Omega LVCN-20 and LVCN-100 Series Owner's manual

Type
Owner's manual
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INTRODUCTION/TABLEOFCONTENTS StepOne
The LVCN20 and LVCN100 Series are generalpurpose level controllers offered in two configurations for
pump and valve control.The LVCN100 Series features a single 16A SPDT relay output and can accept one
level sensoras an input.This package has an optional flashing alarm and is ideal for high level or low level
alarm/control.TheLVCN20Seriesfeaturesasingle16ASPDTlatchingrelayoutputandcanacceptoneortwo
levelsensor(s)asaninput.Thispackageisidealfortheautomaticfillingoremptyingofatank.Packageeither
controllerserieswithlevelswitch
sensorsandfittings.
Features
FailSaferelaycontrolofpumps,valvesoralarmswitha0to60seconddelay
Optionalflashingalarmbringsimmediateattentiontolevelalarmconditions.
PolypropyleneenclosureratedNEMA4Xwithswivelbaseforconduitalignment.
EasysetupwithLEDindicatorsfor
sensor(s),powerandrelaystatus.
InvertswitchchangesrelaystatefromNOtoNCwithoutrewiring.
ACpowered
TableofContents
Specifications:.........................................................................................................................................................4
Dimensions:.............................................................................................................................................................4
SafetyPrecautions:.................................................................................................................................................5
MakeaFailSafeSystem:............................................................................................................................6
Components:...............................................................................................................................................6
GettingStarted:.......................................................................................................................................................7
FeaturesoftheLVCN100&LVCN110seriesSingleInputController:......................................................7
FeaturesoftheLVCN20seriesDualInputController:..............................................................................7
GuidetoControls:.......................................................................................................................................8
Electrical..................................................................................................................................................................9
ConnectingSwitchestoInputTerminals:...................................................................................................9
VACPowerInputWiring:............................................................................................................................9
RelayInputWiring:.....................................................................................................................................9
Changingfrom120to240VAC.................................................................................................................10
Installation............................................................................................................................................................11
ApplicationExmaples............................................................................................................................................12
LowLevelAlarm:.......................................................................................................................................12
HighLevelAlarm:......................................................................................................................................12
LEDIndication:..........................................................................................................................................12
AutomaticFill:...........................................................................................................................................13
AutomaticEmpty:.....................................................................................................................................13
Appendix...............................................................................................................................................................14
ControllerLogic.........................................................................................................................................14
RelayLatchingLogicTable(LVCN20only)...............................................................................................14
Troubleshooting........................................................................................................................................14

4
SPECIFICATIONS/DIMENSIONS StepTwo
Controller
Supplyvoltage: 120/240VAC,50‐60Hz.
Consumption: 5Wattsmax.
Sensorinputs: (1)levelswitch
(LVCN20seriesonly)(1or2)levelswitches
Sensorsupply: 13.5VDC@27mA
LEDindication: Sensor,relay&powerstatus
Contacttype: (1)SPDTRelay
(LVCN20seriesonly)(1)SPDTRelay,Latched
Contactrating: 250VAC,16A
Contactoutput: SelectableNOorNC
Contactdelay: 0to60seconds
Contactlatch: SelectOn/Off‐LVCN20only
Electronicstemp.: F:‐40°to158°
C:‐40°to70°
Enclosurerating: NEMA4X(IP65)
Enclosurematerial: PP(U.L.94VO)
(LVCN20seriesonly) PP(U.L.94VO)andPolycarbonate
Enclosuremount.: 3/4”NPT
Enclosurerotation: 300°swivelbase
Conduitentrance: Single,1/2"NPT
Certificatenumber: LR793263
CEcompliance: EN61326EMC
EN610101Safety
FlashAlarm(includedwithLVCN100only)
Flashtype: Xenontube
Flashfrequency: 1persecond
Strobelife: 10Mcycles
Supplyvoltage: 120VAC,5060Hz.
Consumption: 3Wattsmax.
Material: Polycarbonate
Enclosurerating: NEMA4X(IP65)
Color: Amber
SideView
LVCN20&LVCN110Series
SideView
LVCN100Series
LVCN100&LVCN110Series LVCN20Series FunctionalDiagram


