Fluke Biomedical ESA612 Getting Started Manual

PN 3334511
January 2009, Rev. 2, 4/13

© 2009, 2013 Fluke Corporation. All rights reserved. Specifications subject to change without notice.
All product names are trademarks of their respective companies.

ESA612

Electrical Safety Analyzer

Getting Started Manual

Warranty and Product Support

Fluke Biomedical warrants this instrument against defects in materials and workmanship for one year from the date of origi­nal purchase OR two years if at the end of your first year you send the instrument to a Fluke Biomedical service center for
calibration. You will be charged our customary fee for such calibration. During the warranty period, we will repair or at our
option replace, at no charge, a product that proves to be defective, provided you return the product, shipping prepaid, to
Fluke Biomedical. This warranty covers the original purchaser only and is not transferable. The warranty does not apply if the
product has been damaged by accident or misuse or has been serviced or modified by anyone other than an authorized
Fluke Biomedical service facility. NO OTHER WARRANTIES, SUCH AS FITNESS FOR A PARTICULAR PURPOSE, ARE
EXPRESSED OR IMPLIED. FLUKE SHALL NOT BE LIABLE FOR ANY SPECIAL, INDIRECT, INCIDENTAL OR CONSE­QUENTIAL DAMAGES OR LOSSES, INCLUDING LOSS OF DATA, ARISING FROM ANY CAUSE OR THEORY.

This warranty covers only serialized products and their accessory items that bear a distinct serial number tag. Recalibration
of instruments is not covered under the warranty

This warranty gives you specific legal rights and you may also have other rights that vary in different jurisdictions. Since
some jurisdictions do not allow the exclusion or limitation of an implied warranty or of incidental or consequential damages,
this limitation of liability may not apply to you. If any provision of this warranty is held invalid or unenforceable by a court or
other decision-maker of competent jurisdiction, such holding will not affect the validity or enforceability of any other provision.

7/07

Notices

All Rights Reserved

 Copyright 2009, Fluke Biomedical. No part of this publication m ay be reproduced, transmitted, transcribed, stored in a retrieval system, or translated into
any language without the written permission of Fluke Biomedical.

Copyright Release

Fluke Biomedical agrees to a limited copyright release that allows you to reproduce manuals and ot her printed m aterials for use in ser vice training programs
and other technical publications. If you would like other r eproduct ions or distributio ns, submit a written reques t to Fluke Biome dical.

Unpacking and Inspection

Follow standard receiving practices upon receipt of the instrument. Check the shipping carton for damage. If damage is found, stop unpacki ng the instrum ent.
Notify the carrier and ask for an agent to be present while the instrum ent is unpacked. There ar e no special unpacking i nstructions, but be caref ul not to dam­age the instrument when unpacking it. Inspect the instrument for p hysical damage such as bent or broken parts, dent s, or scratc hes.

Technical Support

For application support or answers to technical questions, eit her email techservices@flukebiomedical.com or call 1- 800- 648-7952 or 1-425- 446-6945.

Claims

Our routine method of shipment is via comm on carrier, FOB origin. Upon deli very, if physical dam age is found, retain all packi ng materials in their origi nal
condition and contact the carrier immediately to file a claim. If the instrument is delivered in good physical condition but does not operate within specifica­tions, or if there are any other problems not caused by shipping dam age, please contact Fluke Biom edical or your local s ales representative.

Standard Terms and Conditions

Refunds and Credits

Please note that only serialized products and their accessory items (i.e., products and items bearing a distinct serial number tag) are eligible for
partial refund and/or credit. Nonserialized parts and accessory items (e.g., cables, carrying cases, auxiliary modules, etc.) are not eligible for re­turn or refund. Only products returned within 90 days from the date of original purchase are eligible for refund/credit. In order to receive a partial re­fund/credit of a product purchase price on a serialized product, the product must not have been dama ged by the customer or by the carrier chosen by the cus­tomer to return the goods, and the product must be returned complete (meaning with all manuals, cables, accessories, etc.) and in “as new” and resalab le con­dition. Products not returned within 90 days of purchase, or products which are not in “as new” and resalable conditio n, are not eligible for credit return and
will be returned to the customer. The Return Procedure (see below) must be followed to assure prompt refund/credit.

