Agilent
E4438C ESG Vector
Signal Generator
Data Sheet
Notice
Please contact Agilent Technologies
for the latest information
or check the ESG Web site at
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Introduction
Agilent Technologies E4438C ESG vector signal generator incorporates a broad array of
capabilities for testing both analog and digital communications systems. Flexible options
provide test solutions that will evaluate the performance of nearly all current and proposed
air interface standards. Many test functions can be customized to meet the needs of
proprietary and other nonstandard wireless protocols as well. You can configure your
instrument to address a wide variety of tests—from altering nearly every aspect of a
digital signal or signal operating environment, to creating experimental signals. This
flexibility, along with an architecture that accepts future enhancements makes the
E4438C ESG vector signal generator an excellent choice for wireless communications
system testing now and in the future.
Choose your required frequency range as an Option when configuring your
E4438C ESG vector signal generator. Please refer to the E4438C Configuration Guide
for complete ordering information. Literature number 5988-4085EN.
E4438C ESG
vector signal generator
Definitions
Specifications (spec): Specifications describe the instrument’s warranted performance
and apply after a 45 minute warm-up. All specifications are valid over the signal generators
entire operating/environmental range unless otherwise noted. Supplemental character-
istics, denoted typical or nominal, provide additional [nonwarranted] information useful
in applying the instrument. Column headings labeled “standard” imply that this level of
performance is standard, without regard for option configuration. If a particular option
configuration modifies the standard performance, that performance is given in a separate
column.
Typical (typ): performance is not warranted. It applies at 25°C. 80% of all products meet
typical performance.
Nominal (nom): values are not warranted. They represent the value of a parameter that
is most likely to occur; the expected or mean value. They are included to facilitate the
application of the product.
Standard (std): No options are included when referring to the signal generator unless
noted otherwise.
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Key Features
Key standard features
• Expandable architecture
• Broad frequency coverage
• Choice of electronic or mechanical attenuator
• Superior level accuracy
• Wideband FM and FM
• Step and list sweep, both frequency and power
• Built-in function generator
• Lightweight, rack-mountable
• 1-year standard warranty
• 2-year calibration cycle
• Broadband analog I/Q inputs
• I/Q adjustment capabilities and internal calibration routine
• Excellent modulation accuracy and stability
• Coherent carrier output up to 4 GHz
Optional features
• Internal baseband generator, 8 or 64 MSa (40 or 320 MB) memory with
digital bus capability
• ESG digital input or output connectivity with N5102A Baseband Studio
digital signal interface module
• 6 GB internal hard drive
• Internal bit error rate (BER) analyzer
• High-stability time-base
• Enhanced phase noise performance
• High output power with mechanical attenuator
• Move all front panel connectors to the rear panel
• 3GPP W-CDMA FDD personality
• cdma2000 and IS-95-A personality
• TDMA personality (GSM, EDGE, GPRS, EGPRS, NADC, PDC, PHS, DECT, TETRA)
• Calibrated noise (AWGN) personality
• GPS personality
• Signal Studio for 1xEV-DO/1xEVDO Rev A
• Signal Studio for 1xEV-DV and cdma2000
• Signal Studio for 802.11 WLAN
• Signal Studio for Bluetooth™
• Signal Studio for enhanced multitone
• Signal Studio for HSDPA over W-CDMA
• Signal Studio for TD-SCDMA
• Signal Studio for Noise Power Ratio (NPR)
• Signal Studio for S-DMB
• Signal Studio for T-DMB
• Signal Studio for pulse building
• Signal Studio for jitter injection
• Signal Studio toolkit
• Signal Studio for 802.16-2004 (WiMAX)
• Signal Studio for 802.16 OFDMA
• Signal Studio for DVB
This document contains the measured specifications for the instrument platform
and personalities. It does not contain a full list of features for all optional
personalities. Please consult the individual product overviews for each
personality for a full listing of all features and capabilities. These are listed
at the end of this document.
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Specifications for Frequency and Power Characteristics
Frequency
Frequency range
Option1
501
250 kHz to 1 GHz
502
250 kHz to 2 GHz
503
250 kHz to 3 GHz
504
250 kHz to 4 GHz
506
250 kHz to 6 GHz [requires Option UNJ]
Frequency minimum
100 kHz2
Frequency resolution
0.01 Hz
Frequency switching speed3
Option 501-504
Freq.4 Freq./Amp.5
Digital modulation
With Option UNJ
Freq.4 Freq./Amp.5
Option 506
Freq.4 Freq./Amp.5
on
(< 35 ms) (< 49 ms)
(< 35 ms) (< 52 ms)
(< 9 ms (< 9 ms)
(< 41 ms) (< 57 ms)
(< 16 ms (< 17 ms)
off
(< 9 ms) (< 9 ms)
[For hops < 5 MHz within a band]
Digital modulation
on
(< 9 ms) (< 9 ms)
(< 9 ms) (< 9 ms)
(< 9 ms) (< 9 ms)
(< 33 ms) (< 53 ms)
(< 12 ms) (< 14 ms)
off
(< 9 ms) (< 9 ms)
Phase offset
Phase is adjustable remotely [LAN, GPIB, RS-232] or via front panel
in nominal 0.1° increments
Sweep modes
Operating modes Frequency step, amplitude step and arbitrary list
Dwell time 1 ms to 60 s
Number of points 2 to 65,535
Internal reference oscillator
Stability3
Standard
1 ppm/yr
With Option UNJ or 1E5
Aging rate
<
<
<
0.1 ppm/yr or
0.0005 ppm/day after 45 days
Temp [0 to 55° C]
Line voltage
Line voltage range
(< 1 ppm)
(< 0.1 ppm)
(+5% to –10%)
(< 0.05 ppm)
(< 0.002 ppm)
(+5% to –10%)
RF reference output
Frequency
10 MHz
Amplitude
4 dBm 2 dB
RF reference input requirements
Standard
With Option UNJ or 1E5
Frequency
1, 2, 5, 10 MHz 10 ppm 1, 2, 5, 10 MHz .2 ppm
Amplitude
–3.5 dBm to 20 dBm
Input impedance
50 Ω
1. The E4438C is available as a vector platform only. For analog models refer to the E4428C.
2. Performance below 250 kHz not guaranteed.
3. Parentheses denote typical performance.
4. To within 0.1 ppm of final frequency above 250 MHz or within 100 Hz below 250 MHz.
5. Frequency switching time with the amplitude settled within 0.1 dB.
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Specifications for Frequency and Power Characteristics
Output power
Power
Option 501-504
250 kHz to 250 MHz +11 to –136 dBm
> 250 MHz to 1 GHz +13 to –136 dBm
With Option UNB
+15 to –136 dBm
+17 to –136 dBm
+16 to –136 dBm
+13 to –136 dBm
N/A
Option 506
+12 to –136 dBm
+14 to –136 dBm
+13 to –136 dBm
+10 to –136 dBm
+10 to –136 dBm
> 1 to 3 GHz
> 3 to 4 GHz
> 4 to 6 GHz
+10 to –136 dBm
+7 to –136 dBm
N/A
Typical maximum available power
26
24
Option UNB
Option 506
22
20
18
16
14
12
10
Option 501-504
0
1000
2000
3000
4000
5000
6000
Frequency [MHz]
Level resolution
0.02 dB
Level range with Attenuator Hold active
Option 501-504 With Option UNB
Option 506
24 dB
23 dB
20 dB
20 dB
250 kHz to 1 GHz 23 dB
27 dB
26 dB
23 dB
N/A
> 1 to 3 GHz
> 3 to 4 GHz
> 4 to 6 GHz
20 dB
17 dB
N/A
Level accuracy [dB]
Option 501-5041,2
Power level
–50 to
–110 dBm
0.5
0.6
0.7
+7 to
–50 dBm
250 kHz to 2.0 GHz 0.5
–110 to
–127 dBm
0.7
0.8
0.9
< –127 dBm
( 1.5)
( 2.5)
( 2.5)
2.0 to 3 GHz
3 to 4 GHz
0.6
0.7
With Option UNB2,3
Power level
+10 to
–50 dBm
250 kHz to 2.0 GHz 0.5
–50 to
–110 dBm
0.7
0.8
0.9
–110 to
–127 dBm
0.8
1.0
1.3
< –127 dBm
( 1.5)
( 2.5)
( 2.5)
2.0 to 3 GHz
3 to 4 GHz
0.6
0.8
1. Quoted specifications for 23 °C 5 °C. Accuracy
degrades by less than 0.03 dB/°C over full
temperature range. Accuracy degrades by 0.3 dB
above +7 dBm, and by 0.8 dB above +10 dBm.
2. Parentheses denote typical performance.
3. Quoted specifications for 23 °C 5 °C. Accuracy
degrades by less than 0.03 dB/°C over full
temperature range. Accuracy degrades by 0.2 dB
above +10 dBm, and by 0.8 dB above +13 dBm.
4. Quoted specifications for 23 °C 5 °C. Accuracy
degrades by less than 0.02 dB/°C over full
temperature range. Accuracy degrades by 0.2 dB
above +7 dBm.
