Monitor Truecap mk-2 Guide

TrueCap®RFCapacitance Level Sensor

odel K-2

BULLETIN

434A

o d e l K - 2

I N S T A L L A T I O N & O P E R A T I O N

Thank you for purchasing a quality product manufactured by Monitor

Technologies LLC. We realize that you do have a choice of vendors

when procuring RF Capacitance sensors and we sincerely appreciate

your business!

This manual contains the information necessary to ensure a safe and

successful installation. Please read and comply with the section on page

10 of this manual pertaining to SAFETY. Doing so will ensure proper

operation of the equipment and the safety of all personnel.

efore 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 sat-

isfy your requirements or answer your questions, you may contact

Technical Support on our website www.monitortech.com, by e-mail at

[email protected] or by telephone at 1-800-766-6486

(1-630-365-9403). If your sensor ever requires service either in or out of

warranty, please contact us and obtain an RMA number prior to shipping

the unit to us.

www.monitortech.com

PR E- I NS AL L A ION C ON S I D ER A IONS

Choosing a Location: (See Figure 2)

1) aterial Flow - When selecting a location for the MK-2,

choose a point in the vessel where the probe will be out of

the direct flow of incoming and outgoing material to prevent

any mechanical damage that may be caused by the pres-

sure of the flow. The MK-2 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. For best results, choose a posi-

tion where a majority of the probe, not just the tip, will be

covered. This is particularly important when detecting mate-

rials with low relative dielectric constants and low product

densities. The unit will not operate as a “tip sensitive”

device. For extended length models, allow for at least 8 to

12 inches (203-305 mm) of probe coverage. When sensing

highly conductive materials, or those with a high dielectric

constant, the MK-2 can perform as a “tip sensitive” sensor.

2) Vessel Contact - Select an area where the probe can not

contact any internal structure elements of the vessel. When

using the Cable Extension Probe, consider the angle of

repose of the material that will flow into and out of the ves-

sel. Insure that the expected swing of the cable will not

touch the vessel.

3) Driven Shield Penetration - Select a location which

ensures that the driven shield section protrudes into the ves-

sel and is not recessed in the mounting neck.

4) ultiple Probe Proximity - If more than one sensor is

mounted in the vessel, do not place the sensors closer than

18 inches (457 mm) from one another.

5) Pipe Extension Reinforcement - When top mounting a

probe with a pipe extension, select a location where it is fea-

sible to reinforce the extension to the vessel wall. See

Mechanical Installation portion of this bulletin for details.

6) Split Architecture Installation - When installing a sensor

with a remote probe, the restrictions above apply to the

remote probe. The remote electronics can be installed

either horizontally or vertically. The remote electronics must

be located within 12 feet (3.6 m) (wiring distance) of the

probe at a location that is free from excessive heat and/or

vibration.

Cover Removal: (See Figure 1)

efore loosening the cover, loosen or remove the cover lock

screw. Spanner slots are incorporated on the top of the cover

which should be used to loosen the cover from the housing.

Use a flat bar for initial loosening. DO NOT use a strap or chain

type wrench. Keep hands clear of threads on the cover and

housing to avoid contact with the thread lubricant.

Figure 2

Figure 1

Lagged Housing Version ounting: (See Figure 6)

1) Select a mounting location in accordance with the Pre-

Installation Recommendations.

2) Cut a hole into the side/top of the vessel corresponding to

the coupling used.

3) Weld coupling to the vessel wall.

4) Insert probe through coupling and thread unit tightly into

place by gripping and rotating the 15/16 inch (24 mm)

wrench flats provided on fitting closest to mounting point.

Do not use sealant tapes (e.g. Teflon tape) or putties. If flats

are inaccessible due to tank insulation, thread unit into place

by gripping and rotating lagging pipe with a strap/pipe

wrench. Continuity between sensor mounting point and vessel

wall must be maintained to assure proper probe operation.

ME CH A NI C AL IN S ALL A IO N

Standard, Food Grade, Stub, Cable Extension and Remote

Probe ounting: (See Figures 3, 4 & 5)

1) Select a mounting location in accordance with the Pre-

Installation Recommendations.

2) If using a welded coupling, cut a hole into the side/top of the

vessel corresponding to the mounting connection (i.e. 1-1/2”

SPT, 1-1/4” NPT or 3/4” NPT). If using a Monitor mount-

ing plate, cut a 2-1/2 inch (64 mm) center hole and six 11/32

inch (9 mm) mounting holes (for 5/16” bolts) on a 7 inch (178

mm) bolt circle. Use mounting plate gasket as a template.

3) Weld coupling or attach mounting plate to vessel wall.

4) Insert probe through coupling. Do not use sealant tapes (e.g.

Teflon tape) or putties. When using the 1-1/2” SPT or

1-1/4” NPT connection, grease threads with anti-seize then

thread unit tightly into place by gripping and rotating hous-

ing. When using the 3/4” NPT connection, thread unit tight-

ly into place by gripping and rotating 15/16 inch (24 mm)

wrench flats provided on fitting. Continuity between sensor

mounting point and vessel wall must be maintained to

assure proper probe operation.

Figure 4

Figure 3

Figure 5

Figure 6

DI ENSIONS ARE SHOWN IN INCHES WITH ILLI ETER EQUIVALENT IN BRACKETS

Pipe Extension Probe ounting: (See Figure 7)

1) Select a mounting location in accordance with the Pre-

Installation Recommendations.

2) If using a welded coupling, cut a hole into the top of the vessel

corresponding to O.D. of the 1-1/4” coupling used. If using a

Monitor mounting plate, cut a 2-1/2 inch (64 mm) center hole

and six 11/32 inch (9 mm) mounting holes (for 5/16” bolts)

on a 7 inch (178 mm) bolt circle. Use mounting plate

gasket as a template.

3) Weld coupling or attach mounting plate to vessel wall.

4) Insert probe through coupling, grease threads with anti-seize,

then, thread unit tightly into place by gripping and rotating

housing. Do not use sealant tapes (e.g. Teflon tape) or put-

ties. Continuity between sensor mounting point and vessel

wall must be maintained to assure proper probe operation.

5) Mechanical reinforcement of the pipe extension should be

considered whenever the overall probe length (from mount-

ing point to probe tip) exceeds 60 inches (1.5 m).

Mechanical clamping, such as “U” or “C” channel with “U”

bolts should be used. DO NOT USE HEAT to connect brace

to pipe extensions as wiring inside pipe could be damaged.

Figure 7

Remote Electronics ounting

The split architecture configuration is used to protect the elec-

tronics from excessive heat or physical vibration.

1) Select a location that is within 12 feet (3.6m) wiring distance

of the remote probe but where the extreme temperatures or

vibration is not present.

2) The Remote Electronics for Ordinary Locations has no holes

cut in the fiberglass box. Drill holes in enclosure insuring cir-

cuit separation between the remote probe interconnection

and the mains/outputs. Remove electronics (4 backpanel

screws) prior to drilling holes.

3) The Remote Electronics for Hazardous Locations has three

conduit entrances, one of which is plugged at the factory.

This plug may be relocated as desired. All openings must

be suitably sealed to insure environmental and hazardous

location protections.

4) Drill a hole pattern in the structure to which the Remote

Electronics will be mounted (See Mechanicals for details).

5) Secure the enclosure to the structure using 1/4" (6mm) screws.

Hazardous Location Precautions:

Observe the regulations listed in the National Electrical Code

regarding equipment in hazardous locations. In particular,

install a conduit seal fitting within 2 inches (50 mm) of the RF

Capacitance sensor (for Class I rated products only), ensure

power is disconnected whenever the cover is removed, upon

completion ensure cover is completed re-attached and termi-

nate IS ground screw to local intrinsically safe ground. Do not

substitute any electrical components as this may impair intrin-

sic safety and thereby compromise safety.

Factory Wiring:

The MK-2 probe wires are connected to the backside of the

PC . DO NOT alter this connection. Doing so will likely

cause improper operation of the sensor.

Permanently Connected Equipment:

Disconnecting devices shall be included in the system installation.

More on next page >

EL EC R I C A L IN S AL L A ION

Adding Solid Probe Extension - Optional: (See Figure 7A)

If it is necessary to augment the length of the 16” (406mm)

standard sensing probe, probe extensions are available.

To attach the probe extension slip the coupling end of the

extension over the free end of the standard probe. Align the

through-holes in the coupling with the through-hole in the probe

and insert the supplied roll pin.