Restocking Charges

Products returned within 30 days of original purchase are subject to a minimum restocking fee of 15 %. Products returned in excess of 30 days af­ter purchase, but prior to 90 days, are subject to a minimum restocking fee of 20 %. Additional charges for damage and/or missing parts and accesso­ries will be applied to all returns.

Return Procedure

All items being returned (including all warranty- claim shipments) m ust be sent freight- prepaid to our factory location. When yo u return an instrument to
Fluke Biomedical, we recommend using United Parcel Service, Federal Express, or Air Parcel Post. We also recommend that you insure your shipment for its
actual replacement cost. Fluke Biomedical will not be responsible for lost shipments or instruments that are received in damaged conditi on due to im proper
packaging or handling.

Use the original carton and packaging material for shipment. If they are not available, we recommend the following guide for repackaging:

 Use a double–walled carton of sufficient strength f or the weight being shi pped.
 Use heavy paper or cardboard to protect all instrument surfac es. Use nonabrasive m aterial around all pr ojecting parts.
 Use at least four inches of tightly packed, industry-approved, shock-absorbent material around the instrument.

Returns for partial refund/credit:

Every product returned for refund/credit must be accompanied by a Return Material Authorization (RMA) number, obtained from our Order Entry Group at
1-800-648-7952 or 1-425-446-6945.

Repair and calibration:

To find the nearest service center, go to www.flukebiomedical.com/service or
In the U.S.A.:

Cleveland Calibration Lab
Tel: 1-800-850-4606
Email: globalcal@flukebiomedical.com

Everett Calibration Lab
Tel: 1-888-99 FLUKE (1-888-993-5853)
Email: service.status@fluke.com

In Europe, Middle East, and Africa:
Eindhoven Calibration Lab
Tel: +31-402-675300
Email: ServiceDesk@fluke.com

In Asia:
Everett Calibration Lab
Tel: +425-446-6945
Email: service.international@fluke.com

Certification

This instrument was thoroughly tested and inspected. It was found to meet Fluke Biomedical’s manufacturing s pecifications when it was shi pped from the
factory. Calibration measurements are traceable to the National Institute of Standards and Technology (NIST). Devices for which there are no NIST calibra­tion standards are measured against in-house performance standards using accepted test procedures.

WARNING

Unauthorized user modifications or application beyond the published specifications may result in electrical shock hazards or improper operat ion. Fluke Bio­medical will not be responsible for any injuries sustained due to unauthorized equipment modifications.

Restrictions and Liabilities

Information in this document is subject to change and does not represent a commitment by Fluke Biomedical. Changes made to the information in
this document will be incorporated in new editions of the publication. No responsibility is assumed by Fluke Biomedical for the use or reliability
of software or equipment that is not supplied by Fluke Biomedical, or by its affiliated dealers.

Manufacturing Location

The ESA612 Electrical Safety Analyzer is manufactured at Fluke Biomedical, 6920 Seaway Blvd., Everett, WA, U.S.A.

Table of Contents

Title Page

Introduction .................................................................................................................... 1

Safety Information .......................................................................................................... 3

Intended Use .................................................................................................................. 4

Unpacking the Analyzer ................................................................................................. 5

Instrument Familiarization .............................................................................................. 5

How to Hold the Product ................................................................................................ 9

Connecting to Line Power .............................................................................................. 9

Connecting a DUT to the Analyzer ................................................................................. 10

Turning the Analyzer On ................................................................................................ 10

Setting the Display’s Contrast ........................................................................................ 12

Accessing the Analyzer’s Functions ............................................................................... 12

What to Do Next ............................................................................................................. 14

Maintenance ................................................................................................................... 14

Testing and Replacing the Fuses ................................................................................... 14

Cleaning the Analyzer .................................................................................................... 15

Replaceable Parts .......................................................................................................... 16

Accessories .................................................................................................................... 18

