VEGA Americas PULS616263 VEGAPULS 61/62/63 Radar Sensor User Manual Part 90

VEGA Americas Inc. VEGAPULS 61/62/63 Radar Sensor Part 90

Contents

Manuals

Rhein Tech Laboratories Client: Ohmart/VEGA
360 Herndon Parkway Model: VEGAPULS 616263
Suite 1400 FCC ID: MOIPULS616263
Herndon, VA 20170 Standards: FCC 15.209/IC RSS-210
http://www.rheintech.com Report Number: 2004236-62
17 of 26
APPENDIX C: MANUAL
Please see the following pages.
Operating Instructions
VEGAPULS 62
4... 20 mA/HART
ABILITY
WE
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VE GO
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O
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Contents
1About this document
1.1Function ......................... 4
1.2Target group ...................... 4
1.3Symbolism used.................... 4
2For your safety
2.1Authorised personnel ................ 6
2.2Appropriate use .................... 6
2.3Warning about misuse ............... 6
2.4General safety instructions ............ 6
2.5CE conformity ..................... 7
2.6Compatibility acc.to NAMUR NE 53 ..... 7
2.7FCC conformity (only for USA/Canada)... 8
2.8Safety information for Exareas......... 8
2.9Environmental instructions............. 8
3Product description
3.1Conguration ...................... 9
3.2Principle of operation ................ 10
3.3Adjustment........................ 11
3.4Storage and transport ................ 11
4Mounting
4.1General instructions ................. 13
4.2Mounting preparations,horn antenna..... 14
4.3Mounting preparations,parabolic antenna .15
4.4Mounting information ................ 16
4.5Preparing the connection ............. 24
4.6Connection procedure ............... 25
4.7Wiring plans,single chamber housing .... 26
4.8Wiring plans,double chamber housing ... 28
4.9Wiring plans,double chamber housing Exd.30
5Setup with the indicating and adjustment
module PLICSCOM
5.1Short description ................... 33
2VEGAPULS 62 -4... 20 mA/HART
Contents
28435-EN-050211
5.2Installing the indicating and adjustment
module PLICSCOM ................. 33
5.3Adjustment system .................. 35
5.4Setup procedure ................... 36
5.5Menu schematic.................... 41
6Setup with PACTware
6.1Connecting the PC .................. 44
6.2Parameter adjustment with PACTware.. 45
7Maintenance and fault rectication
7.1Maintenance ...................... 47
7.2Fault rectication ................... 47
7.3Exchanging the oscillator ............. 49
7.4Instrument repair ................... 51
8Dismounting
8.1Dismounting procedure............... 53
8.2Disposal ......................... 53
9Supplement
9.1Technical data ..................... 54
9.2Dimensions ....................... 61
9.3Certicates........................ 68
VEGAPULS 62 -4... 20 mA/HART 3
Contents
28435-EN-050211
1About this document
1.1Function
This operating instructions manual has all the informa-
tion you need for quick setup and safe operation of
VEGAPULS 62.Please read this manual before you
start setup.
1.2Target group
This operating instructions manual is directed to trained
personnel.The contents of this manual should be made
available to these personnel and put into practice by
them.
1.3Symbolism used
Information,tip,note
This symbol indicates helpful additional information.
Caution,warning,danger
This symbol informs you of a dangerous situation that
could occur.Ignoring this cautionary note can impair the
person and/or the instrument.
Ex applications
This symbol indicates special instructions for Exap-
plications.
lList
The dot set in front indicates a list with no implied
sequence.
àAction
This arrow indicates a single action.
4VEGAPULS 62 -4... 20 mA/HART
About this document
28435-EN-050211
1Sequence
Numbers set in front indicate successive steps in a
procedure.
VEGAPULS 62 -4... 20 mA/HART 5
About this document
28435-EN-050211
2For your safety
2.1Authorised personnel
All operations described in this operating instructions
manual must be carried out only by trained and
specialist personnel authorised by the operator.For
safety and warranty reasons,any internal work on the
instruments must be carried out only by personnel
authorised by the manufacturer.
2.2Appropriate use
VEGAPULS 62 is a sensor for continuous level
measurement.
2.3Warning about misuse
Inappropriate or incorrect use of the instrument can give
rise to application-specic hazards,e.g.vessel overll or
damage to system components through incorrect
mounting or adjustment.
2.4General safety instructions
VEGAPULS 62 is a high-tech instrument requiring the
strict observance of standard regulations and guideli-
nes.The emitting frequencies of all VEGAPULS sensors
are in the Cor K-band range (depending on the
instrument version). The low emitted powers are far
below the internationally permitted limit values,in case
of correct use,no health problems are expected.There
are no restrictions in using the instrument also outside
metallic,closed vessels.The user must take note of the
safety instructions in this operating instructions manual,
the country-specic installation standards (e.g.the VDE
regulations in Germany)as well as all prevailing safety
regulations and accident prevention rules.
6VEGAPULS 62 -4... 20 mA/HART
For your safety
28435-EN-050211
2.5CE conformity
VEGAPULS 62 is in CE conformity with EMC (89/336/
EWG), R&TTE directive (1999/5/EC), meets the Namur
recommendation NE 21 and is in CE conformity with
NSR (73/23/EWG).
Conformity has been judged acc.to the following
standards:
lEMC:
-Emission EN 61326:1997 (class B)
-Susceptibility EN 61326:1997/A1:1998
lR&TTE directive:I-ETS 300-440 Expert opinion No.
0043052-02/SEE,Notied Body No.0499
lNSR:EN 61010-1:2001.
2.6Compatibility acc.to NAMUR NE 53
VEGAPULS 62 meets NAMUR recommendation NE 53.
VEGA instruments are generally upward and downward
compatible:
lsensor software of DTM VEGAPULS 62 HART,PA
or FF
lDTM VEGAPULS 62 for adjustment software
PACTware
ladjustment module PLICSCOM for sensor software
The parameter adjustment of the basic sensor functions
is independent of the software version.The available
functions depend on the appropriate software version of
the single components.
The software version of VEGAPULS 62 can be deter-
mined as follows:
lvia PACTware
lon the type label of the electronics
lvia the adjustment module PLICSCOM
On our website www.vega.com you will nd all software
histories.Use the possibility and get registered for
update information via e-mail.
VEGAPULS 62 -4... 20 mA/HART 7
For your safety
28435-EN-050211
2.7FCC conformity (only for USA/Canada)
VEGAPULS with all antenna versions are FCC ap-
proved.
Modications must be expressively agreed by VEGA,
otherwise the operating licence acc.to FCC will expire.
VEGAPULS 62 is in conformity with part 15 of the FCC
regulations.Note the respective regulations for opera-
tion:
lThe instrument must not cause any interfering
emissions
lThe instrument must be insensitive to interfering
emissions,also to such causing unwanted operating
conditions.
2.8Safety information for Ex areas
Please note the Ex-specic safety information for
installation and operation in Exareas.These safety
instructions are part of the operating instructions manual
and come with the Ex-approved instruments.
2.9Environmental instructions
Protection of the environment is one of our most
important duties.That is why we have introduced an
environment management system with the goal of
continuously improving company environmental protec-
tion.The environment management system is certied
acc.to DIN EN ISO 14001.
Please help us full this obligation by observing the
environmental instructions in this manual:
lChapter "Storage and transport"
lChapter "Disposal"
8VEGAPULS 62 -4... 20 mA/HART
For your safety
28435-EN-050211
3Product description
3.1Conguration
The scope of delivery encompasses:
lVEGAPULS 62 radar sensor
ldocumentation
-this operating instructions manual
-Ex-specic safety instructions (with Ex versions)
and,if necessary,further certicates
VEGAPULS 62 consists of the following components:
lhorn or parabolic antenna
lprocess tting (depending on the version ange or
thread)
loptionally available with purging air connection,reux
valve
lhousing with electronics
lhousing cover,optionally available with indicating/
adjustment module PLICSCOM
The components are available in dierent versions.
Scope of delivery
Components
VEGAPULS 62 -4... 20 mA/HART 9
Product description
28435-EN-050211
2
1
3
Fig.1:VEGAPULS 62,threaded version with plastic housing
1Housing cover with integrated PLICSCOM (optional)
2Housing with electronics
3Process tting with horn antenna
3.2Principle of operation
VEGAPULS 62 is a radar sensor in K-band technology
(emitting frequency approx.26 GHz)for continuous level
measurement.
