Omega Vehicle Security Switch LVP 51 Series User Manual

Where Do I Find Everything I Need for  
Process Measurement and Control?  
OMEGA…Of Course!  
Users Guide  
TEMPERATURE  
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PRESSURE, STRAIN AND FORCE  
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Load Cells & Pressure Gauges  
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Instrumentation & Accessories  
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Rotameters, Gas Mass Flowmeters & Flow Computers  
Air Velocity Indicators  
Turbine/Paddlewheel Systems  
Totalizers & Batch Controllers  
pH/CONDUCTIVITY  
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pH Electrodes, Testers & Accessories  
Benchtop/Laboratory Meters  
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DATA ACQUISITION  
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Plug-in Cards for Apple, IBM & Compatibles  
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HEATERS  
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Heating Cable  
Cartridge & Strip Heaters  
Immersion & Band Heaters  
Flexible Heaters  
Laboratory Heaters  
ENVIRONMENTAL  
MONITORING AND CONTROL  
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Metering & Control Instrumentation  
Refractometers  
Pumps & Tubing  
Air, Soil & Water Monitors  
Industrial Water & Wastewater Treatment  
pH, Conductivity & Dissolved Oxygen Instruments  
LVP-51 Series  
M-3949/0403  
Non-Intrusive Capacitance Switch  
T h e s e p r o d u W c t A s R a N r e I N n G o t : d e s i g n e d f o r u s e i n , a n d s h o u l d n o t b e u s e d f o r , h u m a n a p p l i c a t i o n s .  
a n d r e s e r v c e o s n t a h i e n s r , i g h t t o a l t e r s p e c i f i c a t i o n s w i t h o u t n o t i c e .  
w i t h o u t t h e p r i o  
r e d o u r c e d t o a n y t r a e n l e s c l a t r t o e n d i , c m r e e p d r i o u d m u c c o o e r p d m i , e a d c , h i n e - r e a  
© C o p y r i g h t 2 0  
e r r o r s i t  
T h e i n f o r m a t i o n c o n t a i n e d i n t h i s d o c u m e n t i s b e l i e v e d t o b e c o r r e c t , b u t O M E G A E n g i n e e r i n g , I n c . a c c e p t s n o l i a b i l i t y f o r a n y  
a d d t h e C E m a r k t o e v e r y a p p r o p r i a t e d e v i c e u p o n c e r t i f i c a t i o n .  
i s c o n s t a n t l y p u r s u i n g c e r t i f i c a t i o n o f i t s p r o d u c t s t o t h e E u r o p e a n N e w A p p r o a c h D i r e c t i v e s . O M E G A w i l l  
I t i s t h e p o l i c y o f O M E G A t o c o m p l y w i t h a l l w o r l d w i d e s a f e t y a n d E M C / E M I r e g u l a t i o n s t h a t a p p l y  
O M E G A i s a r e  
. O M E G A  
T h i s a f f o r d s o u  
p s ’ o l i c y i s O t o M m E G a k A e r u n n i  
e - m a i l : s a l e s @ o m e g a . f r  
e - m a i l : s a l e s @ o m e g a . c o . u k  
0 8 0 0 - 4 8 8 - 4 8 8  
e e i n o U T l n l F i t r e d K i n g d o m :  
r e l a t i v e t o t h e p r o d  
R e p 3 a . i r i n s t r u c t i o n s  
w a r r a n t y  
M . o 2 d e l a n d s e r i a l n u  
w a s P U R C H A S E D ,  
P u r 1 c . h a s e O r d e r n u  
e e i n o F T l r l a F n r c e : 0 8 0 0 4 6 6 3 4 2  
A X : + 3 3 ( 0 ) 1 3 0 5 7 5 4 2 7 l : e + T 3 3 ( 0 ) 1 6 1 3 7 2 9 0 0  
7 8 2 8 0 G u y a n c o u r t , F r a n c e  
e u J a c 1 q 1 , u r e s C a r t i e r  
r e l a t i v e t o t h e p r o d u c t .  
