Monitor DuraVibe VibraRod Owner's manual
DuraVibe™
Model VibraRod™ Vibratory oint Level Sensor
Ordinary Location and Hazardous Location
BUL L E T I N
554A
Standard robe
I N S T A L L A T I O N & O E R A T I O N
®
Thank you for purchasing a quality product from Monitor Technologies
LLC. We realize that you do have a choice of vendors when procuring
level measurement equipment and we sincerely appreciate your busi-
ness!
This manual contains the information necessary to ensure a safe and
successful installation. Please read and comply with the section of this
manual pertaining to SAF TY. Doing so will ensure proper operation of
the equipment and the safety of all personnel.
Before discarding shipping container, please inspect it thoroughly and
verify that all parts ordered are accounted for. Sometimes smaller parts
become stuck under carton flaps and other packaging materials.
In the event that information contained herein does not completely
satisfy your requirements or answer your questions, you may
contact Technical Support on our website www.monitortech.com, by
telephone at 800-766-6486 (630-365-9403), or by e-mail at
either in or out of warranty, please contact us and obtain an RMA number
prior to shipping the unit to us.
2
PRI N C I P LE O F O P ERA ION
The VibraRod™ vibratory sensor provides reliable point
level detection in a wide variety of process control appli-
cations within the powder and bulk solids market. The
vibrating probe principle overcomes application difficulties
associated with changes in material, temperature, and
humidity while providing reliable solid state electronic cir-
cuitry that requires no calibration.
The VibraRod has the ability to detect a wide range of
material densities. In addition, using a single-prong probe
eliminates the potential problems associated with material
build-up and false signaling associated with the dual-
prong “tuning fork” probes.
The VibraRod is available in a variety of configurations,
each specifically designed to satisfy particular applica-
tions. Available configurations include: standard probe
and pipe extension probe.
The VibraRod™ line of point level sensors is a mechani-
cal resonance system that is excited at a resonance by an
electrical circuit. Two piezoelectric crystals are mounted
internally at the probe’s base. The electronic module gen-
erates an electrical signal that has an equivalent frequen-
cy to the probe’s resonant frequency; this signal is applied
to one crystal, which causes the probe to vibrate. The
vibration is monitored by the second crystal which pro-
vides an electrical signal back to the electronic module.
When material contacts and surrounding the probe, the
vibration is dampened and the signal from the second
crystal is reduced. This signal reduction is detected by the
electronic module, which reacts by providing a signal out
of the module through the relay contacts.
Choosing a Location: (See Figure 1)
1) Material Flow: When selecting a location for the
VibraRod™ level sensor, choose a point in the vessel
where the probe will be out of the direct flow of incom-
ing and outgoing material to prevent any mechanical
damage that may be caused by the pressure of the flow
(See section regarding Protective Baffles). The
VibraRod sensor must be positioned at a point where
incoming material will reach and cover the probe in its
normal flow, and when receding, will flow away from
the probe in an even manner. Choose a position
where a majority of the probe (not just the tip) will be
covered. This is particularly important when detecting
materials with low bulk densities. If the target material
to be sensed is a powder, the VibraRod sensor should
be installed at an incline exceeding the
angle of repose (for high level detection
use vertical mounting) in order to pre-
vent powder buildup/clinging that might
substantially reduce the self-cleaning
effect of the vibrating rod. Also, avoid
mounting the VibraRod sensor in a
PRE - I N S ALL A IO N C O N SIDE R A I O N S
recess (See Figure 2). In addition, material flow char-
acteristics such as “rat holing” (caving) or “bridging”
(arching) of the material in the vessel should be con-
sidered.
2) Vessel Interference: Select an area where the probe
will not come in contact with internal structures of the
vessel.
3) Vibration: CAUTION - The VibraRod should
not be used in applications with severe vibration, such
as being in close proximity to vibration devices used to
promote material flow, as this could damage the probe.
4) Dynamic Material Flow: Please consider the maxi-
mum limits of bending force as shown in Figure 3 when
choosing a mounting location and installing the
VibraRod level sensor.
Also, note that the sensor may not reliably trigger / alarm
unless covered by a static layer of material. Constantly
moving matter may present an issue.
Figure 1
Figure 2
Figure 3
ĺ,/!$ĺ
,/!$
34!.$!2$
ġ
,A&ġ;.=
0)0%ġ%84%.3)/.
ġ
,A&ġ;.=
-!8)-5-02/"%ġ,/!$).'
ġġġ
TOUCH
3
rotective Baffles: (See Figure 4)
The VibraRod is a sensitive level sensing instrument.
Therefore, particular attention should be given to assure
that the mechanical construction of the probe is not dam-
aged by material. Probe deflection (bending) as little as
1/16” can render the probe inoperative. Failure to prop-
erly protect the probe will invalidate the warranty.
Install a protective baffle above side mounted probes.
The baffle can be created using a number of materials
including angle iron, welded plates and pipe sections. It
should be securely mounted to the vessel wall and should
extend the full length of the probe. The lowest part of the
baffle should be 4” to 6” above the upper edge of the
probe.
