BEKA BA414DF-F User manual
Issue: 9
27th March 2019
BA414DF-F
FOUNDATION™ fieldbus
Intrinsically safe
Field mounting
Fieldbus Indicator
Issue: 9
1. Description
1.1 Documentation
2. Intrinsic Safety Certification
2.1 ATEX certificate
2.2 Ex ia Zones, gas groups and T rating
2.3 Ex ic Zones, gas groups and T rating
2.4 Fieldbus connection
2.5 Certification Iabel Information
3. System Design for Hazardous Area
3.1 FISCO Systems
3.2 Ex ia entity systems
3.3 Ex ic entity systems
4. Installation
4.1 Location
4.2 Installation procedure
4.3 EMC
5. Maintenance
5.1 Fault finding during commissioning
5.2 Fault finding after commissioning
5.3 Servicing
5.4 Routine maintenance
5.5 Guarantee
5.6 Customer comments
6. Accessories
6.1 Scale and Tag marking
6.2 Tag plate
6.3 Pipe mounting kits
6.4 Fieldbus Interface Guide
Appendix 1
ATEX dust certification
Appendix 2
FM Approval for use in the USA and
cFM Approval for use in Canada.
Appendix 3
IECEx certification
2
CONTENTS
The BA414DF-F is CE marked to show compliance with the European Explosive Atmospheres
Directive 2014/34/EU and the European EMC Directive 2014/30/EU
1. DESCRIPTION
The BA414DF-F Fieldbus Indicator is an
intrinsically safe, FOUNDATION™ fieldbus
instrument compliant with ITK 6.3 that can display
one fieldbus process variable on a five digit LCD
and 31 segment analogue bargraph. The
instrument is bus powered so no additional power
supply is required.
Communication Fieldbus Function
Protocol Block
FOUNDATION™ fieldbus Input Selector (1 x IS)
The Device Description files may be downloaded
from The FieldComm or the BEKA associates web
sites.
Housed in a robust IP66 glass reinforced polyester
(GRP) enclosure with a toughened glass window,
the BA414DF-F is surface mounting, or may be
pipe mounted using one of the accessory kits.
The instrument has been certified intrinsically safe
by European Notified Body Intertek Testing and
Certification Ltd (ITS) for use in explosive gas and
combustible dust atmospheres. ATEX dust
certification is an option – see Appendix 1.
For use in the USA and Canada, the BA414DF-F is
available with optional intrinsic safety and
nonincendive FM and cFM Approval – see
Appendix 2.
For international applications, all versions of the
BA414DF-F fieldbus indicator have IECEx intrinsic
safety approval allowing installation in explosive
gas atmospheres. IECEx dust certification is
available as an option – see Appendix 3.
The instrument’s communication protocol is shown
on a label inside the terminal cover. The ‘-F’ order
code suffix also indicates the protocol but is not
shown on the instrument certification label.
1.1 Documentation
This instruction manual describes ATEX system
design and installation of the BA414DF-F Fieldbus
Indicator. For commissioning information please
refer to:
FOUNDATION™ fieldbus
Fieldbus Interface Guide
for
Fieldbus Displays and
Fieldbus Indicators
which can be downloaded from the BEKA website
www.beka.co.uk
System design information for non-ATEX and dust
approvals is shown in appendices to this manual.
2. INTRINSIC SAFETY CERTIFICATION
2.1 ATEX certificate
The BA414DF-F has been issued with an EC-Type
Examination Certificate ITS06ATEX25313X by
Notified Body Intertek Testing and Certification Ltd
(ITS) confirming compliance with harmonised
European standards. The BA414DF-F fieldbus
indicator has Ex ia FISCO and entity parameter
certification plus Ex ic entity parameter approval
for use in Zone 2 with higher supply voltages.
The EC-Type Examination certificate has been
used to confirm compliance with the European
ATEX Directive 2014/34/EU. The BA414DF-F
carries the Community Mark and, subject to local
codes of practice, may be installed in any of the
European Economic Area (EEA) member
countries. ATEX certificates are also acceptable
for installations in Switzerland.
This manual describes ATEX installations in
explosive gas atmospheres which conform with
EN 60079:14 Electrical installation design,
selection and erection. When designing systems
for installation outside the UK, the local Code of
Practice should be consulted.
For use in the presence of combustible dust,
please refer to Appendix 1.
