Agilent N2772A User's Guide

User’s Guide

Publication number N2772-92002
September 2002

sA

For Safety, Regulatory, and publishing information, see the pages at the back of this book.

© Copyright Agilent Technologies 1999-2002

All Rights Reserved.

N2772A Differential Voltage Probe

Contents

Inspect the Probe 3
Compatibility 4
Probe Parts Supplied 5
Characteristics and Specifications 6
Electrical Characteristics 6
Input Characteristics 7
Output Characteristics 7
Environmental Specifications 7
Safety Specifications 8
Using the N2772A Probe 10
Powering the N2772A 10
External Power Supply 10
Install or Replace the Battery 11
Oscilloscope Input Characteristic 11
Select the Correct Attenuation 12
Measurement Tips 12
Calibration Testing Procedures 14
Cleaning the Probe 18

2

N2772A Differential Voltage Probe

Inspect the Probe

Inspect the Probe

❏ Inspect the shipping container for damage.

Keep a damaged shipping container or cushioning material until the contents of
the shipment have been checked for completeness and the probe has been
checked mechanically and electrically.

❏ Check the accessories.

Any accessories that were supplied with the probe are listed in “Probe Parts
Supplied” this manual.

• If the contents are incomplete or damaged, notify your Agilent Technologies
Sales Office.

❏ Inspect the instrument.

• If there is mechanical damage or defect, or if the probe does not operate
properly or pass calibration tests, notify your Agilent Technologies Sales
Office.

• If the shipping container is damaged, or the cushioning materials show signs
of stress, notify the carrier as well as your Agilent Technologies Sales Office.
Keep the shipping materials for the carrier’s inspection. The Agilent
Technologies office will arrange for repair or replacement at Agilent
Technologies’ option without waiting for claim settlement.

3

N2772A Differential Voltage Probe

Inspect the Probe

N2772A Differential Voltage Probes

The N2772A differential probe allows you to safely measure floating circuits, as
high as 600V dc peak to ground, with the oscilloscope grounded. It is ideal for
many applications such as motor speed controls, power supply designs and
electronic high-power converters.

With 20 MHz bandwidth, switchable attenuation of 20:1 and 200:1, and a
maximum voltage input of 600V, it provides the versatility for a broad range of
applications including high-voltage circuits.

Eac h pr ob e co mes with sh arp pro be ti ps f or use on sm all co mpon en ts and in tigh t
places and alligator clips for connecting to larger cables.

The probe is powered by a 9V battery or by using a separate power supply, the
N2773A.

Compatibility

The N2772A differential probe is compatible with any oscilloscope that has the
following features:

• 1 M input impedance

Ω

• Can display 30V peak input

• Has BNC input

4

N2772A Differential Voltage Probe

Inspect the Probe

Probe Parts Supplied

The following diagram and table show the parts supplied with the N2772A Probe.

3

1

Parts for N2772A Probe

Item Description Part Number

1 Differential voltage probe N2772-60001
2 Probe tips 5063-2188
3 Banana jack alligator - black 5063-2189
4 Banana jack alligator - red 5063-2187
5 Hook Retractable - black 5063-2191
6 Hook Retractable - red 5063-2190

2

5

N2772A Differential Voltage Probe

Characteristics and Specifications

Characteristics and Specifications

Characteristics and specifications for the N2772A Differential Voltage Probe are
shown below.

Electrical Characteristics

Attenuation ratios 20:1 and 200:1 (Selectable via switch on probe.)
Bandwidth (into 1 M , 50 pF) 20 MHz
Accuracy 2.5% into 1 M
Rise Time 200x: 17.5 ns

High CMRR 80 dB @ 60Hz, 50 dB @ 1 MHz
Input impedence Between inputs: 10 M , 5 pF
Output impedence 50
Noise 200x: <2 mVrms

Offset <=10 mV into 1 M
Switch positions OFF, 200x, 20x
External power Via power adapter N2773A (optional)
Internal power Battery power: Alkaline 9V, IEC6LR61

Power indicators Green LED: ON at normal operation. Blinks at

Auto stand by After 30 minutes, only when battery operated.

*Battery life measured @ 25 C with Duracell® akaline battery. (Delivered with probe.)