Aversion of VEGAPULS 62 is available for the
respective application:
lThe version with thread and horn antenna with ø40
mm (1.6in)is particularly suitable for small tanks and
process vessels for measurement of virtually all
products.
lThe version with ange and horn antenna with ø48
95 mm (ø1.93.7in)is particularly suitable for
storage tanks and process vessels,for measurement
of solvents,hydrocarbons and fuels under most
dicult process conditions.
lThe version with parabolic antenna is particularly
suitable for precise measurement of products with
small dielectric value.
Area of application
10 VEGAPULS 62 -4... 20 mA/HART
Product description
28435-EN-050211
The antenna of the radar sensor emits short radar
pulses with a duration of approx.1ns.These pulses are
reected by the product and received by the antenna as
echoes.The running time of the radar pulses from
emission to reception is proportional to the distance and
hence to the level.The determined level is converted
into an appropriate output signal and outputted as
measured value.
Two-wire electronics 4... 20 mA/HART for power supply
and measured value transmission on the same cable.
The power supply range can dier depending on the
instrument version.The exact range is stated in the
Technical data in the Supplement.
3.3Adjustment
VEGAPULS 62 can be adjusted with three dierent
adjustment media:
lthe indicating and adjustment module PLICSCOM
lan adjustment software acc.to FDT/DTM standard,
e.g.PACTwareand PC
laHART handheld
The entered parameters are generally saved in VEGA-
PULS 62,optionally also in PLICSCOM or in
PACTware.
3.4Storage and transport
Your instrument was protected by packaging during
transport.Its capacity to handle normal loads during
transport is assured by a test acc.to EN 24180.
The packaging of standard instruments consists of
environment-friendly,recyclable cardboard.For special
versions PE foam or PE foil can be also used.Dispose
of the packaging material via specialised recycling
companies.
Physical principle
Power supply
Packaging
VEGAPULS 62 -4... 20 mA/HART 11
Product description
28435-EN-050211
lStorage and transport temperature see Supplement,
Technical data,Ambient conditions
lRelative humidity 20 ... 85 %
Storage and transport
temperature
12 VEGAPULS 62 -4... 20 mA/HART
Product description
28435-EN-050211
4Mounting
4.1General instructions
Select an installation position you can easily reach for
mounting and connecting as well as later retrotting of
an indicating and adjustment module PLICSCOM.The
housing can be rotated by 330°without the use of any
tools.You can also install the indicating and adjustment
module PLICSCOM in four dierent positions (each
displaced by 90°).
Use the recommended cable (see chapter "Connecting
to power supply")and tighten the cable entry.
You can give your VEGAPULS 62 additional protection
against moisture penetration by leading the connection
cable downward in front of the cable entry.Rain and
condensation water can thus drain o.This applies
mainly to mounting outdoors,in areas where moisture is
expected (e.g.by cleaning processes)or on cooled or
heated vessels.
Fig.2:Measures against moisture penetration
The reference plane for the measuring range is the lower
edge of the ange or the seal surface of the thread.
Information:
If the product reaches the antenna,buildup can form on
it over a period of time and later cause measurement
errors.
Installation position
Moisture
Measuring range
VEGAPULS 62 -4... 20 mA/HART 13
Mounting
28435-EN-050211
1 32
100%
0%
4
Fig.3:Measuring range (operating range)and max.measuring
distance
1full
2empty (max.measuring distance)
3Measuring range
The process tting must be sealed with gauge or low
pressure in the vessel.Check before use,if the seal
material is resistant against the measured product.The
max.permissible pressure is stated in the Technical
data in the Supplement or on the type label of the
sensor.
4.2Mounting preparations,horn antenna
Information:
This information applies only to special versions!
VEGAPULS 62 is available in versions where the
antenna has a bigger diameter than the process tting
(thread/ange). Therefore the antenna must be dis-
mounted on the process tting before mounting.
Proceed as follows:
1Loosen the hexagon screws on the antenna socket
(1)with an Allan key (size 3)
2Remove the antenna (2)
Pressure
14 VEGAPULS 62 -4... 20 mA/HART
Mounting
28435-EN-050211
3Insert the antenna from below into the vessel socket
and secure it against falling o
4Retighten the antenna with hexagon screws (1)to the
antenna socket;torque max.10 Nm(7.5lbf ft)
1
2
Fig.4:Dismounting of the horn antenna
1Hexagon screws on the antenna socket
2Antenna
4.3Mounting preparations,parabolic antenna
Information:
This information applies only to special versions!
VEGAPULS 62 is available in versions where the
antenna has a bigger diameter than the process tting
(thread/ange). Before starting to mount,the antenna
must be dismounted on the ange.Proceed as follows:
1Clamp VEGAPULS 62 with the ange,e.g.in a
bench vice
2Hold the connection piece (3)with a wrench SW 22
on the attenings
3Unscrew the locknut (2)with SW 36 against the
antenna
4Unscrew the compression nut (1)with a wrench SW
41 against the antenna
VEGAPULS 62 -4... 20 mA/HART 15
Mounting
28435-EN-050211
5Remove the parabolic antenna (4)axially
6Mount sensor ange to the adapter ange and clamp
it
7Check if there is a O-ring seal on the adapter and if it
is not damaged.If necessary,replace it:Viton,article
no.2.28248,Kalrez 6375 article no.2.27351.
8Remount the parabolic antenna (4)
9Tighten compression nut (3)with SW 41,torque max.
50 Nm.
10 Tighten locknut (2)with SW 36,torque max.40 Nm.
1
2
3
4
Fig.5:Dismounting,parabolic antenna
1Compression nut
2Locknut
3Connection piece
4Parabolic antenna
4.4Mounting information
The illustrations on the mounting instructions show a
VEGAPULS 62 with horn antenna.The mounting
instructions also apply to VEGAPULS 62 with parabolic
antenna.
Horn and parabolic anten-
na
16 VEGAPULS 62 -4... 20 mA/HART
Mounting
28435-EN-050211
When mounting VEGAPULS 62,keep a distance of at
least 200 mm (7.9in)to the vessel wall.If the sensor is
installed in the center of concave or arched vessel tops,
multiple echoes can arise.These can,however,be
faded out by an appropriate adjustment (see Setup).
If this distance cannot be maintained,a false echo
storage should be carried out during setup.This applies
particularly if buildup on the vessel wall is expected.In
this case,we recommend repeating the false echo
storage later on with existing buildup.
12
> 200 mm
Fig.6:Mounting on arched vessel tops
1Reference plane
2Vessel center or symmetry axis
In vessels with conical bottom it can be advantageous to
mount the sensor in the center of the vessel,as
measurement is then possible down to the lowest points
of the vessel bottom.
Installation location
VEGAPULS 62 -4... 20 mA/HART 17
Mounting
28435-EN-050211
Fig.7:Vessel with conical bottom
Do not mount the instruments in or above the lling
stream.Make sure that you detect the product surface
and not the inowing product.
Fig.8:Inowing liquid
Preferably socket pieces should be dimensioned such
that the antenna end protrudes at least 10 mm (0.4in)
out of the socket.
Inowing material
Socket
18 VEGAPULS 62 -4... 20 mA/HART
Mounting
28435-EN-050211
ca. 10 mm
Fig.9:Recommended socket mounting
Ifthereective properties of the medium are good,you
can mount VEGAPULS 62 on socket pieces higher than
the antenna length.You will nd recommended values of
the socket heights in the following illustration.The
socket end should be smooth and burr-free,if possible
also rounded.Carry out a false echo storage afterwards.
d
hmax.
d
1½"
50 mm/2"
80 mm/3"
100 mm/4"
150 mm/6"
200 mm
250 mm
300 mm
500 mm
800 mm
hmax.
Fig.10:Deviating socket dimensions
In liquids,direct the sensor as close as vertical to the
product surface to achieve an optimum measurement.
Sensor orientation
VEGAPULS 62 -4... 20 mA/HART 19
Mounting
28435-EN-050211
Fig.11:Orientation in liquids
The radar sensor should be installed at a location where
no installations cross the radar signals.
Vessel installations such as,for example,ladders,limit
switches,heating spirals,struts,etc.can cause false
echoes superimposed on the useful echo.Make sure
when planning your measuring location that the radar
signals have "free access"to the measured product.
In case of existing vessel installations,a false echo
storage should be carried out during setup.