MEC H A N I C A L I N S A L L A IO N
Figure 5: revent mechanical damage.
0)0%ġ3%#4)/.34%%,ġ0,!4%3/2ġ!.',%ġ)2/.
-/5.4).'ġġ"!&&,).'
ġġġ
34$ġ5.,%33ġ30%#)&)%$88ġ;88LL=
%84%.$"%9/.$02/"%ġ4)0ġ4/ġ;ġ4/ġ=&2/-ġ4/0ġ/&ġ02/"%
Figure 4
Because of their vibratory nature, sensors like the
VibraRod™ are sensitive industrial level sensing instru-
ments. Therefore, particular attention should be given to
ensure that the mechanical construction of the probe is
not damaged during and after the installation (See Figure
5). WARNING! Handle the VibraRod level sensor with
great care, especially the sensing probe. Any impact on
the sensing probe may result in damage to its resonance
system.
robe Mounting: (See Figure 4)
1) Coupling Mount: Cut a hole into the vessel suitable for
a 1-1/4” NPT pipe coupling. Position a half-coupling as
desired on the vessel and weld into place. Thread the
VibraRod into the coupling and tighten by rotating the
process connection. Pipe joint sealant or Teflon®tape
may be used to achieve pressure-sealing capability if
desired.
WARNING! Never attempt to tighten the VibraRod by
rotating its housing! Do NOT use any type of “strap
wrench”.
2) Housing Orientation: Once the VibraRod is securely
mounted in the mounting coupling, rotate the housing
approximately 360˚ maximum (by hand-only) to reach
the desired cable outlet position.
3) ipe Extension Installation: The VibraRod pipe
extension configuration, when top mounted, is intended
for high-level detection only. If side mounted, baffling is
advised and maximum pipe length is 24” (0.61m).
ipe Extension Reinforcement: (See Figure 6)
Mechanical reinforcement of the pipe extension should be
considered whenever installing a probe length greater
than 60” (1.5m). The pipe extension should be anchored
to the sidewall with braces to reduce mechanical stress at
the connection point of the extension and to protect the
VibraRod from damage. When bracing, never weld or
drill into the pipe extension since the electrical wires within
the extension may be damaged. Use mechanical clamp-
ing techniques.
Bracing and Haz-Loc ipe Extensions:
The integrity of pipe extension model warrants extra consid-
eration when installing. On either top mounting or side
mounting, one must consider the potential for material side-
loading forces that could put increased strain on the pipe at
the connection point and then install mechanical bracing as
appropriate. Top-mount pipe extensions over 60” (1.5m) or
side-mount pipe extensions over 18” (0.46m) should be con-
sidered for supplemental mechanical support.
EXTEN
EEXEXTEXTEEXTENSEXTENSI
EXTENSIO
EXTENSION
EXTENSION
MMOUNTMOMOUMOUNMOUNT
W
MOUNT
W R
MOUNT
WRENCH FLATS
MOUNT
WRE
MOUNT
WREN
MOUNT
WRENC
MOUNT
WRENCH
MOUNT
WRENCH
MOUNT
WRENCH F
MOUNT
WRENCH FL
MOUNT
WRENCH FLA
MOUNT
WRENCH FLAT
MOUNT
WRENCH FLATS
C
MOUNT
WRENCH FLATS
COUP
MOUNT
WRENCH FLATS
CO
MOUNT
WRENCH FLATS
COU
MOUNT
WRENCH FLATS
COUPLING
MOUNT
WRENCH FLATS
COUPL
MOUNT
WRENCH FLATS
COUPLI
MOUNT
WRENCH FLATS
COUPLIN
MOUNT
WRENCH FLATS
COUPLING
DO
DDO NDO
DO NO
DO NOT
DO NOT DRI
DO NOT
DO NOT D
DO NOT DR
DO NOT DRIL
DO NOT DRILL
DO NOT DRILL O
DO NOT DRILL
DO NOT DRILL OR
DO NOT DRILL OR WEL
DO NOT DRILL OR
DO NOT DRILL OR W
DO NOT DRILL OR WE
DO NOT DRILL OR WELD
DO NOT DRILL OR WELD.
DO NOT DRILL OR WELD.
TH
DO NOT DRILL OR WELD.
T
DO NOT DRILL OR WELD.
THE DEVI
DO NOT DRILL OR WELD.
THE
DO NOT DRILL OR WELD.
THE
DO NOT DRILL OR WELD.
THE D
DO NOT DRILL OR WELD.
THE DE
DO NOT DRILL OR WELD.
THE DEV
DO NOT DRILL OR WELD.
THE DEVICE
DO NOT DRILL OR WELD.
THE DEVIC
DO NOT DRILL OR WELD.
THE DEVICE
FO
DO NOT DRILL OR WELD.
THE DEVICE
F
DO NOT DRILL OR WELD.
THE DEVICE
FOR SECU
DO NOT DRILL OR WELD.