Figure 7A

SOLID PROBE

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*RECOMMENDED, NOT CRITICAL

NO2 NC2 COM2

WIRING DIAGR ADV B00513.50 x 3.00A

09/13/16

ISOLATED

LINES

LOAD

LINES

ISOLATED

(DCV)+

N(ACV)

*RECOMMENDED, NOT CRITICAL

NO2 NC2 COM2

WIRING DIAGRAMADV B00513.50 x 3.00A

09/13/16

ISOLATED

LINES

LOAD

LINES

ISOLATED

(DCV)+

N(ACV)

*RECOMMENDED, NOT CRITICAL

NO2 NC2 COM2

WIRING DIAGRAM

ADV B00513.50 x 3.00A

09/13/16

ISOLATED

LINES

LOAD

LINES

ISOLATED

(DCV)+

N(ACV)

*RECOMMENDED, NOT CRITICAL

NO2 NC2 COM2

WIRING DIAGRAM

ADV B00513.50 x 3.00A

09/13/16

ISOLATED

LINES

LOAD

LINES

ISOLATED

(DCV)+

N(ACV)

*RECOMMENDED, NOT CRITICAL

NO2 NC2 COM2

WIRING DIAGRAM

COM

ADV B00513.50 x 3.00A

09/13/16

ISOLATED

LINES

LOAD

LINES

ISOLATED

(DCV)+

N(ACV)

*RECOMMENDED, NOT CRITICAL

NO2 NC2 COM2

WIRING DIAGRAM

COM1

ADV B00513.50 x 3.00A

09/13/16

ISOLATED

LINES

LOAD

LINES

ISOLATED

(DCV)+

N(ACV)

*RECOMMENDED, NOT CRITICAL

NO2 NC2 COM2

WIRING DIAGRAM

COM1 NC

ADV B00513.50 x 3.00A

09/13/16

ISOLATED

LINES

LOAD

LINES

ISOLATED

(DCV)+

N(ACV)

*RECOMMENDED, NOT CRITICAL

NO2 NC2 COM2

WIRING DIAGRAM

COM1

ADV B00513.50 x 3.00A

09/13/16

ISOLATED

LINES

LOAD

LINES

ISOLATED

(DCV)+

N(ACV)

*RECOMMENDED, NOT CRITICAL

NO2 NC2 COM2

WIRING DIAGRAM

COM1

ADV B00513.50 x 3.00A

09/13/16

ISOLATED

LINES

LOAD

LINES

ISOLATED

(DCV)+

N(ACV)

*RECOMMENDED, NOT CRITICAL

NO2 NC2 COM2

WIRING DIAGRAM

COM1 N

ADV B00513.50 x 3.00A

09/13/16

ISOLATED

LINES

LOAD

LINES

ISOLATED

(DCV)+

N(ACV)

*RECOMMENDED, NOT CRITICAL

NO2 NC2 COM2

WIRING DIAGRAM

COM1 NC2

ADV B00513.50 x 3.00A

09/13/16

ISOLATED

LINES

LOAD

LINES

ISOLATED

(DCV)+

N(ACV)

*RECOMMENDED, NOT CRITICAL

NO2 NC2 COM2

WIRING DIAGRAM

COM1 NC21

ADV B00513.50 x 3.00A

09/13/16

ISOLATED

LINES

LOAD

LINES

ISOLATED

(DCV)+

N(ACV)

*RECOMMENDED, NOT CRITICAL

NO2 NC2 COM2

WIRING DIAGRAM

COM1 NC21 NO1

ADV B00513.50 x 3.00A

09/13/16

ISOLATED

LINES

LOAD

LINES

ISOLATED

(DCV)+

N(ACV)

*RECOMMENDED, NOT CRITICAL

NO2 NC2 COM2

WIRING DIAGRAM

COM1 NC21

ADV B00513.50 x 3.00A

09/13/16

ISOLATED

LINES

LOAD

LINES

ISOLATED

(DCV)+

N(ACV)

*RECOMMENDED, NOT CRITICAL

NO2 NC2 COM2

WIRING DIAGRAM

COM1 NC21 N

ADV B00513.50 x 3.00A

09/13/16

ISOLATED

LINES

LOAD

LINES

ISOLATED

(DCV)+

N(ACV)

*RECOMMENDED, NOT CRITICAL

NO2 NC2 COM2

WIRING DIAGRAM

COM1 NC21 NO

ADV B00513.50 x 3.00A

09/13/16

ISOLATED

LINES

LOAD

LINES

ISOLATED

(DCV)+

N(ACV)

*RECOMMENDED, NOT CRITICAL

NO2 NC2 COM2

WIRING DIAGRAM

COM1 NC21 NO1

PRO

ADV B00513.50 x 3.00A

09/13/16

ISOLATED

LINES

LOAD

LINES

ISOLATED

(DCV)+

N(ACV)

*RECOMMENDED, NOT CRITICAL

NO2 NC2 COM2

WIRING DIAGRAM

COM1 NC21 NO1

ADV B00513.50 x 3.00A

09/13/16

ISOLATED

LINES

LOAD

LINES

ISOLATED

(DCV)+

N(ACV)

*RECOMMENDED, NOT CRITICAL

NO2 NC2 COM2

WIRING DIAGRAM

COM1 NC21 NO1

ADV B00513.50 x 3.00A

09/13/16

ISOLATED

LINES

LOAD

LINES

ISOLATED

(DCV)+

N(ACV)

*RECOMMENDED, NOT CRITICAL

NO2 NC2 COM2

WIRING DIAGRAM

COM1 NC21 NO1

PROTECTI

ADV B00513.50 x 3.00A

09/13/16

ISOLATED

LINES

LOAD

LINES

ISOLATED

(DCV)+

N(ACV)

*RECOMMENDED, NOT CRITICAL

NO2 NC2 COM2

WIRING DIAGRAM

COM1 NC21 NO1

PROT

ADV B00513.50 x 3.00A

09/13/16

ISOLATED

LINES

LOAD

LINES

ISOLATED

(DCV)+

N(ACV)

*RECOMMENDED, NOT CRITICAL

NO2 NC2 COM2

WIRING DIAGRAM

COM1 NC21 NO1

PROTE

ADV B00513.50 x 3.00A

09/13/16

ISOLATED

LINES

LOAD

LINES

ISOLATED

(DCV)+

N(ACV)

*RECOMMENDED, NOT CRITICAL

NO2 NC2 COM2

WIRING DIAGRAM

COM1 NC21 NO1

PROTEC

ADV B00513.50 x 3.00A

09/13/16

ISOLATED

LINES

LOAD

LINES

ISOLATED

(DCV)+

N(ACV)

*RECOMMENDED, NOT CRITICAL

NO2 NC2 COM2

WIRING DIAGRAM

COM1 NC21 NO1

PROTECT

ADV B00513.50 x 3.00A

09/13/16

ISOLATED

LINES

LOAD

LINES

ISOLATED

(DCV)+

N(ACV)

*RECOMMENDED, NOT CRITICAL

NO2 NC2 COM2

WIRING DIAGRAM

COM1 NC21 NO1

PROTECTIV

ADV B00513.50 x 3.00A

09/13/16

ISOLATED

LINES

LOAD

LINES

ISOLATED

(DCV)+

N(ACV)

*RECOMMENDED, NOT CRITICAL

NO2 NC2 COM2

WIRING DIAGRAM

COM1 NC21 NO1

PROTECTIVE

ADV B00513.50 x 3.00A

09/13/16

ISOLATED

LINES

LOAD

LINES

ISOLATED

(DCV)+

N(ACV)

*RECOMMENDED, NOT CRITICAL

NO2 NC2 COM2

WIRING DIAGRAM

COM1 NC21 NO1

PROTECTIVE

ADV B00513.50 x 3.00A

09/13/16

ISOLATED

LINES

LOAD

LINES

ISOLATED

(DCV)+

N(ACV)

*RECOMMENDED, NOT CRITICAL

NO2 NC2 COM2

WIRING DIAGRAM

COM1 NC21 NO1

PROTECTIVE

COND

ADV B00513.50 x 3.00A

09/13/16

ISOLATED

LINES

LOAD

LINES

ISOLATED

(DCV)+

N(ACV)

*RECOMMENDED, NOT CRITICAL

NO2 NC2 COM2

WIRING DIAGRAM

COM1 NC21 NO1

PROTECTIVE

ADV B00513.50 x 3.00A

09/13/16

ISOLATED

LINES

LOAD

LINES

ISOLATED

(DCV)+

N(ACV)

*RECOMMENDED, NOT CRITICAL

NO2 NC2 COM2

WIRING DIAGRAM

COM1 NC21 NO1

PROTECTIVE

CON

ADV B00513.50 x 3.00A

09/13/16

ISOLATED

LINES

LOAD

LINES

ISOLATED

(DCV)+

N(ACV)

*RECOMMENDED, NOT CRITICAL

NO2 NC2 COM2

WIRING DIAGRAM

COM1 NC21 NO1

PROTECTIVE

CONDUC

ADV B00513.50 x 3.00A

09/13/16

ISOLATED

LINES

LOAD

LINES

ISOLATED

(DCV)+

N(ACV)

*RECOMMENDED, NOT CRITICAL

NO2 NC2 COM2

WIRING DIAGRAM

COM1 NC21 NO1

PROTECTIVE

CONDU

ADV B00513.50 x 3.00A

09/13/16

ISOLATED

LINES

LOAD

LINES

ISOLATED

(DCV)+

N(ACV)

*RECOMMENDED, NOT CRITICAL

NO2 NC2 COM2

WIRING DIAGRAM

COM1 NC21 NO1

PROTECTIVE

CONDUCTOR

ADV B00513.50 x 3.00A

09/13/16

ISOLATED

LINES

LOAD

LINES

ISOLATED

(DCV)+

N(ACV)

*RECOMMENDED, NOT CRITICAL

NO2 NC2 COM2

WIRING DIAGRAM

COM1 NC21 NO1

PROTECTIVE

CONDUCT

ADV B00513.50 x 3.00A

09/13/16

ISOLATED

LINES

LOAD

LINES

ISOLATED

(DCV)+

N(ACV)

*RECOMMENDED, NOT CRITICAL

NO2 NC2 COM2

WIRING DIAGRAM

COM1 NC21 NO1

PROTECTIVE

CONDUCTO

ADV B00513.50 x 3.00A

09/13/16

ISOLATED

LINES

LOAD

LINES

ISOLATED

(DCV)+

N(ACV)

