Options conductivity, Outputs, C6 c5 – Versa-Matic Versa-Sense II Electronic Leak Detector User Manual

vs2sm-rev0513

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Versa-Sense II

Options

Conductivity

LOAD

LOAD

PICTOGRAM

FOR FUSE FU1

POWER PROTECTION

DRY CONTACT

ALARM OUTPUTS

TO PROBE

PICKUP

BOARD

AC OR DC

220V/5A

MAX

OUTPUTS

C6

C5

1

2

TS2

C7

1

TS1

FU1

.5A

250V

P1

CR1

CR2

FU2

1A

250V

FU3

1A

250V

POWER

RTN

OPTIONAL

EXTERNAL

OUTPUT

JUNCTION FOR

SOLENOID

VALVES OR

SIGNALS

LINE

VOLTAGE

SELECT

INSERT SCREW DRIVER

IN SLOT AND SLIDE TO

CHANGE VOLTAGE

CAUTION: REMOVE

POWER FIRST

115/230VAC

50/60 Hz

L1 L2 G

115V

100-120VAC

(HOT)

100-120VAC

(HOT)

AC Neutral

Load will be energized

when LED 1 is illmunated

This load is fused by FU2

AC Neutral

Load will be energized

when LED 2 is illmunated

This load is fused by FU3

OUTPUTS

C6

C5

1

2

TS2

LOAD

LOAD

Versa-Matic

®

VERSA-SENSE II OM

Options

Conductivity

The control unit can be easily wired to an audible
alarm or pump shutdown device. For example you
can connect the leak detector unit to a solenoid,
which can shut the air supply off to the pump, or
sound an alarm by routing the external device into
the leak detector unit. The wires can enter through
one of the three port holes in the leak detection unit.
The output connection terminal has 100 watt power
output and each chamber has independent connec-
tions. If combining the two chambers, a four wire
lead spliced before the external device would be
necessary (See output connection terminal Figure B.)

The leak detector probes work under the principle
of conductance. Not all pumped liquid is conduc-
tive. If the diaphragm fails, the pumped product will
conduct (complete the circuit) and signal the box
and the warning light will come on.

Sensitivity of the detector can be adjusted by the
adjusting knobs R5 and R6. (See Figure C.) These
adjustment knobs work independently for each side
(chamber). They can be moved with a small screw
driver. These sensitivity knobs are also important in
setting to detect conductance fluid at the sensitivi-
ty most required. The sensitivity range of the detec-
tor is adjustable from OHM (2,000 Micro MHO) to
100,000 OHM (10 Micro MHO).

When sensing low conductivity, turning the screws
clockwise increases probe sensitivity.

UP

DOWN

UP

DOWN

ALMLO
ALMHI

ALMLO
ALMHI

SW1

TS1

R5

INC-

SENS

CW

INC-

SENS

CW

R6

SW2

2

H

C

1

H

C

C3

Conductive/Non-Conductive Switch Information

Note: Pumps containing driver fluid should be filled with

conductive or non-conductive fluid, depending on the fluid

pumped. The driver fluid should be opposite of the pumped

product in order to determine diaphragm failure and light

warning LED signal(s). This is adjusted inside the box in

the following manner:

SW1 DOWN (LED 1) = LED on w/presence of

conductive fluid and off w/absence of conductive fluid.
SW1 UP (LED 1) =LED on w/absence of conductive

fluid and off w/absence of conductive fluid.

— OR —

SW2 DOWN (LED 2) = LED on w/presence of

conductive fluid and off w/absence of conductive fluid.
SW2 UP (LED 2) = LED on w/absence of conductive

fluid and off w/absence of conductive fluid.

When sensing low conductivity, turning the

screws clockwise increases probe sensitivity.

WIRING ILLUSTRATION

Figure B

WIRING ILLUSTRATION

Figure C

The control unit can be easily wired to an audible alarm

or pump shutdown device. For example, you can connect

the leak detector unit to a solenoid, which can shut the

air supply off to the pump, or sound an alarm by routing

the external device into the leak detector unit. The wires

can enter through one of the three port holes in the leak

detector unit. The output connection terminal has 100 watt

power out put and each chamber has independent con-

nections. If combining the two chambers, a four wire lead

spliced before the external device would be necessary.

(See output connection terminal Figure B.)

The leak detector probes work under the principle of conduc-

tance. Not all pumped liquid is conductive. If the diaphragm

fails, the pumped product will conduct (complete the circuit)

and signal the box and the warning light will come on.

Sensitivity of the detector can be adjusted by the adjusting

knobs R5 and R6. (See Figure C) These adjustment knobs

work independently for each side (chamber). The can be

moved with a small screw driver. These sensitivity knobs are

also important in setting to detect conductance fluid at the

sensitivity most required. The sensitivity range of the detector

is adjustable from OHM (2,000 Micro MHO) to 100,000 OHM

(10 Micro MHO).

When sensing low conductivity, turn the screws clockwise

increases probe sensitivity.

Universal*