5
SAFETYPRECAUTIONS StepThree
AboutThisManual:PLEASEREADTHEENTIREMANUALPRIORTOINSTALLINGORUSINGTHISPRODUCT.
This manual includes information on three different models of Compact Relay Controllers from Omega
Engineering:LVCN100, LVCN110 and LVCN20.The LVCN110seriesis a singleinput controllerwith an
optionalFlashAlarmwiththeLVCN100series,andtheLVCN20isadualinputcontroller.Manyaspects
ofinstallationandusearesimilarbetweenthethreemodels.
User’s Responsibility for Safety:OMEGA ENGINEERINGmanufacturesseveralmodelsof controller, with
differentmountingandswitchingconfigurations.Itistheuser’sresponsibilitytoselectacontrollermodel
that is appropriate for the application, install it properly, perform tests of the installed system, and
maintainallcomponents.
Electrical Shock Hazard:It is possible to contact components on the controller that carry high voltage,
causing serious injury or death.All power to the controller and the relay circuit(s) it controls should be
turned OFF prior to working on the controller.If it is necessary to make adjustments during powered
operation,useextremecautionanduseonlyinsulatedtools.Makingadjustmentstopoweredcontrollers
isnotrecommended.Wiringshouldbeperformedbyqualifiedpersonnelinaccordancewithallapplicable
national,stateandlocalelectricalcodes.
FlammableorExplosiveApplications:Sensormountcontrollersshouldnotbeusedwithexplosiveor
flammableliquids,whichrequireanintrinsicallysafeorexplosionproofrating.Ifyouareunsureofthe
suitabilityofacontrollerforyourinstallation,consultyourOmegaEngineeringrepresentativeforfurther
information.
InstallInaDryLocation:TheLVCN100,LVCN110&LVCN20seriescontrollerhousingisliquidresistant
andmadeofPolypropylene(PP).Wheninstalledproperly,thecontrollerisnotdesignedtobeimmersed.
It should be mounted in such a way that it does not normally come into contactwith fluid.Referto an
industryreferencetoensure thatcompoundsthatmay splashontothecontrollerhousingwillnotdamage
it.Suchdamageisnotcoveredbythewarranty.
RelayContactRating:Therelayisratedfora16ampresistiveload.Manyloads(suchasamotorduring
startuporincandescentlights)arereactiveandmayhaveaninrushcurrentcharacteristicthatmaybe10
to 20 times their steadystate load rating.The use of a contact protection circuit may be necessary for
yourinstallationifthe16ampratingdoesnotprovideanamplemarginforsuchinrushcurrents.

6
SAFETYPRECAUTIONS(cont.) StepThree
Make a FailSafe System: Design a failsafe system that accommodates the possibility of relay or power
failure.If power is cut off to the controller, it will deenergize the relay.Make sure that the deenergized
stateoftherelayisthesafestateinyourprocess.Forexample,ifcontrollerpowerislost,apumpfillingatank
willturnoffifitisconnectedtotheNormallyOpensideoftherelay.
While the internal relay is reliable, over the course of time relay failure is possible in two modes: under a
heavyloadthecontactsmaybe“welded”orstuckintotheenergizedposition,orcorrosionmaybuildupona
contact so that it will not complete the circuit when it should.In critical applications, redundant backup
systems and alarms must be used in addition to the primary system.Such backup systems should use
differentsensortechnologieswherepossible.
While this manual offers some examples and suggestions to help explain the operation of OMEGA
ENGINEERINGproducts,suchexamplesareforinformationonlyandarenotintendedasacompleteguideto
installinganyspecificsystem.
Sensormount controllers:The LVCN100, LVCN110 & LVCN20 series are a costeffective, modular liquid
level controller whose body incorporates a female 3/4" NPT (3/4" BSP) fitting, allowing it to be mounted
directly onto any Omega Engineering sensor or any 3/4" connection.Simply provide its required AC power
and a controlled device such as a valve, pump, or alarm that can be switched by the controller’s relay in
responsetothesensorinput.
Sensormountcontrollersareparticularly appropriate for simple processes suchashigh orlowalarms.They
can also be a useful part of more complicated systems, providing a failsafe backup in case a centralized
systemfails.
Components:
LVCN110 SingleInputHighorLowRelayController
LVCN110CE ‐SingleInputHighorLowRelayControllerwithCEapproval
LVCN100 SingleInputHighorLowRelayControllerwithFlashingAlarm
LVCN100CE‐SingleInputHighorLowRelayControllerwithFlashingAlarm&CEapproval
LVCN100220VAC ‐SingleInputHighorLowRelayControllerwithFlashingAlarmconfiguredto220VAC
LVCN20‐DualInputAutomaticFillorEmptyRelayController
LVCN20CE‐DualInputAutomaticFillorEmptyRelayControllerwithCEapproval
Owner’sManual