Option 5062, 4
Power level
+7 to
–50 dBm
–50 to
–110 dBm
0.8
–110 to
–127 dBm
0.8
< –127 dBm
250 kHz to 2.0 GHz 0.6
( 1.5)
( 2.5)
( 2.5)
2.0 to 3 GHz
3 to 4 GHz
4 to 6 GHz
0.6
0.8
0.8
0.8
0.9
0.9
1.0
1.5
( 1.5)
6
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Specifications for Frequency and Power Characteristics
Level accuracy with digital modulation turned on [relative to CW]
Conditions: [with PRBS modulated data;
if using I/Q inputs, √ I2 + Q2 = 0.5 Vrms, nominal]1
Level accuracy with ALC on
π/4 DQPSK or QPSK formats
Conditions: With raised cosine or root-raised cosine filter and a ≥ 0.35;
with 10 kHz ≤ symbol rate ≤ 1 MHz; at RF freq ≥ 25 MHz;
power ≤ max specified –3 dB
Option 501-504
Option 506
0.15 dB
0.25 dB
Constant amplitude formats [FSK, GMSK, etc]
Option 501-504
Option 506
0.1 dB
0.15 dB
Level accuracy with ALC off 1, 2 ( 0.15 dB) [relative to ALC on]
Conditions:
After power search is executed, with burst off.
Level switching speed1
Option 501-504 With Option UNB Option 506
Normal operation [ALC on]
When using power search manual (< 83 ms)
When using power search auto (< 103 ms)
(< 15 ms)
(< 21 ms)
(< 95 ms)
(< 119 ms)
(< 21 ms)
(< 95 ms)
(< 119 ms)
1. Parentheses denote typical performance.
2. When applying external I/Q signals with ALC off, output level will vary directly with I/Q input level.
7
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Specifications for Frequency and Power Characteristics
Repeatability and linearity
Repeatability
1900 MHz CW, 5 dBm, attenuator hold On, ALC On
Repeatability
1900 MHz CW, 5 dBm, attenuator hold Off, ALC Off
0.1
0.09
0.08
0.07
0.06
0.05
0.04
0.03
0.02
0.01
0
0.5
0.45
0.4
Typical unit
Limits
0.35
0.3
0.25
0.2
0.15
0.10
0.05
0
Typical unit
Limits
20
40
1
2
3
4
5
6
7
8
9
10
0
60
80
100
120
0
Elapsed time (minutes)
Elapsed time (minutes)
Repeatability measures the ability of the instrument to return to a given power setting after a
random excursion to any other frequency and power setting. It is a relative measurement that
reflects the difference in dB between the maximum and minimum power readings for a given
setting over a specific time interval. It should not be confused with absolute power accuracy,
1
which is measured in dBm.
Relative level accuracy
Initial power 7 dBm
0.4
Lower limit
Lower STD deviation
Mean
0.3
Upper STD deviation
Upper limit
0.2
0.1
0
-0.1
-0.2
-0.3
-0.4
0
-20
-40
-60
-80
-100
-120
-140
Final power (dBm)
Relative level accuracy measures the accuracy of a step change from any power level to any
1
other power level. This is useful for large changes (i.e. 5 dB steps).
1. Repeatability and relative level accuracy are typical for all frequency ranges.
8
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Specifications for Frequency and Power Characteristics
Linearity
CW or GSM, 850 MHz, attenuator hold On, ALC On
0.3
Typical STD unit
0.25
Linearity measures the accuracy of small changes while the attenuator
Typical Option UNB unit
Typical Option 506 unit
Lower limit
0.2
0.15
0.1
is held in a steady state (to avoid power glitches). This is useful for fine
1
resolution changes.
Upper limit
0.05
0
-0.05
-0.1
-0.15
-0.2
-0.25
-0.3
-0.35
-0.4
Limit is undefined above 13 dBM
for STD units. Limit line applies
only to UNB and 506 units.
-10
-8
-6
-4
-2
0
2
4
6
8
10
14
16
12
Amplitude (dBm)
Linearity
Linearity
W-CDMA 2200 MHz, attenuator hold On, ALC On
CW or GSM, 1900 MHz, attenuator hold On, ALC On
0.3
0.3
0.25
0.2
0.25
Typical STD unit
Typical Option 506 unit
Typical Option UNB unit
Lower limit
Typical STD unit
Typical Option UNB unit
Typical Option 506 unit
Lower limit
0.2
0.15
0.1
0.15
0.1
Upper limit
Upper limit
0.05
0
0.05
0
-0.05
-0.1
-0.15
-0.2
-0.25
-0.3
-0.05
-0.1
-0.15
-0.2
-0.25
-0.3
-8
-6
-10
-8
-6
-4
-2
0
2
4
6
8
10
12
14
16
-10
-4
-2
0
2
4
6
8
Amplitude (dBm)
Amplitude (dBm)
Linearity
Linearity
CW or GSM 5750 MHz, attenuator hold On, ALC On
W-CDMA 5750 MHz, attenuator hold On, ALC On
0.3
0.25
0.2
0.3
0.25
0.2
Lower limit
Upper limit
Typical STD unit
Mean,Option 506 unit
Lower STD deviation
Upper STD deviation
Lower limit
Lower STD deviation
Upper STD deviation
Upper limit
0.15
0.1
0.15
0.1
0.05
0
0.05
0
-0.05
-0.1
-0.15
-0.2
-0.25
-0.3
-0.05
-0.1
-0.15
-0.2
-0.25
-0.3
-8
-6
-4
-2
0
2
4
6
8
10
-10
-10
-8
-6
-4
-2
0
4
6
8
2
Amplitude (dBm)
Amplitude (dBm)
1. Repeatability and relative level accuracy are typical for all frequency ranges.
9
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Specifications for Frequency and Power Characteristics
SSB Phase noise [at 20 kHz offset]1
Spectral purity
Standard
With Option UNJ
at 500 MHz
at 1 GHz
at 2 GHz
at 3 GHz
at 4 GHz
at 6 GHz
(< –124 dBc/Hz)
< –135 dBc/Hz, (< –138 dBc/Hz)
< –130 dBc/Hz, (< –134 dBc/Hz)
< –124 dBc/Hz, (< –128 dBc/Hz)
< –121 dBc/Hz, (< –125 dBc/Hz)
< –118 dBc/Hz, (< –122 dBc/Hz)
< –113 dBc/Hz, (< –117 dBc/Hz)
(< –118 dBc/Hz)
(< –112 dBc/Hz)
(< –106 dBc/Hz)
(< –106 dBc/Hz)
N/A
Residual FM1 [CW mode, 0.3 to 3 kHz BW, CCITT, rms]
Option UNJ
Standard
< N x 1 Hz (< N x 0.5 Hz)2
Phase noise mode 1
Phase noise mode 2
< N x 2 Hz
< N x 4 Hz
Harmonics1, 3 [output level ≤ +4 dBm, ≤ +7.5 dBm Option UNB, ≤ +4.5 dBm Option 506]
< –30 dBc above 1 GHz, (< –30 dBc 1 GHz and below)
Nonharmonics1, 4 [≤ +7 dBm output level, ≤ +4 dBm Option 506]
Standard5
With Option UNJ6
> 3 kHz
< 10 kHz
offset
> 3 kHz
offset
> 10 kHz
offset
> 10kHz
offset
250 kHz to 250 MHz < –53 dBc (< –68 dBc) (< –58 dBc) < –65 dBc (< –58 dBc)
250 MHz to 500 MHz < –59 dBc (< –74 dBc) (< –81 dBc) < –80 dBc < –80 dBc
500 MHz to 1 GHz
1 to 2 GHz
2 to 4 GHz
< –53 dBc (< –68 dBc) (< –75 dBc) < –80 dBc < –80 dBc
< –47 dBc (< –62 dBc) (< –69 dBc) < –74 dBc < –74 dBc
< –41 dBc (< –56 dBc) (< –63 dBc) < –68 dBc < –68 dBc
4 to 6 GHz
N/A
N/A
N/A
< –62 dBc < –62 dBc
Subharmonics
Standard
None
< –40 dBc
With Option UNJ
≤ 1 GHz
>1 GHz
None
None
Jitter in µUI1, 7, 8
Carrier
SONET/SDH
data rates
155 MB/s
622 MB/s
2488 MB/s
rms jitter
bandwidth
100 Hz to 1.5 MHz
1 kHz to 5 MHz
5 kHz to 15 MHz
Standard With option UNJ
frequency
155 MHz
622 MHz
(µUI rms)
(359)
(µUI rms)
(78)
(158)
(46)
2.488 GHz
(384)
(74)
Jitter in seconds1, 7, 8
Carrier
SONET/SDH
rms jitter
bandwidth
100 Hz to 1.5 MHz
1 kHz to 5 MHz
5 kHz to 15 MHz
Standard With option UNJ
frequency
155 MHz
622 MHz
2.488 GHz
data rates
155 MB/s
622 MB/s
2488 MB/s
(2.4 ps)
(255 fs)
(155 fs)
(0.6 ps)
(74 fs)
(30 fs)
1. Parentheses denote typical performance.
2. Refer to frequency bands on page 12 for N values.
3. Harmonic performance outside the operating range of the instrument is typical.
4. Spurs outside the operating range of the instrument are not specified.
5. Specifications apply for FM deviations < 100 kHz and are not valid on FM. For non-constant amplitude formats, unspecified spur levels occur up to the
second harmonic of the baseband rate.
6. Specifications apply for CW mode only.
7. Calculated from phase noise performance in CW mode only at -2.5 dBm for standard instruments, -0.5 dBm with Option 506, and +2.5 dBm with Option UNB.
