Related Literature . . . . . . . . . . . . . . . 20
Support, Services, and Assistance . 21
Eliminate the compromise
between speed and price
The Agilent EXA is the industry’s
fastest economy-class signal analyzer.
Its speed and accuracy, coupled
with its unprecedented performance
and application coverage, provides
development and manufacturing
engineers with the capabilities to costeffectively troubleshoot new designs,
increase manufacturing throughput,
or analyze complex and time-varying
signals.
The EXA seamlessly integrates a
broad range of standards-based
measurements with Agilent’s industryleading 89600 vector signal analysis
(VSA) software—all in a single
instrument. In addition to the use of
an open Windows® XP Professional
operating system, the EXA provides
an advanced signal analysis user
interface. All measurement features
and functions are intuitively grouped
and accessible from the front panel or
via a USB keyboard and mouse.
Optional measurement application
software provides preconfigured test
routines for 802.16e Mobile WiMAX™,
W-CDMA, HSDPA/HSUPA, GSM/EDGE,
and phase noise applications. Running
the Agilent 89600 VSA software
application in the EXA enables
advanced signal demodulation analysis
and troubleshooting of more than 50
demodulation formats including: 2G,
3G, 3.5G, WiMAX, WLAN, and Private
Mobile Radio.
2
Definitions and Conditions
Specifications describe the performance
of parameters covered by the product
warranty and apply over 5 to 50 °C unless
otherwise noted. 95th percentile values
indicate the breadth of the population
(≈2σ) of performance tolerances
expected to be met in 95 percent of the
cases with a 95 percent confidence,
for any ambient temperature in the
range of 20 to 30 °C. In addition to the
statistical observations of a sample
of instruments, these values include the
effects of the uncertainties of external
calibration references. These values
are not warranted. These values are
updated occasionally if a significant
change in the statistically observed
behavior of production instruments is
observed. Typical describes additional
product performance information that
is not covered by the product warranty.
It is performance beyond specifications
that 80 percent of the units exhibit
with a 95 percent confidence level over
the temperature range 20 to 30 °C.
Typical performance does not include
measurement uncertainty. 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.
The analyzer will meet its
specifications when:
• The analyzer is within its calibration
cycle.
• Under auto couple control, except
that Auto Sweep Time Rules = Accy.
• For signal frequencies <20-MHz,
DC coupling applied.
• The analyzer has been stored at
an ambient temperature within
the allowed operating range for at
least two hours before being turned
on, if it had previously been stored
at a temperature range inside the
allowed storage range but outside
the allowed operating range.
• The analyzer has been turned on at
least 30 minutes with Auto Align
set to normal, or if Auto Align is set
to off or partial, alignments must
have been run recently enough to
prevent an Alert message. If the
Alert condition is changed from
Time and Temperature to one of
the disabled duration choices,
the analyzer may fail to meet
specifications without informing
the user.
This EXA signal analyzer data sheet is a
summary of the complete specifications
and conditions, which are available in
the EXA Signal Analyzer Specification
Guide. The EXA Signal Analyzer
Specification Guide can be obtained
on the web at:
www.agilent.com/find/exa_manuals.