If large vessel installations such as struts or supports
cause false echoes,these can be attenuated through
supplementary measures.Small,inclined sheet metal
baes above the installations scatter the radar signals
and avoid a direct false echo reection.
Fig.12:Cover smooth proles with deectors
In case of agitators in the vessel,a false echo storage
should be carried out with the agitators to be in motion.
This ensures that the false reections of the agitators are
saved in dierent positions.
Vessel installations
Agitators
20 VEGAPULS 62 -4... 20 mA/HART
Mounting
28435-EN-050211
Fig.13:Agitators
Through the action of lling,stirring and other processes
in the vessel,dense foams can be generated on the
product surface which damp the emitted signal consi-
derably.
If foams can cause measurement errors,biggest
possible radar antennas and low frequency radar
sensors,e.g.VEGAPULS 65/66 (C-band)should be
used.
VEGAFLEX sensors with guided microwaves are not
inuenced by foam generation and are particularly
suitable for such applications.
By the use of a standpipe,inuences of vessel
installations and turbulence can be excluded.Under
these requirements,the measurement of products with
low dielectric values (from DK value 1.6)is possible.
Surge or bypass tubes must extend all the way down to
the requested min.level,as measurement is only
possible within the tube.
Foam generation
Measurement in the
standpipe (surge or by-
pass tube)
VEGAPULS 62 -4... 20 mA/HART 21
Mounting
28435-EN-050211
max.
min.
2
1
Fig.14:Pipe antenna systems in a tank
1Marking of the polarisation direction
2Vent hole max.ø5mm (0.2in)
If possible,the antenna diameter of the sensor should
correspond to the inner diameter of the tube.With
VEGAPULS 62 these are approx.40 mm (1.6in). The
sensor can be used from tube diameters of 40 ... 80 mm
(1.6... 3.2in).
Take note of the necessary upper vent hole in the surge
pipe which must by displaced by 90°to the polarisation
direction on the sensor (see illustration:Pipe antenna
systems in a tank).
As an alternative to the surge pipe in the vessel,apipe
system outside of the vessel is possible as bypass tube.
For setup,select the function Bypass tube.
Direct the sensor in such a way that the polarisation
marking on the process tting is displaced by 90°to the
tube holes or the tube connection openings (see
illustration:VEGAPULS in a bypass tube).
22 VEGAPULS 62 -4... 20 mA/HART
Mounting
28435-EN-050211
100%
0%
1
> 300 mm
Fig.15:VEGAPULS in a bypass tube
1Marking of the polarisation direction
When mounting the sensor on a bypass tube,VEGA-
PULS 62 should be mounted at a distance of approx.
300 mm (12 in)or more from the upper pipe connection.
In case the tube is very rough inside,an inserted tube
(tube in tube)or a radar sensor with pipe antenna should
be used.
VEGAPULS 62 -4... 20 mA/HART 23
Mounting
28435-EN-050211
4.5Preparing the connection
Always observe the following safety instructions:
lConnect only in the complete absence of line voltage
lIf overvoltages are expected,overvoltage arresters
should be installed.
Tip:
We recommend VEGA overvoltage arresters ÜS-F-LB-I
and ÜSB 62-36G.X.
In hazardous areas you should take note of the
appropriate regulations,conformity and type approval
certicates of the sensors and power supply units.
Power supply and current signal are transmitted via the
same two-wire connection cable.The power supply
range can dier depending on the instrument version.
The exact range is stated in the Technical data in the
Supplement.
Provide a reliable separation between the supply circuit
and the mains circuits acc.to DIN VDE 0106 part 101.
The VEGA power supply units VEGATRENN 149AEx,
VEGASTAB 690,VEGADIS 371 as well as all VEGA-
METs meet this requirement.
Bear in mind the following factors regarding supply
voltage:
lthe reduction of the output voltage of the power
supply unit under nominal load (with a sensor current
of 20.5mAor 22 mAin case of fault signal)
lthe inuence of additional instruments in the circuit
(see load values in Technical data)
VEGAPULS 62 is connected with standard two-wire
cable without screen.An outer cable diameter of 5...
9mm ensures the seal eect of the cable entry.If
electromagnetic interference is expected,we recom-
mend the use of screened cable.
Note safety instructions
Take note of safety
instructions for Ex
applications
Select power supply
Select connection cable
24 VEGAPULS 62 -4... 20 mA/HART
Mounting
28435-EN-050211
Connect the cable screen on both ends to ground
potential.In the sensor,the screen must be connected
directly to the internal ground terminal.The ground
terminal outside on the housing must be connected to
the potential equalisation (low impedance).
If potential equalisation currents are expected,the
connection on the evaluation side must be made via a
ceramic capacitor (e.g.1nF,1500 V). The low
frequency potential equalisation currents are thus sup-
pressed,but the protective eect against high frequency
interference signals remains.
Take note of the corresponding installation regulations
for Ex applications.In particular,make sure that no
potential equalisation currents ow over the cable
screen.In case of grounding on both sides this can be
achieved by the use of a capacitor or a separate
potential equalisation.
4.6Connection procedure
Proceed as follows:
1Unscrew the housing cover
2IfaPLICSCOM indicating and adjustment module is
installed,remove it by turning it slightly to the left.
3Loosen compression nut of the cable entry
4Remove approx.10 cm (4in)of the cable mantle,
strip approx.1cm (0.4in)insulation from the ends of
the individual wires
5Insert the cable into the sensor through the cable
entry
6Lift the opening levers of the terminals with a
screwdriver (see following illustration)
7Insert the wire ends into the open terminals
according to the wiring plan
8Press down the opening levers of the terminals,you
will hear the terminal spring closing
Cable screening and
grounding
Select connection
cable for Ex appli-
cations
VEGAPULS 62 -4... 20 mA/HART 25
Mounting
28435-EN-050211
9Check the hold of the wires in the terminals by lightly
pulling on them
10 Connect the screen to the internal ground terminal
and the external ground terminal to potential equa-
lisation
11 Tighten the compression nut of the cable entry,the
seal ring must completely encircle the cable
12 Screw the housing cover back on
The electrical connection is nished.
Fig.16:Connection steps 6and 7
4.7Wiring plans,single chamber housing
The following illustrations apply to the non-Exaswellas
to the Ex ia version.
26 VEGAPULS 62 -4... 20 mA/HART
Mounting
28435-EN-050211
1
4
44
2 3
Fig.17:Material versions,single chamber housing
1Plastic
2Aluminium
3Stainless steel
4Filter element for pressure compensation
Display
Com.
12 5678
3
4
1
2
Fig.18:Electronics and connection compartment,single chamber
housing
1Plug connector for VEGACONNECT (I²Cinterface)
2Spring-loaded terminals for connection of the ext.indication
VEGADIS 61
3Ground terminal for connection of the cable screen
4Spring-loaded terminals for power supply and cable screen
Housing overview
Electronics and connec-
tion compartment
VEGAPULS 62 -4... 20 mA/HART 27
Mounting
28435-EN-050211
Display
1
Com.
12
5
6
7
8
Fig.19:Wiring plan,single chamber housing
1Power supply/Signal output
4.8Wiring plans,double chamber housing
The following illustrations apply to the non-Exaswellas
to the Ex ia version.The Exd version is described in the
next subchapter.
1 2 3
45
Fig.20:Double chamber housing
1Housing cover,connection compartment
2Blind stopper or plug M12x1for VEGADIS 61 (option)
3Housing cover,electronics compartment
4Filter element for pressure compensation
5Cable entry or plug
Wiring plan
Housing overview
28 VEGAPULS 62 -4... 20 mA/HART
Mounting
28435-EN-050211
1
32
Display
Com.
12 5678
Fig.21:Electronics compartment,double chamber housing
1Plug connector for VEGACONNECT (I²Cinterface)
2Internal connection cable to the connection compartment
3Terminals for VEGADIS 61
3
1
2
Display
Com.
1 2
Fig.22:Connection compartment,double chamber housing
1Plug connector for VEGACONNECT (I²Cinterface)
2Ground terminal for connection of the cable screen
3Spring-loaded terminals for power supply and cable screen
Electronics compartment
Connection compartment
VEGAPULS 62 -4... 20 mA/HART 29
Mounting
28435-EN-050211
1
Com.