8. For other frequencies, data rates, or bandwidths, please contact your sales representative.
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Specifications for Frequency and Power Characteristics
Characteristic SSB phase noise
With Option 1E5
With Option UNJ
I/Q on
I/Q on
CW mode
CW mode
fc = 850 MHz
fc = 850 MHz
I/Q on
I/Q on
CW mode
CW mode
fc = 1900 MHz
fc = 1900 MHz
I/Q on
I/Q on
CW mode
CW mode
fc = 2200 MHz
fc = 2200 MHz
I/Q on or CW mode
PN mode 1
PN mode 2
Phase noise modes 1 and 2 at fc = 900 MHz
fc = 5.7 GHz [Option 506]
11
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Specifications for Analog Modulation
Frequency bands
Band
Frequency range
N number
1
2
3
4
5
6
250 kHz to ≤ 250 MHz
> 250 MHz to ≤ 500 MHz
> 500 MHz to ≤ 1GHz
> 1 to ≤ 2 GHz
1
0.5
1
2
4
> 2 to ≤ 4 GHz
> 4 to ≤ 6 GHz
8
Frequency modulation1,2
Maximum deviation3
Resolution
Standard
With Option UNJ
N x 8 MHz N x 1 MHz
0.1% of deviation or 1 Hz,
whichever is greater
Modulation frequency rate4 [deviation = 100 kHz]
Coupling
1 dB bandwidth
3 dB bandwidth
FM path 1[DC]
FM path 2 [DC]
FM path 1 [AC]
FM path 2 [AC]
DC to 100 kHz
DC to 100 kHz
20 Hz to 100 kHz
20 Hz to 100 kHz
(DC to 10 MHz)
(DC to 0.9 MHz)
(5 Hz to 10 MHz)
(5 Hz to 0.9 MHz)
Deviation accuracy3 [1 kHz rate, deviation < N x 100 kHz]
3.5% of FM deviation + 20 Hz
<
Carrier frequency accuracy relative to CW in DCFM3, 5
0.1% of set deviation + (N x 1 Hz)
Distortion3 [1 kHz rate, dev.= N x 100 kHz]
< 1%
FM using external inputs 1 or 2
Sensitivity
1 Vpeak for indicated deviation
Input impedance 50 Ω, nominal
FM path 1 and FM path 2 are summed internally for composite modulation.
The FM 2 path is limited to a maximum rate of 1 MHz. The FM 2 path must be
set to a deviation less than FM 1 path.
1. All analog performance above 4 GHz is typical.
2. For non-Option UNJ units, specifications apply in phase noise mode 2 [default].
3. Refer to frequency bands on this page to compute specifications.
4. Parentheses denote typical performance.
5. At the calibrated deviation and carrier frequency, within 5 °C of ambient temperature at time of calibration.
12
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Specifications for Analog Modulations
Phase modulation1, 2
Resolution
0.1% of set deviation
Modulation frequency response3, 4
Standard
Maximum
Allowable rates [3 dB BW]
Mode
Normal BW
High BW6
deviation
N x 80 rad
N x 8 rad
N x 1.6 rad
FM path 1
FM path 2
DC to 100 kHz
(DC to 1 MHz)
(DC to 10 MHz)
DC to 100 kHz
(DC to 0.9 MHz)
(DC to 0.9 MHz)
With Option UNJ
Maximum
Allowable rates [3 dB BW]
Mode
deviation
FM path 1
FM path 2
Normal BW
High BW
N x 10 radians
N x 1 radians
DC to 100 kHz
(DC to 1 MHz)
DC to 100 kHz
(DC to 0.9 MHz)
Deviation accuracy [1 kHz rate, Normal BW mode]
5% of deviation + 0.01 radians
<
Distortion3 [1 kHz rate, deviation < 80 radians on standard model, < 10 N radians on
Option UNJ models, Normal BW mode]
< 1%
FM using external inputs 1 or 2
Sensitivity
Input impedance 50 Ω, nominal
Paths FM path 1 and FM path 2 are summed internally for composite
1 Vpeak for indicated deviation
modulation. The FM 2 path is limited to a maximum rate of
1 MHz. FM path 2 must be set to a deviation less than the FM
path 1.
Range
0 to 100%
0.1%
Amplitude modulation1, 6
[fc > 500 kHz]
Resolution
Rates [3 dB bandwidth]
DC coupled
0 to 10 kHz
AC coupled
10 Hz to 10 kHz
Accuracy4, 7
1 kHz rate
<
(6% of setting +1%)
Distortion4, 7 [1 kHz rate, THD]
Option 501-504/Option UNJ
Option 506
< 1.5%
(< 5%)
30% AM
90% AM
< 1.5%
(< 4%)
AM using external inputs 1 or 2
Sensitivity
1 Vpeak to achieve indicated depth
Input impedance 50 Ω, nominal
Paths
AM path 1 and AM path 2 are summed internally for
composite modulation.
1. All analog performance above 4 GHz is typical.
2. For non-Option UNJ units, specifications apply in phase noise mode 2 [default].
3. Refer to frequency bands on page 12 for N.
4. Parentheses denote typical performance.
5. Bandwidth is automatically selected based on deviation.
6. AM is typical above 3 GHz or if wideband AM or I/Q modulation is simultaneously enabled.
7. Peak envelope power of AM must be 3 dB less than maximum output power below 250 MHz.
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Specifications for Analog Modulation
Rates [1 dB bandwidth]1
ALC on
Wideband AM
(400 Hz to 40 MHz)
(DC to 40 MHz)
ALC off
Wideband AM using external I input only
Sensitivity 0.5 V = 100%
Input impedance 50 Ω, nominal
Pulse modulation
On/off ratio1
≤ 4 GHz
> 4 GHz
> 80 dB
(> 64 dB)
Rise/fall times1
(150 ns)
Minimum width1
ALC on
(2 µs)
ALC off
(0.4 µs)
Pulse repetition frequency1
ALC on
(10 Hz to 250 kHz)
ALC off
(DC to 1.0 MHz)
Level accuracy1, 2 [relative to CW at ≤ 4 dBm standard, ≤ 7.5 dBm Option UNB,
≤ 4.5 dBm Option 506]
(< 1 dB)
Pulse modulation using external inputs
Input voltage
RF on
RF off
> +0.5 V, nominal
< +0.5 V, nominal
Input impedance 50 Ω, nominal
Internal pulse generator
Square wave rate 0.1 Hz to 20 kHz
Pulse
Period
Width
Resolution
8 µs to 30 seconds
4 µs to 30 seconds
2 µs
1. Parentheses denote typical performance.
2. With ALC off, specifications apply after the execution of power search. With ALC on, specifications apply for pulse repetition rates ≤ 10 kHz and pulse widths ≥ 5 µs.
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Specifications for Analog Modulation
Internal modulation source
Waveforms
Sine, square, ramp, triangle, pulse, noise
Provides modulating signal for FM, AM,
pulse and phase modulation signals, and
provides LF output source for basic function
generator capability.
Rate range
Sine
0.1 Hz to 100 kHz
0.1 Hz to 20 kHz
Square, ramp, triangle
Resolution
0.1 Hz
Frequency accuracy
Same as RF reference source
Swept sine mode [frequency, phase continuous]
Operating modes
Frequency range
Sweep time
Triggered or continuous sweeps
0.1 Hz to 100 kHz
1 ms to 65 sec
1 ms
Resolution
Dual sinewave mode
Frequency range
Amplitude ratio
0.1 Hz to 100 kHz
0 to 100%
Amplitude ratio resolution 0.1%
LF audio out mode
Amplitude
0 to 2.5 Vpeak into 50 Ω
50 Ω nominal
Output impedance
External modulation inputs
Modulation types
Ext 1
Ext 2
FM, FM, AM, pulse, and burst envelope
FM, FM, AM, and pulse
LO/HI annunciator [100 Hz to 10 MHz BW, AC coupled inputs only]. Activated when
input level error exceeds 3% [nominal].
15
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Specifications for Analog Modulation
External burst envelope
Input voltage
RF On
0 V
RF Off
Linear control range
–1.0 V
0 to –1 V
On/off ratio1
Condition: Vin below –1.05 V
≤ 4 GHz
> 4 GHz
> 75 dB
(> 64 dB)
Rise/fall time1
Condition: With rectangular input
(< 2 µs)
Minimum burst repetition frequency1
ALC on
ALC off
(10 Hz)
DC
Input port
Input impedance
External 1
50 Ω, nominal
Composite modulation
AM, FM, and FM each consist of two modulation paths which are summed internally for
composite modulation. The modulation sources may be any two of the following: Internal,
External 1, External 2.
Simultaneous modulation
Multiple modulation types may be simultaneously enabled. For example, W-CDMA, AM,
and FM can run concurrently and all will affect the output RF. This is useful for simulating
signal impairments. There are some exceptions: FM and FM cannot be combined; AM
and Burst envelope cannot be combined; Wideband AM and internal I/Q cannot be
combined. Two modulation types cannot be generated simultaneously by the same
modulation source.
