Agilent E4402B Data Sheet

The ESA family of spectrum analyzers have proven
and guaranteed performance with the flexibility to
select the right level of functionality for your test
needs. Take advantage of the best overall perfor­mance on a mid-performance spectrum analyzer.

Industry best typical performance

•

Warm up time: 5 minutes

• Third order intermodulation distortion: +16 dBm

• Sensitivity: -166 dBm

• Amplitude accuracy: ± 0.4 dB

• Overall phase noise (all carrier frequencies

a

):

• -94 dBc/Hz (10 kHz)

• -122 dBc/Hz (100 kHz)

• -136 dBc/Hz (1 MHz)

Agilent
ESA Series Spectrum Analyzers

Data Sheet

a. Add 20LogN for frequencies > 6.7 GHz, where N is the harmonic mixing mode.

Express analyzer configurations

• Basic Analyzer
Express Option BAS

• Standard Analyzer
Express Option STD

• Communications Test Analyzer
Express Option COM

2

Definitions and Conditions

The distinction between specifications and
characteristics is described as follows.

• Specifications describe the performance of
parameters covered by the product warranty.
(The temperature range is 0 °C to 55 °C, unless
otherwise noted.)

• Characteristics describe product performance that
is useful in the application of the product, but is
not covered by the product warranty.

• Typical performance describes additional product
performance information that is not covered by the
product warranty. It is performance beyond
specification that 80% of the units exhibit with
a 95% confidence level over the temperature range
20 to 30 °C. Typical performance does not include
measurement uncertainty.

• Nominal values indicate the expected performance,
or describe product performance that is useful in
the application of the product, but is not covered
by the product warranty.

The following conditions must be met for the analyzer
to meet its specifications.

• The analyzer is within the one year calibration
cycle.

• If Auto Align All is selected:

• After 2 hours of storage within the operating

temperature range.

• 5 minutes after the analyzer is turned on with

sweep times less than 4 seconds.

• If Auto Align Off is selected:

• When the analyzer is at a constant temperature,

within the operating temperature range, for a
minimum of 90 minutes.

• After the analyzer is turned on for a minimum

of 90 minutes and Align Now All has been run.

• When Align Now All is run:

• Every hour

• If the ambient temperature changes more
than 3 °C

• If the 10 MHz reference changes

• If Auto Align All but RF is selected:

• When the analyzer is at a constant temperature,
within the operating temperature range, for a
minimum of 90 minutes.

• After the analyzer is turned on for a minimum
of 90 minutes and Align Now RF has been run.

• When Align Now RF is run:

• Every hour

• If the ambient temperature changes more

than 3 °C

Table of Contents

Definitions and Conditions 2
Frequency Specifications 3
Amplitude Specifications 7
General Specifications 12
Option Ordering 14

3

a. 30 Hz characteristic.
b. N = LO harmonic mixing mode.

g

Frequency Specifications

Frequency range

BAS configuration

Custom configuration N/A N/A

(75 Ω input Option 1DP)

E4411B

E4403B E4408B

9 kHz - 1.5 GHz 9 kHz - 3 GHz 9 kHz - 26.5 GHz

1 MHz - 1.5 GHz

Frequency range

STD or COM configuration

E4402B E4404B E4405B E4407B

9 kHz - 3 GHz 9 kHz – 6.7 GHz 9 kHz – 13.2 GHz 9 kHz - 26.5 GHz

Low frequency extension Option UKB

100Hza - 26.5 GHz

Custom configuration

100 Hza - 3 GHz

100Hza - 6.7 GHz

100Hza - 13.2 GHz

External mixing

Option AYZ

Add 18 GHz - 325 GHz

Frequency range 100 Hz - 3 GHz 2.85 - 6.7 GHz 6.2 - 13.2 GHz 12.8 – 19.2 GHz 18.7 – 26.5 GHz

Band

Harmonic (Nb)

mixing mode

01234

1- 1- 2- 4- 4-

4

a. N = LO harmonic mixing mode.
b. 20 to 30 °C.
c. Span coefficient of frequency readout accuracy. Sweep points fixed at 401 for

basic analyzer.

d. Not available in RBW < 1 kHz (Option 1DR).