Specifications ................................................................................................................. 19

i

ESA612

Getting Started Manual

Detailed Specifications ................................................................................................... 20

ii

List of Tables

Table Title Page

1. Symbols ................................................................................................................................. 2

2. Front-Panel Controls and Connections .................................................................................. 6

3. Side and Top-Panel Connections .......................................................................................... 8

4. Replaceable Parts ................................................................................................................. 16

5. Accessories ........................................................................................................................... 18

iii

ESA612

Getting Started Manual

iv

List of Figures

Figure Title Page

1. Front-Panel Controls and Connections .................................................................................. 5

2. Side and Top-Panel Connections .......................................................................................... 7

3. Product Handle ...................................................................................................................... 9

5. Analyzer Ready for Operation ............................................................................................... 10

4. DUT Connected to the Analyzer ............................................................................................ 11

6. Leakage Current Menu .......................................................................................................... 12

7. DUT Ground Wire Resistance Measurement ........................................................................ 13

8. Fuse Access .......................................................................................................................... 14

v

ESA612

Getting Started Manual

vi

Electrical Safety Analyzer

Introduction

The Fluke Biomedical ESA612 Electrical Safety Analyzer
(hereafter the Analyzer) is a full-featured, compact,
portable analyzer, designed to verify the electrical safety
of medical devices. The Analyzer tests to domestic
(ANSI/AAMI ES1, NFPA 99) and international (IEC62353,
AN/NZS 3551, and parts of IEC 60601-1) electrical-safety
standards. The integrated ANSI/AAMI ES1 and
IEC60601-1 patient loads are easily selectable.

The Analyzer performs the following tests:

• Line (Mains) voltage

• Ground Wire (or Protective Earth) Resistance

• Equipment current

• Insulation resistance

• Ground (Earth) leakage

• Chassis (Enclosure) leakage

• Lead to Ground (Patient) and Lead to Lead (Patient

Auxiliary) leakage

• Lead isolation (Mains on applied parts leakage)

• Differential leakage

• Direct equipment leakage

• Direct applied part leakage

• Alternative equipment leakage

• Alternative applied part patient leakage

• Point to point leakage, voltage, and resistance

• ECG simulation and performance waveforms

1

ESA612

Getting Started Manual

Table 1. Symbols

Symbol Description





Important information; refer to manual.

Hazardous voltage

 Conforms to relevant Canadian and US standards

 Conforms to relevant Australian EMC requirements

 Conforms to European Union directives

This product complies with the WEEE Directive (2002/96/EC) marking requirements. The affixed label
indicates that you must not discard this electrical/electronic product in domestic household waste. Product



CAT II



2

Category: With reference to the equipment types in the WEEE Directive Annex I, this product is classed as
category 9 "Monitoring and Control Instrumentation" product. Do not dispose of this product as unsorted
municipal waste. Go to Fluke’s website for recycling information.

IEC Measurement Category II – CAT II equipment designed to protect against transients from energy­consuming equipment supplied from fixed installations.
Accessible Functional Earth Terminal

Electrical Safety Analyzer

Safety Information

Safety Information

In this manual, a Warning identifies hazardous conditions

and actions that could cause bodily harm or death. A

Caution identifies conditions and actions that could

damage the Analyzer, the equipment under test, or cause
permanent loss of data.

 Warning

To avoid possible electrical shock or personal
injury, follow these guidelines:

• Use this Analyzer only in the manner
specified by the manufacturer or the
protection provided may be impaired.

• Read the Users Manual before operating
the Analyzer.

• Do not connect the Analyzer to a patient or
equipment connected to a patient. The
Analyzer is intended for equipment
evaluation only and should never be used
in diagnostics, treatment or in any other
capacity where the Analyzer would come in
contact with a patient.

• Do not use the product in wet or damp
locations, around explosive gases or dust.

• Inspect the Analyzer before using it. Do not
use the Analyzer if abnormal conditions of
any sort are noted (such as a faulty display,
broken case, etc.)

• Inspect the test leads for damaged
insulation or exposed metal. Check test
lead continuity. Replace damaged leads
before using the Analyzer.