Ω

±Ω

20x: 17.5 ns

Ω

Ω

20x: <3 mVrms

Ω

Battery life: 8 hour operation, 400 hour in auto
standby*

standby.
Red LED: ON when battery needs to be replaced.

°

6

N2772A Differential Voltage Probe

Characteristics and Specifications

For derating of each input probe (red or black), see the figure below.

Input Characteristics

Input probe tip style Shrouded banana probe tip
Probe cable length 1.5 meter (60 inches)
Maximum input voltage to ground600V CAT III

1000V CAT II

Maximum differential input
voltage

1000 VDC, or
1000 Vrms, or
1200V (DC + AC peak)

Output Characteristics

Output Characteristics

Output cable Safety designed BNC cable
Cable length 0.5 meter (20 inches)
Maximum output voltage range 6.5 V into 1 M

Environmental Specifications

Temperature Operating: 0 °C to +50 °C (+32 °F to +122 °F)

Altitude Operating: 3 km (9850 feet)

±Ω

Storage: -10 °C to +60 °C (+14 °F to +140 °F)

Storage: 12km (40,000 feet)

7

N2772A Differential Voltage Probe

Characteristics and Specifications

Table 1

Susceptibility

(in % of full dynamic range)

Frequency range:
10 kHz to 25 MHz
20x <1% <1%
200x <1% <1%
Frequency range:
25 MHz to 1 GHz
20x <=1% <=2%
200x <=1% <=2%

Safety Specifications

Meets requirements of: EN61010-2-31 (IEC1010-2-31)
Compliant with: UL3111-1 (including listing)

Max floating output voltage 600V Category III, up to 400Hz. (From shielding to

E = 3 V/m E = 10 V/m

E = 3 V/m E = 10 V/m

CSA C222.2 No. 1010.1-92 (approval: pending)

ground.)

8

WARNING SHOCK HAZARD!

These probes are designed for use with oscilloscopes that have a common

!

terminal at GROUND POTENTIAL (in accordance with OSHA requirements and
the National Electric Code). Exposed metallic surfaces of the probe and the
oscilloscope MUST BE GROUNDED. Failure to ground the common terminal
during certain applications, such as those requiring the oscilloscope to be
powered from an external battery, might expose the operator to an electrical
shock hazard that could be lethal (depending on voltage and current conditions.)

N2772A Differential Voltage Probe

Characteristics and Specifications

WARNING Do the following to avoid electrical shock or fire if the probe is connected to

more than 42V peak (30V rms):

• Use only the N2773A power adapter or a 9V battery.

• Connect the power adapter to the AC outlet before connecting it to the
N2772A.

• Do not insert metal objects in the power adapter connector.

• Use 600V rated test lead adapters. The maximum allowable input
voltage is 600V, Category III.

This symbol signifies that the N2772A Differential Probe is protected by
double or reinforced insulation. Only use specified replacement parts
when servicing the instrument.

This symbol signifies CAUTION! and requests that the user refer to the
user manual before using the instrument.

!

9

N2772A Differential Voltage Probe

Using the N2772A Probe

Using the N2772A Probe

Powering the N2772A

The N2772 probe can be powered either by an internal 9V battery or the N2773A
power supply. The battery has a limited life. For this reason the probe has a LOW
BATTERY indicator and will automatically switch to STAND BY mode after
approximately 30 minutes. If you store the probe for extended periods of time,
remove the battery and store it separately.

External Power Supply

For convenience the N2773A power supply is recommended. When you use this
power supply, take care to select the appropriate voltage with the switch on the
rear of the probe power supply. The power source has been designed to provide
the correct power with 50 Hz, 60 Hz and 400 Hz sources of 115V and 230V.

10

Install or Replace the Battery

N2772A Differential Voltage Probe

Using the N2772A Probe

WARNING Never install or replace the battery while the probe is connected to a voltage

!

source. Replace the battery when the red LED is lit, or when both red and green
LED's are off when the probe is switched on.

The expected battery life is 8 hours of operation and 400 hours in auto standby.

Oscilloscope Input Characteristic

Th e probe has been designed t o d riv e a 1M input to maxim ize battery life. The
input capacitance of the oscilloscope should be < 50 pF.