THE DEVICE
FOR
DO NOT DRILL OR WELD.
THE DEVICE
FOR
DO NOT DRILL OR WELD.
THE DEVICE
FOR S
DO NOT DRILL OR WELD.
THE DEVICE
FOR SE
DO NOT DRILL OR WELD.
THE DEVICE
FOR SEC
DO NOT DRILL OR WELD.
THE DEVICE
FOR SECURI
DO NOT DRILL OR WELD.
THE DEVICE
FOR SECUR
DO NOT DRILL OR WELD.
THE DEVICE
FOR SECURIN
DO NOT DRILL OR WELD.
THE DEVICE
FOR SECURING
DO NOT DRILL OR WELD.
THE DEVICE
FOR SECURING
I
DO NOT DRILL OR WELD.
THE DEVICE
FOR SECURING
IN
DO NOT DRILL OR WELD.
THE DEVICE
FOR SECURING
INSI
DO NOT DRILL OR WELD.
THE DEVICE
FOR SECURING
INS
DO NOT DRILL OR WELD.
THE DEVICE
FOR SECURING
INSIDE EXTEN
DO NOT DRILL OR WELD.
THE DEVICE
FOR SECURING
INSID
DO NOT DRILL OR WELD.
THE DEVICE
FOR SECURING
INSIDE
DO NOT DRILL OR WELD.
THE DEVICE
FOR SECURING
INSIDE
DO NOT DRILL OR WELD.
THE DEVICE
FOR SECURING
INSIDE E
DO NOT DRILL OR WELD.
THE DEVICE
FOR SECURING
INSIDE EX
DO NOT DRILL OR WELD.
THE DEVICE
FOR SECURING
INSIDE EXT
DO NOT DRILL OR WELD.
THE DEVICE
FOR SECURING
INSIDE EXTE
DO NOT DRILL OR WELD.
THE DEVICE
FOR SECURING
INSIDE EXTENS
DO NOT DRILL OR WELD.
THE DEVICE
FOR SECURING
INSIDE EXTENSI
DO NOT DRILL OR WELD.
THE DEVICE
FOR SECURING
INSIDE EXTENSIO
DO NOT DRILL OR WELD.
THE DEVICE
FOR SECURING
INSIDE EXTENSION
DO NOT DRILL OR WELD.
THE DEVICE
FOR SECURING
INSIDE EXTENSION PI
DO NOT DRILL OR WELD.
THE DEVICE
FOR SECURING
INSIDE EXTENSION
DO NOT DRILL OR WELD.
THE DEVICE
FOR SECURING
INSIDE EXTENSION P
DO NOT DRILL OR WELD.
THE DEVICE
FOR SECURING
INSIDE EXTENSION PIPE.
DO NOT DRILL OR WELD.
THE DEVICE
FOR SECURING
INSIDE EXTENSION PIP
DO NOT DRILL OR WELD.
THE DEVICE
FOR SECURING
INSIDE EXTENSION PIPE
DO NOT DRILL OR WELD.
THE DEVICE
FOR SECURING
INSIDE EXTENSION PIPE.
EL
DO NOT DRILL OR WELD.
THE DEVICE
FOR SECURING
INSIDE EXTENSION PIPE.
E
DO NOT DRILL OR WELD.
THE DEVICE
FOR SECURING
INSIDE EXTENSION PIPE.
ELECTRI
DO NOT DRILL OR WELD.
THE DEVICE
FOR SECURING
INSIDE EXTENSION PIPE.
ELE
DO NOT DRILL OR WELD.
THE DEVICE
FOR SECURING
INSIDE EXTENSION PIPE.
ELEC
DO NOT DRILL OR WELD.
THE DEVICE
FOR SECURING
INSIDE EXTENSION PIPE.
ELECT
DO NOT DRILL OR WELD.
THE DEVICE
FOR SECURING
INSIDE EXTENSION PIPE.
ELECTR
DO NOT DRILL OR WELD.
THE DEVICE
FOR SECURING
INSIDE EXTENSION PIPE.
ELECTRIC
DO NOT DRILL OR WELD.
THE DEVICE
FOR SECURING
INSIDE EXTENSION PIPE.
ELECTRICAL
DO NOT DRILL OR WELD.
THE DEVICE
FOR SECURING
INSIDE EXTENSION PIPE.
ELECTRICA
DO NOT DRILL OR WELD.
THE DEVICE
FOR SECURING
INSIDE EXTENSION PIPE.
ELECTRICAL WI
DO NOT DRILL OR WELD.
THE DEVICE
FOR SECURING
INSIDE EXTENSION PIPE.
ELECTRICAL
DO NOT DRILL OR WELD.
THE DEVICE
FOR SECURING
INSIDE EXTENSION PIPE.
ELECTRICAL W
DO NOT DRILL OR WELD.
THE DEVICE
FOR SECURING
INSIDE EXTENSION PIPE.
ELECTRICAL WIRES ARE
DO NOT DRILL OR WELD.
THE DEVICE
FOR SECURING
INSIDE EXTENSION PIPE.