• When testing, always be sure to keep your
fingers behind the safety barriers on the
test leads.

• Never open the Analyzer's case. Dangerous
voltages are present. There are no user
replaceable parts in the Analyzer.

• Have the Analyzer serviced only by
qualified personnel.

3

ESA612

Getting Started Manual

• The Analyzer must be properly earthed.
Only use a supply socket that has a
protective earth contact. If there is any
doubt as to the effectiveness of the supply
socket earth, do not connect the Analyzer.
Do not use a two-conductor adapter or
extension cord; this will break the
protective ground connection.

• Do not use the 15-20 A adapter to power
devices rated in excess of 15 A. Doing so
may overload the installation.

• Use extreme caution when working with
voltages above 30 V.

• Use the proper terminals, functions and
ranges for the test being performed.

• Do not touch metal parts of the device
under test (DUT) during analysis. The DUT
should be considered an electrical shock
hazard when connected to the Analyzer as
some tests involve high voltages, high
currents, and/or the removal of DUT earth
bond.

Intended Use

The Product is an electronic signal source and
measurement device for verifying the electrical safety of
medical devices. The Product also provides ECG

simulation and performance waveforms to verify patient
monitors are performing within their operating
specifications.

The Product provides the following function categories:

• ECG Functions

• ECG-Performance Testing

The intended user is a trained biomedical equipment
technician who performs periodic preventative
maintenance checks on patient monitors in service. Users
can be associated with hospitals, clinics, original
equipment manufacturers and independent service
companies that repair and service medical equipment. The
end user is an individual, trained in medical
instrumentation technology.

This Product is intended to be used in the laboratory
environment, outside of the patient care area, and is not
intended for use on patients, or to test devices while
connected to patients. This Product is not intended to be
used to calibrate medical equipment. It is intended for
over-the-counter use.

4

Electrical Safety Analyzer

Unpacking the Analyzer

Unpacking the Analyzer

Carefully unpack all items from the box and check that you
have the following items:

• ESA612

• Getting Started Manual

• Users Manual CD

• Carrying case

• Power cord

• 15 – 20 A Adapter (USA only)

• ESA USA Accessory Kit (USA, Australia, and Israel

only)

• ESA EUR Accessory Kit

• Ansur demo CD

• Null Post Adapter

• 5-to-5 Banana to ECG Adapter (BJ2ECG)

• Data Transfer Cable

Instrument Familiarization

Figure 1 and Table 2 describes the front-panel controls
and connections of the Analyzer.

9

8

TEST

7

6

fis116.eps

Figure 1. Front-Panel Controls and Connections

1

2

3

4

5

5

ESA612

Getting Started Manual

Table 2. Front-Panel Controls and Connections

Item Name Description

Controls the configuration of

Equipment Outlet

1

Configuration
Buttons

High Voltage

2

Indicator

Test Function

3

Buttons

4 Navigation Buttons

5 Test Button Initiates selected tests.

6 Save Button

the equipment outlet. Opens
and closes the neutral and
ground connection and
reverses the polarity of the
neutral and hot connection.

Indicates when high voltage
is applied to the
ECG/Applied Parts posts or
L1 and L2 of the Test
Receptacle.

Selects the various Analyzer
test functions.

Cursor control buttons for
navigating menus and lists.

Saves the measurement or
ECG waveform to memory.

Item Name Description

8 Nulling Jack

9 Function Softkeys

Connection for zeroing test
lead resistance.

Keys F1 through F4 are used
to select from a number of
selections that appear in the
LCD display above each
function softkey.

7 Input Jacks Test lead connectors.

6

Electrical Safety Analyzer

Instrument Familiarization

Figure 2 and Table 3 describe the side and top-panel connections of the Analyzer.

R

RA

RFLNC1

LL LA RL

V1

C1

V1

RA

FLN

LL LA RL

TEST

Old Version*

7

4

2

1

3

9

8

5

*Old versions have a B style connector for USB port.