3
Frequency and Time Specifications
Frequency range DC Coupled AC Coupled
Option 503 9 kHz to 3.6 GHz 10 MHz to 3.6 GHz
Option 507 9 kHz to 7.0 GHz 10 MHz to 7.0 GHz
Option 513 9 kHz to 13.6 GHz 10 MHz to 13.6 GHz
Option 526 9 kHz to 26.5 GHz 10 MHz to 26.5 GHz
Band LO Multiple (N)
0 1 9 kHz to 3.6 GHz
1 1 3.5 to 7.0 GHz
2 2 6.9 to 13.6 GHz
3 2 13.5 to 17.1 GHz
4 4 17 to 26.5 GHz
Frequency reference
Accuracy ± [(time since last adjustment x aging rate) + temperature stability + calibration accuracy]
Aging rate Option PFR Standard
±1 x 10
±1.5 x 10
Temperature stability Option PFR Standard
20 to 30 °C ±1.5 x 10–8 ±2 x 10
5 to 50 °C ±5 x 10–8 ±2 x 10
Achievable initial calibration accuracy Option PFR Standard
±4 x 10
Example frequency reference accuracy = ±(1 x 1 x 10–7 + 5 x 10–8 + 4 x 10–8)
(with Option PFR) 1 year after = ±1.9 x 10
last adjustment
Residual FM
Option PFR ≤ (0.25 Hz x N) p-p in 20 ms nominal
Standard ≤ (10 Hz x N) p-p in 20 ms nominal
See band table above for N (LO Multiple)
–7
/ year ±1 x 10–6 / year
–7
/ 2 years
–6
–6
–8
±1.4 x 10
–7
–6
Frequency readout accuracy (start, stop, center, marker)
± (marker frequency x frequency reference accuracy + 0.25% x span + 5% x RBW + 2 Hz + 0.5 x horizontal resolution
1. Horizontal resolution is span/(sweep points – 1)
Marker frequency counter
Accuracy ± (marker frequency x frequency reference accuracy + 0.100 Hz)
Delta counter accuracy ± (delta frequency x frequency reference accuracy + 0.141 Hz)
Counter resolution 0.001 Hz
4
1
)
Frequency and Time Specifications (continued)
Frequency span (FFT and swept mode)
Range 0 Hz (zero span), 10 Hz to maximum frequency of instrument
Resolution 2 Hz
Accuracy
Swept ±(0.25% x span + horizontal resolution)
FFT ±(0.10% x span + horizontal resolution)
Sweep time and triggering
Range Span = 0 Hz 1 µs to 6000 s
Span ≥ 10 Hz 1 ms to 4000 s
Trigger delay Span = 0 Hz or FFT –150 to +500 ms
Span ≥ 10 Hz, swept 1 µs to 500 ms
Resolution 0.1 µs
Time gating
Gate methods: Gated LO; Gated video; Gated FFT
Gate length range (except method = FFT): 100.0 ns to 5.0 s
Gate delay range: 0 to 100.0 s
Gate delay jitter: 33.3 ns p-p nominal
Sweep (trace) point range
All spans 1 to 20001
Resolution bandwidth (RBW)
Range (–3.01 dB bandwidth) 1 Hz to 3 MHz (10% steps), 4, 5, 6, 8 MHz
Bandwidth accuracy (power) 1 Hz to 750 kHz ±1.0% (±0.044 dB)
RBW range 820 kHz to 1.2 MHz (< 3.6 GHz CF) ±2.0% (±0.088 dB)
1.3 to 2.0 MHz (< 3.6 GHz CF) ±0.07 dB nominal
2.2 to 3 MHz (< 3.6 GHz CF) ±0.15 dB nominal
4 to 8 MHz (< 3.6 GHz CF) ±0.25 dB nominal
Bandwidth accuracy (–3.01 dB) 1 Hz to 1.3 MHz ±2% nominal
RBW range
Selectivity (–60 dB/–3 dB) 4.1:1 nominal
5
Frequency and Time Specifications (continued)
Analysis bandwidth
2
Maximum bandwidth 10 MHz, Standard
2. Analysis bandwidth is the instantaneous bandwidth available around a center frequency over which the input signal can be digitized for further analysis or processing in the
time, frequency, or modulation domain.