2.2 Ex ia Zones, gas groups and T rating
The BA414DF-F has Group II Category 1G Ex ia
IIC T4 Ga –40 ≤Ta ≤70oC FISCO and entity
parameter approval. When connected to a
suitable certified system the BA414DF-F may be
installed in:
Zone 0 explosive gas air mixture
continuously present.
Zone 1 explosive gas air mixture
likely to occur in normal
operation.
Zone 2 explosive gas air mixture not
likely to occur, and if it does will
only exist for a short time.
Be used with gases in groups:
Group A propane
Group B ethylene
Group C hydrogen
In gases which may be used with equipment
having a temperature classification of:
T1 450ºC
T2 300ºC
T3 200ºC
T4 135ºC
At an ambient temperature between –40 and
+70ºC
3
2.3 Ex ic Zones, gas groups and T rating
The BA414DF-F also has Group II Category 3G
Ex ic IIC Gc T4 –40 ≤Ta ≤70oC entity parameter
approval with a higher Ui input voltage than the
Ex ia approval. When connected to a suitable
certified system the BA414DF-F may be installed
in:
Zone 2 explosive gas air mixture not
likely to occur, and if it does will
only exist for a short time.
Be used with gases in groups:
Group A propane
Group B ethylene
Group C hydrogen
In gases which may be used with equipment
having a temperature classification of:
T1 450ºC
T2 300ºC
T3 200ºC
T4 135ºC
At an ambient temperature between –40 and
+70ºC.
Note: the guaranteed operating temperature range
of the BA414DF-F Fieldbus Indicator is –20 to
+70oC
Ex ia and Ex ic entity certification plus FISCO
certifiation allows the BA414DF-F to be installed in
all Zones and to be used with most common
industrial gases.
2.4 Fieldbus connection
The BA414DF-F Indicator is powered and
communicates via the fieldbus which is connected
to terminals 1 and 2. These are non-polarised,
comply with the Fieldbus Intrinsically Safe Concept
(FISCO) and have separate Ex ia and Ex ic entity
input parameters as shown below:
FISCO Ex ia entity Ex ic entity
Ui = 17.5V 22.0V 32V
Ii = 380mA 250mA 125mA
Pi = 5.32W 1.2W 1W
The maximum equivalent capacitance and
inductance at terminals 1 & 2 is:
Ci = 0nF
Li = 8µH
2.5 Certification Label Information
The certification information label is fitted in a
recess on the top outer surface of the enclosure. It
shows details of the ATEX certification, a
statement that the instrument is a FISCO Field
Device, plus BEKA associates name and location.
IECEx approval information is also included. The
label for some versions of the instrument will also
contain non-European certification information.
The instrument serial number and year of
manufacture are recorded on a separate label
inside the terminal compartment.
The label includes boxed areas which should be
marked by the installer to show which of the three
certifications is being used.
3. SYSTEM DESIGN FOR HAZARDOUS
AREAS
3.1 FISCO Systems
The BA414DF-F may be connected to any ATEX
certified FISCO compliant fieldbus segment,
providing the segment can supply the additional
13mA required to operate the instrument. Fig 1
shows a typical fieldbus segment. To comply with
FISCO requirements, the power supply,
terminators, field devices and the interconnecting
cables must conform with the FISCO requirements
defined in EN 60079-11.
Fig 1 FISCO fieldbus system
4
3.2 Ex ia entity systems
The BA414DF-F Fieldbus Indicator has Ex ia
certification with entity parameters for applications
in Zone 0, 1 and 2.
The BA414DF-F Fieldbus Indicator may be
connected to any intrinsically safe segment
providing:
The device powering the fieldbus segment is
ATEX Ex ia certified for Zone 0, 1 or 2
applications, or Ex ib certified for application
in Zone 1 or 2, or Ex ic certified for
applications in Zone 2. The output
parameters of the segment should be equal
to or less than:
Uo = 22V dc
Io = 250mA dc
Po = 1.2W
The segment can provide an additional 13mA
to power the Fieldbus Indicator.
The equivalent capacitance Ci of the
BA414DF-F Fieldbus Indicator is zero and
the equivalent inductance is insignificant.
Therefore these BA414DF-F parameters do
not need to be considered.
3.3 Ex ic entity systems
The BA414DF-F Fieldbus Indicator also has Ex ic
certification with entity parameters for applications
in Zone 2. The higher Ui voltage allows the
indicator to be used with segment couplers
powered by Ex e or Power-i fieldbus trunks.
