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SPECIFICATION StepOne
AboutVerticalBuoyancyLevelSwitchSensors:TheVerticalBuoyancyLevelSwitchconsistsofafloat,magnet
reedswitchandbafflebodywhichdampensturbulenceandeliminatesthenegativeeffectsofswitchchatter.
When the probe is dry, the float rests on the bottom of the baffle body such that the magnet does not
influence the reed switch. As the probe becomes immersed in liquid, the float becomes buoyant and the
magnetelevatescausingthereedswitchtochangetochange.
TableofContents
Specifications:.........................................................................................................................................................4
Dimensions:.............................................................................................................................................................4
SafetyPrecautions:.................................................................................................................................................5
Installation:............................................................................................................................................................6
TopWallInstallation:.................................................................................................................................6
BayonetConnection:..................................................................................................................................6
Orientation:................................................................................................................................................6
ConnectiontoaSwitchCarKit(LVM‐20series)::......................................................................................7
Electrical:................................................................................................................................................................8
LVM‐10seriesandLVM‐50seriesAssemblies:.........................................................................................8
Wiring:....................................................................................................................................................................9
WiringtoanOmegaEngineeringController:.............................................................................................9
Maintenance:.......................................................................................................................................................10
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SPECIFICATION/DIMENSION StepTwo
Accuracy: ±2mminwater
Repeatability: ±1mminwater
Orientation: ±20˚fromvertical
SpecificGravity: 0.8minimum
ContactType: (1)SPDTreed
ContactRating: 15VA,0.25Amax.
ContactVoltage: 120VAC,120VDC@15VA
ContactOutput: SelectableNO/NC
TemperatureRange: F:‐40˚to176˚
C:‐40˚to80˚
PressureRange: 25psi(2bar)@25˚C.,derated
@ 1.667 psi (.113 bar) per ˚C.
above25˚C.
SensorRating: NEMA6/IP68
SensorMaterial: Polypropylene(PP)
PolyvinylideneFluoride(PVDF)
CableType: 3‐cond.r,22‐gauge,shielded
CableLength: 10’(3m)
CableMaterial: PPorPFAjacket
MountingThreads: 3/4”NPT
SwitchRating:
Reed
Switch
Rating
Maximum
Resistive
Load
VA Volts Amps
AC
Amps
DC
15 0‐50 0.3 0.21
15 120 0.13 0.09
15 240 0.06 0.04
Components:
Part
Number
Body
Material
Cable
Material
Cable
Length
LVV‐110 PP PP 10’
LVV‐110‐25 PP PP 25’
LVV‐110‐50 PP PP 50’
LVV‐111 PVDF PFA 10’
LVV‐110‐25 PVDF PFA 25’
LVV‐110‐50 PVDF PFA 50’
Dimensions:
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SEFETYPRECAUTION StepThree
About Manual: PLEASE READ THE ENTIRE MANUAL PRIOR TO INSTALLING OR USING THIS PRODUCT.This
manual includes information on the vertical buoyancy, Model LVV‐110 & LVV‐111. Please refer to the part
numberlocatedonthesensorlabeltoverifytheexactmodelwhichyouhavepurchased.
User’sResponsibilityforSafety:OMEGAENGINEERINGmanufacturesawiderangeofliquidlevelswitches
andtechnologies.Whileeachofthetheseswitchesaredesignedtooperateinawidevarietyofapplications,
itistheuser’sresponsibilitytoselecta switchmodelthatisappropriatefortheapplication,installitproperly,
perform tests of the installed system, and maintain all components. The failure to do so could result in
propertydamageorseriousinjury.
ProperInstallationandHandling:Becausethisisanelectricallyoperateddevice,onlyproperlytrainedstaff
should install and/or repair this product. Use a proper sealant with all installations. Never over tighten the
sensorwithinthefitting,beyondamaximumof80inch‐poundstorque.Alwayscheckforleakspriortosystem
start‐up.