*RECOMMENDED, NOT CRITICAL

NO2 NC2 COM2

WIRING DIAGRAM

COM1 NC21 NO1

PROTECTIVE

CONDUCTOR

TERMINAL

ADV B00513.50 x 3.00A

09/13/16

ISOLATED

LINES

LOAD

LINES

ISOLATED

(DCV)+

N(ACV)

*RECOMMENDED, NOT CRITICAL

NO2 NC2 COM2

WIRING DIAGRAM

COM1 NC21 NO1

PROTECTIVE

CONDUCTOR

ADV B00513.50 x 3.00A

09/13/16

ISOLATED

LINES

LOAD

LINES

ISOLATED

(DCV)+

N(ACV)

*RECOMMENDED, NOT CRITICAL

NO2 NC2 COM2

WIRING DIAGRAM

COM1 NC21 NO1

PROTECTIVE

CONDUCTOR

ADV B00513.50 x 3.00A

09/13/16

ISOLATED

LINES

LOAD

LINES

ISOLATED

(DCV)+

N(ACV)

*RECOMMENDED, NOT CRITICAL

NO2 NC2 COM2

WIRING DIAGRAM

COM1 NC21 NO1

PROTECTIVE

CONDUCTOR

TER

ADV B00513.50 x 3.00A

09/13/16

ISOLATED

LINES

LOAD

LINES

ISOLATED

(DCV)+

N(ACV)

*RECOMMENDED, NOT CRITICAL

NO2 NC2 COM2

WIRING DIAGRAM

COM1 NC21 NO1

PROTECTIVE

CONDUCTOR

TERM

ADV B00513.50 x 3.00A

09/13/16

ISOLATED

LINES

LOAD

LINES

ISOLATED

(DCV)+

N(ACV)

*RECOMMENDED, NOT CRITICAL

NO2 NC2 COM2

WIRING DIAGRAM

COM1 NC21 NO1

PROTECTIVE

CONDUCTOR

TERMI

ADV B00513.50 x 3.00A

09/13/16

ISOLATED

LINES

LOAD

LINES

ISOLATED

(DCV)+

N(ACV)

*RECOMMENDED, NOT CRITICAL

NO2 NC2 COM2

WIRING DIAGRAM

COM1 NC21 NO1

PROTECTIVE

CONDUCTOR

TERMIN

ADV B00513.50 x 3.00A

09/13/16

ISOLATED

LINES

LOAD

LINES

ISOLATED

(DCV)+

N(ACV)

*RECOMMENDED, NOT CRITICAL

NO2 NC2 COM2

WIRING DIAGRAM

COM1 NC21 NO1

PROTECTIVE

CONDUCTOR

TERMINA

ADV B00513.50 x 3.00A

09/13/16

ISOLATED

LINES

LOAD

LINES

ISOLATED

(DCV)+

N(ACV)

*RECOMMENDED, NOT CRITICAL

NO2 NC2 COM2

WIRING DIAGRAM

COM1 NC21 NO1

PROTECTIVE

CONDUCTOR

TERMINAL

Figure 8

In installations where multiple circuits are used (i.e. indepen-

dent circuits for power input and output relay), individual dis-

connects are required. The disconnects shall be within close

proximity of the equipment, accessible to operators, and

marked appropriately as the disconnect for the associated

circuit. Assure the disconnect ratings are appropriately sized

for the circuit protected (see Specifications).

Circuit Separation:

Two cable entry locations are provided to aid in maintaining

separation of "hazardous live" (typically mains voltages such as

115VAC and 230VAC) and limited circuits (typically control

voltages less than 30Vrms or 42.4VDC). However, since the

MK-2's single wiring compartment can not absolutely protect

against physical contact between multiple circuits, it is required

that all wiring used must have an insulation rating of 300V min-

imum, and a temperature rating of 80˚ C (176˚ F) minimum.

Protective Earthing:

Each MK-2 is provided with a "protective conductor terminal"

which shall be terminated to the local earth ground potential to

eliminate shock hazard in the unlikely event of internal insula-

tion breakdown. Select wire size that can carry in excess of the

sum of all circuit's maximum amperage.

Power Input:

The MK-2 is designed with a universal power supply that can

accept a wide range of AC and DC voltages (see Specifications

to insure compatibility). Select wire size that can deliver suit-

able voltage and current for the application. Connect power as

shown in Figure 8. The terminal block can be unplugged from

its socket for your convenience. When connecting a DC

source, observing polarity is not critical, but it is suggested to

follow diagram as a matter of good installation practice.

Output Relay Contacts:

The MK-2 is equipped with two sets of isolated contacts (DPDT)

which indicates whether or not material is being detected within

the vessel. This output is also influenced by the selection of the

"fail-safe" switch as described in the "Calibration" section of this

manual. The designations on the circuit board relate to the con-

tact status when the material is "not" sensed and the fail-safe

switch is in the "low" mode. These contacts can be connected to

any type of control device, provided that ratings are observed

(see Specifications). Select wire size that can deliver suitable

voltage and current for the application.

Split Architecture Interconnection (See Figure 9)

The interconnection of the remote probe and remote electron-

ics is limited in distance in order to maintain the sensing capa-

bility. Separation distances greater then the standard 12 feet

(3.6m) or use of an interconnection cable other than Monitor's

should not be attempted without the approval of Monitor's

Application Engineers.

Figure 9

]

WIRING DIAGRA

K-2 RE OTE ELECTRONICS TO RE OTE PROBE

C AL IBR A IO N

Figure 12

Calibration:

The calibration of the MK-2 is accomplished by the push-button

designated “CAL” (See Figure 10). This feature allows the unit

to ignore any initial capacitance caused by the vessel configu-

ration or material build-up on the probe and driven shield. This

procedure can be done at any time after installation in order to

accommodate for any changes in the configuration of the probe

or vessel, or extreme product build-up.

1) To initiate the calibration feature, ensure that the probe is

not submerged in the material.

2) Press and release the “CAL” button. The “CAL” LED will

flash for a short period and then remain illuminated when

complete denoting proper calibration.

Figure 10

SESSENSOR CONTSENSENSSENSOSENSORSENSORSENSOR CSENSOR COSENSOR CONSENSOR CONTROLS & INDICASENSOR CONTRSENSOR CONTROSENSOR CONTROLSENSOR CONTROLSSENSOR CONTROLSSENSOR CONTROLS &SENSOR CONTROLS &SENSOR CONTROLS & ISENSOR CONTROLS & INSENSOR CONTROLS & INDSENSOR CONTROLS & INDISENSOR CONTROLS & INDICSENSOR CONTROLS & INDICATSENSOR CONTROLS & INDICATOSENSOR CONTROLS & INDICATORSSENSOR CONTROLS & INDICATORSENSOR CONTROLS & INDICATORS

TERMITTETERTERMTERMINTERMINALTERMINATERMINAL BLTERMINALTERMINAL BTERMINAL BLOTERMINAL BLOCTERMINAL BLOCKTERMINAL BLOCK

TERMINAL BLOCK

COM

TERMINAL BLOCK

COM1

TERMINAL BLOCK

COM1 NC

TERMINAL BLOCK

COM1

TERMINAL BLOCK

COM1

TERMINAL BLOCK

COM1 N

TERMINAL BLOCK

COM1 NC2

TERMINAL BLOCK

COM1 NC21

TERMINAL BLOCK

COM1 NC21 NO1

TERMINAL BLOCK

COM1 NC21

TERMINAL BLOCK

COM1 NC21 N

TERMINAL BLOCK

COM1 NC21 NO

TERMINAL BLOCK

COM1 NC21 NO1

NO2NNONO2 NCNO2NO2NO2 NNO2 NC2NO2 NC2 CNO2 NC2NO2 NC2NO2 NC2 CONO2 NC2 COMNO2 NC2 COM2NO2 NC2 COM2

OUTP

NO2 NC2 COM2

OUT

NO2 NC2 COM2

OUTPU

NO2 NC2 COM2

OUTPUT

NO2 NC2 COM2

OUTPUT

(DEPL

NO2 NC2 COM2

OUTPUT

(

NO2 NC2 COM2

OUTPUT

NO2 NC2 COM2

OUTPUT

(DE

NO2 NC2 COM2

OUTPUT

(DEP

NO2 NC2 COM2

OUTPUT

(DEPLU

NO2 NC2 COM2

OUTPUT

(DEPLUGGABL

NO2 NC2 COM2

OUTPUT

(DEPLUG

NO2 NC2 COM2

OUTPUT

(DEPLUGG

NO2 NC2 COM2

OUTPUT

(DEPLUGGA

NO2 NC2 COM2

OUTPUT

(DEPLUGGAB

NO2 NC2 COM2

OUTPUT

(DEPLUGGABLE)

NO2 NC2 COM2

OUTPUT

(DEPLUGGABLE

NO2 NC2 COM2

OUTPUT

(DEPLUGGABLE)

TERMI

NO2 NC2 COM2

OUTPUT

(DEPLUGGABLE)

NO2 NC2 COM2

OUTPUT

(DEPLUGGABLE)

NO2 NC2 COM2

OUTPUT

(DEPLUGGABLE)

TER

NO2 NC2 COM2

OUTPUT

(DEPLUGGABLE)

TERM

NO2 NC2 COM2

OUTPUT

(DEPLUGGABLE)