R e p 3 a . i r i n s t r u c t i o n s a n d / o r s p e c i f i c p r o b l e m s  
F
, a n d  
M o 2 d . e l a n d s e r i a l n u m b e r o f t h e p r o d u c t , a n d  
o f t h e r e p a i r  
A F X : + 4 4 ( 0 ) 1 6 1 7 7 7 6 6 2 2  
l : e + T 4 4 ( 0 ) 1 6 1 7 7 7 6 6 1  
U n i t e d K i n g d o m  
,
1
n u r m e d b r e O r t o c o v e r . P 1 t u h r c e h a C s O e S T  
O M E G A :  
F r a n c e :  
O M E G A :  
f o l l o w i n g i n f o r m  
R E T U R N S , p A l e R W a R s e A h N F a O T v R Y e t h e  
M a n c h e s t e r M 4 4 5 B D  
N o r t h b a n k , I r l a m  
e c h n o l o g y C e R n i t v r e r B e n d T  
O n e O m e g a D r i v e  
l o w i n g i n f o r m a t i o n a v a i l a b l e B E F O R E c o n t a c t i n g  
O M E G A f o r c u r r e n t r e p a i r c h a r g e s . H a v e t h e f o l -  
e - m a i l : i n f o @ o m e g a s h o p . c z  
e e : 0 8 o 0 T l 0 l - F 1 r - 6 6 3 4 2  
4 2 + 0 : X ( 0 A ) F 5 9 6 3  
4 2 + 0 : l ( e 0 T ) 5 9 6 3 1  
c o n s u A l t I R S R , E P  
A R R A N N T Y O N F - W O R  
e
4
1 1 1 1  
1 8 9 9  
t o p r e v e n t b r e a k  
T h e p u r c h a s e r i s r e s p o n a s n i b y l e c o f o r r r e s s h p i p o p n i d n  
Y S ) . T D h E e L a A s s i g n e d A  
t i f i e d  
I S O 9 0 0 2 C e r  
U n i t e d K i n g d o m :  
, ´ C z e c h R e p u b l i c  
F r y s t a t s k a 1 8 4 / 4 6 , 7 3 3 0 1 K a r v i n a  
C z e c h R e p u b l i c :  
V O I D P R O C E S S I N G  
T M A E R N T ( I N V O I R C D E E D R E T P O  
A I N A N A U T H O R I Z E D R E T U R N ( A R )  
A
’ S C U S T O M E R S E R  
N U M B E R F R O M  
e - m a i l : i n f o @ o m e g a . d e  
e e i n o G T l e l r F m r a n y : 0 8 0 0 6 3 9 7 6 7 8  
A F X : + 4 9 ( 0 ) 7 0 5 6 9 3 9 8 - 2 9  
l : e + T 4 9 ( 0 ) 7 0 5 6 9 3 9 8 - 0  
o n n , G e r m D a n e y c k e n p f r  
D a i m l e r s t r a s s e 2 6 , D - 7 5 3 9 2  
A N Y P R O D U C R T E ( T S U ) R T N O I N O G M E G  
e - m a i l : s a l e s @ o m e g a e n g . n l  
e e i n o B T l e l n F e r l u x : 0 8 0 0 0 9 9 3 3 4 4  
D i r e c t a l l w a r r a  
I N / Q U I R I E S  
R E T U R N R E Q U E S T S  
A X : + 3 1 ( 0 ) 2 0 6 4 3 4 6 4 3 l : e + T 3 1 ( 0 ) 2 0 3 4 7 2 1 2 1  
F
.