Material Compatibility:The LVV‐110serieslevel switchisavailable intwowetted material versions.The
switch and the cable are made of Polypropylene (PP) for the LVV‐110 models. The switch is made of
PolyvinylideneFluoride(PVDF)andcableismadeofPerfluoroalkoxy(PFA)fortheLVV‐111models.Makesure
thatthe switchiscompatible withthe applicationliquids.To determinethechemicalcompatibility between
thesensoranditsapplicationliquids,refertotheCompassCorrosionGuide.
TemperatureandPressure:TheLVV‐110Seriesswitchisdesignedforuseinapplicationtemperaturesupto
80˚C,andforuseatpressuresupto25psi(2bar)@25˚C.,derated@1.667psi(.113bar)per˚C.above25˚C.
WiringandElectrical:ThesupplyvoltageusedfortheLVV‐110seriesshouldneverexceed120voltsAC@
15 VA.Electricalwiringof the switch shouldbeperformed in accordance withallapplicable national, state,
andlocalcodes.
Flammable, Explosive and Hazardous Applications: The LVV‐110 Series switch should not be used within
flammable or explosive applications unless properly connected to an approved control device. In hazardous
applications, use redundant measurement and control points, each having a different sensing technology.
RefertotheNationalElectricalCode(NEC)forallapplicableinstallationrequirementsinhazardouslocations.
Warning
AvoidinstallingtheLVV‐110seriesintanksinmagnetizedmetaltanks.Doingsowillactivatetheinternalreed
switch.
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INSTALLATION StepFour
TopWallInstallation:OMEGAENGINEERING’sLVV‐110seriesmaybeinstalledthroughthetopwall ofatank .
For Level Track Mounting System (LVM‐10 series) installations, remove the sensors thread and use the
bayonetadaptertointerfacetotheLVM‐20seriesSwitchCar.FortheSingle‐SwitchFittingAssembly(LVM‐50
series)installationsusethe3/4”threadastheinterface.
BayonetConnection:The¾”threadcanberemoved
toaccessthebayonetconnection.Simplepressdown
onthethreadsandtwisttorelease.
Orientation: Mounting orientation bust be kept
vertical forproperorientation. The vertical buoyancy
and float switches are orientated in vertical position
±20˚.
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INSTALLATION(continued) StepFour
ConnectiontoaSwitchCarKit(LM30series):InordertoattachtheLVV‐110SeriestoaLevelTrackMounting
System (LVM‐10 series) fitting, a Switch Car Kit (LVM‐20 series) is required.The LVV‐110 Series can be
attachedintwoways,withoutthebayonetadapterandwiththebayonetadapter.
WithoutBayonetAdapter WithBayonetAdapter
TheuseofthebayonetadapterwillincreasetheoveralllengthoftheLVV‐110/LVM‐20seriesassembly.This
willresultinaloweractivationpointwithinthetankduetotheaddedlength.Itisrecommendedtoremove
thebayonetadapterwheninterfacingwithLevelTrackMountingSystem.
First, remove the bayonet
adapter by pressing down
twistingtheadapter.
Next,threadthesensorwirethroughtheO‐ringandthe
sensorcarandoutthroughtheholebetweenthesensor
car shoe and the locking bolt.Set the O‐ring into the
LVV‐110.Push the sensor into the bayonet side of
sensorcar.Screwthebayonetadapterontothesensor
untilthesensorseatsagainstthepitinsidetheadapter.
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ELECTRICAL StepSix
Voltage:TheinputvoltagetotheLVV‐110seriesshouldneverexceedthemaximumvoltagerating.OMEGA
ENGINEERING controllers have a built‐in 13.5 VDC power supply which provides power to all of OMEGA
ENGINEERING’s level switches. Alternate controllers and power supplies may also be used with the LVV‐110
series.
Cable Length:Determine the length of cable required between the LVV‐110 Series sensor and its point of
termination. Allow enough slackto ensuretheeasyinstallation,removaland/or maintenance of the sensor.
Thecablelengthmaybeextendeduptoamaximumof1000feet,usingawellinsulated,shieldedwire.
WireStripping:Usinga10gaugewirestripper,carefullyremovetheouterlayerofinsulationfromthelast1‐
1/4” ofthesensor’s cable.Unwrapand discardtheexposed foilshieldfromaroundthesignalwires, leaving
thedrainwire attachedifdesired.Witha20gaugewire
striper,removethelast1/4"ofthecoloredinsulation
fromthesignalwires.