Frequency Specifications

Communications test

Basic analyzer

Frequency reference

Frequency reference error = ± [(aging rate x time since last adjustment )+ settability + temperature stability]

Frequency readout accuracy (start, stop, center, marker)
= ±(frequency indication x frequency reference error + SPc +15% of RBW + 10 Hz + 1 Hz x Na)

Aging rate ±2 x 10–6/year ±1 x 10–7/year

Temperature stability ±5 x 10–6/year

Standard analyzer

±2 x 10–6/year

±1 x 10–7/year

(Opt. 1D5)

±5 x 10–6/year

±1 x 10–8/year

(Opt. 1D5)

analyzer or ESA with

Option 1D5

b

±1 x 10–8/year

b

±5 x 10–7/year

Settability ±5 x 10–7/year ±1 x 10–8/year

±1 x 10–8/year

(Opt. 1D5)

Span coefficient (SP)

c

External reference

Marker frequency counter

d

Accuracy = ±(marker frequency x frequency reference error + counter resolution)

0.75 % x span

10 MHz

[0.5 % + 1/ (sweep

points –1) ] x span

10 MHz

[0.5 % + 1/ (sweep

points –1) ] x span

1 - 30 MHz

Counter resolution = selectable from 1 Hz to 100 kHz

Frequency span

Range = 0 Hz (zero span), 100 Hz to maximum frequency range of the analyzer

Swp type linear 1% of span

±[0.5% x span + 2 x span/(sweep points – 1)]

Accuracy

Logarithmic N/A

2% of span, nominal

5

a. RBW ≥ 1 kHz, 2 sweep points.
b. TV trigger available with option B7B in custom configuration for ESA-E.
c. Only available for spans < 5MHz.
d. Firmware revision A.08.00 and later.

Frequency Specifications

Sweep time and trigger

Range

Accuracy

Trigger type

b

Delayed trigger range

Sweep (trace) points

Range

Span = 0 Hz

Span ≥ 100 Hz

Span = 0 Hz

Span ≥ 100 Hz

Basic analyzer

4 ms – 4000 s

4 ms – 4000 s

Free Run, Single, Line, Video, Offset, Delayed, External

401

401

Standard analyzer

or ESA with Option AYX

50 nsa – 4000 s

1 ms– 4000 s

± 1%

Gate (1D6)

1 us to 400 s

2 - 8192

101 - 8192

Communications test analyzer

or ESA with Option B7D/B7E

25 nsa - 4000 s

RF burst (B7E)

Basic analyzer Standard analyzer

Resolution bandwidths (1-3-10 sequence)

Range

(-3 dB)
(-6 dB EMI)

1 kHz – 5 MHz 1 kHz – 5 MHz 1 Hz to 5 MHz

9 KHz, 120 kHz 9 KHz, 120 kHz 200 Hz, 9 kHz,120 kHz

With 1DRc (-3dB) Add 100 Hz, 300 Hz Add 10 Hz - 300 Hz

(-6 dB EMI)

With 1DR and 1D5

d

Add 200 Hz 200 Hz

N/A

Add 1 Hz and 3 Hz

Accuracy

1 Hz to 300 Hz
1 kHz to 3 MHz
5 MHz

± 10%
± 15%
± 30%

Selectivity (60 dB/3 dB bandwidth ratio)

100 Hz to 300 Hz
1 kHz to 5 MHz

< 15:1 synchronously tuned four poles, approximately Gaussian

< 5:1 digital, approximately Gaussian

Video bandwidths (1-3-10 sequence)

Range
with 1DR

Adds 1, 3, 10 Hz for RBWs less than 1 kHz

30 Hz to 3 MHz

Communications test analyzer

or ESA with Option 1DR and 1D5

Included

Included

6

Figure 1. Typical ESA-E Series performance at 1 GHz

a. Enhanced wide offset phase noise and ACPR dynamic range.
b. Add 20log(N) for frequencies > 6.7 GHz.
c. N=LO Harmonic mixing number.