When installed in Zone 2 the BA414DF-F Fieldbus
Indicator may be connected to any intrinsically safe
segment providing:
The device powering the fieldbus segment is
ATEX Ex ia, ib or ic certified and has output
parameters equal to or less than:
Uo = 32V dc
Io = 125mA dc
Po = 1W
The segment can provide an additional 13mA
to power the Fieldbus Indicator.
The equivalent capacitance Ci of the
BA414DF-F Fieldbus Indicator is zero and
the equivalent inductance is insignificant.
Therefore these BA414DF-F parameters do
not need to be considered.
5
4. INSTALLATION
4.1 Location
The BA414DF-F Fieldbus Indicator is housed in a
robust IP66 glass reinforced polyester (GRP)
enclosure incorporating an armoured glass window
and stainless steel fittings. It is suitable for exterior
mounting in most industrial environments,
including offshore and waste water treatment
installations. Please consult BEKA associates if
high vibration is anticipated.
The BA414DF-F enclosure is surface mounting.
Accessory kits described in sections 6.3 of this
manual enable the instrument to be mounted onto
a vertical or horizontal pipe.
The field terminals and the two mounting holes are
located in a separate compartment with a sealed
cover allowing the instrument to be installed
without exposing the display assembly.
The BA414DF-F earth terminal is connected to the
carbon loaded GRP enclosure. If this enclosure is
not bolted to an earthed post or structure, the earth
terminal should be connected to a local earth.
The BA414DF-F enclosure is supplied with a
bonding plate to ensure electrical continuity
between the three conduit / cable entries.
Note: Although certified for safe use between
–40 and +70oC, the guaranteed operating
temperature range of the BA414DF-F Fieldbus
Indicator is –20 to +70oC.
4.2 Installation Procedure
Fig 2 illustrates the instrument installation
procedure.
a. Remove the instrument terminal cover by
unscrewing the two captive 'A' screws.
b. Mount the instrument on a flat surface and
secure with two M6 screws through the 'B'
holes. Alternatively use one of the mounting
kits described in section 6.3
c. Remove the temporary hole plug and install
a cable gland or conduit entry with required
ingress protection. If more than one entry is
required, replace one or both IP66 stopping
plugs with a cable gland or conduit entry
having the required ingress protection.
d. Connect the field wiring to the terminals as
shown in Fig 3.
e. Replace the instrument terminal cover and
evenly tighten the two 'A' screws.
CAUTION installation in Zone 0
When installed in a Zone 0 potentially
explosive atmosphere requiring EPL Ga
apparatus, the instrument shall be installed
such that even in the event of rare incidents, an
ignition source due to impact or friction
between the aluminium label and iron/steel is
excluded.
No special conditions apply when the indicator is
installed in Zone 1 or in Zone 2.
Fig 2 BA414DF-F installation procedure
4.3 EMC
The BA414DF-F complies with the requirements of
the European EMC Directive 2014/30/EU. For
specified immunity, all wiring should be in
screened twisted pairs with the screens earthed at
one point in the safe area.
6
Fig 3 Dimensions and terminal connections
5. MAINTENANCE
5.1 Fault finding during commissioning
If a BA414DF-F fails to function during
commissioning the following procedure should be
followed:
Symptom Cause Check:
No Display Instrument not
correctly
connected or
powered.
Between
terminals 1 & 2:
FISCO 9 & 17.5V
Ex ia 9 to 22V
Ex ic 9 & 32V
Display shows
‘9.9.9.9.9’ with all
decimal points
flashing; all
bargraph
segments
activated and
bargraph scale
flashing.
Value
over-range
Variable source
Decimal point
configuration.
Display shows
‘-9.9.9.9.9’ with
all decimal points
flashing; no
bargraph
segments
activated and
bargraph scale
flashing.
Value
under-range
Variable source
Decimal point
configuration
Display
alternates
between value
and the word
‘bAd’. Bargraph
flashes.
Status of fieldbus
variable has a
quality of ‘BAD’
or a fault state is
active.
Display has not
yet received
data.
Variable source
Fieldbus
configuration.
Bargraph scale
flashes.
Variable is
outside the limits
defined for the
bargraph.
Bargraph
configuration.
All display
segments
activated.
Display is
initialising.
This is normal
operation, after a
few seconds the
firmware version
will be displayed
prior to entering
the operational
mode.