7
GETTINGSTARTED StepFour
Features ofthe LVCN100 &LVCN110series Single Input Controller:TheLVCN100 & LVCN110 series are
designed to receive a signal from a single liquid sensor.It turns its internal relay ON or OFF (as set by the
invertswitch)inresponsetothepresenceofliquid,andchangestherelaystatusbackagainwhenthesensoris
dry.
HighAlarm:
Invert is OFF.Relay will
energize when the switch
becomes Wet and will de
energize when the switch
becomesDry(outofliquid).
LowAlarm:
InvertisON.Relaywill energize
when the switch becomes Dry
(out of liquid) and will de
energize when the switch
becomesWet.
The LVCN100 & LVCN110 series may be used with almost any kind of sensor signal: current sensing or
contact closure.The relay is a single pole, double throw type; the controlled device can be connected to
eitherthenormallyopenornormally closed sideoftherelay.Atimedelayfrom0 to60seconds canbeset
before the relay responds to thesensor input.Typicalapplications for theLVCN100& LVCN110 seriesare
highlevelorlow levelswitch/alarmoperations(openingadrainvalvewheneverliquidlevelrisestoasensor
point)andleakdetection(soundinganalarmwhenaleakisdetected,etc.).
FeaturesoftheLVCN20seriesDualInputController:TheLVCN20seriesisdesignedtoreceivesignalsfrom
two liquid sensors.It turns its internal relay ON or OFF (as set by the invert switch) in response to the
presenceofliquidonbothsensors,andchangestherelaystatusbackagainwhenbothsensorsaredry.
AutomaticEmpty:
Latch is OFF & Invert is OFF.
Relay will energize when level
reaches high switch (both
switches are wet).Relay
will
deenergize when level is
belowthebottomswitch(both
switchesaredry).
AutomaticEmpty:
Latch is OFF & Invert is ON.
Relay will energize when level
is below the bottom switch
(both switches are dry).Relay
will deenergize when level
reaches high switch (both
switchesarewet).
8
GETTINGSTARTED(continued) StepFour
TheLVCN20seriesmaybeusedwithalmostanykindofsensorsignal:currentsensingorcontactclosure.The
relayisasinglepole,doublethrowtype;thecontrolleddevicecanbeconnectedtoeitherthenormallyopen
ornormallyclosedsideoftherelay.Atimedelayfrom0to60secondscanbesetbeforetherelayrespondsto
thesensor input.TypicalapplicationsfortheLVCN20seriesareautomaticfilling(startingfillpumpatalow
level and stopping pump at a high level) or automatic emptying operations (opening a drain valve at a high
level
andclosingvalveatlowlevel).
GuidetoControls:Belowisalistingandthelocationofthedifferentcomponentsforthecontroller:
1. Powerindicator:ThisgreenLEDlightswhenACpowerisON.
2. Relayindicator:ThisredLEDwilllightwheneverthecontrollerenergizestherelay,in
responsetothe
properconditionatthesensorinput(s)andafterthetimedelay.
3. ACPowerterminals:Connectionof120VACpowertothecontroller.Thesettingmaybechangedto
240VAC ifdesired.Thisrequireschanginginternaljumpers;thisiscoveredintheInstallationsection
ofthemanual.Polarity(neutralandhot)doesnotmatter.
4. Relay terminals (NC, C, NO):Connect the device you wish to control (pump, alarm etc.) to these
terminals: supply to the COM terminal, and the device to the NO or NC terminal as required.The
switched device should be a non inductive load of not more than 16 amps; for reactive loads the
current must be derated orprotection circuits used.When theredLED is ONand the relayisin the
energizedstate,theNOterminalwillbeclosedandtheNCterminalwillbeopen.
5. Invert switch:This DIP switch reverses the logic of the relay control in response to the sensor(s):
conditionsthatusedtoenergizetherelaywillmakeitturnoffandviceversa.
6. Latch switch (LVCN20 series only):This DIP switch determines how the relay will be energized in
response to thetwosensor inputs.WhenLATCHis OFF, the relayrespondstosensor Input 1A only;
whenLATCHisON,therelaywillenergizeordeenergizeonlywhenbothsensors(1Aand1B)areinthe
samecondition(wetordry).Therelaywillremainlatcheduntilbothsensorschangestates.
7. Time
Delay:Aftertheinput(s)change(s)state,thiscontrol setsadelayfrom0.15to60secondsbefore
therelaywillrespond.
8. Input1Aand1Bindicator:TheseamberLEDswilllightimmediatelywhenevertheappropriatesensor
attachedtotheterminalsdetectsliquid,andwillturnoffwhenitisdry.
9. Inputterminals:Connectthewiringfromthesensorstotheseterminals: Atotheupperpair,B(LVCN
20 series only) to the lower pair.Note the polarity:(+) is a 13.5 VDC, 27 mA power supply (to be
connectedtotheredwireofanOmegaEngineeringsensor),and()isthereturnpathfromthesensor
(tobeconnectedtotheblackwireofanOmegaEngineeringsensor).Ifpolarityisreversed,thesensors
willnotwork.
9
ELECTRICAL StepFive
Connecting switches to input terminals:Please note a difference between OMEGA ENGINEERING powered
level switches and reed switches.All powered level switches (series LTU101, LVU150, LVP51, LVC152 &
LVF210) will bewiredwith the Redwireto the (+) terminal and theBlack wire to the () terminal.OMEGA
ENGINEERINGreedswitches(seriesLVV110&LVH200)willhaveaparticularwiringbaseduponpartnumber.
Seetheillustrationbelowtoindicatewiringforyourswitch.Note:theShieldwirewillbeusedonlyforlong
cablerunsorwhereexcessiveelectricalnoiseis
present.
PoweredLevelSwitches ReedSwitches
SwitchCable:WheninstallinganOmegaEngineering
level switch, adjust the cable away from the printed
circuitboardsin the controller body.Avoid breaking
the seal betweenthe top of thelevel switch and the
plasticcoatedcable.
VAC Power Input Wiring:
Observe the labeling on
the LVCN100, LVCN110 & LVCN20 series.Note:
PolaritydoesnotmatterwiththeACinputterminal.