Frequency Specifications

Basic analyzer Standard and communications test analyzer

E4411B E4403B/08B

E4402B/04B/05B/07B

Stability

Noise sidebands offset from CW signal with 1 kHz RBW, 30 Hz VBW and sample detector

Offset from
CW signal

≥ 1 kHz
≥ 10 kHz
≥ 20 kHz
≥ 30 kHz
≥ 100 kHz
≥ 1 MHz
≥ 5 MHz
≥ 10 MHz

-93, -95 dBc/Hz

-100, -102 dBc/Hz

-104, -106 dBc/Hz

-113, -116 dBc/Hz

Spec, typical dBc/Hz applies to all frequencies

≤ 6.7 GHz

-78 dBc/Hz (Option 1D5)

-90, -94 dBc/Hz

-90, -94 dBc/Hz

-100, -105 dBc/Hz -100, -105 dBc/Hz

-106, -112 dBc/Hz

-118, -122 dBc/Hz

-106, -112 dBc/Hz

-118, -122 dBc/Hz

-125, -127 dBc/Hz

-127, -129 dBc/Hz

-131, -136 dBc/Hz

Residual FM (peak-to-peak)

1 kHz RBW,
1 kHz VBW

≤ 150 Hz x Nc (100 ms)

c

≤ 30 Hz x N

(20 ms), Option 1DR

≤ 10 Hz x N

≤ 2 Hz peak-to-peak x Nc, (20 ms), Option 1DR & 1D5

Option 1D5 only
100 ms
Option 1DR only
20 ms
Option 1DR & 1D5
20 ms

≤ 2 Hz peak-to-peak x N

System related sidebands

≥ 30 kHz offset

≤ -65 dBc + 20logN

c

from carrier CW signal

b, c

≤ 150 Hz x Nc (100 ms)

c

(20 ms), Option 1DR

≤ 100 Hz x N

≤ 10 Hz x N

c

c

ESA-E

with Option 120a

-133, -136 dBc/Hz

-135, -139 dBc/Hz

-137, -141 dBc/Hz

c

7

a. Mixer power level (dBm) = input power (dBm) minus input attenuation (dB).

Amplitude Specifications

Measurement range

Input attenuator range

(5 dB step)

Maximum safe input level

Input attenuator setting

Average continuous power

Peak pulse power

DC
voltage

1 dB gain compression

Total power at input mixer

50 MHz to 6.7 GHz

6.7 GHz to 13.2 GHz

13.2 GHz to 26.5 GHz

DC coupled

AC coupled

a

E4411B E4403B/08B E4402B

Displayed average noise level (DANL) to maximum safe input level

0 – 60 dB 0 – 65 dB

≥ 15 dB

+30 dBm

(1 W)

100 Vdc

+75 dBmV (0.4 W) Option 1DP

0 dBm to 1.5 GHz

46.75 dBmV (1DP)

+50 dBm (100 W)

Amplitude range

≥ 5 dB average continuous power; ≥ 30 dB peak pulse power

+30 dBm (1 W)

100 Vdc

E4404B/05B

0 – 75 dB 0 – 75 dB 0 – 65 dB

+30 dBm (1 W)

+50 dBm (100 W)

0 Vdc

(Option UKB)

100 Vdc

50 Vdc (Opt. UKB)

Two tone

0 dBm

-3 dBm

-5 dBm

0 Vdc 0 Vdc

50 Vdc 50 Vdc (Opt. UKB)

E4407B

8

a. Custom path only, Option 120, typical.
b. 20 to 30° C. For 0 to 55 °C range, see specifications guide.