6

fis110.eps

Figure 2. Side and Top-Panel Connections

7

ESA612

Getting Started Manual

Table 3. Side and Top-Panel Connections

Item Name Description

Equipment Outlet

1

USB Device Port

2

(Mini B-style connector)1

3 Fuse Access Door Covers the equipment outlet fuses.

4 Tilt Stand Support for holding the Analyzer in a tilted position.

5 AC Power Switch Turns ac power on and off.

6 Power Input Connector

7 ECG/Applied Parts Jacks

8 Banana Jack to ECG Adapter Adapter for connecting ECG snap leads to the Analyzer.

9 Carry Handle

1 Older versions of the Analyzer have a B-style USB port connector.

Equipment outlet, specific to the version of the Analyzer, which provides a DUT
connection.

Digital connection for controlling the Analyzer from a PC or instrument
controller.

A grounded male three-prong (IEC 60320 C19) connector that accepts the
line-power cord.

Connection posts for Device Under Test (DUT) applied parts, such as ECG
leads. Used to test for leakage current through leads and to supply ECG
signals and performance waveforms to a DUT.

Handle to transport Analyzer. Note: There is no handle on old versions of the
analyzer.

8

Electrical Safety Analyzer

How to Hold the Product

How to Hold the Product

When you move the Analyzer, use the handle in the
bottom case to hold it. See Figure 3.

Note

There is no handle on old versions of the
Analyzer.

Connecting to Line Power

Warning

To avoid shock hazard and for proper
Analyzer operation, connect the factory
supplied three-conductor line power cord to
a properly grounded power outlet. Do not
use a two-conductor adapter or extension
cord; this will break the protective ground
connection.

Connect the Analyzer to a properly grounded three-prong
outlet. The Analyzer will not properly test a DUT when the
ground lead is open.

The Analyzer is intended for use with single-phase,
grounded power. It is not intended for dual, split-phase or
three-phase power configurations. But it can be used with
any power system that supplies the correct voltages for
single-phase and is grounded, or is an isolated power
system.

Figure 3. Product Handle

9

fis122.eps

ESA612

Getting Started Manual

Connecting a DUT to the Analyzer

A Device Under Test (DUT) can be connected in a
number of different ways depending on the device and
the number of connections needed for a full electrical
safety test. Figure 5 shows a DUT connected to the test
receptacle, applied parts posts, and a separate
connection to the DUT’s enclosure or protective earth
ground.

Turning the Analyzer On

Note

To ensure the high voltage indicator is working,
look for it to illuminate during the power-up self
test.

Press the power switch on the left-side panel so the “I”
side of the ac power switch is depressed. The Analyzer

will perform a series of self tests and then display the
message shown in Figure 4 when the self test has
completed successfully.

Figure 4. Analyzer Ready for Operation

fis101.eps

10

Electrical Safety Analyzer

Turning the Analyzer On

To protective earth or
any exposed conductive
surface on the enclosure

Connect ESA612
to grounded
mains socket.

TEST

RA

R

LL

F

LA

L

RL

N

V1

C1

Connect the DUT ac power cord to the

equipment outlet on the Analyzer

11

Figure 5. DUT Connected to the Analyzer

fis113.eps

ESA612

Getting Started Manual

During the self-test, the Analyzer checks its ac mains
input for proper polarity, ground integrity and voltage
level. The high voltage indicator illuminates briefly during
the self test. If the polarity is reversed, the Analyzer
indicates this condition and allows the polarity to be
reversed internally. If the ground is open, the Analyzer
displays this fault. If the mains voltage is too high or too
low, the Analyzer displays this fault and does not continue
until the supply voltage is corrected and the Analyzer
power cycled off and then on again.

Setting the Display’s Contrast

Whenever the Analyzer displays the start-up menu shown
in Figure 4, press  or  to increase or decrease the

display’s contrast. Press the softkey labeled Done to exit

contrast setup.

Accessing the Analyzer’s Functions

For each test and setup function, the Analyzer uses a
series of menus to access various Analyzer tests and
setup variables. As shown in Figure 6, the Analyzer
indicates various leakage current tests along the bottom
of the display. An Exit selection is also indicated as a way
of backing out of the leakage current tests. Pressing a
softkey (F1 through F4) under a specific test will cause
the analyzer to setup for or perform the selected test.