RelayInputWiring:Therelayisasinglepole,double
throwtyperatedat250VoltsAC,16Amps.Thetwo
terminal NO and NC (normally open
and normally
closed) will be used in different applications.
Rememberthatthe "normal" state is when the relay
coilisdeenergizedandtheRedrelayLEDisOff/de
energized.

10
ELECTRICAL(continued) StepFive
Flash Alarm Output (LVCN100 series):With the
FlashAlarmwiredNC;itcanbeusedasahighorlow
level alarm, depending on the setting for the invert
switch.TheFlashAlarmcanalsobewiredNO.
Changingfrom120to240VAC:
1. Remove the two screws from the top of the
printed circuit board (PCB) and gently slide the
PCB from the housing.Use caution when
removingthePCB.
2. LocatedjumpersJWA,JWBandJWConthePCB.
3. Tochangeto240VAC,removejumpersfromJWB
and JWC and place a single jumper across JWA.
To change to 120 VAC, remove jumper JWA and
placejumpersacrossJWBandJWC.
4. Gently return PCB into housing and replace the
twoscrews.
120VAC 240VAC
Configuration Configuration

11
INSTALLATION StepSix
3/4" NPT Mounting Thread:Installation of the compact relay controller takes advantage of the 3/4" NPT
threadlocatedonitsbase.ThismakesthecontrollerfullycompatiblewithanyofOmegaEngineering'slevel
switchesorLVM10seriesorLVM51Seriesmountingsystems.
Mountingdirectlytoasensor MountingtoLVM10Series
LevelTrackMountingSystem
MountingtoLVM50Series
SingleSwitchFittingAssembly
Note:Alwaystightenthecontrollerfromthewrenchflatlocatedonthe
swivelbase.Nevertightenfromthebodyofthecontroller.