12
Fig.23:Connection compartment,double chamber housing
1Power supply/Signal output
4.9Wiring plans,double chamber housing
Exd
1 2 3
45
Fig.24:Double chamber housing
1Housing cover,connection compartment
2Blind stopper or plug M12x1for VEGADIS 61 (option)
3Housing cover,electronics compartment
4Filter element for pressure compensation
5Cable entry or plug
Wiring plan
Housing overview
30 VEGAPULS 62 -4... 20 mA/HART
Mounting
28435-EN-050211
1
32
Display
Com.
12 5678
Fig.25:Electronics compartment,double chamber housing
1Plug connector for VEGACONNECT (I²Cinterface)
2Internal connection cable to the connection compartment
3Terminals for VEGADIS 61
1
2
1
2
Fig.26:Connection compartment,double chamber housing Exd
1Spring-loaded terminals for power supply and cable screen
2Ground terminal for connection of the cable screen
Electronics compartment
Connection compartment
VEGAPULS 62 -4... 20 mA/HART 31
Mounting
28435-EN-050211
1
12
Fig.27:Wiring plan,double chamber housing Exd
1Power supply/Signal output
Wiring plan
32 VEGAPULS 62 -4... 20 mA/HART
Mounting
28435-EN-050211
5Setup with the indicating and
adjustment module PLICSCOM
5.1Short description
The indicating and adjustment module PLICSCOM is
used for measured value display,adjustment and
diagnosis.It can be mounted in the following housing
versions and instruments:
lAll sensors of the plics
®
instrument family,in the
single as well as in the double chamber housing
(optionally in the electronics or connection
compartment)
lexternal indicating and adjustment unit VEGADIS 61
Note:
You will nd detailed information on the adjustment in
the operating instructions manual of the indicating and
adjustment module PLICSCOM.
5.2Installing the indicating and adjustment
module PLICSCOM
PLICSCOM can be inserted or removed at any time.An
interruption of the power supply is not necessary.
To install,proceed as follows:
1Unscrew the housing cover
2Place PLICSCOM in the desired position on the
electronics (you can choose any one of four dierent
positions -each displaced by 90°)
3Press PLICSCOM lightly onto the electronics and
turn it to the right until it snaps in.
4Screw housing cover with inspection window tightly
back on
Removal is carried out in reverse order.
Function/Conguration
Insert/remove PLICSCOM
VEGAPULS 62 -4... 20 mA/HART 33
Setup with the indicating and adjustment module PLICSCOM
28435-EN-050211
PLICSCOM is powered by the sensor,an additional
connection is not necessary.
Fig.28:Installation of PLICSCOM
Note:
If you intend to retrotVEGAPULS 62 with PLICSCOM
for continuous measured value indication,a higher cover
with an inspection glass is required.
34 VEGAPULS 62 -4... 20 mA/HART
Setup with the indicating and adjustment module PLICSCOM
28435-EN-050211
5.3Adjustment system
1.1
2
3
1
Fig.29:Indicating and adjustment elements
1LC display
2Indication of the menu item number
3Adjustment keys
l[OK]key:
-move to the menu overview
-conrm selected menu
-edit parameter
-save value
l[–>]key to select:
-menu change
-list entry
-editing position
l[+]key:
-modify value of a parameter
l[ESC]key:
-interrupt input
-jump to the next higher menu
The sensor is adjusted via the four keys of the indicating
and adjustment module PLICSCOM.The LC display
indicates the individual menu items.The functions of the
individual keys are shown in the above illustration.
Approx.10 minutes after the last pressing of a key,an
automatic reset to measured value indication is trigger-
Key functions
Adjustment system
VEGAPULS 62 -4... 20 mA/HART 35
Setup with the indicating and adjustment module PLICSCOM
28435-EN-050211
ed.Any values not conrmed with [OK]will not be
saved.
5.4Setup procedure
After VEGAPULS 62 is connected to power supply or
after voltage recurrence,the instrument carries out a
self-test for approx.30 seconds.The following steps are
carried out:
linternal check of the electronics
lindication of the instrument type,the rmware version
as well as the sensor TAGs(sensor name)
lOutput signal jumps briey(approx.10 seconds)to
the set interference current.
Then the actual measured value is displayed and the
corresponding current is transmitted to the cable1)
InHART-Multidrop mode (several sensors on one input)
the address must be set before continuing with the
parameter adjustment.You will nd a detailed descrip-
tion in the operating instructions manual of PLICSCOM
or in the online help of PACTwareor DTM.
HART mode
Standard
Address 0
Because VEGAPULS 62 is a distance measuring
instrument,the distance from the sensor to the product
surface is measured.In order to have the actual level
displayed,an allocation of the measured distance to the
percentage height must be carried out.To make this
adjustment,the full and empty distances in the vessel
are entered.If these values are not known,it is also
possible to carry out the adjustment with other distan-
ces,e.g.10 %and 90 %.Starting point of these distance
values is always the seal surface of the thread or ange.
The actual level is then calculated on the basis of these
1)The values correspond to the actual level as well as to the settings
already carried out,e.g.default setting.
Switch on phase
Address setting HART-
Multidrop
Parameter adjustment
36 VEGAPULS 62 -4... 20 mA/HART
Setup with the indicating and adjustment module PLICSCOM
28435-EN-050211
entered values.At the same time,the operating range of
the sensor is limited from maximum range to the
requested range.
The real product level during this adjustment is not
important,because the min./max.adjustment is always
carried out without changing the product level.These
settings can be made ahead of time without the
instrument having to be installed.
In the main menu item Basic adjustment,the individual
submenu items should be selected one after the other
provided with the correct parameter values.
Start your parameter adjustment with the following menu
items of the basic adjustment:
Proceed as follows:
1Move from the measured value display to the main
menu by pushing [OK].
>
Basic adjustment
Display
Diagnostics
Service
Info
2Select the menu item Basic adjustment with [–>]and
conrm with [OK].Now the menu item min.adjust-
ment is displayed.
Min.adjustment
0.00 %
=
5.000 m(d)
4.000 m(d)
3Prepare the percentage value for editing with [OK]
and set the cursor to the requested position with [–>].
Set the requested percentage value with [+]and
save with [OK].The cursor jumps now to the
distance value.
4Enter the appropriate distance value in m (corre-
sponding to the percentage value)for the empty
vessel (e.g.distance from the sensor to the vessel
bottom).
Carrying out min.adjust-
ment
VEGAPULS 62 -4... 20 mA/HART 37
Setup with the indicating and adjustment module PLICSCOM
28435-EN-050211
5Save the settings with [OK]and move to max.
adjustment with [–>].
Proceed as follows:
Max.adjustment
100.00 %
=
1.000 m(d)
2.000 m(d)
1Prepare the percentage value for editing with [OK]
and set the cursor to the requested position with [–>].
Set the requested percentage value with [+]and
save with [OK].The cursor jumps now to the
distance value.
2Enter the appropriate distance value in m (corre-
sponding to the percentage value)for the full vessel.
Make sure that the max.level must be beneath the
dead zone.
3Save the settings with [OK]and move to the medium
selection with [–>].
Each product has dierent reective properties.In
liquids additional interfering factors are uctuating
product surfaces and foam generation.In solids,this is
the dust generation,material cone and additional
echoes caused by the vessel wall.To adapt the sensor
to the dierent applications,you should choose in this
menu item Liquid or Solid.
Medium
Liquid
According to the conductivity and the dielectric constant
value of liquids,the reection properties can dier
considerably.Therefore additional option such as
Solvent,Chem.mixture and Water based are oered
below the menu item Liquid.
For solids you choose also Powder/Dust,Granular/
Pellets or Ballast/Pebbels.
Carrying out max.adjust-
ment
Medium selection
38 VEGAPULS 62 -4... 20 mA/HART
Setup with the indicating and adjustment module PLICSCOM
28435-EN-050211
With the medium selection,the sensor is adapted
perfectly to the product and the reliability,particularly in
products with bad reective properties is considerably
increased.
Enter the requested parameter via the respective keys,
save your settings and jump to the next menu item with
the [–>]key.
Apart from the medium also the vessel form can
inuence the measurement.To adapt the sensor to
these conditions,this menu item oers (depending on
either liquid or solid is selected)dierent options.For
Liquid these are Storage tank,Stilling tube,Open vessel
or Stirred vessel,for Solid Silo or Bunker.
Vessel form
Storage tank
Enter the requested parameter via the respective keys,
save your settings and jump to the next menu item with
the [–>]key.