s u c h a m a n n e r  
h o l d O M E G A h  
T h e N e t h e r l a n d s  
P o s t b u s 8 0 3 4 , 1  
B e n e l u x :  
A m s t e l v 1 e 8 e 0 n L A  
, p u r c h a s e r w i l l i n d e m n i f y O M E G A a n d D / I S C L A I M E A R R l R a n A g N u T a Y g e , a n i n d , o a u d r d b i t a i o s n i c a l W l y  
G e r m a n y / A u s t r i a :  
, O M E G A a s s u m e s n o r e s p o n s i b i l i t y a s s e t f o r t h  
m e d i c a l a p p l i c a  
a p p l i c a t i o n s o r u  
C o m p o n e n t ” u n  
C O N D I T I O N S : E  
n o e v e n t s h a l l  
o t h e r w i s e , s h a  
,
S e r v i c i n g E u r o p e :  
C A B L E : O M E G A  
i n f o @ o m e g a . c o m . m x  
e - m a i l : e s p a n o l @ o m e g a . c o 1 m / - 8 0 0 - U S A - W H E N  
T E L E X : 9 9 6 4 0 4 E A S Y L I N K : 6 2 9 6 8 9 3 4  
E n g i n e e r i n g S e r v i c e : 1 - 8 0 0 - 8 7 2 - 9 4 3 6  
C u s t o m e r S e r v i c e : 1 - 8 0 0 - 6 2 2 - 2 3 7 8  
S a l e s S e r v i c e : 1 - 8 0 0 - 8 2 6 - 6 3 4 2  
®
, n e g l i g e n c e , i n d e m n i f i c a t i o n , s t r i c t l i a , b i w l i h t y e o t o r h d r e e r r b a s e d o  
p u r c h a s e r s e t  
A F X : ( 0 0 1 ) 2 0 3 - 3 5 9 - 7 8 0 7  
1 / - 8 0 0 - 6 2 2 - B E S T  
1 / - 8 0 0 - T C - O M E G A  
®
: T h e r e m e d i e s o f T I A O N O F L I A B I L I T Y  
I C T U R L A A P R P U R P O S E  
A R W R A N T I E S I N  
o l : ( 0 0 1 ) 2 E 0 n 3 - 3 E 5 s 9 p - a 7 n 8 0 3  
®
~
A B I L I T Y A N D F I T N E S S F O A R R A R A N T Y O F M E R C H A N T  
M e x i c o :  
a n d C U a S n A a d a :  
T O F T I T L E , A N D A L L I M P L I E D  
A R R A N T I E S O R R E P R E S E N T  
T S O E V E R , E X P R E S S O F O R A N I M Y P K L I N E D D ,  
s p e c i f i e d a n d  
F o r i m m e d i a t e t e c h n i c a I l O T o N A r S a p p l i c a t i o n a s s i s t a n c e :  
e i t h e r v e r b a l  
t h a t r e s u l t f r o  
e - m a i l : i n f o @ o m e g a . c o m  
A F X : ( 2 0 3 ) 3 5 9 - 7 7 0 0  
e l T : ( 2 0 3 ) 3 5 9 - 1 6 6 0  
e - m a i l : i n f o @ o m e g a . c a  
A F X : ( 5 1 4 ) 8 5 6 - 6 8 8 6  
e l T : ( 5 1 4 ) 8 5 6 - 6 9 2 8  
L a v a l ( Q u e b e c ) H 7 L  
9 7 6 B e r  
n e i t h e r a s s u m  
, O M E G A  
O M E G A i s p l e  
C o m p o n e n t s w h  
t i o n ; i m p r o p e r s  
s h o w s e v i d e n c e  
c s ’ o n t r o l .  
d C T 0 6 9 S 0 t a 7 m - 0 f 0 o 4 r 7  
O n e O m e g a D r i v e , B o x 4 0 4 7  
I S O 9 0 U 0 1 S A C : e r  
5 A 1 , C a n a d a  
A R R A N T Y i s V O I D i f t h e u r n i z i e t d s h m o w o d s i f e i c v a i d t i  
l i m i t e d t o m i s h a  
g a r  
, o r u n a u t h o -  
, i n c l u d i n g b u t n o t  
t i f i e d  
C a n a d a :  
A R R W s ’ A N T Y d O o e M s E n G o A t a p p l y t o  
e x a m i n a t i o n b y  
t h A m e r i c a v : i c i S n e g r N o r  
D e p a r t m e n t w i l  
I f t h e u n i t m a l  
s C ’ u s t o m e r S e r v i c e  
i n f o @ o m e g a . c o m  
. o m e g w a w . c o w m  
O M E G A n e t  
c s ’ u s t o m e r O s M r e E c G e i A v e m a x i m  
t o c o v e r h a n d l i n g a n d s h i p p i n g t i m o e n . e T h ( 1 i s ) e y n e s a u r r e p t s o r t o h t h d a e u t c n t o r w m a a r l r a  
r r a a n t W y s ’ a d d s a n a d d i t i o n a l o n e ( 1 ) m o n f r t o h m g r d a a c t e e p o e f r 1 p i o 3 u d r m c h o o a n d s e t o h . f O s M E G A  
O M E G A E N G I N  
e - m a i l I n t e r n e t  
e c i v r e S e n i L - n O ®  
®
S A U  
o
D / I S C L A I M E A R R W R A N T Y  
®
I N  
M A D  
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SAFETY PRECAUTIONS  
INTRODUCTION  
Step Two  
Step Three  
About this Manual:  
About Non-Intrusive RF Capacitance Technology:  
OMEGA's LVP-51 series level switch generates a high radio frequen-  
cy signal from the capacitance electrode on the tank side of each sen-  
sor. Depending on the thickness of the tank wall and the material of  
which it is made, there is a particular minimum dielectric value the  
electrode measures when there is no liquid on the other side of the  
tank wall from the sensor. When liquid is on the other side of the  
wall, the dielectric value rises.  