Amplitude Specifications

Basic analyzer Standard analyzer

E4411B E4403B E4408B E4402B E4404/05B/07B E4402B E4404/05/7B

Displayed average noise level (dBm) (input terminated, 0 dB attenuation, sample detector) spec, typical

Conditions

Frequency

1 MHz - 10 MHz
10 MHz - 500 MHz

500 MHz - 1 GHz
1 GHz - 1.5 GHz

-123, typ -129

-127, typ -131

-125, typ -130

-121, typ -128

1.5 GHz - 2 GHz
2 GHz - 3 GHz
3 GHz - 6 GHz
6 GHz - 12 GHz
12 GHz - 22 GHz
22 GHz - 26.5 GHz

Displayed average noise level (dBm) with RF preamplifier

100 Hz RBW; 1 Hz VBW (Option 1DR);

typ -126

-125, typ -130

-124, typ -130

-122, typ -120

typ -129

-124, typ -129

-123, typ -130

-120, typ -128

-118, typ -127

-115, typ -124

-109, typ -122

b

1 MHz - 10 MHz
10 MHz - 1 GHz -152, typ -156
1 GHz - 2 GHz -152, typ -156
2 GHz - 3 GHz

10 Hz RBW/1 Hz VBW (Option 1DR)

typ -139

-136, typ -140

-135, typ -140

-133, typ -140

typ-137, -139

-135, typ -139

-135, typ -140

-131, typ -138

-130, typ -137

-126, typ -134

-125, typ -132

typ-152 typ -155

-151, typ -157

-151, typ -155

-151,

typ-154

typ -152 typ -164 typ -162

-149,

Communications test analyzer

or ESA with 1DR and 1D5

1 Hz RBW/VBW

(ESA with 1DR and 1D5)

a

typ-146, -149

a

typ-147, -149

typ-150

typ -162
typ -166 typ -167
typ -166 typ -165

a

typ -149

typ -150

typ -148

typ -147
typ -144
typ -142

typ -165

9

a. 0 to -70 dB range when span = 0 Hz, or when IF gain fixed.
b. The LCD display is manufactured using high precision technology. However, there may

be up to six bright points (white, blue, red or green in color) that constantly appear on
the LCD screen. These points are normal in the manufacturing process and do not
affect the measurement integrity of the product in any way.

c. 50 Ω, accuracy (at a fixed frequency, a fixed attenuator, and referenced to -35 dBm

(-10 dBm, Preamp On (Option 1DS))).

Amplitude specification

Basic analyzer

Standard analyzer Communications test analyzer

or ESA with Option AYX

Display

Display range

0.1, 0.2, 0.5 dB/division and 1 to 20 dB/division in 1 dB steps (10 display divisions)

Log scale

RBW ≥ 1 kHz
RBW ≤ 300 Hz

Calibrated 0 to -85 dB from reference level
Calibrated 0 to -120 dBa from reference level

Linear scale

Scale units

Trace detectors
Trace functions

Display resolution

dBm, dBmV, dBµV,
dBµA, A, V, and W

Peak, negative peak, sample, rms, average

Clear/write, max. hold, min. hold, view, blank, operations, normalize

b

dBm, dBmV, dBµV, dBµA, A, V, W and Hz (Option BAA)

640 x 480

Marker readout resolution

Log scale

0 to – 85 dB

0 to –120 dB (1DR)

Linear scale

0.01% of reference level

Reference level

Range

–149.9 dBm to maximum mixer level + attenuator setting

Resolution

Log scale

Linear scale
Accuracy

c

± 0.12% of reference level

For reference level (dBm) – input attenuator setting (dB) + preamp gain (dB)

-10 dBm to > -60 dBm

-60 dBm to > -85 dBm

-85 dBm to > -90 dBm

or ESA with Option B7D/B7E

10 divisions

0.04

±0.1 dB

± 0.3 dB
± 0.5 dB
± 0.7 dB

Display scale switching uncertainty (referenced to 1 kHz at reference level)

Linear to log switching

± 0.15 dB at reference level

Resolution bandwidth switching uncertainty (referenced to 1 kHz at reference level)

1 Hz to 10 Hz RBW
100 Hz to 3 MHz RBW

± 0.3 dB (1DR) ± 0.3 dB

5 MHz RBW

± 0.3 dB

(1DR, 1D5)