LevelTrackMountingSystemandSingle‐SwitchFittingAssembly:TheLVV‐110seriescanbepackagedwith
OmegaEngineeringLevelTrackMountingSystemandSingle‐SwitchFittingAssembly.
LevelTrackMounting
SystemwithJunction
Boxand(2)Switches
LevelTrackMounting
SystemwithRelay
Controllerand(2)
Switches
Single‐SwitchFitting
AssemblywithJunction
Boxand(1)Switch
Single‐SwitchFitting
AssemblywithRelay
Controllerand(1)
Switch
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WIRING StepSeven
WiringtoaOMEGAENGINEERINGController
LVCN‐120SeriesController(LVCN‐120Shown):
LVCN‐100SeriesController(LVCN‐20shown):
NOTE:Whenusingalatchingrelay,thepolarityofbothswitchesmustbethesame.Eitherbothswitchesare
wiredNormallyClosed(Red&Black–SeeRelay#2withLVCN‐120)orbothNormallyOpen(White&Black–
SeeRelay#1withLVCN‐20).
VerticalBuoyancyLevelSwitch:
TheLVV‐110seriescanbewirednormallyopenornormallyclosedforyourapplicationrequires.
Normally Open:Use the Black and White wire for
operation the LVV‐110 series in a normally open
state. Normally open is defined as the switch being
openwhenthefloatisdryandclosedwhenthefloat
becomes submersed. This operation is typical for
indicatingahighlevel.
Normally Closed:Use the Black and Red wires for
operatingtheV‐110seriesinanor m allyclosedstate.
Normallyclosedisdefinedastheswitchbeingclosed
when the float is dry and open when the float
becomes submersed. This operation is typical for
indicatingalowlevel.
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MAINTENANCE StepEight
General: Whileafilter shroud protects thefloatfromparticulate contamination, the switchmayneed to be
cleanedperiodicallytopreventjammingofsticking.Theverticalbuoyancyandverticalfloathasnoscheduled
maintenance requirement,exceptto clean offanydeposits or scaling from the switchasnecessary. It isthe
responsibility of the user to determine the appropriate maintenance schedule, based on the specific
characteristicsoftheapplicationliquid.
Cleaningprocedure:
1. Power: Make sure that all power to the switch, controller and/or power supply is completely
disconnected.
2. Switch removal: If necessary, make sure that the tank is drained well below the switch prior to
removal. Carefully, remove the sensor from the installation. Remove the outer screen by pushing on
thescreenandturningitslightlytodisconnectitfromthebuoyancynetconnectorsothatthefloatis
exposed.
3. Cleaning the switch: using a soft bristle brush and mild detergent, carefully wash the switch. Do not
use harshabrasivessuchassteel wool orsandpaper,which might damage thesurface of thesensor.
Do not use incompatible solvents which may damage the sensor’s PP or PVDF plastic body. Take
particularcaretoremoveanyscalingfromthefloatbodyandmakesurethatitmovesfreely.
4. Sensorinstallation:FollowtheappropriatestepsofinstallationasoutlinedintheInstallationsectionof
thismanual.
Testingtheinstallation:
1. Power:Turnonpowertothecontrollerand/orpowersupply.
2. Immersing the switch: Immerse the sensing tip in its application liquid, by filling the tank up to the
switchduringpreliminarytestingistoholdacupfilledapplicationliquiduptotheswitch’stip.
3. Test: With the switch being fluctuated between wet and dry states, the switch indicator light in the
controllershouldturnonandoff.Ifthecontrollerdoesn’thaveaninputindicator,
a. Useavoltmeterwithapowersupplyinseriestomeasureanopenorclosedcircuit.
b. Useanohmmeterinseriestomeasureanopenorclosedcircuit.
4. Point of actuation: Observe the point at which the rising or falling
fluid level causes the switch to
changestate,andadjusttheinstallationoftheswitchifnecessary.
Example:TestingtheLVV‐110SerieswithaMultimetersettoreadVolts.WhenwiredNO(BlackandWhite),
themeterwillread0voltswhendryandfullvoltagewhenwet.
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