PLEASE READ THE ENTIRE MANUAL PRIOR TO  
INSTALLING OR USING THIS PRODUCT. This manual  
includes information on all models of the LVP-51 series Non-  
Intrusive RF Capacitance level switch from Omega. Please refer to  
the part number located on the switch label to verify the exact  
model which you have purchased.  
User’s Responsibility for Safety:  
As part of installation, a two-step calibration procedure ensures that  
the threshold between wet and dry is set at the ideal point for your  
particular tank and application fluid, without the use of any external  
test equipment. The sensor’s operation and point of actuation may  
vary based on the dielectric properties of various application liquids,  
tank materials and thicknesses. The LVP-51 series sensor is intended  
to be used with liquids with a dielectric value between 20 and 80.  
Due to its user calibration capability it may be able to detect liquids  
below a dielectric constant of 20 under certain conditions, but this  
must be verified by experimentation.  
Omega manufactures a wide range of liquid level sensors and tech-  
nologies. While each of these sensors is designed to operate in a wide  
variety of applications, it is the user’s responsibility to select a sensor  
model that is appropriate for the application, install it properly, per-  
form tests of the installed system, and maintain all components. The  
failure to do so could result in property damage or serious injury.  
Proper Installation and Handling:  
Because this is an electrically operated device, only properly-  
trained staff should install and/or repair this product. The adhesive  
on the fitting is for temporary installation only. For permanent  
installation, the fitting for the sensor should be welded, glassed or  
strapped to the tank itself using approved plastic welding tech-  
niques. Do not install the LVP-51 series sensor on a metal tank, or  
within 6" of any metal pipe or fitting.  
Mounting Bracket:  
The LVP-51 series sensor may be mounted in the PE bracket (poly-  
ethylene, colored white). Make sure that the fitting is compatible  
with the tank it will be applied to.  
Material Compatibility:  
The sensor itself is not designed to be immersed. It should be  
mounted in such a way that it does not normally come into contact  
with fluid. Its case is made out of Polysulfone (PSO). Refer to an  
industry reference to ensure that compounds that may splash onto  
the controller housing will not damage it. Such damage is not cov-  
ered by the warranty.  
Wiring and Electrical:  
The supply voltage used to power the LVP-51 series sensor should  
never exceed a maximum of 36 volts DC. Electrical wiring of the  
sensor should be performed in accordance with all applicable  
national, state, and local codes.  
Flammable, Explosive and Hazardous Applications:  
The LVP-51 series switch is not rated for use in hazardous loca-  
tions. Refer to the National Electric Code (NEC) for all applicable  
installation requirements in hazardous locations. DO NOT USE  
THE LVP-51 SERIES GENERAL PURPOSE SWITCH IN HAZ-  
ARDOUS LOCATIONS.  
WARNING  
Do not install the LVP-51 series level switch on a metallic tank,  
or within 6" of any metallic object. Metal will adversely affect  
the dielectric sensitivity of the sensor.  
OMEGA's LVP-51 series sensors are not recommended for use  
with electrically charged application liquids. For most reliable  
operation, the liquid being measured may need to be electrically  
grounded.  
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INSTALLATION  
ELECTRICAL  
Step Four  
Step Five  
OMEGA's LVP-51 series level switch may be installed anywhere on  
a tank wall using the supplied PE fitting that the switch slides into.  
The fitting comes with adhesive on the tank side that is sufficient to  
hold the sensor in position temporarily while the installation is tested,  
but for permanent installation the fitting must be welded, glassed or  
strapped to the tank. Extra fittings are available from Omega, so that  
the level switch may be moved to different locations on the tank by  
sliding it into other fittings.  
Supply Voltage:  
The supply voltage to the LVP-51 series level switch should never  
exceed a maximum of 36 VDC. Omega controllers have a built-in 13.5  
VDC power supply which provides power to all of OMEGA's electri-  
cally powered sensors. Alternative controllers and power supplies, with  
a minimum output of 12 VDC up to a maximum output of 36 VDC,  
may also be used with the LVP-51 series level switch.  