ELECTRICAL WIR
DO NOT DRILL OR WELD.
THE DEVICE
FOR SECURING
INSIDE EXTENSION PIPE.
ELECTRICAL WIRE
DO NOT DRILL OR WELD.
THE DEVICE
FOR SECURING
INSIDE EXTENSION PIPE.
ELECTRICAL WIRES
DO NOT DRILL OR WELD.
THE DEVICE
FOR SECURING
INSIDE EXTENSION PIPE.
ELECTRICAL WIRES
DO NOT DRILL OR WELD.
THE DEVICE
FOR SECURING
INSIDE EXTENSION PIPE.
ELECTRICAL WIRES A
DO NOT DRILL OR WELD.
THE DEVICE
FOR SECURING
INSIDE EXTENSION PIPE.
ELECTRICAL WIRES AR
DO NOT DRILL OR WELD.
THE DEVICE
FOR SECURING
INSIDE EXTENSION PIPE.
ELECTRICAL WIRES ARE
CL
DO NOT DRILL OR WELD.
THE DEVICE
FOR SECURING
INSIDE EXTENSION PIPE.
ELECTRICAL WIRES ARE
C
DO NOT DRILL OR WELD.
THE DEVICE
FOR SECURING
INSIDE EXTENSION PIPE.
ELECTRICAL WIRES ARE
CLAMP TO
DO NOT DRILL OR WELD.
THE DEVICE
FOR SECURING
INSIDE EXTENSION PIPE.
ELECTRICAL WIRES ARE
CLA
DO NOT DRILL OR WELD.
THE DEVICE
FOR SECURING
INSIDE EXTENSION PIPE.
ELECTRICAL WIRES ARE
CLAM
DO NOT DRILL OR WELD.
THE DEVICE
FOR SECURING
INSIDE EXTENSION PIPE.
ELECTRICAL WIRES ARE
CLAMP
DO NOT DRILL OR WELD.
THE DEVICE
FOR SECURING
INSIDE EXTENSION PIPE.
ELECTRICAL WIRES ARE
CLAMP
DO NOT DRILL OR WELD.
THE DEVICE
FOR SECURING
INSIDE EXTENSION PIPE.
ELECTRICAL WIRES ARE
CLAMP T
DO NOT DRILL OR WELD.
THE DEVICE
FOR SECURING
INSIDE EXTENSION PIPE.
ELECTRICAL WIRES ARE
CLAMP TO PI
DO NOT DRILL OR WELD.
THE DEVICE
FOR SECURING
INSIDE EXTENSION PIPE.
ELECTRICAL WIRES ARE
CLAMP TO
DO NOT DRILL OR WELD.
THE DEVICE
FOR SECURING
INSIDE EXTENSION PIPE.
ELECTRICAL WIRES ARE
CLAMP TO P
DO NOT DRILL OR WELD.
THE DEVICE
FOR SECURING
INSIDE EXTENSION PIPE.
ELECTRICAL WIRES ARE
CLAMP TO PIPE.
DO NOT DRILL OR WELD.
THE DEVICE
FOR SECURING
INSIDE EXTENSION PIPE.
ELECTRICAL WIRES ARE
CLAMP TO PIP
DO NOT DRILL OR WELD.
THE DEVICE
FOR SECURING
INSIDE EXTENSION PIPE.
ELECTRICAL WIRES ARE
CLAMP TO PIPE
DO NOT DRILL OR WELD.
THE DEVICE
FOR SECURING
INSIDE EXTENSION PIPE.
ELECTRICAL WIRES ARE
CLAMP TO PIPE.
BRACE TO
DO NOT DRILL OR WELD.
THE DEVICE
FOR SECURING
INSIDE EXTENSION PIPE.
ELECTRICAL WIRES ARE
CLAMP TO PIPE.
B
DO NOT DRILL OR WELD.
THE DEVICE
FOR SECURING
INSIDE EXTENSION PIPE.
ELECTRICAL WIRES ARE
CLAMP TO PIPE.
BR
DO NOT DRILL OR WELD.
THE DEVICE
FOR SECURING
INSIDE EXTENSION PIPE.
ELECTRICAL WIRES ARE
CLAMP TO PIPE.
BRA
DO NOT DRILL OR WELD.
THE DEVICE
FOR SECURING
INSIDE EXTENSION PIPE.
ELECTRICAL WIRES ARE
CLAMP TO PIPE.
BRAC
DO NOT DRILL OR WELD.
THE DEVICE
FOR SECURING
INSIDE EXTENSION PIPE.
ELECTRICAL WIRES ARE
CLAMP TO PIPE.
BRACE
DO NOT DRILL OR WELD.
THE DEVICE
FOR SECURING
INSIDE EXTENSION PIPE.
ELECTRICAL WIRES ARE
CLAMP TO PIPE.
BRACE
DO NOT DRILL OR WELD.
THE DEVICE
FOR SECURING
INSIDE EXTENSION PIPE.
ELECTRICAL WIRES ARE
CLAMP TO PIPE.