12
APPLICATIONEXAMPLES StepSeven
LowLevelAlarm:Thegoalistomakesurethattheliquidleveldoesnotfallbelowacertainpoint.Ifitdoes,
analarmissupposedtosound,alertingtheoperatorofalowlevelcondition.
Ifpowerisaccidentallycuttothecontroller,thesensor'sabilitytonotifytheoperatorofalowlevelcondition
couldbelost.Thesystemmustalerttheoperatornotonlytolowliquidlevel,buttocontrollerpowerloss.
To do this, connect the hot lead of the alarm to the NC side of the relay
terminalofthecontroller.Ifpowerislost,therelaywillbedeenergized,and
the alarm will sound (if there is still power to the alarm circuit itself).The
alarm circuit should have a noninterruptible power supply or some other
indicatororbackupalarmtowarnofapowerfailureinthealarmcircuit.
In this application, the normal status if the sensor at the bottom if the tank
will be wet, and the relay will be energized holding the alarm circuit open.
Both the relay LED and the Input LED will be on simultaneously, so for this
application,InvertshouldbesettotheOFFposition.
HighLevelAlarm:Inthesamemanor,thissystemcanbeusedtosoundanalarmwhenfluidreachesahigh
level,withjustachangeinthelocationofthesensorandthesettingoftheInvertswitch.
ThealarmisstillconnectedtotheNCsideoftherelaytoallowforapowerfailurealarm.
Thesensorisnormallydry.Inthiscondition,wewanttherelaytobeenergizedsothealarmdoesnotsound:
i.e.,theRedrelayLEDshouldbeonwhenevertheInputLEDisAmber.SoweturnInvertOn.Ifthefluidlevel
risestothehighsensorpoint,thesensorgoeson,therelaydeenergizes,andthealarmsounds.
LEDIndication:UseLED'slocatedabovetheinputterminalstoindicatewhetherthe
switch is in a wet or dry state.With powered switches, Green indicates dry and
Amberindicateswet.Withreedswitches,AmberindicateswetandnoLEDindicates
dry.Note: reed switches maybe wired in reverse so that wet indicates dry and
Amberindicatesdry.

13
APPLICATIONEXAMPLES(cont.) StepSeven
AutomaticFill:Thissystemconsistsof a tank with a high level sensor, a low
levelsensor,andapumpthatiscontrolledbythecontroller.Partofaproper
failsafe design for this particular system is that if power is lost to the
controller for any reason, the pump filling the tank must be turned off.
Therefore,weconnectthepumptotheNOsideoftherelay.Whentherelay
is energized, the pump will turnon andfill the tank.The relayindicator will
corresponddirectlytotheON/OFFstatusofthepump.
NOTE:Ifthepumpmotorloadexceedsthe rating of the controller’srelay,a
stepperrelayofhighercapacitymustbeusedaspartofthesystemdesign.
DeterminingthesettingsofLATCHandINVERT:Thisisthewaythesystemmustoperate:
Whenboththehighandlowsensorsaredry,thepumpshouldturnon,startingtofillthetank.
Whenthelowsensorgetswet,thepumpshouldstayon.
Whenthehighsensorgetswet,thepumpshouldturnoff.
Latch:Inanytwosensorcontrolsystem,LATCHmustbeON.
Invert:ReferringtothelogicchartinStepNine,welookforthesettingthatwilldeenergizetherelay(start
thepump)whenbothinputsarewet(AmberLEDs).Inthissystem,InvertshouldbeON.
DeterminingAorBinputconnections:WhenLATCHisON,thereisnoeffectivedifferencebetweenInputA
andB,sincebothsensorsmust havethesamesignalinorderforstatustochange.Whenwiringanytwoinput
relaysection,theonlyconsiderationforhookingaparticularsensortoAorBisifLATCHwillbeOFF.
Automatic Empty:Note that similar system logic can be used for an
automaticemptyoperationsimplybycontrollingapumpthatpumpsfluidout
of the tank instead of into it.However, note the importance of failsafe
design.If the tank is being passively filled, and a pump must be used to
activelyemptyit,apowerfailuretoeitherthecontrollerorthepumpcircuits
willcauseoverflow.
Alternatively,anelectricallycontrolleddrainvalvecouldbeused.Inthiscase,
the valve should be a type that will automatically open if power is lost; in
other words, power must be used to hold it closed.The valve would be
connectedto
theNOsideoftherelay—ifpowerislosttothecontroller,therelaydeenergizes,thevalveloses
thepowerthatwasholdingitshut,andfluid willdrainfromthetankintosomeothersafecontainmentuntil
power is restored. In this system, whenever the red relay LED of the controller is ON, the drain is closed,
allowingfluidtorise.
Inthiscase,Invertshouldbe ON:whenbothsensorsare wet,therelaydeenergizes,theswitchtothevalve
opens,andthetankwilldrain.