Ω

11

N2772A Differential Voltage Probe

Using the N2772A Probe

Select the Correct Attenuation on the Probe and the Oscilloscope

The probe has two modes of operation, 20:1 and 200:1 attenuation. Select the
desired attenuation on the probe and the correct probe attenuation setting on
the oscilloscope. This will ensure that accurate voltage readings can be made
directly from the oscilloscope.

Measurement Tips

• Use the 20x range on the differential voltage probe for smaller signals,
such as ripple on a high voltage reference lead.

• When the probe is battery operated, the red LED indicates that the
battery level is low and the battery needs to be replaced.

• When battery operated, the probe automatically goes to standby mode
after 30 minutes to conserve battery power. A blinking green LED
indicates that the probe is in standby mode. To continue operation, turn
the range selection switch from OFF to 20x or 200x.

• Connect the red probe cable to a more positive or more negative voltage
level than the black probe cable.

12

N2772A Differential Voltage Probe

Service Strategy

Service Strategy

For repair, calibration, and to ensure the N2772A performs to its warranted
specifications, send the probe to an Agilent Service Center for calibration testing
procedures. The probe should be tested once a year or as required by other
standards. If repair is needed and the N2772A is under warranty, normal warranty
services will apply. If the N2772A is not under warranty, repair costs will be
applied.

To return the Probe to Agilent Technologies for Service

Call (877) 477-7278 for further details and the location of your nearest Agilent
Technologies Service Office.

Write the following information on a tag and attach it to the probe.

1

• Name and address of the owner

• Probe model number

• Description of service required or failure indication

2

Retain all accessories.

3 Return the probe in its case or pack the probe in foam or other

shock-absorbing material and place it in a strong shipping container.
You can use the original shipping materials or order materials from an
Agilent Technologies Sales Office. If neither are available, place 3 to 4
inches of shock-absorbing material around the instrument and place it
in a box that does not allow movement during shipping.

4 Seal the shipment container securely.
5 Mark the shipping container as FRAGILE. In all correspondence, refer

to the instrument by model number and full serial number.

13

N2772A Differential Voltage Probe

Calibration Testing Procedures

Calibration Testing Procedures

These procedures are used to test the warranted specifications for the N2772A
Differenti al Prob e. The recommende d calibration test inte rval for the N2772A i s
once a year or as required. Use the equipment listed in the “Test Equipment
Required” section to complete the Calibration Testing Procedures.

Required Test Equipment

Description Minimum Requirements Part Number

Multimeter 8.5 digits of resolution 3458A
Oscilloscope 100 MHz 54622A
Calibrator DC Voltage 0 to ± 1100 V Fluke 5700A
Programmable Function

Generator
N2772A probe with N2773A power supply

Adaptation 1 - 50 Ω T-piece BNC + (2) 50 Ω right angle BNC + (2) BNC (m) to banana (f)
Adaptation 2 - 50 Ω termination + BNC (m) to banana (f)
Adapter - BNC (f) to banana (m)

50 MHz sine wave

Setup Files for testing

Setup for CMRR at 60 Hz at 20X Setting on Probe

CH1 ON
CH1 Sensitivity 5 mV/div, AC
CH2 OFF
CH2 Sensitivity 2 V/div, DC
Timebase 2 ms/div
BWL (Bandwidth Limiter) ON
Trigger on CH2

14

Setup for CMRR at 60 Hz at 200X Setting on Probe

CH1 ON
CH1 Sensitivity 2 mV/div, AC
CH2 OFF
CH2 Sensitivity 2 V/div, DC
Timebase 2 ms/div
BWL (Bandwidth Limiter) ON
Trigger on CH2

Setup for CMRR at 1 MHz at 20X Setting on Probe

CH1 ON
CH1 Sensitivity 200 mV/div, AC
CH2 OFF
CH2 Sensitivity 2 V/div, DC
Timebase 500 ns/div
BWL (Bandwidth Limiter) ON
Trigger on CH2