12

fis117.eps

Figure 6. Leakage Current Menu

In addition to the function softkeys, the Analyzer test
functions may require using the navigation buttons to
select parameters as well. In the example above, the
leakage selection has  next to it. This icon indicates the
selection is controlled by pressing  or . In this
example, the leakage current measurement is switched
between AC+DC, AC only, or DC only. The applied parts
indicator has  on the left end and  on the right end.
These icons indicate the use of  and  to select the
number of applied parts.

Electrical Safety Analyzer

Accessing the Analyzer’s Functions

The three buttons along the right side of the display
() control the configuration of the
Analyzer’s test receptacle for some electrical tests. The
present state of these three buttons is displayed along the
right edge of the display whenever these controls are
active.

Figure 5 shows polarity is settable between normal,
reversed, and off. Neutral is also settable to closed or
open. Earth condition is not displayed, which indicates it
can not be changed. However, earth is internally opened
during this test.

Prior to conducting any leakage tests with the Analyzer, it
is best to test the integrity of the ground connection
between the Analyzer’s test receptacle ground and the
DUT’s Protective earth ground or enclosure with this test.

To access the Ground Wire (Protective Earth) ∅/Null
Resistance Test menu press .

Note

The DUT is powered off for this test.

To perform a ground wire resistance test:

1. Ensure the power cord from the DUT is plugged into
the Analyzer’s test receptacle.

2. Press  to reveal the resistance function menu.

3. Connect one end of a test lead to the V/Ω/A jack.

4. Connect the other end of the test lead to ∅/Null jack.

5. Press the softkey labeled Zero Leads. The Analyzer

zeroes out the measurement to cancel the test lead
resistance.

6. Connect the test lead coming from the ∅/Null jack to

the DUT enclosure or protective earth connection.

7. The measured resistance is displayed as shown in
Figure 7 after the DUT connection(s) is/are made.

fis105.eps

Figure 7. DUT Ground Wire Resistance Measurement

13

ESA612

Getting Started Manual

A low resistance reading is required to confirm a good
ground connection through the power cord. Refer to the
appropriate electrical safety standard for the specific limit
value to be followed.

At this point, the Analyzer is ready to test the electrical
safety of the DUT.

What to Do Next

For more information on how to use the Analyzer, refer to

the ESA612 Users Manual contained on the

accompanying CD.

Maintenance

The Analyzer needs little maintenance or special care.
However, treat it as a calibrated measuring instrument.
Avoid dropping or other mechanical abuse that could
cause a shift in the calibrated settings.

Testing and Replacing the Fuses

 Warning

To prevent electric shock, remove all power
cords and test leads from the Analyzer
before opening the fuse door.

For electrical protection of the equipment outlet, the
Analyzer uses two fuses, one in the live (L1) line and one
in the neutral (L2) line. To test the fuses, do the following
while referring to Figure 8:

1. Turn the Analyzer so the case bottom is facing up.

2. Flip up the tilt stand.

3. Remove the fuse door from the Analyzer by
removing the screw holding the fuse door with a #2
Phillips head screwdriver and lifting the fuse door
from the Analyzer.

4. Remove the fuses from the Analyzer.

F1 - F2

fis111.eps

Figure 8. Fuse Access

14

Electrical Safety Analyzer

Cleaning the Analyzer

5. Using a multimeter, measure the continuity of each
fuse.

If one or both fuses do not show continuity, replace
the fuse(s) with fuses that have the same current and
voltage rating. Appropriate fuse ratings are posted on
the case bottom label of the Analyzer. Table 4 lists
available fuses with Fluke Biomedical part numbers.

6. Reinstall the fuse door and secure it with the screw.

Cleaning the Analyzer

 Warning

To avoid electric shock, do not clean the
Analyzer plugged into mains or attached to a
DUT.

 Caution

Do not pour fluid onto the Analyzer surface;
fluid seepage into the electrical circuitry may
cause the Analyzer to fail.