5.2 Fault finding after commissioning
ENSURE PLANT SAFETY BEFORE
STARTING MAINTENANCE
Live maintenance is permitted on
intrinsically safe equipment installed in a
hazardous area, but only certified test
equipment should be used unless a gas
clearance certificate is available.
If a BA414DF-F fails after it has been functioning
correctly, the table shown in section 5.1 may help
to identify the cause of the failure.
If this procedure does not reveal the cause of the
fault, it is recommended that the instrument is
replaced.
7
5.3 Servicing
We recommend that faulty BA414DF-F Fieldbus
Indicators are returned to BEKA associates or to
our local agent for repair.
5.4 Routine maintenance
The mechanical and electrical condition of the
instrument should be regularly checked. Initially
annual inspections are recommended, but the
inspection frequency should be adjusted to suit the
environmental conditions.
5.5 Guarantee
Instruments which fail within the guarantee period
should be returned to BEKA associates or our local
agent. It is helpful if a brief description of the fault
symptoms is provided.
5.6 Customer comments
BEKA associates is always pleased to receive
comments from customers about our products and
services. All communications are acknowledged
and whenever possible, suggestions are
implemented.
6. ACCESSORIES
6.1 Scale and tag marking
BA414DF-F indicators are fitted with a blank
escutcheon around the liquid crystal display. If
specified when the instrument is ordered, this can
be supplied printed with units of measurement and
tag information, plus a scale for the horizontal
bargraph. Alternatively, information may be added
on-site via an embossed strip, dry transfer or a
permanent marker.
To gain access to the display escutcheon remove
the terminal cover by unscrewing the two 'A'
screws which will reveal two concealed 'D' screws.
Unscrew all four 'D' screws and carefully lift off the
front of the instrument. The location of all these
screws is shown in Fig 2.
After adding the required legends, or fitting a new
pre-printed self-adhesive escutcheon, ensure that
the gasket is correctly positioned before
reassembling the instrument enclosure.
6.2 Tag plate
The BA414DF-F can be supplied with a blank or
custom laser engraved stainless steel plate
secured by two screws to the front of the
instrument enclosure. This plate can
accommodate:
1 row of 9 alphanumeric characters 10mm high
or 1 row of 11 alphanumeric characters 7mm high
or 2 rows of 18 alphanumeric characters 5mm
high
6.3 Pipe mounting kits
Two pipe mounting kits are available for securing
the BA414DF-F to a horizontal or vertical pipe.
BA392D Stainless steel bracket secured by two
worm drive hose clips for 60 to 80mm
outside diameter pipes.
BA393 Heavy-duty stainless steel bracket
secured by a single 'V' bolt. Will clamp
to any pipe with an outside diameter
between 40 and 80mm.
6.4 Fieldbus Interface Guide
The FOUNDATION™ fieldbus Interface Guide for
Fieldbus Displays & Fieldbus Indicators contains
commissioning information for the BA414DF-F. A
copy may be requested from the BEKA sales office
or downloaded from the BEKA website at
www.beka.co.uk
8
APPENDIX 1
ATEX dust certification
A1.0 ATEX dust certification
In addition to ATEX certification permitting
installation in explosive gas atmospheres which is
described in the main section of this instruction
manual, the BA414DF-F is available with optional
ATEX Ex ia IIIC and Ex ic IIIC dust certification. If
ATEX dust certification is required it must be
requested when the BA414DF-F Fieldbus Indicator
is purchased.
CAUTION
Before installing a BA414DF-F Fieldbus
Indicator in the presence of a
combustible dust, ensure that the
certification information label, which is
located on the top of the instrument,
specifies dust certification - see section
A1.3
A1.1 Ex ia IIIC entity systems
The BA414DF-F Fieldbus Indicator has Ex ia IIIC
T100ºC Da IP66 certification. Installations should
comply with EN 60079-14 Electrical installation
design, selection and erection.
The Fieldbus Indicator may be installed in:
Zone 20 explosive atmosphere in the
form of a cloud of
combustible dust in air is
continuously present, or for
long periods or frequently.
Zone 21 explosive atmosphere in the
form of a cloud of
combustible dust in air is
likely to occur occasionally
in normal operation.
Zone 22 explosive atmosphere in the
form of a cloud of
combustible dust in air is not
likely to occur in normal
operation, but if it does
occur, will only persist for a
short period.