To suppress uctuation in the measured value display,
e.g.by agitated product surfaces,an integration time
can be set.This time can be between 0and 999
seconds.Please note that the reaction time of the entire
measurement will be longer and the sensor will react to
quick changes of the measured value with a corre-
sponding delay.In general,a time of a few seconds is
sucient to smooth the measured value display.
Damping
0s
Enter the requested parameter via the respective keys,
save your settings and jump to the next menu item with
the [–>]key.
Vessel form
Damping
VEGAPULS 62 -4... 20 mA/HART 39
Setup with the indicating and adjustment module PLICSCOM
28435-EN-050211
Alinearization is necessary for all vessels in which the
vessel volume does not increase linearly with the level -
e.g.in a cylindrical or spherical tank -and the indication
or output of the volume is requested.Corresponding
linearization curves are preprogrammed for these
vessels.They represent the correlation between the
level percentage and vessel volume.By activating the
appropriate curve,the volume percentage of the vessel
is displayed correctly.If the volume should not be
displayed in percent but e.g.in l or kg,a scaling can be
set in the menu item Display.
Linearization curve
linear
Enter the requested parameter via the respective keys,
save your settings and jump to the next menu item with
the [–>]key.
In this menu item you can enter an unambiguous
designation for the sensor,e.g.the measurement loop
name or the tank or product designation.In digital
systems and in the documentation of larger plants,a
unique designation should be entered for exact identi-
cation of individual measuring sites.
Sensor-TAG
Sensor
With this menu item,the Basic adjustment is nished
and you can now jump to the main menu with the [ESC]
key.
High sockets or vessel installations,such as e.g.struts
or agitators as well as buildup and weld joints on the
vessel walls cause false reections which inuence the
measurement.Afalse echo storage detects and marks
these false echoes so that they are no longer taken into
Linearization curve
Sensor-TAG
False echo storage
40 VEGAPULS 62 -4... 20 mA/HART
Setup with the indicating and adjustment module PLICSCOM
28435-EN-050211
account for the level measurement.Afalse echo
memory should be created with empty vessel so that all
probably existing false reections can be detected.
False echo storage
Change?
Proceed as follows:
1Move from the measured value display to the main
menu by pushing [OK].
2Select the menu item Service with [–>]and conrm
with [OK].Now the menu item false echo storage is
displayed.
3Conrm False echo storage -Change now with [OK]
and select in the below menu Create new.Enter the
actual distance from the sensor to the product
surface.All false echoes in this area are detected by
the sensor and saved after conrming with [OK].
Note:
Check the distance to the product surface as in case of
awrong(too big)setting,the real level will be saved as
false echo.Hence the level can no longer be detected in
this area.
Additional adjustment and diagnosis options such as e.
g.scaling,simulation or trend curve presentation are
shown in the following menu schematic.You will nd a
detailed description of these menu items in the operating
instructions manual of the indicating and adjustment
module PLICSCOM.
Optional settings
VEGAPULS 62 -4... 20 mA/HART 41
Setup with the indicating and adjustment module PLICSCOM
28435-EN-050211
5.5Menu schematic
Basic adjustment
1
>
Basic adjustment
Display
Diagnostics
Service
Info
1.1
Min.adjustment
0.00 %
=
10.000 m(d)
8.000 m(d)
1.2
Max.adjustment
100.00 %
=
1.000 m(d)
2.000 m(d)
1.3
Medium
Liquid
Water based
(DK>10)
1.4
Vessel form
Storage tank
1.5
Damping
0s
1.6
Linearization curve
linear
1.7
Sensor-TAG
Sensor
Display
2
Basic adjustment
>
Display
Diagnostics
Service
Info
2.1
Displayed value
scaled
2.2
Display units
Volume
m³
2.3
Scaling
0%=0.0m³
100 %=100 m³
Diagnostics
3
Basic adjustment
Display
>
Diagnostics
Service
Info
3.1
Peak values
Distance-min:0.234m(d)
Distance-max:5.385m(d)
3.2
Meas.reliability
8db
Sensor status
OK
3.3
Choose curve
echo curve
3.4
echo curve
Presentation of
echo curve
42 VEGAPULS 62 -4... 20 mA/HART
Setup with the indicating and adjustment module PLICSCOM
28435-EN-050211
Service
4
Basic adjustment
Display
Diagnostics
>
Service
Info
4.1
False echo storage
Change?
4.2
Addl.adjustments
none
4.3
Current output
Output mode 4-20 mA
Failure mode <3.6mA
min.current 3.8mA
4.4
Simulation
Simulation
start?
4.5
Reset
Reset
select?
4.6
Units of measurement
m(d)
select?
4.7
Language
Deutsch
4.8
HART mode
Standard
Address 0
4.9
Copy sensor data
Copy sensor data?
4.10
PIN
Enable?
Info
5
Basic adjustment
Display
Diagnostics
Service
>
Info
5.1
Sensor type
VEGAPULS 6x
Serial number
12345678
5.2
Date of manufacture
29.April 2003
Software version
2.00.00
5.3
Date of last change
using PC
15.May 2003
5.4
Sensor details
Now
display
VEGAPULS 62 -4... 20 mA/HART 43
Setup with the indicating and adjustment module PLICSCOM
28435-EN-050211
6Setup with PACTware
6.1Connecting the PC
~
=
Power supply
VE
G
A
CO
NNE
C
T
3
PACTware /
TM
>PA<
2
31
Fig.30:Connecting the PC directly to the sensor
1RS232 connection
2VEGAPULS 62
3I²Cadapter cable for VEGACONNECT 3
Necessary components:
lVEGAPULS 62
lPC with PACTwareand suitable VEGA-DTM
lVEGACONNECT 3with I²Cadapter cable (article no.
2.27323)
lpower supply unit
Connecting the PC directly
to the sensor
44 VEGAPULS 62 -4... 20 mA/HART
Setup with PACTware
28435-EN-050211
2
3
1
4
~
=
Power supply
VEGACONNECT 3
PACTware /
TM
Fig.31:Connecting the PC to the signal cable
1RS232 connection
2VEGAPULS 62
3HART adapter cable for VEGACONNECT 3
4HART resistance 250 Ohm
Necessary components:
lVEGAPULS 62
lPC with PACTwareand suitable VEGA-DTM
lVEGACONNECT 3with HART adapter cable (art.
no.2.25397)
lHART resistance approx.250 Ohm
lpower supply unit
Note:
With power supply units with integrated HART resis-
tance (internal resistance approx.250 Ohm), an addi-
tional external resistance is not necessary (e.g.
VEGATRENN 149A,VEGADIS 371,VEGAMET 381). In
such cases,VEGACONNECT 3can be connected in
parallel to the 4... 20 mAcable.
6.2Parameter adjustment with PACTware
Further setup steps are described in the operating
instructions manual DTM Collection/PACTware atta-
ched to each CD and which can also be downloaded
Connecting the PC to the
signal cable
VEGAPULS 62 -4... 20 mA/HART 45
Setup with PACTware
28435-EN-050211
from our homepage.Adetailed description is available
in the online help of PACTwareand the VEGA-DTMs.
Note:
Keep in mind that for setup of VEGAPULS 62,DTM-
Collection 06/2003 or a newer version should be
applied.
All currently available VEGA-DTMs are provided in the
DTM Collection on CD and can be bought from the
responsible VEGA agency for a token fee.This CD
includes also the up-to-date PACTwareversion.The
basic version of this DTM Collection incl.PACTware
is also available as a free-of-charge download from the
Internet.
46 VEGAPULS 62 -4... 20 mA/HART
Setup with PACTware
28435-EN-050211
7Maintenance and fault rectication
7.1Maintenance
When used as directed in normal operation,VEGAPULS
62 is completely maintenance-free.
7.2Fault rectication
VEGAPULS 62 oers maximum reliability.Nevertheless,
failures may occur during operation.These can have the
following causes,e.g.:
lSensor
lProcess
lPower supply
lSignal processing.
The rst measures to be taken are to check the output
signal and evaluate fault messages via the adjustment
module PLICSCOM.The procedure is described below.
Further comprehensive diagnostics can be carried out
on a laptop with the software PACTwareand the
suitable DTM.In many cases,the reasons can be
determined in this way and faults can be rectied.
Should these measures not be successful,please call in
urgent cases the VEGA service hotline under the phone
number +49 1805 858550.