TERMIN

NO2 NC2 COM2

OUTPUT

(DEPLUGGABLE)

TERMINAL

NO2 NC2 COM2

OUTPUT

(DEPLUGGABLE)

TERMINA

NO2 NC2 COM2

OUTPUT

(DEPLUGGABLE)

TERMINAL BL

NO2 NC2 COM2

OUTPUT

(DEPLUGGABLE)

TERMINAL

NO2 NC2 COM2

OUTPUT

(DEPLUGGABLE)

TERMINAL B

NO2 NC2 COM2

OUTPUT

(DEPLUGGABLE)

TERMINAL BLO

NO2 NC2 COM2

OUTPUT

(DEPLUGGABLE)

TERMINAL BLOC

NO2 NC2 COM2

OUTPUT

(DEPLUGGABLE)

TERMINAL BLOCK

NO2 NC2 COM2

OUTPUT

(DEPLUGGABLE)

TERMINAL BLOCK

PUPPUSHPUSPUSHBUPUSHBPUSHBUTTOPUSHBUTPUSHBUTTPUSHBUTTONPUSHBUTTON

SYSTEM

PUSHBUTTON

SYS

PUSHBUTTON

SYST

PUSHBUTTON

SYSTE

PUSHBUTTON

SYSTEM RESET

PUSHBUTTON

SYSTEM

PUSHBUTTON

SYSTEM R

PUSHBUTTON

SYSTEM RE

PUSHBUTTON

SYSTEM RES

PUSHBUTTON

SYSTEM RESE

PUSHBUTTON

SYSTEM RESET

PUSHBUTTON

SYSTEM RESET

PUSHBUTTON

SYSTEM RESET

POWER

PUSHBUTTON

SYSTEM RESET

POW

PUSHBUTTON

SYSTEM RESET

POWE

PUSHBUTTON

SYSTEM RESET

POWER

BUTTONBBUBUTBUTTBUTTOBUTTON

BUTTON

PUSH

BUTTON

PUS

BUTTON

PUSH-

BUTTON

PUSH-

SLIDE SWSSLSLISLIDSLIDESLIDESLIDE SSLIDE SWITCHSLIDE SWISLIDE SWITSLIDE SWITCSLIDE SWITCH

SLIDE SWITCH

LED

SLIDE SWITCH

LED (

SLIDE SWITCH

LED

SLIDE SWITCH

LED (R

SLIDE SWITCH

LED (RE

SLIDE SWITCH

LED (RED

SLIDE SWITCH

LED (RED)

SLIDE SWITCH

LED (RED)

SLIDE SWITCH

LED (RED)

SLIDE SWITCH

LED (RED)

OPE

SLIDE SWITCH

LED (RED)

OPER

SLIDE SWITCH

LED (RED)

OPERATION

SLIDE SWITCH

LED (RED)

OPERA

SLIDE SWITCH

LED (RED)

OPERAT

SLIDE SWITCH

LED (RED)

OPERATI

SLIDE SWITCH

LED (RED)

OPERATIO

SLIDE SWITCH

LED (RED)

OPERATION

OUTP

SLIDE SWITCH

LED (RED)

OPERATION

SLIDE SWITCH

LED (RED)

OPERATION

SLIDE SWITCH

LED (RED)

OPERATION

OUT

SLIDE SWITCH

LED (RED)

OPERATION

OUTPU

SLIDE SWITCH

LED (RED)

OPERATION

OUTPUT

SLIDE SWITCH

LED (RED)

OPERATION

OUTPUT

SLIDE SWITCH

LED (RED)

OPERATION

OUTPUT

FAILSAFE M

SLIDE SWITCH

LED (RED)

OPERATION

OUTPUT

SLIDE SWITCH

LED (RED)

OPERATION

OUTPUT

SLIDE SWITCH

LED (RED)

OPERATION

OUTPUT

FAI

SLIDE SWITCH

LED (RED)

OPERATION

OUTPUT

FAIL

SLIDE SWITCH

LED (RED)

OPERATION

OUTPUT

FAILS

SLIDE SWITCH

LED (RED)

OPERATION

OUTPUT

FAILSA

SLIDE SWITCH

LED (RED)

OPERATION

OUTPUT

FAILSAF

SLIDE SWITCH

LED (RED)

OPERATION

OUTPUT

FAILSAFE

SLIDE SWITCH

LED (RED)

OPERATION

OUTPUT

FAILSAFE

SLIDE SWITCH

LED (RED)

OPERATION

OUTPUT

FAILSAFE MO

SLIDE SWITCH

LED (RED)

OPERATION

OUTPUT

FAILSAFE MODE

SLIDE SWITCH

LED (RED)

OPERATION

OUTPUT

FAILSAFE MOD

SLIDE SWITCH

LED (RED)

OPERATION

OUTPUT

FAILSAFE MODE

FUNC

SLIDE SWITCH

LED (RED)

OPERATION

OUTPUT

FAILSAFE MODE

SLIDE SWITCH

LED (RED)

OPERATION

OUTPUT

FAILSAFE MODE

SLIDE SWITCH

LED (RED)

OPERATION

OUTPUT

FAILSAFE MODE

FUN

SLIDE SWITCH

LED (RED)

OPERATION

OUTPUT

FAILSAFE MODE

FUNCTION

SLIDE SWITCH

LED (RED)

OPERATION

OUTPUT

FAILSAFE MODE

FUNCT

SLIDE SWITCH

LED (RED)

OPERATION

OUTPUT

FAILSAFE MODE

FUNCTI

SLIDE SWITCH

LED (RED)

OPERATION

OUTPUT

FAILSAFE MODE

FUNCTIO

SLIDE SWITCH

LED (RED)

OPERATION

OUTPUT

FAILSAFE MODE

FUNCTION

ADJUSTM

SLIDE SWITCH

LED (RED)

OPERATION

OUTPUT

FAILSAFE MODE

FUNCTION

SLIDE SWITCH

LED (RED)

OPERATION

OUTPUT

FAILSAFE MODE

FUNCTION

SLIDE SWITCH

LED (RED)

OPERATION

OUTPUT

FAILSAFE MODE

FUNCTION

ADJ

SLIDE SWITCH

LED (RED)

OPERATION

OUTPUT

FAILSAFE MODE

FUNCTION

ADJU

SLIDE SWITCH

LED (RED)

OPERATION

OUTPUT

FAILSAFE MODE

FUNCTION

ADJUS

SLIDE SWITCH

LED (RED)

OPERATION

OUTPUT

FAILSAFE MODE

FUNCTION

ADJUST

SLIDE SWITCH

LED (RED)

OPERATION

OUTPUT

FAILSAFE MODE

FUNCTION

ADJUSTME

SLIDE SWITCH

LED (RED)

OPERATION

OUTPUT

FAILSAFE MODE

FUNCTION

ADJUSTMENT

SLIDE SWITCH

LED (RED)

OPERATION

OUTPUT

FAILSAFE MODE

FUNCTION

ADJUSTMEN

SLIDE SWITCH

LED (RED)

OPERATION

OUTPUT

FAILSAFE MODE

FUNCTION

ADJUSTMENT

SLIDE SWITCH

LED (RED)

OPERATION

OUTPUT

FAILSAFE MODE

FUNCTION

ADJUSTMENT

SLIDE SWITCH

LED (RED)

OPERATION

OUTPUT

FAILSAFE MODE

FUNCTION

ADJUSTMENT

TIME DEL

SLIDE SWITCH

LED (RED)

OPERATION

OUTPUT

FAILSAFE MODE

FUNCTION

ADJUSTMENT

TIM

SLIDE SWITCH

LED (RED)

OPERATION

OUTPUT

FAILSAFE MODE

FUNCTION

ADJUSTMENT

TIME

SLIDE SWITCH

LED (RED)

OPERATION

OUTPUT

FAILSAFE MODE

FUNCTION

ADJUSTMENT

TIME

SLIDE SWITCH

LED (RED)

OPERATION

OUTPUT

FAILSAFE MODE

FUNCTION

ADJUSTMENT

TIME D

SLIDE SWITCH

LED (RED)

OPERATION

OUTPUT

FAILSAFE MODE

FUNCTION

ADJUSTMENT

TIME DE

SLIDE SWITCH

LED (RED)

OPERATION

OUTPUT

FAILSAFE MODE

FUNCTION

ADJUSTMENT

TIME DELA

SLIDE SWITCH

LED (RED)

OPERATION

OUTPUT

FAILSAFE MODE

FUNCTION

ADJUSTMENT

TIME DELAY

SLIDE SWITCH

LED (RED)

OPERATION

OUTPUT

FAILSAFE MODE

FUNCTION

ADJUSTMENT

TIME DELAY

PUPPUSHPUSPUSHBUPUSHBPUSHBUTTOPUSHBUTPUSHBUTTPUSHBUTTONPUSHBUTTON

CAL

PUSHBUTTON

CALI

PUSHBUTTON

CALIBRATI

PUSHBUTTON

CALIB

PUSHBUTTON

CALIBR

PUSHBUTTON

CALIBRA

PUSHBUTTON

CALIBRAT

PUSHBUTTON

CALIBRATIO

PUSHBUTTON

CALIBRATION

PUSHBUTTON

CALIBRATION

PUSHBUTTON

CALIBRATION

PUSHBUTTON

CALIBRATION

LED

PUSHBUTTON

CALIBRATION

LED (

PUSHBUTTON

CALIBRATION

LED

PUSHBUTTON

CALIBRATION

LED (Y

PUSHBUTTON

CALIBRATION

LED (YE

PUSHBUTTON

CALIBRATION

LED (YELLOW

PUSHBUTTON

CALIBRATION

LED (YEL

PUSHBUTTON

CALIBRATION

LED (YELL

PUSHBUTTON

CALIBRATION

LED (YELLO

PUSHBUTTON

CALIBRATION

LED (YELLOW)