 Caution

Do not use spray cleaners on the Analyzer;
such action may force cleaning fluid into the
Analyzer and damage electronic
components.

Clean the Analyzer occasionally utilizing a damp cloth
and mild detergent. Take care to prevent the entrance of
liquids.

Wipe down the adapter cables with the same care.
Inspect them for damage to and deterioration of the
insulation. Check the connections for integrity before
each use.

15

ESA612

Getting Started Manual

Replaceable Parts

Table 4 list the parts and part numbers of the replaceable parts.

Table 4. Replaceable Parts

Item Fluke Biomedical Part Number

ESA612 Getting Started Manual 3334511

ESA612 Users Manual CD 3334509

USA 2238680

UK 2238596

Australia 2238603

Power Cord

Null Post Adapter 3326842

Ansur, CD with demo version 2795488

5-to-5 Banana jack to ECG (BJ2ECG) adapter 3359538

Europe 2238615

France/Belgium 2238615

Thailand 2238680

Israel 2434122

Switzerland 3379149

16

Electrical Safety Analyzer

Repl aceable Parts

Table 4. Replaceable Parts (cont.)

Item Fluke Biomedical Part Number

Carrying Case

Data Transfer Cable

T20A 250V Fuse (Time Lag), 1¼ in x ¼ in
T10A 250V Fuse (Time Lag), 1¼ in x ¼ in

T16A 250V Fuse (Time Lag), 6.3 mm x 32 mm

Fuse

USA
Australia, Switzerland
Europe, UK, Thailand,
France/Belgium, Israel

15 – 20 A Adapter

ESA USA/AUS/ISR Accessory Kit:
Test Lead Set
TP1 Test Probe Set
AC285 Alligator Clip Set
ESA EUR Accessory Kit:
Test Lead Set
TP74 Test Probe Set
AC285 Alligator Clip Set

 To ensure safety, use exact replacement only.

2248650

1626219

2183691

109298

3321245

2195732

3111008

3111024

17

ESA612

Getting Started Manual

Accessories

Table 5 lists available accessories for the Analyzer.

Table 5. Accessories

Item Fluke Biomedical Part Number

Test Leads with Retractable Sheath 1903307

Ground Pin Adapters 2242165

1-to-10 ECG Adapter 3392119

Universal Snap to Banana Adapter 2462072

Ansur ESA612 Plug-In License 3454829

18

Electrical Safety Analyzer

Specifications

Specifications

Temperature

Operating ............................................................ 10 °C to 40 °C (50 °F to 104 °F)

Storage ................................................................ -20 °C to 60 °C (-4 °F to 140 °F)

Humidity ................................................................. 10 % to 90 % non-condensing

Altitude

120 V ac mains supply voltage ........................... 5000 m

230 V ac mains supply voltage ........................... 2000 m

Display .................................................................... LCD display

Communications ................................................... USB device port for computer control

Modes of Operation ............................................... Manual and remote

Power

120 Volt power outlet .......................................... 90 to 132 V ac rms, 47 to 63 Hz, 20 A maximum

230 Volt power outlet .......................................... 180 to 264 V ac rms, 47 to 63 Hz, 16 A maximum

Weight .................................................................... 1.6 kg (3.5 lb)

Size ......................................................................... 28.5 cm x 17.6 cm x 8.4 cm (11.2 in x 6.9 in x 3.3 in)

Safety Standards

CE ....................................................................... IEC/EN61010-1 2

CSA ..................................................................... CAN/CSA-C22.2 No 61010-1; UL61010-1

Electromagnetic Compatibility Standards (EMC)

European EMC .................................................... EN61326-1

nd

Edition; Pollution degree 2

19

ESA612

Getting Started Manual

Detailed Specifications

Test Standard Selections ........................................ ANSI/AAMI ES-1, IEC62353, IEC60601-1, and AN/NZS 3551

Voltage

Ranges (Mains voltage) ...................................... 90.0 to 132.0 V ac rms

Range (Point-to-point voltage) ............................ 0.0 to 300.0 V ac rms