1. Parentheses denote typical performance.
16
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Specifications for I/Q Characteristics
I/Q modulation bandwidth
I/Q inputs
Input impedance
Full scale input1
50 Ω or 600 Ω
√ I2 + Q2 = 0.5 Vrms
2
I/Q bandwidth using external I/Q source (ALC off)
3.00
850 MHz carrier
1.00
-1.00
-3.00
1900 MHz carrier
2200 MHz carrier
-5.00
-7.00
1800 MHz carrier
-9.00
-11.00
-13.00
-15.00
-150
-100
-50
0
50
100
150
Frequency offset from carrier [MHz]
I/Q bandwidth using internal I/Q source (Options 001, 002, 601, 602)
3.00
1.00
-1.00
-3.00
-5.00
-7.00
850 MHz
1800 MHz
1900 MHz
2200 MHz
5700 MHz
-9.00
-11.00
-13.00
-15.00
-30
-10
10
30
50
-50
Frequency offset from carrier [MHz]
2
2
1. The optimum I/Q input level is √ I +Q = 0.5 Vrms, I/Q drive level affects EVM, origin offset, spectral regrowth, and noise floor. Typically, level accuracy
with ALC on will be maintained with drive levels between 0.25 and 1.0 Vrms
.
2. Parentheses denote typical performance.
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Specifications for I/Q Characteristics
I/Q adjustments
Source
I/Q baseband inputs
Parameter
Impedance
I offset [600 Ω only]
Q offset [600 Ω only]
Range
50 or 600 Ω
5 V
5 V
I/Q baseband outputs
I/Q offset adjustment 3 V
I/Q offset resolution 1 mV
I/Q gain balance
I/Q attenuation
I/Q low pass filter
4 dB
0 to 40 dB
40 MHz, through
RF output
I/Q offset adjustment 50%
I/Q gain balance
I/Q attenuation
I/Q quad skew
[≤ 3.3 GHz]
4 dB
0 to 40 dB
10°
5°
[> 3.3 GHz]
I/Q low pass filter
2.1 MHz, 40 MHz, through
I/Q baseband outputs1
Differential outputs
Single ended
I, I, Q, Q
I, Q
Frequency range
Output voltage into 50 Ω
Output impedance
DC to 40 MHz [with sinewave]
(1.5 V P-P) [with sinewave]
50 Ω nominal
Baseband generator
[arbitrary waveform mode]
[Option 601 or 602]
Channels
2 [I and Q]
Resolution
16 bits [1/65,536]
Arbitrary waveform memory
Maximum playback capacity
8 megasamples (MSa)/channel [Option 601]
64 MSa/channel [Option 602]
1.2 GSa [Option 005]
Maximum storage capacity
2.8 MSa [Standard]
Waveform segments
Segment length
60 samples to 8 or 64 MSa
Maximum number of segments 1,024 [8 MSa volatile memory]
8,192 [64 MSa volatile memory]
Minimum memory allocation
256 samples or 1 KB blocks
Waveform sequences
Maximum total number of segment files
stored in the non-volatile
file system
Sequencing
16,384
Continuously repeating
Maximum number of sequences 16,384 [shared with number of segments]
Maximum segments/sequence 32,768 [including nested segments]
Maximum segment repetitions 65,536
1. Parentheses denote typical performance.
18
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Specifications for I/Q Characteristics
Clock
Sample rate
Resolution
Accuracy
1 Hz to 100 MHz
0.001 Hz
Same as timebase +2-42 [in non-integer applications]
Baseband filters
40 MHz
used for spur reduction
2.1 MHz
Through
used for ACPR reduction
used for maximum bandwidth
Reconstruction filter: [fixed]
50 MHz
[used for all symbol rates]
Baseband spectral purity1
[full scale sinewave]
Harmonic distortion
100 kHz to 2 MHz
(< –65 dBc)
Phase noise
(< –127 dBc/Hz)
[baseband output of 10 MHz sinewave at 20 kHz offset]
IM performance (< –74 dB)
[two sinewaves at 950 kHz and 1050 kHz at baseband]
Triggers
Types
Source
External polarity
External delay time
External delay resolution
Continuous, single, gated, segment advance
Trigger key, external, remote [LAN, GPIB, RS-232]
Negative, positive
10 ns to 40 sec plus latency
10 ns
Markers
[Markers are defined in a segment during the waveform generation process, or from the
ESG front panel. A marker can also be tied to the RF blanking feature of the ESG.]
Marker polarity
Number of markers
Negative, positive
4
Multicarrier
Number of carriers
Up to 100 [limited by a max bandwidth of 80 MHz
depending on symbol rate and modulation type]
–40 MHz to +40 MHz
Frequency offset [per carrier]
Power offset [per carrier]
0 dB to –40 dB
Modulation
PSK
BPSK, QPSK, OQPSK, π/4DQPSK, 8PSK,
16PSK, D8PSK
QAM
FSK
4, 16, 32, 64, 128, 256
Selectable: 2, 4, 8, 16
MSK
ASK
Data
Multitone
Number of tones
Random ONLY
2 to 64, with selectable on/off state per tone
100 Hz to 80 MHz
Fixed or random
Frequency spacing
Phase [per tone]
1. Parentheses denote typical performance.
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Specifications for I/Q Characteristics
Basic modulation types [custom format]
Baseband generator
[real-time mode]
[Option 601 or 602]
PSK
MSK
ASK
QAM
FSK
BPSK, QPSK, OQPSK, π/4DQPSK, 8PSK, 16PSK, D8PSK
User-defined phase offset from 0 to 100°
User-defined depth from 0.001 to 100%
4, 16, 32, 64, 128, 256
Selectable: 2, 4, 8, 16 level symmetric, C4FM
User defined: Custom map of up to 16 deviation levels
Symbol rate
< 5 MHz
> 5 MHz, < 50 MHz
Maximum deviation
4 times symbol rate
20 MHz
Resolution: 0.1 Hz
I/Q
FIR filter
Selectable
Custom map of 256 unique values
Nyquist, root Nyquist, Gaussian, rectangular, Apco 25
a: 0 to 1, B T: 0.1 to 1
b
Custom FIR
16-bit resolution, up to 64 symbols long, automatically resampled to
1024 coefficients [max]
> 32 to 64 symbol filter: symbol rate ≤ 12.5 MHz
> 16 to 32 symbol filter: symbol rate ≤ 25 MHz
Internal filters switch to 16 tap when symbol rate is
between 25 and 50 MHz
Symbol rate
For external serial data, symbol rate is adjustable
from 1000 symbols/sec to a maximum symbol rate of
50 Mbits/sec
#bits/symbol
For internally generated data, symbol rate is adjustable from 1000 symbols/sec to
50 Msymbols/sec. and a maximum of 8 bits per symbol. Modulation quality may be
degraded at high symbol rates.
Baseband reference frequency
Data clock can be phase locked to an external reference.
13 MHz for GSM, 250 kHz to 100 MHz in W-CDMA and cdma20001, 2
Input
ECL, CMOS, TTL compatible, 50 Ω AC coupled
Frame trigger delay control
Range
Resolution
0 to 1,048,575 bits
1 bit
1. Performance below 1 MHz not specified.
2. When used, this baseband reference is independent of the 10 MHz RF reference.
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Specifications for I/Q Characteristics
Data types
Internally generated data
Pseudo-random patterns
Repeating sequence
PN9, PN11, PN15, PN20, PN23
Any 4-bit sequence
Other fixed patterns
Direct-pattern RAM [PRAM]
Max size Option 601
Option 602
8 Mbits
64 Mbits
[each bit uses an entire sample space]
Use
Non-standard framing
User file
Max size Option 601
Option 602
800 kB
6.4 MB
Use
Continuous modulation or internally generated TDMA standard
Externally generated data
Type
Serial data
Inputs
Data, bit clock, symbol sync
Accepts data rates 5% of specified data rate
Internal burst shape control
Varies with standards and bit rates
Rise/fall time range
Up to 30 bits
0 to 63.5 bits
Rise/fall delay range
Specifications for Signal Personality Characteristics
3GPP W-CDMA
[arbitrary waveform mode ]
[Option 400]
Error vector magnitude1
2
[1.8 GHz < fc < 2.2 GHz, root Nyquist filters, 40 MHz baseband filter, EVM optimization mode
3.84 Mcps chip rate, ≤ 4 dBm, ≤ 7 dBm with Option UNB]
1 DPCH
≤ 1.8%, (0.9%)
Level accuracy [relative to CW at 800, 900, 1800, 1900, 2200 MHz]1
[≤ 2.5 dBm standard, 7.5 dBm for Option UNB, and 4.5 dBm for Option 506]
0.7 dB ( 0.35 dB)
Adjacent channel leakage ratio1
[1.8 GHz < fc < 2.2 GHz, default W-CDMA filters, 3.84 Mcps chip rate,
≤ 0 dBm Option UNB, ≤ –2 dBm Option 506, ≤ –3 dBm standard in
Optimize ADJ mode]
1 DPCH
Test Model 1
+ 64 DPCH
–65 dBc (–67 dBc)
–63 dBc (–66 dBc)
Alternate channel leakage ratio1
[1.8 GHz < fc < 2.2 GHz, default W-CDMA filters, 3.84 Mcps chip rate,
≤ 2.5 dBm standard, ≤ 4.5 dBm Option 506, ≤ 7.5 dBm Option UNB,
in Optimize ALT mode]
1 DPCH
Test Model 1
+ 64 DPCH
–71 dBc (–75 dBc)
–70 dBc (–73 dBc)