14
APPENDIX StepEight
ControllerLogic:Pleaseusethefollowingguidetounderstandtheoperationofthecontrollers.
1. PowerLED:MakesuretheGreenpowerLEDisONwhenpowerissuppliedtothecontroller.
2. Input LED(s):The input LED(s) on the controller will be Amber when the switch(es) is/are wet and OFF
whentheswitch(es)is/aredry.IftheLED'sarenotswitchingtheinputLED,testthelevelswitch.
3. LVCN100 & LVCN110 only:When the input LEDturnOFFandON,therelay LED will alsoswitch.With
invertOFF,therelayLEDwill beONwhentheinputLEDisONandOFFwhentheinputLEDisOFF.With
invertON,therelayLEDwillbeOFFwhentheinputLEDisONandONwhentheinputLEDisOFF.
4. LVCN20 only:When both inputs are wet (Amber LED's ON), the relay will be energized (Red LED ON).
Afterthat,ifone switch becomes dry, the relaywillremainenergized.Onlywhenbothswitchesaredry
(both amber LED's OFF) will the controller deenergize the relay.The relay will not energize again until
bothswitchesarewet.SeetheRelayLatchLogicChartbelowforfurtherexplanation.
Relay Latch Logic Table (LVCN20 only):The relay can either be an independent relay (high or low level
alarm)or can be alatching relay (automatic fillor empty) with latchON.With Latch OFF, the relay willonly
respondtotheINPUT1Asetting.INPUT1Bwillbeignored.
With Latch ON, the relay will
actuatewhenINPUT1AandINPUT
1Bareinthesamecondition.The
relay will not change its condition
until both inputs reverse their
state.
Caution:Some sensors
(particularly buoyancy sensors)
may have their own inverting
capability (wired NO or NC).This
will change the logic of the invert
switch.Checkyoursystemdesign.
Troubleshooting
PROBLEM SOLUTION
Relayswitchesonlyfrom
input1A(ignoresinput1B)
LatchisturnedOFF.FlipthelatchswitchtoturnON.
LevelreachesalarmON,
butrelayisOFF.
First, check to make sure the input LED is ON.If not,
checkwiringtosensor.
Second, check status of Relay LED.If incorrect, flip the
Invertswitchtochangetherelaystate.
PumporValveissupposed
tostop,butitdoesnot.
First,checktomakesuretheinputLEDsarebothinthe
satestate(bothONorbothOFF).Ifnot,checkwiringto
sensoreachsensor.
Second, check status of Relay LED.If incorrect, flip the
Invertswitchtochangetherelaystate.
Controllerispowered,but
nothinghappens.
First check the Power LED to make sure it is Green.If
not,checkthewiring,powerandmakesuretheterminal
isseatedcorrectlyoverthe6pins.
15
16
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Omega LVCN-20 and LVCN-100 Series Owner's manual

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