Accuracy ............................................................. ±(2 % of reading + 0.2 V)

Earth Resistance

Modes ................................................................. Two terminal

Test Current ........................................................ >200 mA ac

Range ................................................................. 0.000 to 2.000 Ω

Accuracy ............................................................. ±(2 % of reading + 0.015 Ω)

Equipment Current

Range ................................................................. 0.0 to 20.0 A ac rms

Accuracy ............................................................. ±(5 % of reading + (2 counts or 0.2 A, whichever is greater))

Duty cycle ........................................................... 15 A to 20 A, 5 min. on/5 min. off

Leakage Current

Modes* ................................................................ AC+DC (True -rms)

Patient Load Selection ........................................ AAMI ES1-1993 Fig. 1

Crest factor ......................................................... ≤3

180.0 to 264.0 V ac rms

10 A to 15 A, 7 min. on/3 min. off
0 A to 10 A, continuous

AC only
DC only
* Modes: AC+DC, AC only, and DC only available for all leakages with exception of MAP
that are available in True-rms (shown as AC+DC)

IEC 60601: Fig. 15

20

Electrical Safety Analyzer

Detailed Specifications

Ranges ................................................................ 0.0 to 199.9 μA

200 to 1999 μA

2.00 to 10.00 mA

Accuracy

DC to 1 kHz ..................................................... ±(1 % of reading + (1 μA or 1 LSD, whichever is greater))

1 to 100 kHz .................................................... ±(2 % of reading + (1 μA or 1 LSD, whichever is greater))

1 to 5 kHz (current > 1.6 mA) .......................... ±(4 % of reading + (1 μA or 1 LSD, whichever is greater))

100 kHz to 1 MHz ............................................ ±(5 % of reading + (1 μA or 1 LSD, whichever is greater))

Note

Accuracy for Isolation, MAP, Direct AP, Alternative AP, and Alternative Equipment leakage tests all ranges are:

• At 120 VAC + (2.5 µA or 1 LSD, whichever is greater)

• At 230 VAC additional ± 3.0 % and + (2.5 µA or 1 LSD, whichever is greater)

For Alternative and Direct AP leakage tests, the leakage values are compensated for nominal mains as per 62353.
Therefore, the accuracy specified for other leakages is not applicable.

Mains on applied part test voltage ...................... 100 % ±7 % of Mains for AAMI, current limited to 1 mA ±25 % per AAMI

100 % ±7 % of Mains for IEC 62353 current limited to 3.5 mA ±25 % per IEC 62353
100 % ±7 % of Mains for IEC 60601-1 current limited to 7.5 mA ±25 % per IEC 60601-1

Differential leakage

Ranges ................................................................ 75 to 199 μA

200 to 1999 μA

2.00 to 20.00 mA

Accuracy.............................................................. ±(10 % of reading + (2 counts or 20 μA, whichever is greater))

Insulation resistance

Ranges ................................................................ 0.5 to 20.0 MΩ

20.0 to 100.0 MΩ

21

ESA612

Getting Started Manual

Accuracy

20 MΩ Range .................................................. ±(2 % of reading + 0.2 MΩ)

100 MΩ Range ................................................ ±(7.5 % of reading + 0.2 MΩ)

Source test voltage ............................................. 500 V dc (+20 %, -0 %) 2.0 ±0.25 mA short-circuit current or 250 V dc selectable

Maximum load capacitance ................................ 1 μF

ECG Performance Waveforms

Accuracy

Frequency ....................................................... ±2 %

Amplitude ........................................................ ±5 % of 2 Hz square wave only, fixed @ 1 mV Lead II configuration

Waveforms

ECG Complex ................................................. 30, 60, 120, 180, and 240 BPM

Ventricular Fibrillation

Square wave (50 % duty cycle) ...................... 0.125 Hz and 2 Hz

Sine wave ....................................................... 10, 40, 50, 60, and 100 Hz

Triangle wave .................................................. 2 Hz

Pulse (63 ms pulse width) ............................... 30 BPM and 60 BPM

22