The hotline is available to you 7days a week round-the-
clock.Since we oer this service world-wide,the
support is only available in the English language.The
service is free of charge,only the standard telephone
costs will be charged.
Connect a hand-held multimeter with a suitable measu-
ring range acc.to the wiring plan.
?4... 20 mAsignal is not stable
llevel uctuations
àset integration time via PLICSCOM or
PACTware
Causes of failure
Fault rectication
24 hour service hotline
Checking the 4... 20 mA
signal
VEGAPULS 62 -4... 20 mA/HART 47
Maintenance and fault rectication
28435-EN-050211
?4... 20 mAsignal missing
lincorrect connection to power supply
àcheck connection acc.to chapter "Connection
procedure"and correct,if necessary,acc.to
chapter "Wiring plans"
lno power supply
àcheck cables for line break,repair,if necessary
lsupply voltage too low or load resistance too high
àcheck and adapt,if necessary
?Current signal greater than 22 mAor less than 3.6
mA
lElectronics module defective
àexchange instrument or return it for repair
InEx applications,the regulations for the wiring of
intrinsically safe circuits must be observed.
?E013
lno measured value available
àsensor in boot phase
àsensor does not nd an echo,e.g.through
incorrect installation or wrong parameter adjust-
ment
?E017
ladjustment span too small
àCarry out a fresh adjustment and increase the
distance between min.and max.adjustment
Fault messages via
PLICSCOM
48 VEGAPULS 62 -4... 20 mA/HART
Maintenance and fault rectication
28435-EN-050211
?E036
lno operable sensor software
àcarry out a software update or return instrument
for repair
?E041
lhardware error,electronics defective
àexchange instrument or return it for repair
7.3Exchanging the oscillator
If the electronics module is defective,it can be replaced
by the user
Oscillator PS-E.60KH.is suitable for K-band VEGA-
PULS 61,62,63 with 4... 20 mA/HART.The following
versions are available:
lPS-E.60KHX(without approvals)
lPS-E.60KHA(approvals CA,DA,EA acc.to VEGA
product list)
lPS-E.60KHC(approvals XM,CX,CM,CK,CI,DX,
DM,DK,DI;EX,GX,UX,UF acc.to VEGA product
list)
InEx applications,only an oscillator with appropriate Ex
approval must be used.
If there is no oscillator available on site,it can be ordered
from the responsible VEGA agency.
The new oscillator must be according to the order data
of the sensor.These can be loaded as follows:
lat the premises by VEGA
lon site by the user.
Information:
When loading on site,rst of all the respective le must
be downloaded from the Internet (see Setup).
Preparations
VEGAPULS 62 -4... 20 mA/HART 49
Maintenance and fault rectication
28435-EN-050211
In both cases,the serial number of VEGAPULS 62 is
necessary.The serial numbers are stated on the type
label of VEGAPULS 62 or on the delivery note.
Proceed as follows:
1Switch opower supply
2Unscrew the housing cover
3Lift the opening levers of the terminals with a
screwdriver
4Pull the connection cables out of the terminals
5Loosen the two screws with a Phillips screwdriver
(size 1)
2
1
Fig.32:Loosen the screws
1Electronics module
2Screws (2pcs.)
6Pull the existing oscillator out by holding the opening
levers.
7Compare the new oscillator with the old one.The
statements on the type label must correspond.This
applies particularly to instruments in Exareas.
8Insert the oscillator
9Screw in and tighten the two screws with a Phillips
screwdriver.
10 Insert the wire ends into the open terminals
according to the wiring plan
Exchange
50 VEGAPULS 62 -4... 20 mA/HART
Maintenance and fault rectication
28435-EN-050211
11 Close the opening levers of the terminals,you will
hear the terminal spring closing
12 Check the hold of the wires in the terminals by lightly
pulling on them
13 Check the tightness of the cable entry.The seal ring
must completely encircle the cable.
14 Screw the housing cover back on
The electronics exchange is nished.
As a rule,the exchange of the oscillator must be
documented internally when used in Ex applications.
If the serial number of the oscillator is stated when
ordering,VEGAPULS 62 is ready for operation directly
after mounting the oscillator.
If you are using an universal electronics from stock,you
have to load the sensor data after mounting the
oscillator.Use the item "serial number search"under
www.vega.com.After having entered the serial number,
the order data of the sensor will be displayed.Below the
order data you will nd "Sensor data for Service-DTM"
as an XML le.Load this le to your PC and then into the
sensor via PACTware/Service DTM.
After VEGAPULS 62 is ready for operation,settings
carried out on site must be repeated.
Tip:
Use the copy function of the adjustment module
PLICSCOM or the adjustment software PACTware.
7.4Instrument repair
If it is necessary to repair VEGAPULS 62 please
proceed as follows:
You can download a return form (23 KB)from our
Internet homepage www.vega.com under "Services >
Downloads >Forms and Certicates >Repair form.
Setup
VEGAPULS 62 -4... 20 mA/HART 51
Maintenance and fault rectication
28435-EN-050211
By doing this you help us carry out the repair quickly and
without having to call for additional information.
lPrint and ll out one form per instrument
lClean the instrument and pack it damage-proof
lAttach the completed form and possibly also a safety
data sheet to the instrument
lSend the instrument to the respective address of
your agency.InGermany to the VEGA headquarters
in Schiltach.
52 VEGAPULS 62 -4... 20 mA/HART
Maintenance and fault rectication
28435-EN-050211
8Dismounting
8.1Dismounting procedure
Warning:
Before dismounting,be aware of dangerous process
conditions such as e.g.pressure in the vessel,high
temperatures,corrosive or toxic products etc.
Take note of chapters "Mounting"and "Connecting to
power supply"and carry out the listed steps in reverse
order.
8.2Disposal
VEGAPULS 62 consists of materials which can be
recycled by specialised recycling companies.Wehave
purposely designed the electronic modules to be easily
separable.Mark the instrument as scrap and dispose of
it according to government regulations (electronic scrap
ordinance, ...)
Materials:see Technical data
If you cannot dispose of the instrument properly,please
contact us about disposal methods or return.
VEGAPULS 62 -4... 20 mA/HART 53
Dismounting
28435-EN-050211
9Supplement
9.1Technical data
General data
Materials,non-wetted parts
-housing plastic PBT (Polyester), Alu-die casting
powder-coated,316L(stainless steel
1.4435)
-seal ring between housing and
housing cover
NBR (stainless steel housing), silicone
(Alu/plastic housing)
-inspection window in housing
cover for PLICSCOM
Polycarbonate
-ground terminal stainless steel 1.4571/1.4435
Materials,wetted parts
-process tting thread 316 L(stainless steel 1.4435),
Hastelloy C22;anges 316 L(stainless
steel 1.4435), Hastelloy C22 plated
-Antenna 316 L(stainless steel 1.4435), PTFE (TFM
1600 PTFE)
-seal,antenna system Viton,Kalrez 2035,6230,6375,6623
Weight with horn antenna
-process tting,thread 2.0... 2.8kg (4.4... 6.2lbs), depending on
the thread size and housing
-process tting,ange 4.2... 15.4kg (9.3... 34 lbs), depending
on the ange size and housing
Weight with parabolic antenna
-process tting,thread 2.8... 3.6kg (6.2... 13.7lbs), depending
on the thread size and housing
-process tting,ange 5.0... 16.2kg (11 ... 35.7lbs), depending
on the ange size and housing
54 VEGAPULS 62 -4... 20 mA/HART
Supplement
28435-EN-050211
Output variable
Output signal 4... 20 mA/HART
Resolution 1.6µA
Fault signal current output unchanged,20.5mA,
22 mA,<3.6mA(adjustable)
Current limitation 22 mA
Load see load diagram in Power supply
Integration time (63%of the input
variable)
0... 999 s,adjustable
Rise time 150 ms (ti:0s,0... 100 %)
Fullled Namur recommendation NE 43
Input variable
Parameter distance between process tting and
product surface
Min.distance from antenna end 50 mm (2in)
Recommended meas.range depending on the antenna diameter
-ø40 mm (1.6in)up to 10 m(33 ft)
-ø48 mm (1.9in)up to 15 m(50 ft)
-ø75 mm (3in), ø95 mm (3.7in),
parabolic antenna
up to 30 m(98.4ft)
Accuracy (similar to DIN EN 60770-1)
Reference conditions acc.to DIN EN 61298-1
-temperature 18 ... 30°C(64 ... 86°F)
-relative humidity 45 ... 75 %
-pressure 860 ... 1060 mbar (86 ... 106 kPaor12.5...