BRACE T
DO NOT DRILL OR WELD.
THE DEVICE
FOR SECURING
INSIDE EXTENSION PIPE.
ELECTRICAL WIRES ARE
CLAMP TO PIPE.
BRACE TO
REI
DO NOT DRILL OR WELD.
THE DEVICE
FOR SECURING
INSIDE EXTENSION PIPE.
ELECTRICAL WIRES ARE
CLAMP TO PIPE.
BRACE TO
R
DO NOT DRILL OR WELD.
THE DEVICE
FOR SECURING
INSIDE EXTENSION PIPE.
ELECTRICAL WIRES ARE
CLAMP TO PIPE.
BRACE TO
RE
DO NOT DRILL OR WELD.
THE DEVICE
FOR SECURING
INSIDE EXTENSION PIPE.
ELECTRICAL WIRES ARE
CLAMP TO PIPE.
BRACE TO
REIN
DO NOT DRILL OR WELD.
THE DEVICE
FOR SECURING
INSIDE EXTENSION PIPE.
ELECTRICAL WIRES ARE
CLAMP TO PIPE.
BRACE TO
REINFO
DO NOT DRILL OR WELD.
THE DEVICE
FOR SECURING
INSIDE EXTENSION PIPE.
ELECTRICAL WIRES ARE
CLAMP TO PIPE.
BRACE TO
REINF
DO NOT DRILL OR WELD.
THE DEVICE
FOR SECURING
INSIDE EXTENSION PIPE.
ELECTRICAL WIRES ARE
CLAMP TO PIPE.
BRACE TO
REINFORCE
DO NOT DRILL OR WELD.
THE DEVICE
FOR SECURING
INSIDE EXTENSION PIPE.
ELECTRICAL WIRES ARE
CLAMP TO PIPE.
BRACE TO
REINFOR
DO NOT DRILL OR WELD.
THE DEVICE
FOR SECURING
INSIDE EXTENSION PIPE.
ELECTRICAL WIRES ARE
CLAMP TO PIPE.
BRACE TO
REINFORC
DO NOT DRILL OR WELD.
THE DEVICE
FOR SECURING
INSIDE EXTENSION PIPE.
ELECTRICAL WIRES ARE
CLAMP TO PIPE.
BRACE TO
REINFORCE
WAWWALWALLWALL
VESSEL
PIPE EXTENSION REINFORCEMENT
V
PIPE EXTENSION REINFORCEMENT
VE
PIPE EXTENSION REINFORCEMENT
VES
PIPE EXTENSION REINFORCEMENT
VESS
PIPE EXTENSION REINFORCEMENT
VESSE
PIPE EXTENSION REINFORCEMENT
VESSEL
C
PIPE EXTENSION REINFORCEMENT
VESSEL
CONNE
PIPE EXTENSION REINFORCEMENT
VESSEL
CO
PIPE EXTENSION REINFORCEMENT
VESSEL
CON
PIPE EXTENSION REINFORCEMENT
VESSEL
CONN
PIPE EXTENSION REINFORCEMENT
VESSEL
CONNEC
PIPE EXTENSION REINFORCEMENT
VESSEL
CONNECT
PIPE EXTENSION REINFORCEMENT
VESSEL
CONNECTION P
PIPE EXTENSION REINFORCEMENT
VESSEL
CONNECTI
PIPE EXTENSION REINFORCEMENT
VESSEL
CONNECTIO
PIPE EXTENSION REINFORCEMENT
VESSEL
CONNECTION
PIPE EXTENSION REINFORCEMENT
VESSEL
CONNECTION
PIPE EXTENSION REINFORCEMENT
VESSEL
CONNECTION PO
PIPE EXTENSION REINFORCEMENT
VESSEL
CONNECTION POINT
PIPE EXTENSION REINFORCEMENT
VESSEL
CONNECTION POI
PIPE EXTENSION REINFORCEMENT
VESSEL
CONNECTION POIN
PIPE EXTENSION REINFORCEMENT
VESSEL
CONNECTION POINT
Figure 6
Prior to installation, it is recommended that the VibraRod
be tested for functionality on a sample of material (See
Setup). The unit may not function with granular material
where the particle size is large (1” [25 mm] diameter max-
imum) even though the bulk density is within the specified
density range due to the potentially small surface contact
between the material and the probe.
DIMENSIONS ARE SHOWN IN INCHES WITH MILLIMETER EQUIVALENT IN BRACKETS
PIPE EXTENSION REINFORCEMENT
4
ELE C RIC A L I N S A L L A IO N
SE UP
Hazardous Location recautions:
Observe the regulations listed in the N C (USA) or C C
(Canada) regarding equipment in hazardous locations
when installing the hazardous location models of the
VibraRod™ level sensor in hazardous classified loca-
tions. Wiring must be performed according to the authority
having site jurisdiction and is the sole responsibility of the
installer to ensure such.