Required Cable Length:  
Attach the fitting to the tank:  
Determine the length of cable required between the LVP-51 series  
level switch and its point of termination. Allow enough slack to  
ensure the easy installation, removal and/or maintenance of the sen-  
sor. The cable length may be extended up to a maximum of 1000 feet,  
using a well-insulated, 14 to 20 gauge shielded four conductor cable.  
1. Determine the mounting location for the level switch. The point  
of actuation (where the sensor will send a “wet” signal) is most  
often at the center of the sensor;  
however the actual Point of  
Actuation (POA) may differ  
Weld  
depending on the application liq-  
uid and tank wall characteristics.  
After positioning the fitting to  
check clearances, etc., remove the  
paper protective strips from the  
adhesive of the fitting.  
Fitting  
Wire Stripping:  
Using a 10 gauge wire stripper, carefully remove the outer layer of  
insulation from the last 1-1/4" of the sensor's cable. Unwrap and dis-  
card the exposed foil shield from around the signal wires, leaving the  
drain wire attached if desired. With a 20 gauge wire stripper, remove  
the last 1/4" of the colored insulation from the signal wires.  
Sensor  
Screw  
2. Press the fitting into place. The  
adhesive provides a seal between  
the sensor and the tank wall, and  
will hold it in place during testing  
and installation.  
Signal Outputs (Current sensing):  
1/2" NPT  
Connector  
The standard method used by Omega controllers; this technology uses  
only two wires (Red and Black). The sensor draws 5 mA when it is dry,  
and 19 mA when wet. NC/NO status must be set by the controller. The  
Green and White wires are not used.  
If desired, the sensor may be installed temporarily without weld-  
ing the fitting to the wall. If several different locations must be  
tried before permanent installation, use double-sided foam stick  
tape designed for PE, for example Arclad type PE-6024,  
CO#7331 (from Adhesive Research Inc., Glen Rock PA 17327) or  
equivalent.  
Red  
+
24 VDC  
Power Supply  
-
-
Shield  
Ground  
Multimeter  
(mA)  
3. After the sensor has been tested to verify the POA, weld, glass or  
strap the fitting to the tank using standard industrial plastic tech-  
niques.  
Black  
+
Signal Outputs (Relay switching):  
Allows the sensor to switch a small load on or off directly, using an  
internal 1 A relay (60 VAC/60 VDC). All models, LVP-51 series-  
_005, use the relay and features 4 wires (red, black, white and green)  
and a shield wire. The NO/NC status is set by the polarity of the volt-  
age feeding the Red and Black wires. The Green wire is the common  
for the relay and the White is the NO or NC, depending on the polar-  
ity of Red and Black.  
Special note for small round tanks:  
The fitting may be attached to small, round tanks, as long as the  
majority of the fitting is firmly attached to the wall. However,  
extreme installations may effect the switches performance.  
Mount the sensor in the fitting:  
1. Slide the sensor into the fitting.  
2. After trimming the sensor wire to length if needed by the installa-  
tion, thread the sensor wire into a plastic flexible conduit with a  
1/2" male fitting. Screw the conduit into the sensor, being careful  
not to cross the threads. Do not over tighten the conduit in the  
sensor as this may break the fitting. Such damage is not covered  
by the warranty. Take care while pulling the wire through conduit  
that no excessive tension is placed on the sensor end of the wire,  
so that the wire is not broken from the sensor housing.  
Normally Open Wiring:  
Red  
+
24 VDC  
Power Supply  
Black  
White  
-
-
Shield  
Ground  
Multimeter  
(Continuity)  
Green  
+
3. Connect the sensor wire to the controller following the instruc-  
tions in its manual. See the following Wiring Section for detailed  
wiring instructions.  
Normally Open Wiring:  
Black  
+
-
24 VDC  
Power Supply  
Red  
White  
Green  
Shield  
Ground  
-
Multimeter  
(Continuity)  
+
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WIRING  
WIRING  
Step Six  
Step Seven  
Wiring to a Omega Controller  
LVCN-120/-130/-140 Series Controller:  
Wiring the Relay Output:  
The LVP-51 series relay output can be wired as a dry contact to a  
VDC or VAC power source. LVP-51 series requires 12 - 36 VDC  
power to operate the sensor and switch the relay. All illustrations  
below identify a Dry switch state as the normal position of the relay.  