Video bandwidth (VBW)
Range 1 Hz to 3 MHz (10% steps), 4, 5, 6, 8 MHz and wide open (labeled 50 MHz)
Accuracy ±6% nominal
Measurement speed
Local measurement and display 11 ms (90/s) nominal Sweep points = 1001
update rate
Remote measurement and LAN 4 ms (250/s) nominal Sweep points = 1001
transfer rate
Marker peak search 5 ms nominal
Center frequency tune and transfer (RF) 51 ms nominal
Center frequency tune and transfer (µW) 86 ms nominal
Measurement/mode switching 75 ms nominal
6
Amplitude Accuracy and Range Specifications
Amplitude range
Measurement range Displayed average noise level (DANL) to +23 dBm
Input attenuator range
(9 kHz to 26.5 GHz)
Standard 0 to 60 dB in 10 dB steps
Option FSA 0 to 60 dB in 2 dB steps
Electronic attenuator (Option EA3)
Frequency range 9 kHz to 3.6 GHz
Attenuation range
Electronic attenuator range 0 to 24 dB, 1 dB steps
Full attenuation range 0 to 84 dB, 1 dB steps
(mechanical + electronic)
Maximum safe input level
Average total power +30 dBm (1 W)
(with and without preamp)
Peak pulse power < 10 µs pulse width, < 1% duty cycle +50 dBm (100 W)
and input attenuation ≥30 dB
DC volts
DC coupled ±0.2 Vdc
AC coupled ±70 Vdc
Display range
Log scale 0.1 to 1 dB/division in 0.1 dB steps
1 to 20 dB/division in 1 dB steps
(10 display divisions)
Linear scale 10 divisions
Scale units dBm, dBmV, dBµV, dBmA, dBµA, V, W, A
7
Amplitude Accuracy and Range Specifications (continued)
Frequency response (10 dB input attenuation, 20 to 30 °C, preselector centering applied, σ = nominal standard deviation)
th
Specification 95
9 kHz to 10 MHz ±0.8 dB ±0.4 dB
10 MHz to 3.6 GHz ±0.6 dB ±0.3 dB
3.5 to 7.0 GHz ±2.0 dB
6.9 to 13.6 GHz ±2.5 dB
13.5 to 22.0 GHz ±3.0 dB
22.0 to 26.5 GHz ±3.2 dB
Preamp on (Option P03) 100 kHz to 3.6 GHz ±0.28 dB
attenuation 0 dB
Input attenuation switching uncertainty
50 MHz (reference frequency) ±0.20 dB ±0.08 dB typical
attenuation > 2 dB , preamp off
9 kHz to 3.6 GHz ±0.3 dB nominal
3.5 to 7.0 GHz ±0.5 dB nominal
6.9 to 13.6 GHz ±0.7 dB nominal
13.5 to 26.5 GHz ±0.7 dB nominal
Percentile (≈ 2σ)
Total absolute amplitude accuracy (10 dB attenuation, 20 to 30 °C, 1 Hz ≤ RBW ≤ 1 MHz, input signal –10 to –50 dBm, all settings
auto-coupled except Auto Swp Time = Accy, any reference level, any scale, σ = nominal standard deviation)
At 50 MHz ±0.40 dB
At all frequencies ±(0.40 dB + frequency response)
9 kHz to 3.6 GHz ±0.30 dB (95th Percentile ≈ 2σ)
Preamp on (Option P03) 100 kHz to 3.6 GHz ±(0.39 dB + frequency response)
Input voltage standing wave ratio (VSWR) (≥10 dB input attenuation)
10 MHz to 3.6 GHz < 1.2:1 nominal
3.6 to 7.0 GHz < 1.5:1 nominal
7.0 to 13.6 GHz < 1.6:1 nominal
13.6 to 26.5 GHz < 1.9:1 nominal
Preamp on (Option P03) 10 MHz to 3.6 GHz < 1.7:1 nominal
(0 dB attenuation)
8
Amplitude Accuracy and Range Specifications (continued)
Resolution bandwidth switching uncertainty (referenced to 30 kHz RBW)
1 Hz to 1.5 MHz RBW ±0.08 dB
1.6 MHz to 3 MHz RBW ±0.10 dB
4, 5, 6, 8 MHz RBW ±1.0 dB
Reference level
Range
Log scale –170 to +23 dBm in 0.01 dB steps
Linear scale Same as Log (707 pV to 3.16 V)
Accuracy 0 dB
Display scale switching uncertainty
Switching between linear and log 0 dB