PUSHBUTTON

CALIBRATION

LED (YELLOW)

DETECTIPUSHBUTTON

CALIBRATION

LED (YELLOW)

DPUSHBUTTON

CALIBRATION

LED (YELLOW)

DEPUSHBUTTON

CALIBRATION

LED (YELLOW)

DETPUSHBUTTON

CALIBRATION

LED (YELLOW)

DETEPUSHBUTTON

CALIBRATION

LED (YELLOW)

DETECPUSHBUTTON

CALIBRATION

LED (YELLOW)

DETECTPUSHBUTTON

CALIBRATION

LED (YELLOW)

DETECTIOPUSHBUTTON

CALIBRATION

LED (YELLOW)

DETECTIONPUSHBUTTON

CALIBRATION

LED (YELLOW)

DETECTION

PUSHBUTTON

CALIBRATION

LED (YELLOW)

DETECTION

PUSHBUTTON

CALIBRATION

LED (YELLOW)

DETECTION

LED (GREEN

PUSHBUTTON

CALIBRATION

LED (YELLOW)

DETECTION

LED

PUSHBUTTON

CALIBRATION

LED (YELLOW)

DETECTION

LED

PUSHBUTTON

CALIBRATION

LED (YELLOW)

DETECTION

LED (

PUSHBUTTON

CALIBRATION

LED (YELLOW)

DETECTION

LED (G

PUSHBUTTON

CALIBRATION

LED (YELLOW)

DETECTION

LED (GR

PUSHBUTTON

CALIBRATION

LED (YELLOW)

DETECTION

LED (GRE

PUSHBUTTON

CALIBRATION

LED (YELLOW)

DETECTION

LED (GREE

PUSHBUTTON

CALIBRATION

LED (YELLOW)

DETECTION

LED (GREEN)

PUSHBUTTON

CALIBRATION

LED (YELLOW)

DETECTION

LED (GREEN)

CAL

PUSHBUTTON

CALIBRATION

LED (YELLOW)

DETECTION

LED (GREEN)

PUSHBUTTON

CALIBRATION

LED (YELLOW)

DETECTION

LED (GREEN)

PUSHBUTTON

CALIBRATION

LED (YELLOW)

DETECTION

LED (GREEN)

CALI

PUSHBUTTON

CALIBRATION

LED (YELLOW)

DETECTION

LED (GREEN)

CALIBRATI

PUSHBUTTON

CALIBRATION

LED (YELLOW)

DETECTION

LED (GREEN)

CALIB

PUSHBUTTON

CALIBRATION

LED (YELLOW)

DETECTION

LED (GREEN)

CALIBR

PUSHBUTTON

CALIBRATION

LED (YELLOW)

DETECTION

LED (GREEN)

CALIBRA

PUSHBUTTON

CALIBRATION

LED (YELLOW)

DETECTION

LED (GREEN)

CALIBRAT

PUSHBUTTON

CALIBRATION

LED (YELLOW)

DETECTION

LED (GREEN)

CALIBRATIO

PUSHBUTTON

CALIBRATION

LED (YELLOW)

DETECTION

LED (GREEN)

CALIBRATION

PUSHBUTTON

CALIBRATION

LED (YELLOW)

DETECTION

LED (GREEN)

CALIBRATION

PUSHBUTTON

CALIBRATION

LED (YELLOW)

DETECTION

LED (GREEN)

CALIBRATION

PUSHBUTTON

CALIBRATION

LED (YELLOW)

DETECTION

LED (GREEN)

CALIBRATION

LEDS (RED)

PUSHBUTTON

CALIBRATION

LED (YELLOW)

DETECTION

LED (GREEN)

CALIBRATION

LED

PUSHBUTTON

CALIBRATION

LED (YELLOW)

DETECTION

LED (GREEN)

CALIBRATION

LEDS

PUSHBUTTON

CALIBRATION

LED (YELLOW)

DETECTION

LED (GREEN)

CALIBRATION

LEDS

PUSHBUTTON

CALIBRATION

LED (YELLOW)

DETECTION

LED (GREEN)

CALIBRATION

LEDS (

PUSHBUTTON

CALIBRATION

LED (YELLOW)

DETECTION

LED (GREEN)

CALIBRATION

LEDS (R

PUSHBUTTON

CALIBRATION

LED (YELLOW)

DETECTION

LED (GREEN)

CALIBRATION

LEDS (RE

PUSHBUTTON

CALIBRATION

LED (YELLOW)

DETECTION

LED (GREEN)

CALIBRATION

LEDS (RED

PUSHBUTTON

CALIBRATION

LED (YELLOW)

DETECTION

LED (GREEN)

CALIBRATION

LEDS (RED)

PUSHBUTTON

CALIBRATION

LED (YELLOW)

DETECTION

LED (GREEN)

CALIBRATION

LEDS (RED)

PUSHBUTTON

CALIBRATION

LED (YELLOW)

DETECTION

LED (GREEN)

CALIBRATION

LEDS (RED)

SENSITIVITY STATUS

PUSHBUTTON

CALIBRATION

LED (YELLOW)

DETECTION

LED (GREEN)

CALIBRATION

LEDS (RED)

SEN

PUSHBUTTON

CALIBRATION

LED (YELLOW)

DETECTION

LED (GREEN)

CALIBRATION

LEDS (RED)

SENS

PUSHBUTTON

CALIBRATION

LED (YELLOW)

DETECTION

LED (GREEN)

CALIBRATION

LEDS (RED)

SENSI

PUSHBUTTON

CALIBRATION

LED (YELLOW)

DETECTION

LED (GREEN)

CALIBRATION

LEDS (RED)

SENSIT

PUSHBUTTON

CALIBRATION

LED (YELLOW)

DETECTION

LED (GREEN)

CALIBRATION

LEDS (RED)

SENSITI

PUSHBUTTON

CALIBRATION

LED (YELLOW)

DETECTION

LED (GREEN)

CALIBRATION

LEDS (RED)

SENSITIV

PUSHBUTTON

CALIBRATION

LED (YELLOW)

DETECTION

LED (GREEN)

CALIBRATION

LEDS (RED)

SENSITIVI

PUSHBUTTON

CALIBRATION

LED (YELLOW)

DETECTION

LED (GREEN)

CALIBRATION

LEDS (RED)

SENSITIVIT

PUSHBUTTON

CALIBRATION

LED (YELLOW)

DETECTION

LED (GREEN)

CALIBRATION

LEDS (RED)

SENSITIVITY

PUSHBUTTON

CALIBRATION

LED (YELLOW)

DETECTION

LED (GREEN)

CALIBRATION

LEDS (RED)

SENSITIVITY

PUSHBUTTON

CALIBRATION

LED (YELLOW)

DETECTION

LED (GREEN)

CALIBRATION

LEDS (RED)

SENSITIVITY S

PUSHBUTTON

CALIBRATION

LED (YELLOW)

DETECTION

LED (GREEN)

CALIBRATION

LEDS (RED)

SENSITIVITY ST

PUSHBUTTON

CALIBRATION

LED (YELLOW)

DETECTION

LED (GREEN)

CALIBRATION

LEDS (RED)

SENSITIVITY STA

PUSHBUTTON

CALIBRATION

LED (YELLOW)

DETECTION

LED (GREEN)

CALIBRATION

LEDS (RED)

SENSITIVITY STAT

PUSHBUTTON

CALIBRATION

LED (YELLOW)

DETECTION

LED (GREEN)

CALIBRATION

LEDS (RED)

SENSITIVITY STATU

PUSHBUTTON

CALIBRATION

LED (YELLOW)

DETECTION

LED (GREEN)

CALIBRATION

LEDS (RED)

SENSITIVITY STATUS

PUPPUSHPUSPUSHBUPUSHBPUSHBUTTOPUSHBUTPUSHBUTTPUSHBUTTONPUSHBUTTON

PUSHBUTTON

SENSITIVITY

PUSHBUTTON

SEN

PUSHBUTTON

SENS

PUSHBUTTON

SENSI

PUSHBUTTON

SENSIT

PUSHBUTTON

SENSITI

PUSHBUTTON

SENSITIV

PUSHBUTTON

SENSITIVI

PUSHBUTTON

SENSITIVIT

PUSHBUTTON

SENSITIVITY

(RED)

PUSHBUTTON

SENSITIVITY

(

PUSHBUTTON

SENSITIVITY

PUSHBUTTON

SENSITIVITY

(RE

PUSHBUTTON

SENSITIVITY

(RED

PUSHBUTTON

SENSITIVITY

(RED)

"YES" L

PUSHBUTTON

SENSITIVITY

(RED)

PUSHBUTTON

SENSITIVITY

(RED)

PUSHBUTTON

SENSITIVITY

(RED)

"YE

PUSHBUTTON

SENSITIVITY

(RED)

"YES

PUSHBUTTON

SENSITIVITY

(RED)

"YES"

PUSHBUTTON

SENSITIVITY

(RED)

"YES"

PUSHBUTTON

SENSITIVITY

(RED)