± 0.6 dB

± 0.3 dB

10

a. Frequency response values are referenced to the amplitude at 50 MHz

(20 to 30 °C).

b. Referenced to midpoint between highest and lowest frequency response

deviations (20 to 30 °C).
c. Custom path ESA-E only Option UKB, typical.
d. Settings are: reference level -25 dBm; (75 Ω reference level +28.75 dBmV);

input attenuation 10 dB; center frequency 50 MHz; RBW 1 kHz; VBW 1 kHz;

amplitude scale linear or log; span 2 kHz; frequency scale linear; sweep time

coupled, sample detector, signal at reference level.
e. For reference level 0 to -50 dBm; input attenuation 10 dB; RBW 1 kHz;

VBW 1 kHz; amplitude scale log, log range 0 to -50 dB from reference level;

frequency scale linear; sweep time coupled; signal input 0 to -50 dBm;

span ≤ 20 kHz. (20 to 30 °C).

f. Input frequency < 3GHz; -50 dBm ≤ input power ≤ 0 dBm; -50 dBm ≤ reference

level ≤ 0 dBm; -20 dB ≤ input power - ref level ≤ 0 dB; input attenuation = 10 dB;
10 Hz ≤ RBW ≤ 1 MHz; (20 to 30 °C). Computed from the observation of a
statistically significant number of instruments. Observations of the 50 MHz
amplitude accuracy, a component of the computation of this number are
performed immediately after invoking RF and IF alignments to minimize the
effects of alignment drifts.

g. 0 to 30 dB for RBW = 200 Hz.

Amplitude Specifications

Basic analyzer

Standard, communications test analyzer or

custom configuration

Input attenuator switching uncertainty (at 50 MHz)

Attenuator setting

0 dB to 5 dB
10 dB

15 dB
20 dB to 60 dB

± (0.1 dB + 0.01 x attenuator setting)

± 0.3 dB

Reference

Frequency response (10 dB input attenuation)

Absolutea/typical/relative

100 Hz to 9 kHz

c

9 kHz to 3 GHz ± 0.5 dB/NA/± 0.5 dB

b

± 0.5 dB/NA/± 0.5 dB

± 0.46 dB/± 0.14 dB/± 0.5 dB

± 0.5 dB/NA/± 0.5 dBa (Option UKB)

3 GHz to 6.7 GHz ± 1.5 dB/NA/± 1.3 dB ± 1.5 dB/± 0.38 dB/± 1.3 dB

6.7 GHz to 13.2 GHz ± 2 dB/± 0.68 dB/± 1.8 dB

13.2 GHz to 26.5 GHz ± 2 dB/± 0.86 dB/± 1.8 dB

± 2 dB/NA/± 1.8 dB

Absolute amplitude accuracy

At reference settings

d

± 0.4dB ± 0.34 dB, ± 0.16 dB typical
Preamp on ± 0.37 dB, ± 0.14 dB typical
Overall amplitude accuracy

(95% confidence)

f

e

± (0.6dB + absolute frequency response)

± (0.54 dB + absolute frequency response)

± 0.4 dB (95%)

Display scale fidelity
Log max cumulative

dB below reference level

RBW ≥ 1 kHz

0 dB

0 dB reference
> 0 to 10 dB

> 10 to 20 dB
> 20 to 30 dB
> 30 to 40 dB
> 40 to 50 dB
> 50 to 60 dB
> 60 to 70 dB
> 70 to 80 dB
> 80 to 85 dB

RBW ≤ 300 Hz (Option 1DR)
span > 0 Hz, auto range on 0 to 98 dB

0 to 98 dB

g

> 98 to 120 dB

± (0.3dB + 0.01 x dB

from reference level

g

± (0.3dB + 0.01 x dB

from reference level)

± 2.0 dB from reference level, characteristic

±0.3 dB, typ ±0.08 dB
±0.4 dB, typ ±0.09 dB

±0.5 dB, typ ±0.1 dB
±0.6 dB, typ ±0.23 dB
±0.7 dB, typ ±0.35 dB
±0.7 dB, typ ±0.35 dB
±0.8 dB, typ ±0.39 dB