15.4psi)
VEGAPULS 62 -4... 20 mA/HART 55
Supplement
28435-EN-050211
Characteristics curve deviation and measurement characteristics2)
Average temperature coecient of
the zero signal (temperature error)
0.06 %/10 K
Resolution,general max.1mm
Frequency K-band (26 GHz technology)
Interval approx.1s
Beam angle with horn antenna,depending on the antenna diameter
-ø40 mm 22°
-ø48 mm 18°
-ø75 mm 10°
-ø95 mm 8°
Beam angle with parabolic antenna 3.5°
Adjustment time3)>1s(dependent on the parameter
adjustment)
Max.emitted power <25 mWEIRP4)
Received average emitted power reaching an object directly in front of the antenna
-distance 1m0.43.2nWper cm²(0.43.2x10
-9
W/cm²)
-distance 5m0.02 ... 0.13 nWper cm²(0.02 ... 0.13 x10
-
9
W/cm²)
Accuracy see diagram
0,5 m 30 m
10 mm
3 mm
-3 mm
-10 mm
Fig.33:Accuracy VEGAPULS 62
2)Relating to the nominal range,incl.hysteresis and repeatability,
determined acc.to the limit point method.
3)Time to output the correct level (with max.10 %deviation)after a
sudden level change.
4)EIRP:Equivalent isotropically radiated power.
56 VEGAPULS 62 -4... 20 mA/HART
Supplement
28435-EN-050211
Ambient conditions
Ambient,storage and transport temperature
-without PLICSCOM -40 ... +80°C(-40 ... +176°F)
-with PLICSCOM -20 ... +70°C(-4... +158°F)
Process conditions
Vessel pressure horn antenna -1... 40 bar (-100 ... 4000 kPaor-14.5...
580)
vessel pressure parabolic antenna -1... 6bar (-100 ... 4000 kPaor-14.5... 87
psi)
Process temperature (measured on the process tting)depending on the seal of
the antenna system
-Viton -40 ... +130°C(-40 ... +266°F)
-Viton with temperature adapter -40 ... +200°C(-40 ... +392°F)
-Kalrez 2035,6230,6623 -15 ... +130°C(-5... +266°F)
-Kalrez 2035,6230 with tempe-
rature adapter
-15 ... +200°C(-5... +392°F)
-Kalrez 6375 -20 ... +130°C(-4... +266°F)
-Kalrez 6375 with temperature
adapter
-20 ... +200°C(-4... +392°F)
Vibration resistance mechanical vibrations with 4g and
5100 Hz5)
Data on rinsing air connection
Pressure max.6bar (87 psi)
Thread GA
Check valve (option,attached with Ex version)
-Material 316Ti(stainless steel 1.4571)
-Seal Viton
-for tube diameter 6mm
-opening pressure 0.5bar (7.3psi)
-nominal pressure stage PN 250
5)Tested acc.to the regulations of German Lloyd,GL directive 2
VEGAPULS 62 -4... 20 mA/HART 57
Supplement
28435-EN-050211
Electromechanical data
Cable entry/plug6)
-single chamber housing l1x cable entry M20x1.5(cable-ø
59mm), 1x blind stopper M20x1.5
or:
l1x closing cap ½NPT,1xblind
stopper ½NPT
or:
l1xplug(depending on the version), 1x
blind stopper M20x1.5
-double chamber housing l1x cable entry M20x1.5(cable-ø
59mm), 1x blind stopper M20x1.5,
plug M12x1for VEGADIS 61 (option)
or:
l1x closing cap ½NPT,1x blind stopper
½NPT,plug M12x1for VEGADIS 61
(option)
or:
l1xplug(depending on the version), 1x
blind stopper M20x1.5,plug M12x1for
VEGADIS 61 (option)
Spring-loaded terminals for wire cross sections up to 2.5mm²
Indicating and adjustment module PLICSCOM
Power supply and data transmis-
sion
through sensor via gold-plated sliding
contacts (I²Cbus)
Indication LC display in dot matrix
Adjustment elements 4keys
Protection
-unassembled IP 20
-mounted into the sensor without
cover
IP 40
6)depending on the version M12x1,acc.to DIN 43650,Harting,
Amphenol-Tuchel,7/8"FF
58 VEGAPULS 62 -4... 20 mA/HART
Supplement
28435-EN-050211
Materials
-housing ABS
-inspection window Polyester foil
Power supply
Supply voltage
-non-Ex instrument 14 ... 36 VDC
-EEx ia instrument 14 ... 30 VDC
-EExd ia instrument 20 ... 36 VDC
Permissible residual ripple
-<100 HzU
ss
<1V
-100 Hz... 10 kHzU
ss
<10 mV
Load see diagram
1000
750
500
250
14 1816 20 22 24 26 28 30 32 34 36
Ω
V
4
12
3
Fig.34:Voltage diagram
1HART load
2Voltage limit EEx ia instrument
3Voltage limit non-Ex instrument/Exd instrument
4Supply voltage
Electrical protective measures
Protection IP 66/IP 67
Overvoltage category III
Protection class II
VEGAPULS 62 -4... 20 mA/HART 59
Supplement
28435-EN-050211
Approvals7)8)
ATEX ia ATEX II 1G,1/2G,2GEExiaIIC T6;ATEX
II 1G,1/2G,2GEExiaIIC T5+ATEX II 1/
2DIP6XT6
ATEX dATEX II 1/2G,2GEExdiaIIC T6;ATEX II
1/2G,2GEExdiaIIC T5+ATEX II 1/2D
IP6XT6
ATEX D ATEX II 1/2DIP6XT
ATEX me ATEX II 1/2G2GEExmeiaIIC T6
IEC ia IEC ExiaIIC T6
IEC dIEC ExdiaIIC T6
FM FM CI.I,Div2(NI)+CI.II,III,Div1(DIP); FM
CI.I-III,Div 1(IS)
Ship approvals GL,LRS,ABS,CCS,RINA
Others WHG
7)Deviating data with Ex applications:see separate safety instru-
ctions
8)depending on order specication
60 VEGAPULS 62 -4... 20 mA/HART
Supplement
28435-EN-050211
9.2Dimensions
Housing
1
12mm
(
4
13
/
32")
1
17mm
(
4
39
1
14mm
(
4 31/64")
1
20mm
(
4
23
/32")
~ 69mm
(2 23/32") ø 77mm
(3 1/32")
~ 69mm
(2 23/32") ~ 116mm (4 9/16")
~ 87mm (3 27/64")
ø
77mm
ø 84mm (3 5/16")
ø
84mm
/16")
2
0x1
,5
½
½
NPT
½
NPT
M20x1
,
5
/
½
NPT
1
2
3
4
Fig.35:Housing versions (with integrated PLICSCOM the height of the housing increases by 9mm/0.35 in)
1Plastic housing
2Stainless steel housing
3Aluminium double chamber housing
4Aluminium housing
VEGAPULS 62 -4... 20 mA/HART 61
Supplement
28435-EN-050211
VEGAPULS 62 with horn antenna in threaded version
mm
inch
38mm (1 1/2")
22mm (55/64")
22mm (55/64")
118mm (4 41/64")
46mm
(1 13/16")
3 15/161
37/64"
ø1 57/64"
ø2 61/64"
ø3 47/64"
4 23/32"
8 1/2"
16 59/64"
xy
100 ø40
120 ø48
216 ø75
430 ø95
1½"
2"
3"
4"
xy
1½"
2"
3"
4"
x
y
G1½A / 1½ NPT
x
y
21
Fig.36:VEGAPULS 62 with horn antenna in threaded version
1Standard
2with temperature adapter
62 VEGAPULS 62 -4... 20 mA/HART
Supplement
28435-EN-050211
VEGAPULS 62 with horn antenna in threaded version with purging air
connection
mm
inch
38mm (1 1/2")
22mm (55/64")
22mm (55/64")
118mm (4 41/64")
3 15/16"
4 23/32"
8 1/2"
16 59/64"
ø1 37/64"
ø1 57/64"
ø2 61/64"
ø3 47/64"
46mm
(1 13/16")
x
y
G1½A / 1½ NPT
xy
100 ø40
120 ø48
216 ø75
430 ø95
1½"
2"
3"
4"
xy
1½"
2"
3"
4"
x
y
21
Fig.37:VEGAPULS 62 with horn antenna in threaded version with purging air connection and reux valve
(option)
1Standard
2with temperature adapter
VEGAPULS 62 -4... 20 mA/HART 63
Supplement
28435-EN-050211