N2772A Differential Voltage Probe

Calibration Testing Procedures

Setup for CMRR at 1 MHz at 200X Setting on Probe

CH1 ON
CH1 Sensitivity 50 mV/div, AC
CH2 OFF
CH2 Sensitivity 2 V/div, DC
Timebase 500 ns/div
BWL (Bandwidth Limiter) ON
Trigger on CH2

15

N2772A Differential Voltage Probe

Calibration Testing Procedures

Setup for Bandwidth at 20 MHz, 20X Setting on Probe

CH1 ON
CH1 Sensitivity 100 mV/div, AC
CH2 OFF
CH2 Sensitivity 2 V/div, DC
Timebase 20 ns/div
BWL (Bandwidth Limiter) OFF
Trigger on CH2

Setup for Bandwidth at 20 MHz, 200X Setting on Probe

CH1 ON
CH1 Sensitivity 10 mV/div, AC
CH2 OFF
CH2 Sensitivity 2 V/div, DC
Timebase 20 ns/div
BWL (Bandwidth Limiter) OFF
Trigger on CH2

Test Offset

1

Power the N2772A with the N2773A power supply.

2 Connect the N2772A output to the 3458A multimeter via the BNC (f) to

banana (m) adapter.

3 Verify the value is betw een the 34 58A limit s listed in the table below for

each probe setting.

4 Record the value displayed on the 3458A in the Calibration Test Record.

Test Test Signal N2772A Setting 3458A Reading Limits

Offset None 20X -10 mV ... +10 mV
Offset None 200X -10 mV ... +10 mV

16

N2772A Differential Voltage Probe

Calibration Testing Procedures

Test Gain

1

Connect the red end of the N2772A probe to the calibrator HI output.

2 Connect the black end of the N2772A probe to the calibrator LO output.
3 Connect the N2772A probe output to the 3458A multimeter via the BNC

(f) to banana (m) adapter.

4 Verify the value is betw een the 34 58A limit s listed in the table below for

each output signal at each probe setting.

5 Record the value displayed on the 3458A in the Calibration Test Record.

Test Calibrator Output Signal DC N2772A Setting 3458A Reading Limits

Gain +10 V 20X +488 mV... +512 mV
Gain +100 V 20X +4.88 V... +5.12 V
Gain +100 V 200X +488 mV... +512 mV
Gain +1000 V 200X +4.88 mV... +5.12 V
Gain -10 V 20X -488 mV... -512 mV
Gain -100 V 20X -4.88 mV... -5.12 V
Gain -100 V 200X -488 mV... -512 mV
Gain -1000 V 200X -4.88 V... -5.12 V

Test Common Mode Rejection Ratio (CMRR)

1

Connect adaptation 1 to the 33250B function generator output.

2 Connect the 33250B function generator TTL-output to CH4 of the

54622A oscilloscope for triggering.

3 Connect the red and black N2772A probe tips to the red banana outputs

of adaptation 1.

4 Connect the N2772A output to CH1 of the 54622A oscilloscope.
5 Load the appropriate setup file.
6 Verify the value complies with the 3458A limits listed in the table below

for each output signal at each probe setting.

7 Record the value displayed on the 3458A in the Calibration Test Record.

Test 33250B Output Signal N2772A Setting 54622A setup & limits

CMRR Sine wave, 60 Hz, 20 V
CMRR Sine wave, 60 Hz, 20 V
CMRR Sine wave, 1 MHz, 20 V
CMRR Sine wave, 1 MHz, 20 V

20X Recall setup 1: < 1.4 div

pp

200X Recall setup 2: < 1 div

pp

20X Recall setup 3: < 1 div

pp

200X Recall setup 4: < 1 div

pp

17

N2772A Differential Voltage Probe

Cleaning the Probe

Test Bandwidth with power supply

1

Connect adaptation 2 to the 33250B function generator output.

2 Connect the red N2772A probe tip to the red banana jack.
3 Connect the black N2772A probe tip to the black banana jack.
4 Connect the N2772A output to CH1 of the 54622A oscilloscope.
5 Load the appropriate setup file.
6 Verify the value complies with the 3458A limits listed in the table below

for each output signal at each probe setting.