Log scale/div switching 0 dB
Display scale fidelity
Between –10 dBm and –80 dBm input ±0.15 dB total
mixer level
Trace detectors
Normal, peak, sample, negative peak, log power average, RMS average, and voltage average
Preamplifier
Frequency range Option P03 100 kHz to 3.6 GHz
Gain 100 kHz to 3.6 GHz +20 dB nominal
Noise figure 100 kHz to 3.6 GHz 11 dB nominal
9
Dynamic Range Specifications
1 dB gain compression (two-tone)
Total power at input mixer
20 MHz to 26.5 GHz +9 dBm nominal
Preamp on (Option P03) 10 MHz to 3.6 GHz –10 dBm nominal
Displayed average noise level (DANL)
(Input terminated, sample or average detector, averaging type = Log, 0 dB input attenuation, IF Gain = High, 20 to 30 °C)
Specification Typical
Preamp off 1 to 10 MHz –145 dBm –149 dBm
10 MHz to 2.1 GHz –146 dBm –150 dBm
2.1 to 3.6 GHz –144 dBm –148 dBm
3.6 to 7.0 GHz –144 dBm –149 dBm
7.0 to 13.6 GHz –143 dBm –147 dBm
13.6 to 17.1 GHz –137 dBm –142 dBm
17.1 to 20.0 GHz –137 dBm –142 dBm
20.0 to 26.5 GHz –134 dBm –140 dBm
Preamp on (Option P03) 10 MHz to 2.1 GHz –160 dBm –162 dBm
2.1 to 3.6 GHz –159 dBm –160 dBm
Spurious responses
Residual responses (Input 200 kHz to 8.4 GHz (swept) –100 dBm
terminated and 0 dB attenuation) Zero span or FFT or other frequencies –100 dBm nominal
LO related spurious 10 MHz to 3.6 GHz –90 dBc typical
(f > 600 MHz from carrier)
Other spurious
First RF order
f ≥ 10 MHz from carrier –68 dBc
Higher RF order
f ≥ 10 MHz from carrier –80 dBc
10
Dynamic Range Specifications (continued)
relative
to
mixer
level
(dB)
Nominal Dynamic Range Bands 1-4
-130
-120
-110
-100
-90
-80
-70
-60
-80 -70 -60 -50 -40 -30 -20 -10
Mixer Level (dBm)
DANL and distortion
relative to mixer level (dB)
DANL
(1 Hz RBW)
2nd Harmonic
Distortion
3rd Order
Intermodulation
22–26.5 GHz3.6–26.5 GHz
1
3
.6
–
2
6
.5
G
H
z
3.6–13.6 GHz
13.6–22 GHz
3.6–13.6 GHz
Second harmonic distortion (SHI)
Mixer level SHI
10 MHz to 1.8 GHz –15 dBm +45 dBm
1.8 to 7.0 GHz –15 dBm +65 dBm
7.0 to 11.0 GHz –15 dBm +55 dBm
11.0 to 13.25 GHz –15 dBm +50 dBm
Third-order intermodulation distortion (TOI) (two -30 dBm tones at input mixer with tone separation > 5 times IF prefilter bandwidth,
20 to 30 degC, see Specifications Guide for IF prefilter bandwidths)
Distortion TOI Typical
100 to 400 MHz –80 dBc +10 dBm +14 dBm
400 MHz to 1.7 GHz –82 dBc +11 dBm +15 dBm
1.7 to 3.6 GHz –86 dBc +13 dBm +17 dBm
3.6 to 7.0 GHz –82 dBc +11 dBm +15 dBm
7.0 to 13.6 GHz –82 dBc +11 dBm +15 dBm
13.6 to 26.5 GHz –78 dBc + 9 dBm +14 dBm
Preamp on (Option P03) 30 MHz to 3.6 GHz 0 dBm nominal (two –45 dBm tones at preamp input)
-60
-70
-80
-90
-100
-110
-120
-130
Figure 1. Nominal dynamic range – Band 0, for second and third
order distortion, 9 kHz to 3.6 GHz
Nominal Range at 1 GHz
DANL
(1 Hz RBW)
2nd Harmonic
Distortion
3rd Order
Intermodulation
-80 -70 -60 -50 -40 -30 -20 -10
Mixer Level (dBm)
Figure 2. Nominal dynamic range – Bands 1 to 4, second and
third order distortion, 3.6 GHz to 26.5 GHz
Nominal phase noise at different center frequencies with RBW selectivity curves
Optimized phase noise, versus offset frequency
–20
–30
–40
–50
RBW = 100 Hz
RBW = 1 kHz
–60
–70
–80
–90
–100
–110
CF = 600 MHz
CF = 10.2 GHz
–120
SSB phase noise (dBc/Hz)