VEGAPULS 62 with horn antenna in threaded version with purging air
connection and antenna extension
mm
inch
38mm (1 1/2")
22mm (55/64")
22mm (55/64")
118mm (4 41/64")
7 3/321
37/64"
ø1 57/64"
ø2 61/64"
ø3 47/64"
7 7/8"
11 21/32"
24 51/64"
46mm
(1 13/16")
x
y
G1½A / 1½ NPT
xy
> 180 ø40
> 200 ø48
> 296 ø75
> 630 ø95
1½"
2"
3"
4"
xy
1½"
2"
3"
4"
x
y
21
Fig.38:VEGAPULS 62 with horn antenna in threaded version with purging air connection,antenna
extension and reux valve (option)
1Standard
2with temperature adapter
64 VEGAPULS 62 -4... 20 mA/HART
Supplement
28435-EN-050211
VEGAPULS 62 with horn antenna in ange version
60mm
(2 23/64")
140mm (5 33/64")
4xø3/4"
4xø3/4"
8xø55/64"
8xø3/4"
8xø7/8"
4xø45/64"
8xø45/64"
8xø45/64"
4 3/4"
4 59/64"
6 19/64"2
61/64"
3 47/64"
3 47/64"
16 59/64"
16 59/64"
1 57/64"4
23/32"
8 1/2"
1 37/64"
1 57/64"4
23/32"
3 15/16"
2 61/64"
3 47/64"
3 47/64"
16 59/64"
16 59/64"
8 1/2"
7 3/32"
9 29/64"
25/32"
25/32"
55/64"
15/16"
3/4"
15/16"
15/16"
6 1/2"
4xø45/64"4 21/64"
45/64"5 29/32"
7 7/8"
8 21/32"
11 7/32"
7 1/2"
7 1/2"
9 1/2"
6"
6"
9"
11" 1"
D
mm
bk dx
DN 50 PN 40 165 20 125 4xø18
DN 80 PN 40 200 24 160 8xø18
DN 100 PN 16 220 20 180 8xø18
DN 150 PN 16 285 22 240 8xø22
2" 150 lb 152,4 19,1 120,7 4xø19,1
3" 150 lb 190,5 23,9 152,4 4xø19,1
4" 150 lb 228,6 23,9 190,5 8xø19,1
6" 150 lb 279,4 25,4 241,3 8xø22,4
y
48 120
75 216
95 430
95 430
48 120
xy
75 216
95 430
95 430
D
inch
bk d
DN 50 PN 40
DN 40 PN 40 150 18 110 4xø18 40 100 DN 40PN 40
DN 80 PN 40
DN 100 PN 16
DN 150 PN 16
2" 150 lb
3" 150 lb
4" 150 lb
6" 150 lb
D
k
x
d
b
y
21
Fig.39:VEGAPULS 62 with horn antenna in ange version
1Standard
2with temperature adapter
VEGAPULS 62 -4... 20 mA/HART 65
Supplement
28435-EN-050211
VEGAPULS 62 with parabolic antenna in threaded version
38mm (1 1/2")
22mm (55/64")
22mm (55/64")
118mm (4 41/64")
128mm
(5 3/64")
ø 243mm (9 9/16")
46mm
(1 13/16")
G1½A / 1½ NPT
21
Fig.40:VEGAPULS 62 with parabolic antenna in threaded version
1Standard
2with temperature adapter
66 VEGAPULS 62 -4... 20 mA/HART
Supplement
28435-EN-050211
VEGAPULS 62 with parabolic antenna in ange version
D
mm
bk d
DN 50 PN 40 165 20 125 4xø18
DN 80 PN 40 200 24 160 8xø18
DN 100 PN 16 220 20 180 8xø18
DN 150 PN 16 285 22 240 8xø22
2" 150 lb 152,4 19,1 120,7 4xø19,1
3" 150 lb 190,5 23,9 152,4 4xø19,1
4" 150 lb 228,6 23,9 190,5 8xø19,1
6" 150 lb 279,4 25,4 241,3 8xø22,4
D
inch
bk d
DN 50 PN 40
DN 40 PN 40 150 18 110 4xø18 DN 40PN 40
DN 80 PN 40
DN 100 PN 16
DN 150 PN 16
2" 150 lb
3" 150 lb
4" 150 lb
6" 150 lb
21
D
k
b
60mm
(2 23/64")
128mm
(5 3/64")
140mm (5 33/64")
4xø3/4"
4xø3/4"
8xø55/64"
8xø3/4"
8xø7/8"
4xø45/64"
8xø45/64"
8xø45/64"
4 3/4"
4 59/64"
6 19/64"
7 3/32"
9 29/64"
25/32"
25/32"
55/64"
15/16"
3/4"
15/16"
15/16"
6 1/2"
4xø45/64"4 21/64"
45/64"5 29/32"
7 7/8"
8 21/32"
11 7/32"
7 1/2"
7 1/2"
9 1/2"
6"
6"
9"
11" 1"
d
ø 243mm (9 9/16")
Fig.41:VEGAPULS 62 with parabolic antenna in ange version
1Standard
2with temperature adapter
VEGAPULS 62 -4... 20 mA/HART 67
Supplement
28435-EN-050211
9.3Certicates
CE declaration of conformity
Fig.42:CE declaration of conformity
68 VEGAPULS 62 -4... 20 mA/HART
Supplement
28435-EN-050211
Manufacturer declaration
Manufacturer declaration
no. 24626
Messrs. VEGA Grieshaber KG
Am
Hohenstein 113
77 761 Schiltach
declares that the Radar Sensor
Type VEGAPULS 61, 62, 63, 65, 66 with electronics H (4...20mA HART)
in accordance with DIN/EN 60079-14/1998 paragraph .5.2.3 item c 1
and when used correctly under the condition that the operator follows the instructions in the documents listed:
- Mounting and operating instructions in the Operating Instructions manual
- Data and instructions of this manufacturer declaration
- Installation regulations
are suitable for use in Zone 2
The max. surface temperature increase* during operation is 18K.
With an ambient temperature of 70°C on the housing and a product temperature of 70°C, the max. surface
temperature* is 88°C during operation.
Measures to maintain the explosion protection during operation:
-
Permissible operating voltage: Umin. = 14V; Umax. = 36V.
- The instrument must be installed and operated in such a way that ignition due to electrostatic charge is not
expected (depending on the version, the antenna, process fitting or the housing are made of electrically non-
conductive plastic).
- The availability, the perfect quality and the correct position of the seal between the lower part of the housing and
the cover must be ensured; the screws for fastening of the cover must be tightened carefully.
- If the instrument is operated with opened cover, the adjustment module PLICSCOM is mounted or its keys are
pushed, it must be ensured that no explosive atmosphere is present.
- Make sure that the cable entry is tight and strain-relieved; the outer diameter of the connection cable must be
adapted to the cable entry; the pressure screw of the cable entry must be tightened carefully.
- Free openings for cable and cable entries must be covered tightly.
- VEGAPULS must be mounted in such a way that contact of the sensor to the vessel wall can be excluded by
taking vessel installations and flow conditions in the vessel into account.
- The surface temperature must not exceed the ignition temperature of the concerned explosive atmosphere.
*Single component in the instrument
This instrument was judged by a person meeting the requirements acc. to DIN/EN 60079-14.
VEGA Grieshaber KG
Schiltach, den 25.03.04
i.V. Fruhauf
Fig.43:Manufacturer declaration
VEGAPULS 62 -4... 20 mA/HART 69
Supplement
28435-EN-050211
70 VEGAPULS 62 -4... 20 mA/HART
28435-EN-050211
VEGAPULS 62 -4... 20 mA/HART 71
28435-EN-050211
VEGA Grieshaber KG
AmHohenstein 113
77761 Schiltach
Germany
Phone +49 7836 50-0
Fax +49 7836 50-201
E-mail:info@de.vega.com
www.vega.com
ISO 9001
All statements concerning scope of delivery,application,
practical use and operating conditions of the sensors and
processing systems correspond to the information avail-
able at the time of printing.
Technical data subject to alterations 28435-EN-050211

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