1. Parentheses denote typical performance.
2. Valid for 23° 5° C.
21
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Specifications for Signal Personality Characteristics
IS-95 CDMA
Spurious emissions
[arbitrary waveform mode1]
[dBc, IS-95 modified filter with equalizer and amplitude = ≤ -5 dBm standard, ≤ -3 dBm for
[Option 401]
Option 506, ≤ 0 dBm for Option UNB] 2
0.885 to 1.25 MHz
1.25 to 1.98 MHz
1.98 to 5 MHz
Frequencies/offsets
Standard Option 506
Standard Option 506 Standard Option 506
Reverse
30 – 200 MHz
700 – 1000 MHz
>1000 – 2000 MHz –76 (–79) –75 (–79)
(–74)
(–74)
(–77)
(–81)
(–83)
(–77)
(–81)
(–83)
(–77)
(–85)
(–85)
(–77)
(–85)
(–85)
–73 (–77) –73 (–77)
9/64 channels
30 – 200 MHz
700 – 1000 MHz
>1000 – 2000 MHz –72 (–76) –71 (–76)
(–70)
(–70)
(–73)
(–79)
(–79)
(–73)
(–79)
(–79)
(–76)
(–82)
(–82)
(–76)
(–82)
(–82)
–73 (–76) –73 (–76)
Rho1[≤ 4 dBm standard and Option 506, or ≤ 7 dBm Option UNB, IS-95 filter, ≤ 2 GHz]
r ≥ 0.9992 (.9998)
cdma2000
[arbitrary waveform mode]
[Option 401]
Spurious emissions
[dBc, IS-95 modified filter with equalizer and amplitude = ≤ –5 dBm standard,
≤ –3 dBm for Option 506, ≤ 0 dBm for Option UNB]
Offsets from center of carrier
Frequencies/offsets 2.135 to 2.50 MHz
Forward 9 channel, SR3/multi-carrier 1, 3
2.50 to 3.23 MHz
3.23 to 10 MHz
30 – 200 MHz
700 – 1000 MHz
>1000 – 2000 MHz
(–70)
(–75)
(–75)
(– 69)
(–74)
(–74)
(–69)
(–77)
(–77)
Offsets from center of carrier
3.75 to 5.94 MHz
Frequencies/offsets 2.655 to 3.75 MHz
Forward 9 channel, SR3/DS1, 4
5.94 to 10 MHz
30 – 200 MHz
(–76)
(–80)
(–80)
(–78)
(–83)
(–83)
(–75)
(–85)
(–85)
700 – 1000 MHz
>1000 – 2000 MHz
Reverse 5 channel, SR3/DS1, 3
30 – 200 MHz
700 – 1000 MHz
>1000 – 2000 MHz
(–78)
(–82)
(–82)
(–78)
(–83)
(–83)
(–75)
(–85)
(–85)
Error vector magnitude
[≤ 4 dBm standard and Option 506, ≤ 7 dBm for Option UNB]
[825 to 2100 MHz, SR3 pilot, IS-95 filter, which is optimized for EVM]1
EVM ≤ 2.1%, (≤ 1.5%)
1. Valid for 23° 5° C.
2. Parentheses denote typical performance.
3. Measurements performed with 30 kHz BW, relative to power in one carrier.
4. Measurements performed with 30 kHz BW, relative to total power.
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Specifications for Signal Personality Characteristics
1
Enhanced multitone
Number of tones
Tone spacing
2 to 1024
[arbitrary waveform mode]
1 kHz to 50 MHz, limited by 80 MHz I/Q bandwidth
0 to –50 dB
[Option 408]
Tone power (relative)
Phase distribution
Suppression level
Fixed, random or parabolic
–50 to –90 dBc, depending on number of tones
and available calibration time.
Expected suppression = 80 dBc –10 log [N/8],
where N is the number of tones
Calibration interval
Calibration time
8 hours
10 minutes (8 tones, –80 dBc suppression)
Temperature stability
1 dB/°C (typical for IMD products) 5 dB/°C
(worst case for LO feedthrough and unbalanced
images)
Enhanced multitone signal with correction applied
AWGN
[real-time mode]
[Option 403]
Crest factor [output power set at least 16 dB below maximum power]
> 16 dB
Randomness
89 bit pseudo-random generation, repetition period
3 x 109 years
Carrier to noise ratio
Magnitude error ≤ 0.2 dB at baseband I/Q outputs.
1. All values typical.
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Specifications for Signal Personality Characteristics
802.11 WLAN
EVM
(< 1%, –40 dB)
[arbitrary waveform mode]
1
The EVM was measured with an 89641A vector signal analyzer with Option B7R.
Instrument and software settings listed below.
[Option 417]
Software settings
Data rate
Source settings
Frequency
54 Mbps
64 QAM
3/4 rate
active
5.8/2.4/0.9 GHz
≤ –1 dBm
Modulation
Encoder
Scrambler
Output power
Reconstruction filter thru
ALC
On
interleaver
active
RF blanking
Modulator atten
Off
8 to 10 dB
Scrambler initialization 5D
Support carrier setup All channels active
Idle interval
OSR
Window length
Data type
Data length
100 µS
≥ 2
89641A settings
Frequency
5.8/2.4/0.9 GHz
20 MHz
optimal
≥ 8
Span
Range
RMS video average
PN15
1024
20
802.11a spectral mask typical performance
(0 dbm, at 5.805 GHz, OSR: 4, window length: 16)
1. All values typical.
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Specifications for Signal Personality Characteristics
Custom modulation
[real-time mode]
Custom digitally modulated signals [real-time mode]1, 2
Modulation
Filter
QPSK
π/4DQPSK
Root Nyquist
16QAM
2FSK
GMSK
Gaussian
Filter factor [a or B T]
Modulation index
0.25
N/A
4
0.25
N/A
4
0.25
N/A
4
0.5
0.5
1
0.5
N/A
1
b
Symbol rate [Msym/s]
Error vector magnitude3, 4
Shift error3, 4 Global phase error3, 4
[% rms]
[% rms]
1.3 (0.8)
1.4 (0.9)
1.8 (1.0)
3.3 (2.0)
1.8 (1.2)
2.0 (1.4)
[degrees rms]
0.4 (0.2)
0.5 (0.3)
0.7 (0.4)
1.0 (0.6)
0.6 (0.3)
0.8 (0.4)
fc = 1 GHz
fc = 2 GHz
fc = 3 GHz
fc = 4 GHz
fc = 5 GHz
fc = 6 GHz
1.1 (0.7)
1.1 (0.7)
1.2 (0.8)
1.6 (1.0)
2.5 (1.3)
1.5 (1.0)
1.8 (1.2)
1.0 (0.6)
1.2 (0.8)
1.6 (1.0)
2.5 (1.4)
1.5 (1.0)
1.8 (1.2)
1.0 (0.6)
1.5 (0.9)
3.3 (1.9)
1.2 (0.8)
1.4 (1.0)
Internal modulation using real-time TDMA personalities [Option 402]2
NADC
PDC
PHS
TETRA4
DECT
GSM DCS, PCS
EDGE
Error vector magnitude6, 4 [% rms]
Low EVM mode
1.2 (0.7)
(1.2)
1.2 (0.7)
(0.9)
0.9 (0.5)
(0.6)
0.8 (0.5)
(1.0)
1.2 (0.6)
Low ACP mode
Global phase error2
rms
N/A
N/A
N/A
N/A
N/A
0.6 (0.3)
1.9 (1.0)
N/A
N/A
pk
Deviation accuracy2 [kHz, rms]
Channel spacing [kHz]
Adjacent channel power2 [ACP]
(Low ACP mode, dBc)
at adjacent channel 7
at 1st alternate channel 7
at 2nd alternate channel 7
at 3rd alternate channel7
Support burst types
N/A
30
N/A
25
N/A
300
N/A
25
2.5 (1.1)
1728
N/A
200
200
Cont. Burst Cont. Burst Cont. Burst Cont. Burst
N/A
Cont. Burst
N/A
(–35) (–34)
–
–
–
–
(–70) (–63)
(–37) (–37)
(–71) (–70)
(–84) (–81)
(–85) (–81)
Custom, normal
Fcorr, sync,
(–80) (–79) (–74) (–74) (–81)
(–76) (–81) (–80)
(–79) (–82) (–82)
(–84) (–83)
(–85) (–84) (–82) (–82)
Custom Custom
–
–
(–82)
–
–
(–83) (–83)
Custom
Custom
Custom
up/down TCH up/down TCH
up Vox
TCH, sync
up control 1 & 2, dummy B 1 & 2,
up normal,
down normal,
Yes
traffic B,
dummy, access
lowcapacity
Scramble capability
Yes
1. This level of performance can be attained using the external I/Q inputs, provided the quality of the baseband signal meets or exceeds that of the ESG baseband generator.
2. Parentheses denote typical performance.
3. Specifications apply at power levels ≤ +4 dBm [≤ +5 dBm for Option 506, and ≤ +8 dBm for Option UNB] with default scale factor of I/Q outputs.
4. Valid after executing I/Q calibration and maintained within +/- 5 °C of the calibration temperature.
5. ACP for TETRA is measured over a 25 kHz bandwidth, with an 18 kHz root raised cosine filter. Low ACP mode is valid at power levels ≤ –1 dBm [≤ 1 dBm for Option 506
and ≤ +4 dBm for Option UNB].
6. Specifications apply for the symbol rates, filter, filter factors [a or BbT] and default scaling factor specified for each standard, and at power levels ≤ +7 dBm [≤ +10 dBm for
Option UNB].
7. The “channel spacing” determines the offset size of the adjacent and alternate channels: Adjacent channel offset = 1 x channel spacing,
1st alternate channel = 2 x channel spacing, 2nd alternate channel = 3 x channel spacing, etc.