It is important to note that the hazardous location mod-
els are certified with two protection concepts: The probes
and wires from them to the enclosure is an intrinsically-
safe circuit but is still Haz-Live. The enclosure and elec-
tronics within are not intrinsically-safe and protection is by
dust-ignition proof enclosure.
Factory Wiring:
The probe wires internal to the housing are connected to the
frontside of the PCB. DO NOT alter this connection. Doing so
will likely cause improper operation of the sensor and likely per-
manent damage. (See Figure 7)
ermanently Connected Equipment:
Disconnecting devices shall be included in the system
installation. In installations where multiple circuits are
used (i.e. independent circuits for power input and relay
output), individual disconnects are required. The discon-
nects shall be within close proximity of the equipment,
accessible to operators, and marked appropriately as the
disconnect for the associated circuit. Assure the discon-
nect ratings are appropriately sized to the circuit protected
(See Specifications). The MAINS power that connects to
the sensor MUST provide circuit protection and NOT
exceed 30A total.
Circuit Separation (Standard version only):
Two cable entry locations are provided to aid in maintain-
ing separation of “hazardous live” (typically mains volt-
ages such as 115VAC and 230VAC) and limited circuits
(typically control voltages less than 30Vrms or 42.5VDC).
However, since the VibraRod sensor’s single wiring com-
partment can not absolutely protect against physical con-
tact between multiple circuits, it is required that all wiring
used must have an insulation rating of 300V minimum,
and a temperature rating of 176˚ F (80˚ C) minimum.
rotective Earthing:
ach VibraRod level sensor is provided with a “protective
conductor terminal” which shall be terminated to the local
earth ground potential of the facility to eliminate shock
hazard in the unlikely event of internal insulation break-
down. Select wire size that can carry in excess of the sum
of all circuits maximum amperage.
1) Remove the housing cover to access the terminal
blocks and operating mode switches. All wires must be
routed through the conduit openings.
2) ower Input: (See Figure 7) The VibraRod sensor is
provided with a HI / LOW voltage, AC/DC universal
power supply. If using a DC power supply, polarity is
irrelevant.
3) Do not remove the green wire from J1 MAINS terminal
because it is an internal connection. For grounding the
unit, either use the grounding screw terminal on the
outside of the housing or use the internal grounding
screw terminal on the circuit board (J1 MAINS). The
earth ground screw should be connected to a quality
"ground" to eliminate shock hazard.
4) Output Contact Connections: The SPDT relay con-
tacts can be used to indicate whether or not material is
being detected by the sensor within the vessel. These
outputs are also influenced by the setting of the Fail-
Safe switch (See Setup). The output contact(s) can
be used to switch high voltage/high current loads as
listed in the Specifications. Whenever possible, use an
independent voltage source to operate the loads.
Select wire size that can deliver suitable voltage and
current for the application. Follow all electrical codes
and use proper wire gauge size. Tighten cable glands
as well as housing cover after installation to ensure
proper sealing for “Type 4X” environmental protection.
Conduit Entries: Conduit entry threads should be
lubricated with a material such as lithium grease to
ensure water ingress protection required to maintain
the nclosure “Type 4X” rating.
-
/2:
)6
+,&%$
6(16
-
)
- -
-
/1(8 1&&2012
67$786/('V
)$,/6$)(
6(/(&725
6(16,7,9,7<
6(/(&725
)$725<352%(
&211(&7,21
'2127$/7(5
)$&725<&211(&7,21
'2127$/7(5
Figure 7
Complete set-up of the VibraRod™ is accomplished sim-
ply by adjusting the sensitivity and fail-safe settings. ach
application can be adjusted independently for optimum
operation.
Material Density:
The S NSITIVITY selector should be set in accordance
with the density of the target material:
Position A, high sensitivity. For materials with density over
10.0~12.5Lbs/Ft3(160~200kg/m3). Recommended for
loose and light materials, greatest sensitivity of detection.
Position B, medium sensitivity position: For materials with
density 12.5~15.6Lbs/ft3(200~250kg/m3). Recommended
for modest density materials.
Position C, low sensitivity position: For materials with den-
sity 18.7~21.8Lbs/ft3(300~350kg/m3). Recommended for
thick and heavy materials, least sensitivity of detection.
If the material to be sensed can potentially form heavy
deposits on the probe, selection "LOW sensitivity"
(Position “C”) should be chosen. This will provide addi-
tional immunity to product buildup while still enabling the
circuit to sense the presence of material.
AC
DC + -
FACTORY PROBE
CONNECTION
(DO NOT ALTER)
5
Fail-Safe (Selector "J4" in Figure 7):
Selection of the fail-safe mode (See Table 1) will permit
the output contacts to be triggered in a manner that
assures proper control of loads in the event of power fail-
ure. To obtain fail-safe operation, use the relaxed output
as an alarm, thus a power failure will also be considered
as an alarm. Depending on which condition is most criti-
cal to signal (high level or low level), the selection can be
made by positioning the switch to one of the following:
FAIL-SAF “HIGH” Position: When no material is
present, the relay will be energized. The relay will be
relaxed when material is sensed, or if power failure
occurs.