7 Record the value displayed on the 3458A in the Calibration Test Record.

Test 33250B Output Signal N2772A Setting 54622A setup & limits

Bandwidth Sine wave, 20 MHz, 20 V
Bandwidth Sine wave, 20 MHz, 20 V

20X Recall setup 5: > 3.5 div

pp

200X Recall setup 6: > 3.5 div

pp

Test Bandwidth with battery power

1

Connect adaptation 2 to the 33250B function generator output.

2 Connect the red N2772A probe tip to the red banana jack.
3 Connect the black N2772A probe tip to the black banana jack.
4 Connect the N2772A output to CH1 of the 54622A oscilloscope.
5 Disconnect the N2773 power supply and use battery power.
6 Load the appropriate setup file.
7 Verify the value complies with the 3458A limits listed in the table below

for each output signal at each probe setting.

8 Record the value displayed on the 3458A in the Calibration Test Record.

Test 33250B Output Signal N2772A Setting 54622A setup & limits

Bandwidth Sine wave, 20 MHz, 20 V
Bandwidth Sine wave, 20 MHz, 20 V

20X Recall setup 5: > 3.5 div

pp

200X Recall setup 6: > 3.5 div

pp

Cleaning the Probe

Disconnect the probe from all power sources and clean it with a soft cloth
dampened with a mild soap and water solution. Be careful not to get water in the
attenuation switch. Make sure the probe is completely dry before reconnecting
it to a power source.

18

Calibration Test Record

N2772A Differential Voltage Probe

Calibration Test Record

Agilent Technologies

Recommended Test Interval: 1 Year
Recommended Date of Next Certification:_________
Certification Temperature:_____________________

N2772A 20 MHz Differential Probe
Serial No.:_______________________
Certification Date:_________________
Tested By:_______________________

_______________________________
_______________________________

Test Probe Settings Limits Results

Offset
Offset 200X -10 mV ... +10 mV Reading on the 3458A

Gain 20X +488 mV ... +512 mV Reading on the 3458A
Gain 20X +4.88 V ... +5.12 V Reading on the 3458A
Gain 200X +488 mV ... +512 mV Reading on the 3458A
Gain 200X +4.88 V ... +5.12 V Reading on the 3458A
Gain 20X -488 mV ... -512 mV Reading on the 3458A
Gain 20X -4.88 V ... -5.12 V Reading on the 3458A
Gain 200X -488 mV ... -512 mV Reading on the 3458A
Gain 200X -4.88 V ... -5.12 V Reading on the 3458A

CMRR 20X < 1.4 div Reading on oscilloscope
CMRR 200X < 1 div Reading on oscilloscope
CMRR 20X < 1 div Reading on oscilloscope
CMRR 200X < 1 div Reading on oscilloscope

20X

-10 mV ... +10 mV Reading on the 3458A

Bandwidth
with power
supply

Bandwidth
with power
supply

Bandwidth
with battery
power

Bandwidth
with battery
power

20X > 3.5 div Reading on oscilloscope

200X > 3.5 div Reading on oscilloscope

20X > 3.5 div Reading on oscilloscope

200X > 3.5 div Reading on oscilloscope

19

N2772A Differential Voltage Probe

Calibration Test Record

20

Safety
Notices

This apparatus has been
designed and tested in accor­dance with IEC Publication
1010, Safety Requirements for
Measuring Apparatus, and
has been supplied in a safe
condition. This is a Safety
Class I instrument (provided
with terminal for protective
earthing). Before applying
power, verify that the correct
safety precautions are taken
(see the following warnings).
In addition, note the external
markings on the instrument
that are described under
"Safety Symbols."

Warnings

• Before turning on the instru­ment, you must connect the
protective earth terminal of
the instrument to the protec­tive conductor of the (mains)
power cord. The mains plug
shall only be inserted in a
socket outlet provided with a
protective earth contact. You
must not negate the protec­tive action by using an exten­sion cord (power cable)
without a protective conduc­tor (grounding). Grounding
one conductor of a two-con­ductor outlet is not sufficient
protection.

• Only fuses with the required
rated current, voltage, and
specified type (normal blow,
time delay, etc.) should be
used. Do not use repaired
fuses or short-circuited fuse­holders. To do so could cause
a shock or fire hazard.

• If you energize this instru­ment by an auto transformer
(for voltage reduction or
mains isolation), the common
terminal must be connected to
the earth terminal of the
power source.

