 lbs)
714 kg maximum (1,570.8 lbs)
Regulatory compliance
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Revised: October 1, 2008
Product specifications and descriptions in this
document subject to change without notice.
© Agilent Technologies, Inc. 2008-2009
Printed in USA, January 7, 2009
5989-9206EN
cdma2000 is a registered certification mark of the
Telecommunications Industry Association. Used under
license.
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