±0.8 dB, typ ±0.46 dB

±1.15 dB, typ ±0.79 dB

Log incremental accuracy

dB below reference level

0 to 80 dB

g

Linear accuracy

± 0.4 dB / 4 dB

± 2% of reference level

11

Figure 2. Specified dynamic range for E4407B spectrum analyzer

a. Mixer power level (dBm) = input power (dBm) - input attenuation (dB).
b. Characteristic. Measured by selecting “Measure, ACP”, 20 to 30 °C, 3GPP (3.1 Dec

1999) W-CDMA signal with 1 DPCH, channel power -9 dBm/3.84 MHz, integration
bandwidth 3.84 MHz, carrier frequency 2 GHz, reference level -16 dBm, input
attenuation 0 dB, RBW 30 kHz. Noise correction can be turned on by selecting
Meas Setup, More, Noise Corr On.

Amplitude Specifications

Spurious responses

Third order intermodulation distortion

10 MHz to 100 MHz
100 MHz to 3 GHz

3.0 GHz to 6.7 GHz

6.7 GHz to 13.2 GHz

13.2 GHz to 26.5 GHz

Second harmonic distortion

2 MHz to 750 MHz

- 40 dBm tone at input mixer
10 MHz to 500 MHz

- 30 dBm tone at input mixer
500 MHz to 1.5 GHz

- 30 dBm tone at input mixer

1.5 GHz to 2.0 GHz

- 10 dBm tone at input mixer
> 2 GHz

- 10 dBm tone at input mixer

WCDMA ACPR dynamic range

a

a

a

a

a

b

Basic analyzer

E4411B/03B/08B

Standard, communications test analyzer or

customer configuration E4402B/04B/05B/07B

For two -30 dBm signals at input mixera and > 50 kHz separation

< -85 dBc, +12.5 dBm; typ +16 dBm TOI

< -75 dBc, + 7.5 dBm TOI

< -82 dBc, +11 dBm; typ +18 dBm TOI
< -75 dBc, +7.5 dBm; typ +12 dBm TOI
< -75 dBc, +7.5 dBm; typ +11 dBm TOI

< -75 dBc, + 35 dBm SHI (E4411B)

< -60 dBc, + 30 dBm SHI

< -70 dBc, + 40 dBm SHI

< -80 dBc, + 70 dBm SHI

≤ -95 dBc, + 85 dBm TOI

< -65 dBc, + 35 dBm SHI

< -75 dBc, + 45 dBm SHI

< -85 dBc, + 75 dBm SHI

< -100 dBc, + 90 dBm SHI

Input terminated and 0 dB attenuation

Offset frequency
5 MHz

10 MHz

-60 dBc, -65 dBc, -66.5 dBc
noise correction (Opt 120)

-64.5 dBc, -65.5 dBc, -67 dBc
noise correction (Opt 120)

Other input related spurious

Inband > 30 kHz offset

< -65 dBc for -20 dBm tone at input mixer

Out of band responses < -80 dBc -10 dBm tone at input mixer

a

a

12

a. Meeting class A performance during DC operation.
b. For serial numbers < US414400 or MY41440000, 1MB without Option B72,

8 Mb with Option B72.

c. 401 sweep points. The size of a state will increase depending on the installed

application(s).

General Specifications

Temperature range

Operating
Storage
Disk drive

EMI compatibility

Audible noise
sound pressure at 25 °C

Military specifications
Power requirements

AC operation on (line |)

Standby (line )
DC operation

Data storage (nominal)

b

Internal
External

Basic analyzer

E4411B E4403B E4408B E4404/05/07B

Standard, communications test analyzer

or custom configuration

E4402B

0 °C to +55 °C

-40 °C to +75 °C

10 °C to +40 °C

Conducted and radiated interference is in compliance with CISPR Pub. 11/1990 Group 1 Class A

Conducted and radiated interference is in compliance with CISPR Pub. 11/1990 Group 1 Class Ba (Option 060)