FAIL-SAF “LOW” Position: When material is sensed,
the relay will be energized. The relay will de-energize
when no material is sensed, or if power failure occurs.
Status L D (See Table 1):
Green L D: Indicates power is applied and no material
sensed.
Red L D: Indicates power is applied and material is
sensed.
Not Illuminated: Indicates improper connected or no
supply voltage, or damaged circuit.
Table 1
RO U B L ESHO O I N G
ROBLEM: Sensor will not sense material.
CAUSE/SOLUTION:
1) Verify power is applied to the sensor.
2) Verify sensor status by observing L D’s:
GR N = not sensed, R D = sense,
no light = no power.
3) Verify sensitivity setting. Position sensitivity selection
in position Highest Sensitivity “A” thereby making the
probe more sensitive to “difficult to sense” materials.
4) Verify probe coverage when sensing is expected.
The sensor is not designed to be “tip sensitive”.
Permit significant probe coverage before expecting
material sensing.
5) Verify electrical connections.
ROBLEM: Sensor remains in “DETECT” mode even
when material is absent.
CAUSE/SOLUTION:
1) Verify sensor status by observing L D’s:
GR N = not sensed, R D = sense,
no light = no power.
2) Verify the probe is not in direct contact with any inter-
nal vessel structure. If so, reposition sensor.
3) Verify sensitivity setting. Position sensitivity selection
in position Lowest Sensitivity “C” therefore making
the probe less sensitive to “easy to sense” materials
and more immune to material buildup.
4) nsure there is no material buildup on probe.
Product buildup across the probe surface or
between the probe and vessel wall may create false
detection. Clean probe if necessary.
ROBLEM: Output contacts perform opposite of
designations (N/O, N/C).
CAUSE/SOLUTION:
1) Check Table 1 for correct fail-safe switch selection.
Swap wire terminations of N/O and N/C if necessary.
Changing the fail-safe selection is not recommend-
ed unless fail-safe feature is not a concern to the
application.
6
M EC H A NI C A L S
M AI N E N A NC E
The VibraRod™ level sensor is a maintenance-free prod-
uct and should be serviced by Monitor Technologies LLC
personnel only. If operation appears inappropriate, see
the Troubleshooting section of this bulletin. If proper oper-
ation is not achievable, consult the factory.
ipe Extension robe
Standard robe
DIMENSIONS ARE SHOWN IN INCHES WITH MILLIMETER EQUIVALENT IN BRACKETS
2.22.502.52.50
63.66363.563.5
STANDARD PROBE
0
STANDARD PROBE
07
STANDARD PROBE
07/
STANDARD PROBE
07/1
STANDARD PROBE
07/19
STANDARD PROBE
07/19/
STANDARD PROBE
07/19/1
STANDARD PROBE
07/19/18
STANDARD PROBE
07/19/18
B
A
STANDARD PROBE
07/19/18
B
A
STANDARD PROBE
07/19/18
B
AD
STANDARD PROBE
07/19/18
B
ADV
STANDARD PROBE
07/19/18
B
ADV
STANDARD PROBE
07/19/18
B
ADV L
STANDARD PROBE
07/19/18
B
ADV L0
STANDARD PROBE
07/19/18
B
ADV L00
STANDARD PROBE
07/19/18
B
ADV L006
STANDARD PROBE
07/19/18
B
ADV L0064
3
STANDARD PROBE
07/19/18
B
ADV L0064
3
STANDARD PROBE
07/19/18
B
ADV L0064
3.
STANDARD PROBE
07/19/18
B
ADV L0064
3.5
STANDARD PROBE
07/19/18
B
ADV L0064
3.50
STANDARD PROBE
07/19/18
B
ADV L0064
3.50
STANDARD PROBE
07/19/18
B
ADV L0064
3.50 x
STANDARD PROBE
07/19/18
B
ADV L0064
3.50 x
STANDARD PROBE
07/19/18
B
ADV L0064
3.50 x 4
STANDARD PROBE
07/19/18
B
ADV L0064
3.50 x 4.0
STANDARD PROBE
07/19/18
B
ADV L0064
3.50 x 4.0
STANDARD PROBE
07/19/18
B
ADV L0064
3.50 x 4.00
STD UNLESS SPECIFIED
XX" [XXmm]
(2) 1/((2(2)(2)(2) 1(2) 1/2" N(2) 1/2(2) 1/2"(2) 1/2"(2) 1/2" NP(2) 1/2" NPT(2) 1/2" NPT
1 1/4" NPT111 111/11/411/4"11/4"11/4" N11/4" NP11/4" NPT
1.11.95 AF1.91.951.951.95 A1.95 AF
[49.
1.95 AF
[
1.95 AF
[4
1.95 AF
[49
1.95 AF
[49.5]
1.95 AF
[49.5
1.95 AF
[49.5]
151.115151151.4151.4
5.55.005.05.00
127.112127127.0127.0
5.