Be used with dusts having a Minimum Ignition
Temperature of:
Dust cloud 150oC
Dust layer on BA414DF-F 175oC
up to 5mm thick
Dust layer on BA414DF-F Refer to
over 5mm thick. EN 60079:14
At an ambient temperature between -20 and +60oC
The Indicator may be connected to any intrinsically
safe segment providing:
The device powering the fieldbus segment is
ATEX Ex ia IIIC certified for Zone 20, 21 or
22 applications, or Ex ib IIIC certified for
application in Zone 21 or 22. The output
parameters should be equal to or less than:
Uo = 22V dc
Io = 250mA dc
Po = 1.2W
The segment can provide an additional 13mA
to power the Fieldbus Indicator.
The equivalent capacitance Ci of the
BA414DF-F Fieldbus Indicator is zero and
the equivalent inductance is insignificant.
Therefore these BA414DF-F parameters do
not need to be considered.
A1.2 Ex ic IIIC entity systems
The BA414DF-F Fieldbus Indicator also has
Ex ic IIIC certification for applications in Zone 22.
The higher Ui voltage allows the indicator to be
used with Power-i and intrinsically safe segment
couplers powered from Ex e fieldbus trunks.
The Fieldbus Indicator may be installed in:
Zone 22 explosive atmosphere in the
form of a cloud of
combustible dust in air is not
likely to occur in normal
operation, but if it does
occur, will only persist for a
short period.
Be used with dusts having a Minimum Ignition
Temperature of:
Dust cloud 150oC
Dust layer on BA414DF-F 175oC
up to 5mm thick
Dust layer on BA414DF-F Refer to
over 5mm thick. EN 60079:14
At an ambient temperature between -20 and +60oC
The BA414DF-F Fieldbus Indicator may be
connected to any intrinsically safe segment
providing:
The device powering the fieldbus segment is
ATEX Ex ia IIIC, ib IIIC or ic IIIC certified and
has output parameters equal to or less than:
Uo = 32V dc
Io = 125mA dc
Po = 1W
9
The segment can provide an additional 13mA
to power the Fieldbus Indicator.
The equivalent capacitance Ci of the
BA414DF-F Fieldbus Indicator is zero and
the equivalent inductance is insignificant.
Therefore these BA414DF-F parameters do
not need to be considered.
A1.3 Certification Label Information
The certification label is fitted in a recess on the
top outer surface of the enclosure. It shows details
of the ATEX dust certification including the
maximum surface temperature and ingress
protection; a statement that the instrument is a
FISCO Field Device, plus BEKA associates name
and location. IECEx dust approval information is
also shown, non-European certification information
may also be included.
The label includes boxed areas which should be
marked by the installer to show which of the
certifications is being used.
The instrument serial number and date of
manufacture are recorded on a separate label
inside the terminal compartment.
A1.4 Installation & maintenance
The ATEX dust certification relies on the Fieldbus
Indicator enclosure being dust-tight. Therefore
the terminal cover should only be removed when
dust cannot enter the instrument enclosure. Before
replacing the terminal cover ensure that the
sealing gaskets are undamaged and are free from
foreign bodies.
10
APPENDIX 2
FM Approval for use in the USA and
cFM Approval for use in Canada
A2.0 Factory Mutual Approval
For installations in the USA and Canada, a version
of the BA414DF-F is available with FM and CFM
intrinsic safety and nonincendive approval, project
identifications 3027031 and 3027031C. Copies
of the Certificates of Compliance are available
from BEKA associates sales office and
www.beka.co.uk
The FM and CFM Approved version is identical to
the ATEX version except the three M20 x 1,5
tapped cable entries are replaced by three plain
unthreaded 22.25mm diameter entries. Approved
hubs and glands are listed in note 6 of Intrinsically
Safe Control Drawing CI410-12 and note 5 of
Nonincendive Control Drawing CI410-13. The
certification label on the FM and CFM Approved
version includes ATEX gas certification information
so that the Fieldbus Indicator may be used in
systems covered by either authority.
A2.1 Intrinsic safety approval
The BA414DF-F is approved to FM Class 3610
intrinsic safety standard for use in indoor and
outdoor hazardous (classified) locations.
Installations must comply with BEKA associates
Control Drawing CI410-12, which is attached to
this Appendix, ANSI/ISA RP12.06.01 ‘Installation of
Intrinsically Safe Systems for Hazardous
(Classified) Locations’ and with the National
Electrical Code ANSI/NFPA70.
Canadian installations must comply with the
Canadian Electrical Code C22.2 and with BEKA
associates Control Drawing CI410-13, which is
attached to this Appendix.