"YES" LE

PUSHBUTTON

SENSITIVITY

(RED)

"YES" LED

PUSHBUTTON

SENSITIVITY

(RED)

"YES" LED

PUSHBUTTON

SENSITIVITY

(RED)

"YES" LED

PRESEN

PUSHBUTTON

SENSITIVITY

(RED)

"YES" LED

PUSHBUTTON

SENSITIVITY

(RED)

"YES" LED

PUSHBUTTON

SENSITIVITY

(RED)

"YES" LED

PRE

PUSHBUTTON

SENSITIVITY

(RED)

"YES" LED

PRES

PUSHBUTTON

SENSITIVITY

(RED)

"YES" LED

PRESE

PUSHBUTTON

SENSITIVITY

(RED)

"YES" LED

PRESENC

PUSHBUTTON

SENSITIVITY

(RED)

"YES" LED

PRESENCE

PUSHBUTTON

SENSITIVITY

(RED)

"YES" LED

PRESENCE

PUSHBUTTON

SENSITIVITY

(RED)

"YES" LED

PRESENCE

PUSHBUTTON

SENSITIVITY

(RED)

"YES" LED

PRESENCE

MATERI

PUSHBUTTON

SENSITIVITY

(RED)

"YES" LED

PRESENCE

MAT

PUSHBUTTON

SENSITIVITY

(RED)

"YES" LED

PRESENCE

MATE

PUSHBUTTON

SENSITIVITY

(RED)

"YES" LED

PRESENCE

MATER

PUSHBUTTON

SENSITIVITY

(RED)

"YES" LED

PRESENCE

MATERIA

PUSHBUTTON

SENSITIVITY

(RED)

"YES" LED

PRESENCE

MATERIAL

PUSHBUTTON

SENSITIVITY

(RED)

"YES" LED

PRESENCE

MATERIAL

(GREEN

PUSHBUTTON

SENSITIVITY

(RED)

"YES" LED

PRESENCE

MATERIAL

(

PUSHBUTTON

SENSITIVITY

(RED)

"YES" LED

PRESENCE

MATERIAL

PUSHBUTTON

SENSITIVITY

(RED)

"YES" LED

PRESENCE

MATERIAL

(GR

PUSHBUTTON

SENSITIVITY

(RED)

"YES" LED

PRESENCE

MATERIAL

(GRE

PUSHBUTTON

SENSITIVITY

(RED)

"YES" LED

PRESENCE

MATERIAL

(GREE

PUSHBUTTON

SENSITIVITY

(RED)

"YES" LED

PRESENCE

MATERIAL

(GREEN)

PUSHBUTTON

SENSITIVITY

(RED)

"YES" LED

PRESENCE

MATERIAL

(GREEN)

PUSHBUTTON

SENSITIVITY

(RED)

"YES" LED

PRESENCE

MATERIAL

(GREEN)

"NO"

PUSHBUTTON

SENSITIVITY

(RED)

"YES" LED

PRESENCE

MATERIAL

(GREEN)

PUSHBUTTON

SENSITIVITY

(RED)

"YES" LED

PRESENCE

MATERIAL

(GREEN)

"NO

PUSHBUTTON

SENSITIVITY

(RED)

"YES" LED

PRESENCE

MATERIAL

(GREEN)

"NO" LE

PUSHBUTTON

SENSITIVITY

(RED)

"YES" LED

PRESENCE

MATERIAL

(GREEN)

"NO"

PUSHBUTTON

SENSITIVITY

(RED)

"YES" LED

PRESENCE

MATERIAL

(GREEN)

"NO" L

PUSHBUTTON

SENSITIVITY

(RED)

"YES" LED

PRESENCE

MATERIAL

(GREEN)

"NO" LED

PUSHBUTTON

SENSITIVITY

(RED)

"YES" LED

PRESENCE

MATERIAL

(GREEN)

"NO" LED

PUSHBUTTON

SENSITIVITY

(RED)

"YES" LED

PRESENCE

MATERIAL

(GREEN)

"NO" LED

PRESEN

PUSHBUTTON

SENSITIVITY

(RED)

"YES" LED

PRESENCE

MATERIAL

(GREEN)

"NO" LED

PUSHBUTTON

SENSITIVITY

(RED)

"YES" LED

PRESENCE

MATERIAL

(GREEN)

"NO" LED

PUSHBUTTON

SENSITIVITY

(RED)

"YES" LED

PRESENCE

MATERIAL

(GREEN)

"NO" LED

PRE

PUSHBUTTON

SENSITIVITY

(RED)

"YES" LED

PRESENCE

MATERIAL

(GREEN)

"NO" LED

PRES

PUSHBUTTON

SENSITIVITY

(RED)

"YES" LED

PRESENCE

MATERIAL

(GREEN)

"NO" LED

PRESE

PUSHBUTTON

SENSITIVITY

(RED)

"YES" LED

PRESENCE

MATERIAL

(GREEN)

"NO" LED

PRESENC

PUSHBUTTON

SENSITIVITY

(RED)

"YES" LED

PRESENCE

MATERIAL

(GREEN)

"NO" LED

PRESENCE

PUSHBUTTON

SENSITIVITY

(RED)

"YES" LED

PRESENCE

MATERIAL

(GREEN)

"NO" LED

PRESENCE

PUSHBUTTON

SENSITIVITY

(RED)

"YES" LED

PRESENCE

MATERIAL

(GREEN)

"NO" LED

PRESENCE

PUSHBUTTON

SENSITIVITY

(RED)

"YES" LED

PRESENCE

MATERIAL

(GREEN)

"NO" LED

PRESENCE

MATERI

PUSHBUTTON

SENSITIVITY

(RED)

"YES" LED

PRESENCE

MATERIAL

(GREEN)

"NO" LED

PRESENCE

MAT

PUSHBUTTON

SENSITIVITY

(RED)

"YES" LED

PRESENCE

MATERIAL

(GREEN)

"NO" LED

PRESENCE

MATE

PUSHBUTTON

SENSITIVITY

(RED)

"YES" LED

PRESENCE

MATERIAL

(GREEN)

"NO" LED

PRESENCE

MATER

PUSHBUTTON

SENSITIVITY

(RED)

"YES" LED

PRESENCE

MATERIAL

(GREEN)

"NO" LED

PRESENCE

MATERIA

PUSHBUTTON

SENSITIVITY

(RED)

"YES" LED

PRESENCE

MATERIAL

(GREEN)

"NO" LED

PRESENCE

MATERIAL

PUSHBUTTON

SENSITIVITY

(RED)

"YES" LED

PRESENCE

MATERIAL

(GREEN)

"NO" LED

PRESENCE

MATERIAL

PUSHBUTTON

SENSITIVITY

(RED)

"YES" LED

PRESENCE

MATERIAL

(GREEN)

"NO" LED

PRESENCE

MATERIAL

PUSHBUTTON

SENSITIVITY

(RED)

"YES" LED

PRESENCE

MATERIAL

(GREEN)

"NO" LED

PRESENCE

MATERIAL

MATERI

PUSHBUTTON

SENSITIVITY

(RED)

"YES" LED

PRESENCE

MATERIAL

(GREEN)

"NO" LED

PRESENCE

MATERIAL

MAT

PUSHBUTTON

SENSITIVITY

(RED)

"YES" LED

PRESENCE

MATERIAL

(GREEN)

"NO" LED

PRESENCE

MATERIAL

MATE

PUSHBUTTON

SENSITIVITY

(RED)

"YES" LED

PRESENCE

MATERIAL

(GREEN)

"NO" LED

PRESENCE

MATERIAL

MATER

PUSHBUTTON

SENSITIVITY

(RED)

"YES" LED

PRESENCE

MATERIAL

(GREEN)

"NO" LED

PRESENCE

MATERIAL

MATERIA

PUSHBUTTON

SENSITIVITY

(RED)

"YES" LED

PRESENCE

MATERIAL

(GREEN)

"NO" LED

PRESENCE

MATERIAL

PUSHBUTTON

SENSITIVITY

(RED)

"YES" LED

PRESENCE

MATERIAL

(GREEN)

"NO" LED

PRESENCE

MATERIAL

PUSHBUTTON

SENSITIVITY

(RED)

"YES" LED

PRESENCE

MATERIAL

(GREEN)

"NO" LED

PRESENCE

MATERIAL

TEST

PUSHBUTTON

SENSITIVITY

(RED)

"YES" LED

PRESENCE

MATERIAL

(GREEN)

"NO" LED

PRESENCE

MATERIAL

PUSHBUTTON

SENSITIVITY

(RED)

"YES" LED

PRESENCE

MATERIAL

(GREEN)

"NO" LED

PRESENCE

MATERIAL

PUSHBUTTON

SENSITIVITY

(RED)

"YES" LED

PRESENCE

MATERIAL

(GREEN)

"NO" LED

PRESENCE

MATERIAL

TES

PUSHBUTTON

SENSITIVITY

(RED)

"YES" LED

PRESENCE

MATERIAL

(GREEN)

"NO" LED

PRESENCE

MATERIAL

TEST

PUSHBUTTON

SENSITIVITY

(RED)

"YES" LED

PRESENCE

MATERIAL

(GREEN)

"NO" LED

PRESENCE

MATERIAL

TEST

Sensitivity:

The sensitivity of the MK-2 relates to the amount of capacitance

(in excess of the calibration value) required to place the unit

into a detect mode. Materials with lower dielectric values will

require a lower numbered sensitivity setting for maximum sens-

ing capability. Materials with higher dielectric values allow for

a higher numbered sensitivity setting, which provides for an

additional level of build-up immunity. That is, sensitivity #1 is

most sensitive, while sensitivity #4 is least sensitive. The sen-

sitivity of the MK-2 is selected by pressing and releasing the

“SEN” push-button which causes the sensitivity level to

sequence to the next incremental setting. The current sensitiv-

ity setting is indicated by whichever sensitivity LED is illuminat-

ed, and correlates to the values shown in Figure 11.