P O W E R  
I N V E RT  
D E L AY  
I N V E RT D E L AY  
--  
+
--  
+
R E L AY  
1
R E L AY  
2
Switching a Normally Open DC Load:  
The Red wire connects to Positive (+) of the power supply and the  
Black wire connects to Negative (-). The LOAD can be attached to  
either the Green or White wires. Complete the circuit by either con-  
necting the Green to (+) VDC power or White to (-) VDC power (see  
illustration below).  
L AT C H  
ON OFF  
I N P U T  
1
I N P U T 2 A  
I N P U T 2 B  
Red  
Black  
Shield  
[Dry Condition]  
[+]  
RED  
GRN  
SHLD  
WHT  
BLK  
White and Green - Not Used  
LOAD  
LOAD  
Sensor  
(NO)  
OR  
Wiring as a P-Channel or N-Channel output:  
The LVP-51 series can be substituted for either a P-Channel (PNP,  
sourcing) output or a N-Channel (NPN, sinking) output.  
[-]  
Normally Open DC Load as a P-Channel Output:  
Switching a Normally Closed DC Load:  
To wire as a NO P-Channel output, follow the directions below. The  
Red wire connects to Positive (+) of the power supply and the Black  
wire connects to Negative (-). The Green wire is jumpered to the Red  
wire while the White wire is connected to the LOAD. Jumper the  
LOAD back to the Negative (-) to complete the circuit.  
The Black wire connects to Positive (+) of the power supply and the  
Red wire connects to Negative (-). The LOAD can be attached to  
either the Green or White wires. Complete the circuit by either con-  
necting the Green to (+) VDC power or White to (-) VDC power (see  
illustration below).  
[Dry Condition]  
[Dry Condition]  
[+]  
[-]  
RED  
GRN  
SHLD  
WHT  
BLK  
[+]  
BLK  
Sensor  
(NO)  
GRN  
SHLD  
WHT  
RED  
Sensor  
(NC)  
LOAD  
LOAD  
OR  
LOAD  
[-]  
Normally Closed DC Load as a P-Channel Output:  
Switching a Normally Open AC Load:  
To wire as a NC P-Channel output, follow the directions below. The  
Black wire connects to Positive (+) of the power supply and the Red  
wire connects to Negative (-). The Green wire is jumpered to the  
Black wire while the White wire is connected to the LOAD. Jumper  
the LOAD back to the Negative (-) to complete the circuit.  
The Red wire connects to Positive (+) of the DC power supply and the  
Black wire connects to Negative (-). The LOAD can be attached to  
the Green wire and the Hot of the VAC power. Connect the White to  
the Neutral of the VAC power (see illustration below).  
[Dry Condition]  
Normally Open DC Load as a N-Channel Output:  
[+]  
[AC Power]  
[-]  
RED  
GRN  
SHLD  
WHT  
BLK  
To wire as a NO N-Channel output, follow the directions below. The  
Red wire connects to Positive (+) of the power supply and the Black  
wire connects to Negative (-). The White wire is jumpered to the  
Black wire while the Green wire is connected to the LOAD. Jumper  
the LOAD back to the Positive (+) to complete the circuit.  
LOAD  
Sensor  
(NO)  
[Dry Condition]  
Switching a Normally Closed AC Load:  
The Black wire connects to Positive (+) of the DC power supply and  
the Red wire connects to Negative (-). The LOAD can be attached to  
the Green wire and the Hot of the VAC power. Connect the White to  
the Neutral of the VAC power (see illustration below).  
[+]  
[-]  
RED  
GRN  
SHLD  
WHT  
BLK  
LOAD  
Sensor  
(NO)  
[Dry Condition]  
[+]  
BLK  
Normally Closed DC Load as a N-Channel Output:  
GRN  
SHLD  
WHT  
RED  
LOAD  
Sensor  
(NC)  
To wire as a NC N-Channel output, follow the directions below. The  
Black wire connects to Positive (+) of the power supply and the Red  
wire connects to Negative (-). The White wire is jumpered to the Red  
wire while the White wire is connected to the LOAD. Jumper the  
LOAD back to the Positive (+) to complete the circuit.  