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Specifications for Signal Personality Characteristics
GSM/GPRS
[real-time mode]
[Option 402]
Multiframe output data generation
Coding scheme
Full-rate speech [TCH/FS]
CS-1, CS-4
Data
PN9 or PN15
The selected data sequence is coded continuously
across the RLC data block as per ETSI TS 100 909, 3GPP
TS 05.03, V8.9.0, 2000-11 [release 1999]
An independent version of the selected data sequence
is coded across the MAC header.
Frame structure
26-frame multi-frame structure as per ETSI
GSM, 05.01 version 6.1.1 [1998-07].
[Coding is done on frames 0-11, 13-24, of the multi-frame.
Frame 25 is idle [RF blanked].]
Adjacent timeslots
Data
PN9, PN15 coded as per ETSI TS 100 909, 3GPP
TS 05.03, V8.9.0, 2000-11 [release 1999].
Frame structure
26-frame multi-frame structure as per ETSI GSM,
5.01 version 6.1.1 [1998-07].
Multiframe measurements1
GSM measurement modes
Static sensitivity
RBER at user-specified power level measured.
[This is the complete conformance test as defined in
pri-ETS 300 609-1 [GSM 11.21] version 4.12.0 [Dec 98],
section 7.3.4.]
Sensitivity search
Automatically finds the input level [sensitivity] that causes
a user-specified RBER [normally 2%] for class II bits.
Maximum frame count 6,000,000 speech frames
GSM measurement results Class Ib bit-error ratio [RBER for TCH/FS]
Class II bit-error ratio [RBER for TCH/FS]
Frame erasure ratio [FER]
Downlink error frame count
Class Ib bit-error count
Class II bit-error count
Erased frame count
Total frame count
Maximum RBER
Maximum FER
50%
100%
Alternate time slot power level control
[Valid for standard attenuator only. Not applicable to Option UNB or Option 506]
Amplitude is settled within 0.5 dB in 20 µsecs, +4 to –136 dBm at 23 5 °C
1. Measurements also require Option 300.
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Specifications for Signal Personality Characteristics
EDGE/EGPRS
[real-time mode]
[Option 402]
Multiframe output data generation
Coding scheme
MCS-1: uplink and downlink, MCS-5: uplink and downlink,
MCS-9: uplink and downlink, E-TCH/F43.2
Data
PN9 or PN15
The selected data sequence is fully coded
continuously across the RLC data blocks according to
MCS-1, MCS-5, MCS-9 or E-TCH/F43.2. An independent
version of the selected data sequence is coded across the
unused RLC/MAC header fields [The CPS header field is
as defined in GSM 04.60 V8.50].
Frame structure
52-frame multi-frame structure for EDGE/EGPRS channel
as per ETSI TS 100 909, 3GPP TS 05.03, V8.9.0, 2000-11
[release 1999]. [Coding is done on frames 0-11, 13-24,
26-37, 39-50 on a 52 PDCH multi-frame. Frame 25 and
51 are idle [RF blanked].]
Adjacent timeslots
Data
Coded MCS-1, MCS-5 or MCS-9 with continuous PN9 or
PN15 sequence data payload.
Uncoded PN9, PN15.
Note: Maximum of 4 timeslots can be turned on with
EDGE/EGPRS multi-frame coded data.
EDGE/EGPRS PDCH multi-frame.
Frame structure
Repeating EDGE frame.
Multiframe measurements1
EDGE measurement modes
Static sensitivity
BER/BLER at user-specified power level measured;
based on bit errors in total unencoded data, and block
errors in coded channels.
Sensitivity search
BER/BLER
Automatically finds the input level [sensitivity] that causes
user-specified BER [uncoded] or BER [coded].
EDGE measurement results Erased data block count/rate for coded channel
[MCS-1, MCS-5 or MCS-9].
Total data block count for coded channel
[MCS-1, MCS-5 or MCS-9].
Payload bit error count/rate for raw BER.
Total burst count for raw BER. Data block count which
contains residual bit errors and bit error count.
Downlink error reporting
1. Measurements also require Option 300.
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Specifications for Signal Personality Characteristics
This is a system of two instruments; an ESG with Option 300, and a VSA with
GSM/EDGE base station bit error
rate test [BERT]
[Option 300]
Option 300. Both are required. Option 300 for the ESG requires Option 601 or 602, the
TDMA personalities [Option 402], and the UN7 BER board. The VSA functions as an
IF downconverter. It may be used simultaneously to make transmitter measurements
on the loop back signal.
GSM BTS test only
E4406A VSA series transmitter tester with Options BAH
[GSM measurement personality] and Option 300 [321.4 MHz output].
GSM/EDGE BTS test
E4406A VSA series transmitter tester with Option 202 [GSM and EDGE
measurement personality] and Option 300 [321.4 MHz output].
Test technique
RF loopback
Supported systems
GSM 400
GSM 850
GSM 900 [P-GSM]
DCS 1800
PCS 1900
E-GSM [extended]
Minimum power level
Maximum power level
Power level accuracy
Relative power level
–136 dBm [ESG minimum]
+13 dBm [option dependent]
0.5 dB [23° 5 °C] [power and frequency dependent]
0 to 130 dB relative to timeslot under test.
[Limited only by output power range of the ESG.]
Timeslot under test
Timeslots tested
0 to 7
A single timeslot is tested at one time.
[No frequency hopping.]
Encryption
None
Measurement triggers
Immediate, trigger key, external, remote
[LAN, GPIB, RS-232]
Measurement indication
BCH sync
Pass/fail
BCH signal from the BTS is used to determine TCH
frame and multi-frame location.
TCH sync
Threshold
The idle frame [no RF] in the TCH signal itself is used to
determine the TCH multi-frame location and so generate
the multi-frame sync signal.
Termination of measurement when error count exceeds
user-specified threshold.
28
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Specifications for Signal Personality Characteristics
Bit error rate [BER] analyzer
[Option UN7]
Clock rate
100 Hz to 60 MHz
Supported data patterns
Resolution
PN9, 11, 15, 20, 23
10 digits
Bit sequence length
Features
100 bits to 4.294 Gbits after synchronization
Input clock phase adjustment and gate delay
Adjustable input threshold
Hi/lo threshold selectable from 0.7 V [TTL], 1.4 V [TTL]
1.65 V [CMOS 3.3], 2.5 V [CMOS 5.0]
Direct measurement triggering
Data and reference signal outputs
Real-time display
Bit count
Error-bit-count
Bit error rate
Pass/fail indication
Valid data and clock detection
Automatic re-synchronization
Special pattern ignore
29
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General Characteristics
Operating characteristics
Power requirements
90 to 254 V; 50, or 60 Hz; 300 W maximum,
power factor corrected. Not for 400 Hz use.1
Operating temperature range2 0 to 55 °C
Storage temperature range
Shock and vibration
Leakage
–40 to 71 °C
Meets MIL-STD-28800E Type III, Class 3.
Conducted and radiated interference meets
MIL-STD-461C CE02 Part 2 and CISPR 11. Leakage is
typically < 1 µV [nominally 0.1 µV with a 2-turn loop] at
≤ 1000 MHz, measured with a resonant dipole antenna,
one inch from any surface with output level < 0 dBm
[all inputs/outputs properly terminated].
Storage registers
Memory is shared by instrument states, user data files,
non-volatile waveforms, sweep list files and waveform
sequences. There is 14 MB of flash memory standard in
the ESG. With Option 005, there is 6 GB of storage.
Depending on available memory, a maximum of 1000
instrument states can be saved.
Weight
< 16 kg [35 lb.] net, < 23 kg [50 lb.] shipping
Dimensions
133 mm H x 426 mm W x 432 mm D
[5.25 in H x 16.8 in W x 17 in D]
Remote programming
Interface
GPIB [IEEE-488.2-1987] with listen and talk, RS-232,
LAN [10BaseT].
Control languages3
SCPI version 1996.0, also compatible with 8656B and
8657A/B/C/D/J1 mnemonics.
Functions controlled
All front panel functions except power switch and knob.
ISO compliant
The E4438C ESG is manufactured in an ISO-9001
registered facility in concurrence with
Agilent Technologies commitment to quality.
Reverse power protection
Standard
47 dBm
44 dBm
N/A
With Option 506
30 dBm
30 dBm
250 kHz to 2 GHz
> 2 to 4 GHz
> 4 to 6 GHz
30 dBm
Max DC voltage
50 V
SWR4
Standard
Option UNB
(< 1.5:1)
(< 1.5:1)
(< 1.7:1)
N/A
Option 506
(< 1.6:1)
(< 1.4:1)
(< 1.7:1)
(< 1.8:1)
250 kHz to 2.2 GHz
> 2.2 GHz to 3 GHz
> 3 GHz to 4 GHz
> 4 GHz to 6 GHz
(< 1.5:1)
(< 1.4:1)
(< 1.5:1)
N/A
Output impedance
50 Ω nominal
1. For 400 Hz systems, order transformer 70001-60066.
2. Save and recall of user files and instrument states from non-volatile storage is guaranteed only over the range 0 to 40 °C.
3. ESG series does not implement 8657A/B “Standby” or “On” [R0 or R1, respectively] mnemonics.
4. Parentheses denote typical performance.
30
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General Characteristics
Accessories
Transit case
Part number 9211-1296
Inputs and outputs
All front panel connectors can be moved
to rear with Option 1EM.
10 MHz input
Accepts a 1, 2, 5, or 10 MHz 10 ppm [standard timebase]
or 1 ppm [high-stability timebase] reference signal for
operation with an external timebase. Nominal input
level –3.5 to +20 dBm, impedance 50 ohms.