• Whenever it is likely that the
ground protection is impaired,
you must make the instrument
inoperative and secure it
against any unintended opera­tion.

• Service instructions are for
trained service personnel. To
avoid dangerous electric
shock, do not perform any ser­vice unless qualified to do so.
Do not attempt internal ser­vice or adjustment unless
another person, capable of

rendering first aid and resus­citation, is present.

• Do not install substitute parts
or perform any unauthorized
modification to the instrument.

• Capacitors inside the instru­ment may retain a charge
even if the instrument is dis­connected from its source of
supply.

• Do not operate the instru­ment in the presence of flam­mable gasses or fumes.
Operation of any electrical
instrument in such an environ­ment constitutes a definite
safety hazard.

• Do not use the instrument in
a manner not specified by the
manufacturer.

To clean the instrument

If the instrument requires
cleaning: (1) Remove power
from the instrument. (2) Clean
the external surfaces of the
instrument with a soft cloth
dampened with a mixture of
mild detergent and water. (3)
Make sure that the instru­ment is completely dry before
reconnecting it to a power
source.

Safety Symbols

!

Instruction manual symbol:
the product is marked with
this symbol when it is neces­sary for you to refer to the
instruction manual in order to
protect against damage to the
product..

Hazardous voltage symbol.

Earth terminal symbol: Used to
indicate a circuit common
connected to grounded chas­sis.

Agilent Technologies
P.O. Box 2197
1900 Garden of the Gods Road
Colorado Springs, CO 80901

Notices

© Agilent Technologies, Inc.
2002
No part of this manual may be
reproduced in any form or by
any means (including elec­tronic storage and retrieval or
translation into a foreign lan­guage) without prior agree­ment and written consent
from Agilent Technologies,
Inc. as governed by United
States and international copy­right laws.

Manual Part Number

N2772-92001, September 2002

Print History

N2772-92000, November 1999
N2772-92001, September 2002

Agilent Technologies, Inc.
1900 Garden of the Gods Road
Colorado Springs, CO 80907
USA

Restricted Rights Legend

If software is for use in the
performance of a U.S. Govern­ment prime contract or sub­contract, Software is
delivered and licensed as
“Commercial computer soft­ware” as defined in DFAR

252.227-7014 (June 1995), or as
a “commercial item” as
defined in FAR 2.101(a) or as
“Restricted computer soft­ware” as defined in FAR

52.227-19 (June 1987) or any
equivalent agency regulation
or contract clause. Use, dupli­cation or disclosure of Soft­ware is subject to Agilent
Technologies’ standard com­mercial license terms, and
non-DOD Departments and
Agencies of the U.S. Govern­ment will receive no greater
than Restricted Rights as
defined in FAR 52.227-19(c)(1-

2) (June 1987). U.S. Govern­ment users will receive no
greater than Limited Rights as
defined in FAR 52.227-14 (June

1987) or DFAR 252.227-7015
(b)(2) (November 1995), as
applicable in any technical
data.

contained herein, includ­ing but not limited to the
implied warranties of
merchantability and fit­ness for a particular pur­pose. Agilent shall not be
liable for errors or for
incidental or consequen­tial damages in connec­tion with the furnishing,
use, or performance of
this document or of any
information contained
herein. Should Agilent
and the user have a sepa­rate written agreement
with warranty terms cov­ering the material in this
document that conflict
with these terms, the war­ranty terms in the sepa­rate agreement shall
control.

Technology Licenses

The hardware and/or soft­ware described in this docu­ment are furnished under a
license and may be used or
copied only in accordance
with the terms of such license.

WARNING
A WARNING notice

denotes a hazard. It
calls attention to an
operating procedure,
practice, or the like
that, if not correctly
performed or adhered
to, could result in
personal injury or
death. Do not proceed
beyond a WARNING
notice until the
indicated conditions
are fully understood
and met.

CAUTION

A CAUTION notice
denotes a hazard. It
calls attention to an
operating procedure,
practice, or the like
that, if not correctly
performed or adhered
to, could result in
damage to the product
or loss of important
data. Do not proceed
beyond a CAUTION
notice until the
indicated conditions
are fully understood
and met.