Figure 11

Test Function:

The MK-2 features a unique test feature that is initiated by the

“TST” push-button. This feature allows users to test the oper-

ation and installation of the unit by effectively placing a capac-

itance value, via the electronics, directly on the probe.

1) To activate the test feature, ensure the unit is calibrated

properly, indicated by the illuminated “CAL” LED, and that

the probe is not submerged in the material.

2) Press and hold the “TST” push-button. The unit will respond

by illuminating the “DET” LED when the sensing circuit of

the MK-2 unit is operating correctly. If push-button is held

long enough to time through the delay operation, the “OPR”

LED and output relay will activate as well. Failure of the

“DET” LED to illuminate indicates the MK-2 is out of calibra-

tion or that it is not sensing properly. Should this occur, con-

sult the troubleshooting section of this bulletin.

3) Releasing the “TST” push-button will remove the test

capacitance from the sensor and place the sensor into nor-

mal operating mode.

Delay:

This function provides a time delay from when the unit first

enters a detect mode, to when the relay output is activated. It

also acts in reverse, delaying the response from when the unit

enters a non-detect mode, to when the relay output is deacti-

vated. Clockwise rotation of the single-turn adjustment will

increase time delay from .25 to 15 seconds. The unit must

enter the new sense state (either material sensed or material

not sensed), and remain in that mode for the selected time

delay period, before the mode becomes active at the relay out-

put. If the sense state changes before the delay period

expires, the timing cycle will start over.

Fail-safe: (See Figure 12)

The term fail-safe refers to the output signal condition which

occurs with a loss of power to the probe. A switch permits

selection of either low or high fail-safe.

1) High Fail-Safe - The relay will de-energize when material

is sensed at high level or with power loss.

2) Low Fail-Safe - The relay will de-energize when material

is below low level or with power loss.

NOTE: The designations on the electronics label refer to the

relay contact status when no material is sensed and low fail-

safe is selected (Relay is de-energized). The designations are

reversed when no material is sensed and high fail-safe is

selected (Relay is energized).

RO U BL E S H OO I N G

Indicators:

1) “CAL” green LED - Its status describes the “calibration”

condition of the MK-2. Illumination indicates that the sensor

has successfully been calibrated. Flashing indicates that a

calibration is in process.

2) “SEN” Red LED - Their status describes how “sensitive” the

MK-2 will be to the target material. The particular LED illu-

minated indicates which sensitivity selection has been

made.

3) “DET” yellow LED - Its status describes the “detection/

sensing” condition of the MK-2. Illumination indicates that

the amount of capacitance established by the “sensitivity

selection” has been detected. Its status is not affected by

the time delay setting.

4) “OPR” Red LED - Its status describes the “operate/output”

condition of the MK-2. Illumination indicates that the relay

output is in the “operate/material sensed” condition. Its state

is influenced by the time delay setting but not by the fail-safe

setting.

5) aterial Presence "Y" Red LED - Its status matches the

indication of the "OPR" Red LED. That is, illumination indi-

cates that the relay output is in the "operate/material

sensed" condition. This LED can be viewed externally

through the lens in the top of the cover (ordinary location

units only). Illumination also indicates that power is present

at the MK-2.

6) aterial Presence "N" Green LED - Its status is opposite

the indication of the Material Presence "Y" Red Led and the

"OPR" Red LED. That is, illumination indicates that the

relay output is in the "non-operate/no material sensed" con-

dition. This LED can be viewed externally through the lens

in the top of the cover (ordinary location units only). Illumi-

nation also indicates that power is present at the MK-2.

Initialization/Self-Verification ode:

The microcontroller-based electronics will flash the Material

Presence "Y" Red and "N" Green LEDs in either of the following

situations:

1) Power-up initialization- Whenever power is first applied, the

MK-2 spends roughly two (2) seconds to settle into a normal

state. During this time, the LEDs will flash.

2) Self-Verification error- During normal operation, the MK-2

continually checks itself for proper processing. If an abnor-

mal condition is detected, the MK-2 will force the relay into

the state related to the "fail-safe" selection and will flash the

Material Presence LEDs.

Calibration Procedure:

1) Select the fail-safe setting appropriate for the application.

2) Set the time delay desired, from .25 to 15 seconds.

3) Select sensitivity 1, 2, 3 or 4. Figure 10 provides a guide for

initial setup. This may have to be re-selected depending

upon the actual application characteristics.

4) Ensure the probe is not submerged in the material.

5) Press and release the “CAL” button. The green “CAL” LED

will flash, then remain illuminated, indicating a successful

and complete calibration.

PROBLE : Sensor does not detect material.

CAUSE/SOLUTION:

1) Verify that power is applied to the sensor. One of four

“SEN” indicators should always be lit.

2) Verify condition of “CAL” LED when material is not

present. If not lit, recalibrate the sensor.

3) Verify continuity between probe mount and vessel wall.

If poor continuity exists, connect a ground wire between

the housing and vessel wall.

4) Verify sensitivity setting. Move sensitivity selection to a

lower numbered setting, therefore making the probe

more sensitive to “difficult to sense” materials.

5) Verify probe coverage when sensing is expected. The

sensor is not designed to be “tip sensitive”. Permit sig-

nificant probe coverage before expecting material

sensing.

6) Verify connection of the electronic module to the probe.

7) Verify circuitry operation by using the TEST function, as

described in this manual. If improper operation per-

sists, consult factory.

PROBLE : Sensor remains in “DET” mode even when

material is absent.

CAUSE/SOLUTION:

1) Verify the active probe is not in direct contact with any

internal vessel structure. If so, reposition sensor.

2) Verify sensitivity setting. Move sensitivity selection to a

higher numbered setting, therefore making the probe

less sensitive to “easy to sense” materials. Sensitivity

#4 is appropriate for highly conductive materials (i.e.

water based products).

3) Examine build-up on probe surface. Clean probe if

necessary.

4) Only as last resort, recalibrate sensor. If improper

operation persists, consult factory.

PROBLE : Output contact perform opposite of

designations (N/O, N/C).

CAUSE/SOLUTION:

1) Designations on PC relate to relay status when in

“Fail-safe Low” mode and when no material is sensed.

If “Fail-safe High” mode is used, the designations are

reversed. Swap the wire terminations of N/O and N/C if

necessary.

PROBLE : Sensor does not respond to any switch

activation.

CAUSE/SOLUTION:

1) Press and release reset switch located on the right side

of the control panel. The switch can be accessed

through a small hole in the label and will re-boot inter-

nal software. Wait approximately 2 seconds for soft-

ware to reset. If improper operation persists, consult

factory.

M EC H AN IC A L S

M AI N E N A NC E

Fuse Replacement:

The fuse incorporated into the MK-2 PC is not intended for

operator replacement. If necessary, consult the factory for

additional technical assistance or for return of the MK-2.

Preventive aintenance:

The MK-2 design is virtually maintenance free. In typical appli-

cations, once the sensor is properly calibrated, it will operate

without any further attention. In abrasive applications, probe

condition should be periodically observed. Although the

probe's construction is made with high quality engineering plas-

tics, heavy abrasion can wear away the probe's insulators. This

can influence the calibration and eventually lead to sensor fail-

ure. The electronics are housed in a weatherproof enclosure.

In addition the PC s are conformal coated with a silicone-

based material to further prevent electrical influence by con-

densation. The sensor electronics should periodically be

observed for any signs of contamination caused by improper

enclosure protection (i.e. insure cover is fully engaged, and that

wire entries are properly sealed.)

Cleaning Requirements:

Environmental and hazardous location protection is highly

dependent on the proper installation of the cover to the hous-

ing. A lubricant is applied to the housing/cover threads to

enhance ability to twist-on twist-off cover. Clean and re-lubri-

cate threads if necessary to insure trouble-free operation. Do

not physically alter threads in anyway otherwise environmental

or hazardous location protection could be compromised.

The driven shield feature of the MK-2 is designed to minimize

the need for cleaning the probe portion of the sensor. In appli-

cations where material build-up is so excessive that electronics

can not adequately compensate, probe cleaning may be nec-

essary. If so, wipe the probe with a clean damp cloth from the

housing to the probe tip.

Standard and Food Grade Probe

Cable Extension Probe

Stub Probe

DI ENSIONS ARE SHOWN IN INCHES WITH ILLI ETER EQUIVALENT IN BRACKETS

Pipe Extension Probe Lagged Housing Version

M EC H AN IC A L S

DI ENSIONS ARE SHOWN IN INCHES WITH ILLI ETER EQUIVALENT IN BRACKETS

6.66.946.96.94

176.117176176.3176.3

4.44.424.44.42

112.111112112.3112.3

STD UNLESS SPECIFIED

XX" [XXmm]

.31 x .50 SLOT..3.31.31.31 x.31 x.31 x ..31 x .5.31 x .50.31 x .50.31 x .50 S.31 x .50 SL.31 x .50 SLO.31 x .50 SLOT

[7.9 x 12.7]

.31 x .50 SLOT

[

.31 x .50 SLOT

[7.