[BNC, rear panel]
10 MHz output
Outputs the 10 MHz reference signal. Level nominally
+3.9 dBm 2 dB. Nominal output impedance 50 ohms.
[BNC, rear panel]
Alternate power input
Accepts CMOS1 signal for synchronization of external
data and alternate power signal timing. The damage
levels are –0.5 to +5.5 V. [Auxiliary I/O connector,
rear panel]
Baseband generator
reference input
Accepts 0 to +20 dBm sinewave, or TTL squarewave,
to use as reference clock for the baseband generator.
Phase locks the internal data generator to the external
reference; the RF frequency is still locked to the 10 MHz
reference. Rate is 250 kHz to 100 MHz, 50 ohms
nominal, AC coupled. [BNC, rear panel]
Burst gate input
The burst gate in connector accepts a CMOS1
signal for gating burst power in digital modulation
applications. The burst gating is used when you are
externally supplying data and clock information. The
input signal must be synchronized with the external data
input that will be output during the burst. The burst
power envelope and modulated data are internally
delayed and re-synchronized. The input signal must be
CMOS high for normal burst RF power or CW RF output
power and CMOS low for RF off. The damage levels
are –0.5 to +5.5 V.
This female BNC connector is provided on signal
generators with Option 601 or 602. On signal generators
with Option 1EM, this input is relocated to a rear panel
SMB connector. With Option 401, this connector is used
for the even second synchronization input.
Coherent carrier output2 Outputs RF modulated with FM or FM, but not IQ,
pulse or AM. Nominal power –2 dBm 5 dB. Nominal
impedance 50 ohms. Frequency range from > 250 MHz
to 4 GHz. For RF carriers below this range, output
frequency = 1 GHz – frequency of RF output. Damage
levels 20 VDC and 13 dBm reverse RF power.
[SMA, rear panel]
1. Rear panel inputs and outputs are 3.3 V CMOS, unless indicated otherwise. CMOS inputs will accept 5 V CMOS, 3 V CMOS, or TTL voltage levels.
2. Coherent carrier is modulated by FM or FM when enabled.
31
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General Characteristics
Data clock input
The CMOS1 compatible data clock connector
accepts an externally supplied data-clock input for
digital modulation applications. The expected input is a
bit clock signal where the falling edge is used to clock
the data and symbol sync signals.
The maximum clock rate is 50 MHz. The damage levels
are –0.5 to +5.5 V.
This female BNC connector is provided on signal
generators with Option 601 or 602. On signal generators
with Option 1EM, this input is relocated to a rear panel
SMB connector.
Data clock output
Data input
Relays a CMOS1 bit clock signal for synchronizing
serial data. [Auxiliary I/O connector, rear panel]
The CMOS1 compatible data connector accepts an
externally supplied data input for digital modulation
applications. CMOS high is equivalent to a data 1 and
a CMOS low is equivalent to a data 0.
The maximum data rate is 50 Mb/s. The data must be
valid on the data clock falling edges [normal mode] or
the symbol sync falling edges [symbol mode]. The
damage levels are –0.5 to +5.5 V.
This female BNC connector is provided on signal
generators with Option 601 or 602. On signal generators
with Option 1EM, this input is relocated to a rear panel
SMB connector.
Data output
Outputs serial data from the internal data generator or
the externally supplied signal at the data input. CMOS1
signal. [Auxiliary I/O connector, rear panel]
Event 1 output
In real-time mode, outputs pattern or frame
synchronization pulse for triggering or gating external
equipment. May be set to start at the beginning of a
pattern, frame, or timeslot and is adjustable to within
one timeslot with one bit resolution.
In arbitrary waveform mode, this connector outputs the
timing signal generated by marker 1. [BNC, rear panel]
Event 2 output
In real-time mode, outputs data enabled signal for gating
external equipment. Applicable when external data is
clocked into internally generated timeslots. Data is
enabled when signal is low.
In arbitrary waveform mode, this connector outputs the
timing signal generated by marker 2. [BNC, rear panel]
Event 3 output
Event 4 output
In arbitrary waveform mode, this connector outputs the
timing signal generated by marker 3. [Auxiliary I/O
connector, rear panel]
In arbitrary waveform mode, this connector outputs the
timing signal generated by marker 4. [Auxiliary I/O
connector, rear panel]
1. Rear panel inputs and outputs are 3.3 V CMOS, unless indicated otherwise. CMOS inputs will accept 5 V CMOS, 3 V CMOS, or TTL voltage levels.
32
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General Characteristics
External 1 input
This BNC input connector accepts a 1 Vpeak signal for
AM, FM, pulse, burst, and phase modulation. For all
these modulations, 1 Vpeak produces the indicated
deviation or depth. When ac-coupled inputs are selected
for AM, FM, or phase modulation and the peak input
voltage differs from 1 Vpeak by more than 3%, the hi/lo
annunciator light on the display. The input impedance is
50 ohms and the damage levels are 5 Vrms and 10 Vpeak
.
If you configure your signal generator with Option 1EM,
this input is relocated to a female BNC connector on the
rear panel.
External 2 input
This BNC input connector accepts a 1 Vpeak signal for
AM, FM, phase modulation, and pulse modulation. With
AM, FM, or phase modulation, 1 Vpeak produces the
indicated deviation or depth. With pulse modulation,
+1 V is on and 0 V is off. When ac-coupled inputs are
selected for AM, FM, or phase modulation, and the peak
voltage differs from 1 Vpeak by more than 3%, the hi/lo
annunciator light on the display. The input impedance is
50 ohms and the damage levels are 5 Vrms and 10 Vpeak
.
If you configure your signal generator with Option 1EM,
this input is relocated to a female BNC connector on the
rear panel.
GPIB
Allows communication with compatible devices.
[rear panel]
I input
Accepts an I input either for I/Q modulation or for
wideband AM. Nominal input impedance 50 or 600 ohms.
Damage levels are 1 Vrms and 10 Vpeak. [BNC, front panel]
I out and Q out1
The I out and Q out connectors output the analog
components of I/Q modulation from the internal
baseband generator. The nominal output impedance of
these connectors are 50 Ω, DC-coupled. The damage
levels are > +3.5 V and < –3.5 V. The output signal levels
into a 50 Ω load are as follows:
• (O.5 Vpeak,), corresponds to one unit length of
the I/Q vector.
• (0.7 Vpeak ), for peaks for p/4 DQPSK.
• (1.6 Vp-p) maximum [Options 601, 602, 001, 002 only].
These female BNC connectors are provided on signal
generators with Option 601 or 602. On signal generators
with Option 1EM, these inputs are relocated to rear
panel SMB connectors.
1. Parentheses denote typical performance.
33
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General Characteristics
_
_
_
_
I and Q out
I and Q are used in conjunction with I and Q to
provide a balanced baseband stimulus. Balanced signals
are signals present in two separate conductors that are
symmetrical about the common mode offset, and are
opposite in polarity [180 degrees out of phase].
These female BNC connectors are provided only on
signal generators with Option 601 or 602. If you configure
your signal generator with Option 1EM, these inputs are
relocated to rear panel SMB connectors.
LF output
Outputs the internally-generated LF source. Outputs 0 to
2.5 Vpeak into 50 ohms, or 0 to 5 Vpeak into high
impedance. [BNC, front panel]
Pattern trigger input
Accepts CMOS1 signal to trigger internal pattern or frame
generator to start single pattern output. Minimum pulse
width 100 ns. The damage levels are –0.5 to +5.5 V.
[BNC, rear panel]
Q input
Accepts a Q input for I/Q modulation. Nominal input
impedance 50 or 600 ohms, damage levels are 1 Vrms
and 10 Vpeak. [BNC, front panel]
RF output
Nominal output impedance 50 ohms.
[type-N female, front panel]
Sweep output
Generates output voltage, 0 to +10 V when signal
generator is sweeping. Output impedance < 1 ohm, can
drive 2000 ohms. [BNC, rear panel]
Symbol sync input
The CMOS1 compatible symbol sync connector accepts
an externally supplied symbol sync for digital modulation
applications. The expected input is a symbol clock signal.
It may be used in two modes. When used as a symbol
sync in conjunction with a data clock, the signal must be
high during the first data bit of the symbol. The signal
must be valid during the falling edge of the data clock
signal and may be a single pulse or continuous. When
the symbol sync itself is used as the [symbol] clock, the
falling edge is used to clock the data signal.
The maximum clock rate is 50 MHz. The damage levels
are –0.5 to +5.5 V. [BNC, front panel]
This female BNC connector is provided on signal
generators with Option 601 or 602. On signal generators
with Option 1EM, this input is relocated to a rear panel
SMB connector.
Symbol sync output
Trigger input
Outputs CMOS1 symbol clock for symbol synchronization,
one data clock period wide. [Auxiliary I/O connector,
rear panel]
Accepts CMOS1 signal for triggering point-to-point in
manual sweep mode, or to trigger start of LF sweep.
the damage levels are –0.5 to +5.5 V. [BNC, rear panel]
Trigger output
Outputs a TTL signal: high at start of dwell, or when
waiting for point trigger in manual sweep mode; low
when dwell is over or point trigger is received, high or
low 2 µs pulse at start of LF sweep. [BNC, rear panel]
1. Rear panel inputs and outputs are 3.3 V CMOS, unless indicated otherwise. CMOS inputs will accept 5 V CMOS, 3 V CMOS, or TTL voltage levels.