< 40 dBa pressure and < 4.6 bels power (ISODP7779)

Type tested to the environmental specifications of MIL-PRF-28800F class 3
Type tested to the environmental specifications of MIL-PRF-28800F class 3

90 to 132 V rms, 47 to 440 Hz
195 to 250 V rms, 47 to 66 Hz

Power consumption < 300W

Power consumption < 5W

12 to 20 Vdc, < 200 W power consumption

200 traces or states 8.0 MB

3.5” 1.44 MB, MS-DOS

Memory usage (nominal)

State

State plus 401- point trace

Weight (without options)

13.2 kg 15.5 kg 17.1 kg 17.1 kg

Kilograms

29.1 lb 34.2 lb 37.7 lb 37.7 lb

Measurement speed

Local measurement rate

Remote measurement and

≥ 35/sec ≥ 30/sec ≥ 28/sec ≥ 40/sec

≥ 30/sec ≥ 30/sec ≥ 30/sec ≥ 45/sec ≥ 40/sec

GPIB transfer

RF center freq tuning time

≤ 90 ms

≤ 90 ms

≤ 90 ms

16 kB

20 kB

c

c

15.5 kg

34.2 lb

≥ 45/sec

≤ 75 ms≤ 75 ms

13

Inputs/outputs

Front panel

Input
RF out
Probe power
External keyboard

Headphone

Power output

AMPT REF out
IF INPUT (Option AYZ)
LO OUTPUT (Option AYZ)

Rear panel

10 MHz REF OUT
10 MHz REF IN
GATE TRIG/EXT TRIG IN
GATE /HI SWP OUT

VGA OUTPUT

IF, sweep and video ports (Option A4J or AYX)

AUX IF OUT
AUX VIDEO OUT
HI SWP IN
HI SWP OUT
SWP OUT

GPIB interface (Option A4H) IEEE-488 bus connector
Serial interface (Option 1AX)
Parallel interface

(Option A4H or 1AX) 25-pin D-SUB (f) printer port only

50 Ω type N (f); 75 Ω type N (f) (Option 1DP); 50 Ω APC 3.5 (m) (Option BAB)
50 Ω type N (f); 75 Ω BNC (f) (Option 1DQ)
+ 15 Vdc, -12.6 Vdc at 150 mA maximum (characteristic)
6-pin mini-DIN, PC keyboards (for entering screen titles and file names)
Front panel knob controls volume

0.2 Ω into 4 Ω (characteristic)
50 Ω BNC (nominal)
50 Ω SMA (nominal)
50 Ω SMA (nominal)

50 Ω BNC (f), > 0 dBm (characteristic)
50 Ω BNC (f), -15 to +10 dBm (characteristic)
BNC (f), 5 V TTL
BNC (f), 5 V TTL

VGA compatible monitor, 15-pin mini D-SUB, (31.5 kHz horizontal,
60 Hz vertical sync rates, non-interlaced analog RGB 640 x 480

BNC (f), 21.4 MHz, nominal -10 to -70 dBm (uncorrected)
BNC (f), 0 to 1V, characteristic (uncorrected)
BNC (f), low stops sweep, (5 V TTL)
BNC (f), (5 V TTL)
BNC (f), 0 to +10 V ramp

RS-232, 9-pin D-SUB (m)

14

Option Ordering

For information on ordering options, please refer to
the ESA/EMC Spectrum Analyzer Configuration
Guide, literature number 5968-3412E.

More Information

For the latest information on the Agilent ESA-E
Series see our Web page at:

www.agilent.com/find/esa

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Agilent T&M Software and Connectivity

Agilent’s Test and Measurement software and connectivity products, solutions and
developer network allows you to take time out of connecting your instruments to
your computer with tools based on PC standards, so you can focus on your tasks,
not on your connections. Visit

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connectivity

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By internet, phone, or fax, get assistance with all your test & measurement needs

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© Agilent Technologies, Inc. 2004
Printed in USA, April 28, 2004
5968-3386E

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