.31 x .50 SLOT

[7.9

.31 x .50 SLOT

[7.9

.31 x .50 SLOT

[7.9 x

.31 x .50 SLOT

[7.9 x

.31 x .50 SLOT

[7.9 x 1

.31 x .50 SLOT

[7.9 x 12

.31 x .50 SLOT

[7.9 x 12.

.31 x .50 SLOT

[7.9 x 12.7

.31 x .50 SLOT

[7.9 x 12.7]

175.117175175.5175.5

6.66.916.96.91

31.33131.731.7

1.11.251.21.25

4.44.004.04.00

101.110101101.6101.6

6.66.506.56.50

165.116165165.0165.0

6.66.506.56.50

165.116165165.0165.0

Remote Electronics (Ordinary Location) Remote Electronics (Hazardous Location)

WAR R A N Y

SP ECI FIC A I ONS

BULLETIN

434

Monitor Technologies LLC

44W320 Keslinger Rd. t Elburn, IL 60119 t630-365-9403 t800-766-6486 tFax: 630-365-5646 twww.monitortech.com

S A FE Y

General Safety

CAUTION: It is essential that all instructions in this manual be followed to

ensure proper operation of the equipment and safety of operating person-

nel. Use of equipment not specified herein, may impair protection provid-

ed by equipment. The use of this symbol is used throughout manual to

highlight important safety issues. Please pay particular attention to these

items.

Electrical Shock Caution

Certain MK-2 models are powered with HIGH VOLTAGE. No operator

serviceable parts are inside. All servicing is to be performed by qualified

personnel. Each MK-2 is provided with a "protective conductor terminal"

which shall be terminated to earth ground potential (See Electrical

Installation). This product's design complies with EN61010-1 installation

category II and pollution degree 2.

Hazardous Location Caution

Certain MK-2 models can be used in Hazardous Locations (See

Specifications). These models shall only be used in applications covered

by stated ratings or those considered non-hazardous. Failure to comply

could result in damage to personnel and property. The following must be

maintained to assume safe operation:

1) Enclosure integrity - The dimensions of the housing, cover or probe

shall not be altered.

2) Electrical integrity - Substitution of electrical components may impair

intrinsic safety and therefore is prohibited.

3) Maintenance - Power to all circuits must be disconnected before con-

ducting any investigation or maintenance.

Electromagnetic Compatibility (E C)

The MK-2 was tested and found to comply with the standards listed below.

The MK-2 should not be used in residential or commercial environments.

Compliance to EMC standards was demonstrated by means of a test

setup using the following installation methods.

1) MK-2 enclosure was connected to earth ground (protective earth).

2) No specific wiring convention was used to supply power or

to retrieve output signal from the MK-2.

EMC Emissions:

Meets EN 61326-1 Electrical Equipment for Control Use, EMC

EN 55011 Radiated and conducted emissions

(Class A- industrial)

EN 61000-3 Fluctuations/Flicker

Meets FCC Part 15 : RF Devices, Unintentional Radiators

CISPR 11 Radiated and conducted emissions

(Class A- industrial)

EMC Immunity:

Meets EN 61326-1 Electrical Equipment for Control Use,

EMC

IEC 1000-4-2 Electrostatic discharge (industrial)

IEC 1000-4-3 RF radiated EM fields (industrial)

IEC 1000-4-4 Electrical fast transients (industrial)

IEC 1000-4-5 Electrical surges (industrial)

IEC 1000-4-6 RF conducted EM energy (industrial)

IEC 1000-4-8 Power frequency magnetic fields

(industrial)

IEC 1000-4-11 Source voltage deviation

Ryton®- Trademark of Phillips Chemical Co. Teflon®- Trademark of DuPont Chemical Co.

Power: 48-240 VAC ±10%, 50/60Hz; 24-48VDC ±10%, 3W

Altitude: 6562 ft (2000 m) max

Installation Category: II

Pollution Degree: 4 (reduced to 2 by enclosure) Suitable for indoor/outdoor use

Ambient Op Temp: -40˚ F (-40˚ C) to +150˚ F (+65˚ C)

*Internal Bin Temp: To +176˚ F (+80˚ C) w/alum. mount (<104˚ F (40˚ C) ambient)

To +400˚ F (+204˚ C) w/SS mount (<122˚ F (50˚ C) ambient)

Output Relay: DPDT, 5A @ 250VAC, 30VDC maximum

Indicators: “DET” yellow LED illuminates when material is sensed

“OPR” red LED illuminates to indicate output switching

“CAL” green LED illuminates to indicate proper calibration

“SEN” bank of four LEDs indicate the sensitivity setting

External Indicators: Red and green LEDs indicating power and operating mode

(Ordinary location units only)

Sensitivity: Switch selectable 0.5pf, 2.6pf, 8.3pf, 18.0pf

Stability:

±0.01pf per degree F (±0.018pf per degree C) @ 0.5pf setting

Time Delay: 0.25 to 15 sec single-turn adj. for delay to activate & delay to de-activate

Fail-Safe: Switch selectable - HI/LO

Build-up Immunity: Protected via driven shield to 150 ohm load

Enclosure: Cast alum screw-on cover, polyester pwdr coat,

NEMA 4 / ENCLOSURE TYPE 4

Conduit Connection: Two (2) 3/4” NPT connections (M20 cable glands provided when

1-1/2” SPT process connection is specified)

**Approvals: CSAUS CSACOrdinary Locations, CE Mark(Ordinary location only)

CSAUSCSAC: Class I Groups C,D, Exp. Proof & Intrinsically Safe

CSAUS CSAC: Class II Groups E, F & G, Dust Ignition Proof & Intrinsically Safe

CHINA RoHS 2

Standard/Food Grade Probe

Mounting: 1-1/4” NPT alum, R 1-1/2 ( SPT 1-1/2), or combo 3/4” NPT 316SS and

1-1/4” NPT alum

Probe Material: 3/8in(9.5mm) dia. 316SS probe & guard, Ryton®or equiv. & Nylon insulators

Probe Length: 16in(406mm) from alum mounting

Temp (Probe Only): Ryton® or equiv.: +450˚ F (+232˚ C) max; Nylon: +300˚ F (+148˚ C) max

Pressure: 50 psi(3.5 bar) max (alum connection);150 psi(10 bar) max (3/4” NPT SS)

Stub Probe

Mounting: 1-1/4” NPT alum, R 1-1/2 ( SPT 1-1/2), or combo 3/4” NPT 316SS and

1-1/4” NPT alum

Probe Material: 3/8in(9.5mm) dia. 316SS probe & guard, Ryton®or equiv. & Nylon insulators

Probe Length: 9in (229mm) from aluminum mounting

Temp (Probe Only): Ryton®or equiv.: +450˚ F (+232˚ C) max; Nylon: +300˚ F (+148˚ C) max

Pressure: 50 psi(3.5 bar) max (aluminum); 150 psi(10 bar) max (3/4 NPT SS)

Cable Extension Probe

Mounting: 1-1/4” NPT alum, R 1-1/2 ( SPT 1-1/2), or combo 3/4” NPT 316SS and

1-1/4” NPT alum

Probe Material: 1/8in(3.2mm) diameter 316 SS Teflon®jkt’d cable, Nylon insulator

Cable Length; Customer specified from 17” (432 mm) up to 50 ft (15 m)

overall insertion from alum mtg

Temp (Probe Only): +300˚ F (+148˚ C) max

Pressure: 50 psi(3.5 bar) max (1-1/4 NPT alum); 150 psi(10 bar) max (3/4 NPT SS)

Pipe Extension Probe

Mounting: 1-1/4” NPT alum

Lag Material: Galvanized or 316SS

Pipe Ext Length: Customer specified from 22” (559 mm) up to 144in (3.6m) overall insertion

Interface To: Standard or Food Grade (See applicable specs)

Lagged Housing Version

Mounting: 3/4” NPT 316SS

Lag Material: Galvanized or 316SS

Lag Length: Customer specified from 7 to 24 in (178 to 610 mm)

Interface To: Standard Probe only (See applicable specs)

Split Architecture

Elec. Enclosure: Cast Aluminum, screw-on cover, polyester powder coat (HL)

Fiberglass enclosure (OL)

Cable: 12 ft (3.6m), 22 awg co-ax / 18 awg wire

Max in Temp: Ryton®or equiv. probe: 450˚ F (+232˚ C); Nylon: 300˚ F (+148˚ C)

*Influenced by mounting, material thermal conductivity and ambient temperature.

**Hazardous location approvals on units with Pipe Extension or Lagged Probes with integral elec-

tronics/probe are CSAUS/C Class II Groups E, F & G (SS version ONLY. Hazardous location

approvals are not available on the galvanized version). Hazardous location approvals for Split

Architecture remote electronics are Class II, Groups E, F & G. All probe versions, except the gal-

vanized version of the pipe extension or lagged probe unit, are Class I Groups C &D, Class II

Groups E, F & G and Intrinsically Safe.

Monitor Technologies LLC warrants each TrueCap®RF capacitance sensor it manufactures

to be free from defects in material and workmanship under normal use and service for two

(2) years from the date of purchase. The purchaser must notify Monitor of any defects within

the warranty period, return the product intact, and prepay transportation charges. The oblig-

ation 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.

JCS JSC OCT 26 2018 DOC-001-434A 16

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