34
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General Characteristics
With Option UN7
BER data, BER clock Accepts CMOS1 or 75 Ω input. Polarity is selected.
BER gate Clock duty and inputs cycle is 30% to 70%. [SMB, rear panel]
BER sync loss output Outputs a CMOS1 signal that is low when sync is lost.
Valid only when measure end signal is high. [Auxiliary I/O
connector, rear panel]
BER no data output
Outputs a CMOS1 signal that is low when no data is detected.
Valid only when measure end is high. [Auxiliary I/O
connector, rear panel]
BER error-bit-output
Outputs CMOS1 signal when error bit is detected. Pulse width
matches the input clock. [Auxiliary I/O connector, rear panel]
BER test result output Outputs a CMOS1 signal that is high for fail and low for pass.
Valid only on measure end signal falling edge. [Auxiliary I/O
connector, rear panel]
BER measure
end output
Outputs a CMOS1 signal that is high during measurement.
Trigger events are ignored while high. [Auxiliary I/O
connector, rear panel]
BER measure trigger Accepts CMOS1 signal to initiate BER measurement.
Polarity is selectable; available when trigger source is
selected as “AUX I/O”. Damage levels are The damage
levels are –0.5 to +5.5 V. [Auxiliary I/O connector, rear panel]
With Option 300
321.4 MHz input
Accepts a 321.4 MHz IF signal for GSM/EDGE/loopback
testing. Input amplitude range -7 dBm to -22 dBm.
Nominal input impedance 50 ohms.
[SMB, rear panel]
LAN connector
LAN communication is supported by the signal generator via the LAN connector. It is
functionally equivalent to the GPIB connector. The LAN connector enables the signal
generator to be remotely programmed by a LAN-connected computer. The distance
between a computer and the signal generator is limited to 100 meters [10BaseT].
For more information about the LAN, refer to the Getting Started chapter in the
Programming Guide.
Data transfer speeds2
LAN [FTP]
file transfer to volatile memory
to hard drive
(700 KB/sec)
(500 KB/sec)
LAN [SCPI]
command transfer to volatile memory (146 KB/sec)
to hard drive (128 KB/sec)
Internal file transfer from hard drive to volatile memory (1280 KB/sec)
Agilent’s IO Libraries Suite ships with the E4438C to help you quickly establish an error-
free connection between your PC and instruments – regardless of the vendor. It provides
robust instrument control and works with the software development environment you choose.
1. Rear panel inputs and outputs are 3.3 V CMOS, unless indicated otherwise. CMOS inputs will accept 5 V CMOS, 3 V CMOS, or TTL voltage levels.
2. Parentheses denote typical performance.
35
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General Characteristics
RS-232 connector
This male DB-9 connector is an RS-232 serial port that can be used for controlling the signal
generator remotely. It is functionally equivalent to the GPIB connector. The following table
shows the description of the pinouts. The pin configuration is shown below.
Pin number
Signal description Signal name
1
2
3
4
5
6
7
8
9
No connection
Receive data
Transmit data
+5 V
Ground, 0 V
No connection
Request to send
Clear to send
No connection
RECV
XMIT
RTS
CTS
5
4
3
2
1
9
8
7
6
View looking into rear panel connector
Auxiliary I/O connector
This connector enables you to access the inputs and outputs of the baseband generator. The
figure below shows the Auxiliary I/O pin connector configuration.
19
37
Event 3
GND
Event 4
Patt trig in 2
GND
GND
Alt pwr in
GND
Parallel data 1*
Parallel data 2*
GND
Parallel data 3*
Parallel data 4*
Parallel data 5*
Parallel data 6*
GND
GND
GND
GND
Parallel data 7*
Parallel data 8*
GND
Parallel data clk*
GND
Data out
GND
Data clk out
Sym sync out
GND
GND
BER sync loss
BER meas trig/BER no data
GND (BER)
BER err out
GND (BER)
BER test out
BER meas end
*Future capability
20
1
View looking into rear panel connector
Mating connector
37 pin male D-subminiature, available from AMP, 3M, others.
36
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1
Ordering Information
Frequency options
• 501
• 502
• 503
• 504
• 506
1 GHz frequency range
2 GHz frequency range
3 GHz frequency range
4 GHz frequency range
6 GHz frequency range [requires option UNJ, includes mechanical attenuator]
Performance enhancement options
• UNB High output power with mechanical attenuator
[included with 506]
• UNJ Enhanced phase noise performance
[includes 1E5]
• 1E5
High-stability time base
• 1EM Moves all front panel connectors to rear
• 0032 ESG digital output connectivity with N5102A Baseband Studio digital
interface module
• 0042 ESG digital input connectivity with N5102A Baseband Studio digital
interface module
• 601
Internal baseband generator with 8 MSa and digital bus capability
[40 MB] of memory
• 602
Internal baseband generator with 64 MSa and digital bus capability
[320 MB] of memory
• 0053 6 GB internal hard drive
• UN7 Internal bit-error-rate analyzer
• 300
GSM/EDGE base station loopback BERT
Signal creation software3, 6
• 3GPP W-CDMA FDD personality
• cdma2000 and IS-95-A personality
• TDMA personality (GSM, EDGE, GPRS, EGPRS, NADC, PDC, PHS, DECT, TETRA)
• Calibrated noise (AWGN) personality
• GPS personality
• Signal Studio for 1xEV-DO/1xEVDO Rev A
• Signal Studio for 1xEV-DV and cdma2000
• Signal Studio for 802.11 WLAN
• Signal Studio for Bluetooth
• Signal Studio for enhanced multitone
• Signal Studio for HSDPA over W-CDMA
• Signal Studio for TD-SCDMA
• Signal Studio for Noise Power Ratio (NPR)
• Signal Studio for S-DMB
• Signal Studio for T-DMB
• Signal Studio for pulse building
• Signal Studio for jitter injection
• Signal Studio toolkit
• Signal Studio for 802.16-2004 (WiMAX)
• Signal Studio for 802.16 OFDMA
• Signal Studio for DVB
Baseband Studio products4
System accessories
• N5102A Baseband Studio digital signal interface module
• N5110B Baseband Studio for waveform capture and playback5
• N5115A Baseband Studio for fading5
• N5101A Baseband Studio PCI card5
• 1CP Rack mount kit with handles
• 1CN Front handle kit
1. All options should be ordered using E4438C-xxx, where the xxx represents the option number. For more information, please refer to the
configuration guide publication number 5988-4085EN.
2. Requires either Option 601 or 602 (baseband generator) to function.
3. Requires Option 001, 002, 601, or 602.
5. Baseband Studio for waveform capture and playback and for fading both require a PC equipped with the Agilent N5101A Baseband Studio PCI card.
The PCI card is not functional as a stand-alone product.
37
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Related Literature
Application literature
• RF Source Basics, a self-paced tutorial (CD-ROM),
literature number 5980-2060E.
• Digital Modulation in Communications Systems—An Introduction,
Application Note 1298, literature number 5965-7160E.
• Using Vector Modulation Analysis in the Integration, Troubleshooting
and Design of Digital Communications Systems, Product Note,
literature number 5091-8687E.
• Testing CDMA Base Station Amplifiers, Application Note 1307,
literature number 5967-5486E.
• Understanding GSM/EDGE Transmitter and Receiver Measurements for
Base Transceiver Stations and Their Components, Application Note 1312,
literature number 5968-2320E.
• Understanding CDMA Measurements for Base Stations and their
Components, Application Note 1311, literature number 5968-0953E.
• Testing and Troubleshooting Digital RF Communications Receiver
Designs, Application Note 1314, literature number 5968-3579E.
• Signal Generators - Vector, Analog, and CW Models, Selection Guide,
literature number 5965-3094E.
Product literature
• E4438C ESG Vector Signal Generator, Brochure,
literature number 5988-3935EN.
• E4438C ESG Vector Signal Generator, Configuration Guide,
literature number 5988-4085EN.
• IntuiLink Software, Data Sheet, literature number 5980-3115EN.
E4438C ESG signal generation firmware personalities
• 3GPP W-CDMA (FDD) Personalities - Option 400, Technical Overview,
literature number 5988-4449EN
• cdma2000 and IS-95A Personalities - Option 401, Technical Overview,
literature number 5988-4430EN
• GPS Personality - Option 409, Technical Overview,
literature number 5988-6256EN
• TDMA Personalities (GSM/EDGE/NADC/PDC/PHS/TETRA/DECT) - Option 402,
Technical Overview, literature number 5988-4431EN
E4438C ESG Signal Studio software personalities
• Signal Studio for 1xEV-DO - Option 404, Technical Overview,
literature number 5988-5459EN
• Signal Studio for 1xEV-DV and cdma2000 - Option 414, Technical Overview,
literature number 5988-9123EN
• Signal Studio for 802.11 WLAN - Option 417, Technical Overview,
literature number 5988-8618EN
• Signal Studio for Bluetooth - Option 406, Technical Overview,
literature number 5988-5458EN
• Signal Studio for Enhanced Multitone - Option 408, Technical Overview,
literature number 5988-5639EN
• Signal Studio for Noise Power Ratio - Option 421, Technical Overview,
literature number 5988-6552EN
• Signal Studio for TD-SCDMA (TSM) - Option 411, Technical Overview,
literature number 5988-6552EN
38
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39
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See the ESG Web page for the latest
information
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© Agilent Technologies, Inc. 2002, 2003, 2004, 2005
Printed in USA, December 19, 2005
5988-4039EN
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