The BA414DF-F has a T4 rating at ambient
temperatures up to +70oC and may be used with
the following gases and dusts:
Intrinsic Safety
Division 1 or 2
Class I Group A & B
Group C
Group D
Class II Group E, F & G
Class III
Zone 0, 1 or 2
Class 1 Group IIC
Group IIB
Group IIA
The FM and CFM entity parameters are identical to
the ATEX parameters and, like the ATEX
certification, confirm that the BA414DF-F complies
with the FISCO Field Device requirements
specified in IEC60079-27. The intrinsically safe
system shown in Fig 1 of this manual may
therefore be used for installations in the USA and
Canada, providing the fieldbus power supply,
terminators, Zener barriers and galvanic isolators
are FM Approved for US installations and CFM or
CSA Approved for Canadian installations. All
installations must comply with BEKA associates
Control Drawing CI410-12.
FM and CFM Approvals also allows the BA414DF-
F to be connected to non-FISCO systems using
the entity concept – see section 3.2 of this manual.
A2.2 Nonincendive approval
The BA414DF-F is FM Class 3611 nonincendive
approved allowing it to be installed in Division 2
indoor and outdoor hazardous (classified)
locations without the need for Zener barriers or
galvanic isolators. US installations must comply
with the BEKA associates Control Drawing
CI410-13, which is attached to this Appendix, and
with the National Electrical Code ANSI/NFPA70.
Canadian nonincendive installations must comply
with the Canadian Electrical Code C22.2 and with
BEKA associates Control Drawing CI410-13, which
is attached to this Appendix.
The FM and CFM Nonincendive Approvals also
allow the BA414DF-F fieldbus indicator to be
connected to any appropriately certified FNICO
compliant fieldbus segment.
The BA414DF-F has a T4 rating at ambient
temperatures up to +70oC and may be used with
the following gases and dusts:
Nonincendive
Division 2
Class I Group A & B
Group C
Group D
Class II Groups E, F & G
Class III
Zone 2
Class I Group IIC
Group IIB
Group IIA
11
12
13
14
15
16
17
18
APPENDIX 3
IECEx certification
A3.0 The IECEx Certification Scheme
IECEx is a global certification scheme for
explosion protected products which aims to
harmonise international certification standards.
For additional information about the IECEx
certification scheme and to view the BEKA
associate certificates, please visit www.iecex.com
A3.1 IECEx Certificate of Conformity
The BA414DF-F Fieldbus Indicator has been
issued with an IECEx Certificate of Conformity
number IECEx ITS 06.0012X which specifies the
following certification codes:
For gas
Ex ia IIC T4 Ga
Ex ic IIC T4 Gc
FISCO Field Device Ex ia IIC T4
Ta = -40°C to 70°C
For dust
Ex ia IIIC T100°C Da IP66
Ex ic IIIC T100°C Dc IP66
Ta = -20°C to 60°C
The specified IECEx gas and dust intrinsic safety
parameters are identical to the ATEX safety
parameters described in the main section and
Appendix 1 of this manual.
The IECEx certificate may be downloaded from
www.beka.co.uk, www.iecex.com or requested
from the BEKA sales office.
A3.2 Installation
The IECEx and ATEX certificates specify identical
safety parameters and installation requirements for
both gas and dust approvals. The ATEX
installation requirements specified in the main
section and in Appendix 1 of this manual may
therefore be used for IECEx installations, but the
local code of practice should also be consulted.
CAUTION installation in Zone 0
When installed in a Zone 0 potentially
explosive atmosphere requiring EPL Ga
apparatus, the instrument shall be installed
such that even in the event of rare incidents, an
ignition source due to impact or friction
between the aluminium label and iron/steel is
excluded.
No special conditions apply when the indicator is
installed in Zone 1 or in Zone 2.
A3.3 IECEx Dust certification
If IECEx dust certification is required it must be
requested when the BA414DF-F Fieldbus Indicator
is purchased.
CAUTION
Before installing a BA414DF-F Fieldbus
Indicator in the presence of a combustible
dust, ensure that the certification information
label, which is located on the top of the
instrument, specifies dust certification - see
below.
A3.4 Versions of the BA414DF-F
All versions of the BA414DF-F Fieldbus Indicator
have IECEx certification. This includes:
ATEX version for use in gas atmospheres.
ATEX version for use in gas and dust
atmospheres has IECEx gas & dust certification.
Factory Mutual Approved version
19
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