Document Warranty

The material contained in
this document is provided
“as is,” and is subject to
being changed, without
notice, in future editions.
Further, to the maximum
extent permitted by appli­cable law, Agilent dis­claims all warranties,
either express or implied,
with regard to this man­ual and any information

DECLARATION OF CONFORMITY

According to ISO/IEC Guide 22 and CEN/CENELEC EN 45014

Manufacturer's Name: Agilent Technologies, Inc.
Manufacturer's Address: 1900 Garden of the Gods Road

Colorado Springs, CO
80907, U.S.A.

Declares, that the product

Product Name: Differential Voltage Probe
Model Number(s): N2772A
Product Option(s): This declaration covers all options of the above product(s).

Conforms with the following product standards:

EMC: Standard
IEC 61326-1:1997+A1:1998 / EN 61326-1:1997+A1:1998

CISPR 11:1990 / EN 55011:1991
IEC 61000-4-2:1995+A1:1998 /EN 61000-4-2:1995
IEC 61000-4-3:1995 / EN 61000-4-3:1995
IEC 61000-4-4:1995 / EN 61000-4-4:1995
IEC 61000-4-5:1995 / EN 61000-4-5:1995
IEC 61000-4-6:1996 / EN 61000-4-6:1996
IEC 61000-4-11:1994 / EN 61000-4-11:1995
Canada: ICES-001:1998
Australia/New Zealand: AS/NZS 2064.1

Safety: IEC 61010-1:1990+A1:1992+A2:1995 / EN 61010-1:1993+A2:1995

Canada: CSA C22.2 No. 1010.1:1992

Supplementary Information:

The product herewith complies with the requirements of the Low Voltage Directive 73/23/EEC
and the EMC Directive 89/336/EEC (including 93/68/EEC, and carries the CE-marking accordingly
(European Union).

[1]

This product was tested in a typical configuration with Agilent Technologies test systems.

Limit

Group 1 Class A
4kV CD, 8kV AD
3 V/m, 80-1000 MHz

0.5kV signal lines, 1kV power lines

0.5 kV line-line, 1 kV ground line
1 cycle, 100%
3V, 0.15-80 MHz

[1]

Date: 08/21/2000

Ken Wyatt / Product Regulations Manager

For further information, please contact your local Agilent Technologies sales office, agent or distributor.

Product Regulations

Performance
Criteria

EMC IEC 61326-1:1997+A1:1998 / EN 61326-1:1997+A1:1998

CISPR 11:1990 / EN 55011:1991
IEC 61000-4-2:1995+A1:1998 /EN 61000-4-2:1995
IEC 61000-4-3:1995 / EN 61000-4-3:1995
IEC 61000-4-4:1995 / EN 61000-4-4:1995
IEC 61000-4-5:1995 / EN 61000-4-5:1995
IEC 61000-4-6:1996 / EN 61000-4-6:1996
IEC 61000-4-11:1994 / EN 61000-4-11:1995

A
B
A
A
A

A
Canada: ICES-001:1998
Australia/New Zealand: AS/NZS 2064.1

Safety IEC 61010-1:1990+A1:1992+A2:1995 / EN 61010-1:1993+A2:1995

Canada: CSA C22.2 No. 1010.1:1992

Additional Information

The product herewtih complies with the requirements of the Low Voltage Directive 73/23/EEC
and the EMC Directive 89/336/EEC (including 93/68/EEC) and carries the CE Marking
accordingly (European Union).

1

Performance Codes:
A PASS - Normal operation, no effect.
B PASS - Temporary degradation, self recoverable.
C PASS - Temporary degradation, operator intervention required.
D FAIL - Not recoverable, component damage.

Notes:

Sound Pressure Level N/A

Regulatory Information for Canada

ICES/NMB-001

This ISM device complies with Canadian ICES-001.
Cet appareil ISM est confomre à la norme NMB-001 du Canada.

Regulatory Information for Australia/New Zealand

This ISM device complies with Australian/New Zealand AS/NZS 2064.1

26

27

sA

Agilent Technologies
Printed in the Malaysia

Manual Part Number
N2772-92002

*N2772-92002*