127.0
5
127.0
5.96
127.0
5.9
127.0
5.96
.5..59.59
15.11515.015.0
ġ4/ġ;Lġ4/ġL=#534/-%230%#)&)%$,%.'4(ġġ.04ġġ.04ġ!&;=ġġġġġ
34$ġ5.,%33ġ30%#)&)%$88ġ;88LL=
9.00 TO 72.00
.23m TO 1.8m
7
S A FE Y
General Safety:
CAUTION! It is essential that all instructions in this man-
ual be followed to ensure proper operation of the equip-
ment and safety of operating personnel. Use of equipment
in a manner not specified by the manufacturer may impair
protection provided by the equipment. The use of this
symbol is used within this manual to highlight important
safety issues. Please pay particular attention to these
items.
Electrical Shock Caution:
The VibraRod™ level sensor can be powered with HIGH
VOLTAG . No operator serviceable parts are inside. All
servicing is to be performed by qualified personnel.
xtreme care shall be taken if the unit’s cover is removed
and live electrical terminations are exposed. To avoid
electrical shock, do not contact any exposed electrical
connections. ach unit is provided with a “protective
ground” connection, which shall be terminated to earth
ground potential. This terminal shall be used to reduce
shock hazard in the unlikely event of internal insulation
breakdown.
EMC Emissions:
Meets: N 61326-1: lectrical quipment for Control
Use, MC.
N 55011: Radiated and conducted emissions
(Class A - industrial).
EMC Immunity:
N 61000-4-2: lectrostatic discharge (industrial).
N 61000-4-3: RF radiated M fields (industrial).
N 61000-4-4: lectrical fast transients (industrial).
N 61000-4-5: lectrical surges (industrial).
N 61000-4-6: RF conducted M energy (industrial).
N 61000-4-11: Voltage dips, short interruption and
voltage variation immunity (industrial).
Monitor Technologies LLC warrants each VibraRod™ to be free
from defects in material and workmanship under normal use and
service for two (2) years from the date of purchase. The pur-
chaser must notify Monitor of any defects within the warranty
period, return the product intact, and prepay transportation
charges. The obligation of Monitor Technologies LLC under this
warranty is limited to repair or replacement at its factory. This
warranty does not apply to any product which is repaired or
altered outside of Monitor Technologies’ factory, or which has
been subject to misuse, negligence, accident, incorrect wiring by
others, or improper installation. Monitor Technologies LLC
reserves the right to change the design and/or specifications
without prior notice.
WA R R AN Y
SPE C IF IC A ION S
Power Requirements: 22-27VDC (+10%);
22-232VAC (+10%), 50/60 Hz
Power Consumption: ≤ 4VA (AC); ≤ 3W (DC)
Altitude: 6562 ft (2000m) max
Installation Category: I I
Pollution Degree: 2
Process Temperature:
Standard Probe: -4˚ to 176˚ F (-20˚ to 80˚ C)
Pipe xtension Probe: -4˚ to 176˚ F (-20˚ to 80˚ C)
Ambient Temp (all units): -22˚ to 149˚ F (-30˚ to 65˚ C)
Output Relay:
VAC: SPDT isolated; 3A @ 250VAC max
VDC: SPDT isolated; 3A @ 30VDC max
Sensitivity: A: 10.0~12.5lbs/ft3(160~200kg/m3)
B: 12.5~15.6lbs/ft3(200~250kg/m3)
C: 18.7~21.8lbs/ft3(300~350kg/m3)
Fail-Safe: Switch Selectable: High or Low
Housing: Powder coated die-cast aluminum;
N MA 4X, NCLOSUR TYP 4X,
IP66
Process Connection: 1-1/4" NPT (VibraRod),
1-1/4” NPSC (Vessel)
Pressure Rating:
Standard Probe: 145psi (10bar)
Pipe xtension Probe: 145psi (10bar)
Conduit Connections: 1/2" NPT
Local Indicator: Bi-color L D:
Green = No material,
Red = Material present,
No light = No power
Probe Material:
Standard Probe: 304SS
Pipe xtension Probe: 304SS with 304SS 3/4” pipe,
Max 6ft / 1.83m (Top Mount),
Max 2ft / 0.61m (Side Mount)
Weight:
Standard Probe Version: Approx. 3.25 lbs (1.5 kg)
Approvals:
CSAUS/C: Ordinary Locations;
Class I I, Div. 1 & 2, Groups , F, G;
Class I II Hazardous Locations
with Intrinsically Safe Probe
AT X: II 2D x tb [ia Da] lllC T75
˚
C Db
I C x: x tb [ia Da] lllC T75
˚
C Db
(See Bulletin #554K regarding specific
conditions of use.)
C Mark
CHINA RoHS 2
Monitor Technologies LLC
44W320 Keslinger Rd.
t
Elburn, IL 60119
t
630-365-9403
t
800-766-6486
t
monitor@monitortech.com
t
www.monitortech.com
BULLETIN
554A
JSC JSC JUL 20 2018 DOC-001-554A 2
Table of contents
Other Monitor Accessories manuals