[AC Power]  
[-]  
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CALIBRATION  
CALIBRATION  
Step Eight  
Step Nine  
After it is installed in place, the LVP-51 series must be calibrated by the  
user before operation. Everything needed for the procedure is self-con-  
tained within the electronics of the LVP-51 series level switch. Two  
dielectric states—full condition and empty condition—are measured by  
the LVP-51 series, and then averaged to set the threshold between  
“wet” and “dry” at the sensor. The empty state must be at least 6"  
below the bottom of the sensor for calibration. The full state must be  
to the top of the sensor (not just to the point of actuation) for calibra-  
tion. The actual application fluid at its intended operating temperature  
must be used during calibration. Use the following procedure assumes  
that the sensor has already been wired to a power supply.  
Checking the Point of Actuation:  
Raise the fluid level to the point  
where the sensor sends a “wet”  
signal (Input LED will turn  
1"  
max.  
Full  
Calibration  
Point  
Amber on Omega controllers).  
The “dry” signal should be  
sent when the fluid level is  
lowered (Input LED will turn  
Green on Omega controllers).  
Point of  
Actuation  
(POA)  
The actual Point of Actuation  
(POA) depends on many variables,  
including the thickness of the wall and  
the dielectric value of the liquid. For  
example, thicker tank walls can  
1. Remove the cap from the sensor body by loosening the two  
screws located below the sensor. Do not remove the screws from  
the sensor. Insert a small screwdriver into the small slot at the  
edge of the cap and gently pry upwards.  
6"  
min.  
raise the POA while thinner  
walls could lower the POA.  
Empty  
Calibration  
Point  
2. Looking down you will see a small three-position switch and two  
trimpots marked Full and Empty. You may start with whatever  
state the tank is in.  
Non-conductive  
plastic tank wall  
If the POA needs to be  
changed, measure the distance and remount the  
sensor in a new location.  
3. Full state: With  
EMPTY OPERATE FULL  
the tank filled to  
CAL  
CAL  
Do not attempt to change the Point of Actuation by intentional  
miscalibration.  
the top of the sen-  
sor, set the switch  
to the Full posi-  
tion (right). Make  
sure your hands or  
any other objects  
are not touching  
the sensor while calibrating because this will cause a false read-  
ing. Using a small nonmetallic screwdriver or alignment tool, turn  
trimpot Full until the LED just lights, and no farther. Note the  
position. Now turn the trimpot back until the LED turns off. The  
ideal setting for the trimpot is midway between these on and off  
points.  
Switch  
Screw Housings EMPTY  
Empty Pot  
FULL  
If the sensor does not signal wet and dry reliably, it may be that:  
the dielectric constant of the application fluid is too low  
the tank wall is too thick for the application fluid  
there are static or other electrical charges in the fluid  
metal objects are within 6" of the sensor  
Full Pot  
LED  
calibration was performed incorrectly  
Try the calibration procedure again, after making corrections if possi-  
ble. If the full and empty states are too similar dielectrically, it may  
not be possible to use a capacitance sensor.  
4. Empty state: With the tank drained to a point no closer than 6  
inches below the bottom of the sensor, set the switch to the Empty  
position (left). Set the Empty trimpot as in Step 3.  
Testing the Sensor:  
1. Power: Apply power to sensor, by connecting power to the con-  
troller and/or power supply.  
5. After completing calibration, make sure to return the switch to the  
center position. Snap the cap back on by pressing down, and tight-  
en the two screws.  
2. Full condition: Fill the tank with the application liquid, by filling  
the tank up to the sensor’s point of actuation.  
3. Test: With the sensor being fluctuated between wet and dry states,  
use a multimeter to ensure that the correct signals are being pro-  
duced by the LVP-51 series level switch, or observe the sensor  
indicator light in the controller.  
Operate  
Empty  
Cal  
Full  
Cal  
Switch  
4. Point of Actuation: Observe the point at which the rising or  
falling fluid level causes the sensor to change state, and move the  
installation of the sensor if necessary.  
Maintenance:  
Full  
Pot  
Empty  
Pot  
The LVP-51 series level switch itself requires no periodic mainte-  
nance except cleaning as required. However, periodically clean any  
coating or scaling on the tank wall the sensor is attached to and check  
the calibration. It is the responsibility of the user to determine the  
appropriate maintenance schedule, based on the specific characteris-  
tics of the application liquids. In addition, any dripping or condensa-  
tion between the sensor and the tank wall fitting may need to be peri-  
odically cleaned to maintain accuracy.  
LED  
Screws  
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