–130
–140
–150
–160
–170
0.010.1110100100010000
RBW = 1 kHz
RBW = 100 kHz
CF = 25.2 GHz
Freq (kHz)
Figure 3. Nominal phase noise at different center frequencies (with Option PFR)
12
Power Suite Measurement Specifications
Channel power
Amplitude accuracy, W-CDMA or IS95 ±0.94 dB (±0.30 dB 95th percentile)
(20 to 30 °C, attenuation = 10 dB)
Occupied bandwidth
Frequency accuracy ± [span/1000] nominal
Adjacent channel power
Accuracy, W-CDMA (ACLR) (at specific
mixer levels and ACLR ranges) Adjacent Alternate
MS ±0.22 dB ±0.34 dB
BTS ±1.07 dB ±1.00 dB
Dynamic range (typical)
Without noise correction –68 dB –74 dB
With noise correction –73 dB –76 dB
Offset channel pairs measured 1 to 6
ACP speed (fast method). Data 14 ms nominal (σ = 0.2 dB)
measurement and transfer time
Multiple number of carriers measured Up to 12
Power statistics CCDF
Histogram resolution 0.01 dB
13
Power Suite Measurement Specifications (continued)
Burst power
Methods Power above threshold, power within burst width
Results Single burst output power, average output power, maximum power, minimum power within
burst, burst width
Spurious emission
W-CDMA (1 to 3.6 GHz)
Table driven spurious signals; search
across regions.
Dynamic range 91.9 dB (97.1 dB typical)
Absolute sensitivity –79.4 dBm (–85.4 dBm typical)
Spectrum emission mask (SEM)
cdma2000® (750 kHz offset)
Relative dynamic range (30 kHz RBW) 74.0 dB (81.0 dB typical)
Absolute sensitivity –94.7 dBm (–100.7 dBm typical)
Relative accuracy ±0.11 dB
3GPP W-CDMA (2.515 MHz offset)
Relative dynamic range (30 kHz RBW) 76.5 dB (83.9 dB typical)
Absolute sensitivity –94.7 dBm (–100.7 dBm typical)
Relative accuracy ±0.12 dB
14
General Specifications
Temperature range
Operating 5 to +50 °C
Storage –40 to +65 °C
EMC
Complies with European EMC Directive 89/336/EEC, amended by 93/68/EEC
• IEC/EN 61326
• CISPR Pub 11 Group 1, class A
• AS/NZS CISPR 11:2002
• ICES/NMB-001
Safety
Complies with European Low Voltage Directive 73/23/EEC, amended by 93/68/EEC
• IEC/EN 61010-1
• Canada: CSA C22.2 No. 61010-1
• USA: UL 61010-1
Audio noise
Acoustic noise emission Geraeuschemission
LpA <70 dB LpA <70 dB
Operator position Am Arbeitsplatz
Normal position Normaler Betrieb
Per ISO 7779 Nach DIN 45635 t.19
Environmental stress
Samples of this product have been type tested in accordance with the Agilent Environmental Test Manual and verified to be robust against
the environmental stresses of storage, transportation and end-use; those stresses include but are not limited to temperature, humidity, shock,
vibration, altitude and power line conditions. Test methods are aligned with IEC 60068-2 and levels are similar to MIL-PRF-28800F Class 3.
15
General Specifications (continued)
Power requirements
Voltage and frequency (nominal) 100/120 V, 50/60 Hz
220/240 V, 50/60 Hz
Power consumption
On < 260 watts
Standby < 20 watts
Data storage
Internal 40 GB nominal
External Supports USB 2.0 compatible memory devices
Weight (without options)
Net 16 kg (35 lbs) nominal
Shipping 28 kg (62 lbs) nominal
Dimensions
Height 177 mm (7.0 in)
Width 426 mm (16.8 in)
Length 368 mm (14.5 in)
Warranty
The EXA signal analyzer is supplied with a one-year warranty.
Calibration cycle
The recommended calibration cycle is one year. Calibration services are available through Agilent service centers.
16
Inputs and Outputs
Front panel
RF input
Connector Type-N female, 50 Ω nominal
Probe power
Voltage/current +15 Vdc, ±7% at 150 mA max nominal
–12.6 Vdc, ±10% at 150 mA max nominal
USB 2.0 ports
Master (2 ports)
Standard Compatible with USB 2.0
Connector USB Type-A female
Output current 0.5 A nominal
Rear panel
10 MHz out
Connector BNC female, 50 Ω nominal
Output amplitude ≥ 0 dBm nominal
Frequency 10 MHz ± (10 MHz x frequency reference accuracy)
Ext Ref In
Connector BNC female, 50 Ω nominal
Input amplitude range –5 to +10 dBm nominal
Input frequency 10 MHz nominal
Frequency lock range ± 5 x 10
Trigger 1 and trigger 2 inputs
Connector BNC female
Impedance > 10 kΩ nominal
Trigger level range –5 to +5 V
Trigger 1 and trigger 2 outputs
Connector BNC female
Impedance 50 Ω nominal
Level 5 V TTL nominal
–6
of specified external reference input frequency
17
Inputs and Outputs (continued)
Rear panel (continued)
Sync (reserved for future use)
Connector BNC female
Monitor output
Connector VGA compatible, 15-pin mini D-SUB
Format XGA (60 Hz vertical sync rates, non-interlaced) Analog RGB
Resolution 1024 x 768
Noise source drive +28 V (pulsed)
(reserved for future use)
Connector BNC female
SNS series noise source (reserved for future use)
Digital bus (reserved for future use)
Connector MDR-80
Anolog out (reserved for future use)
Connector BNC female
USB 2.0 ports
Master (4 ports)
Standard Compatible with USB 2.0
Connector USB Type-A female
Output current 0.5 A nominal
Slave (1 port)
Standard Compatible with USB 2.0
Connector USB Type-B female
Output current 0.5 A nominal
R-51B-001-3C 1 year return-to-Agilent warranty extended to 3 years
Calibration
R-50C-011-3 Inclusive calibration plan, 3 year coverage
R-50C-013-3 Inclusive calibration plan and cal data, 3 year coverage
4. Options not available in all countries
4
19
Literature Resources
Publication title Publication number
Agilent MXA Signal Analyzer
Agilent MXA Signal Analyzer, Brochure 5989-5047EN
Agilent MXA Signal Analyzer, Data Sheet 5989-4942EN
Agilent MXA Signal Analyzer, Configuration Guide 5989-4943EN
Agilent EXA Signal Analyzer
Agilent EXA Signal Analyzer, Brochure 5989-6527EN
Agilent EXA Signal Analyzer, Data Sheet 5989-6529EN
Agilent EXA Signal Analyzer, Configuration Guide
Agilent X-Series Signal Analyzers
Agilent X-Series Signal Analyzer (MXA/EXA), Demonstration Guide 5989-6126EN
Agilent X-Series Signal Analyzers (MXA/EXA) W-CDMA, HSDPA/HSUPA, Technical Overview 5989-5352EN
Agilent X-Series Signal Analyzers (MXA/EXA) 802.16 OFDMA, Technical Overview 5989-5353EN
Agilent X-Series Signal Analyzers (MXA/EXA) Phase Noise, Technical Overview 5989-5354EN
Agilent X-Series Signal Analyzers (MXA/EXA) GSM/EDGE, Technical Overview
Using Agilent X-Series Signal Analyzers (MXA/EXA) forMeasuring and Troubleshooting 5989-4944EN
Digitally Modulated Signals, Application Note
Using Agilent X-Series Signal Analyzers (MXA/EXA) Preselector Tuning for Amplitude
in Microwave Spectrum Analysis
Maximizing Measurement Speed with Agilent X-Series Signal Analyzers (MXA/EXA), Application
, Application Note
Accuracy 5989-4946EN
Note 5989-4947EN
5989-6531EN
5989-6532EN
20
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