NOVUS AUTOMATION

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N1500FT Indicator

FLOW RATE INDICATOR – INSTRUCTIONS MANUAL – V1.2x

SAFETY ALERTS

The symbols below are used on the equipment and throughout this

document to draw the user’s attention to important operational and

safety information.

CAUTION:

Read this manual carefully prior to

installation and operation of the

unit.

CAUTION OR DANGER:

Electric shock hazard

All safety related instructions that appear in the manual must be

observed to ensure personal safety and to prevent damage to either

the instrument or the system. If the device is used in a manner not

specified in this manual, its safety features may be impaired.

INTRODUCTION

This flow rate indicator provides indication, totalization,

retransmission, alarm and RS485 communication features (optional

RTU Modbus slave). It reads most flow signals available in the

market, such as pulse, magnetic pickup and 4-20 mA. The pulse

input allows connecting sensors with outputs such as reed-switch,

NPN, PNP and tension. Both for pulse input and 4-20 mA input, unit

is selectable and a scale factor is set to turn the input signal into the

unit of choice. It provides an isolated pulse output for totalized flow

retransmission and a 4-20 mA output for immediate flow

retransmission. Alarms are set off through 2 to 4 relays, depending

on the equipment model.
AC models provide a 24 Vdc / 50 mA output.

INPUTS

The flow rate indicator allows for two basic input types:
• Instantaneous flow input through a 4-20 mA signal. In this case,

flow totalization is obtained by integrating instantaneous flow rate.

• Totalized flow input through a pulse signal. In this case,

instantaneous flow rate is obtained by deriving totalized flow rate.

Pulse signals may come from sensors/transmitters with NPN, PNP, dry

contact (reed switch) and tension signal output, or even magnetic

pickup outputs.
When the input is set to 4-20 mA, you should establish on screens
InLL

and InKL which flow values are equivalent to 4-20 mA.

When the 4-20 mA input is not used as flow input, it may be used

alternatively as auxiliary input. This way it is possible to measure the

pressure of a pipeline, for instance.
The pulse flow input may be scaled, both for instantaneous and

totalized flow rates (independently), through ‘K’ multiplication factors:
k.1nst and k.tot.

Both flow time base and unit must be defined on screen Un1t 1.

To do so, there are six characters, the first five of which are used to

set the unit and the last one (to the right) is used to set the time base

on which the flow rate is measured. Available time bases are ‘s’

(seconds), ‘m’ (minutes), ‘h’ (hours) and ‘d’ (days).

With pulse flow input, totalization will continue even if the input rate is

below the minimum rate required. Instantaneous flow rate indication

will be zero whenever there is a time lapse of 10 seconds without

input variation. In this case, whenever there is a totalization increase

(more input pulses), the instantaneous flow value will be shown for

the nest 10 seconds.

“K” FACTORS
The instantaneous K factor (k.1nst) and the total K factor (k.tot)

allow the user to view the instantaneous and totalized flow in different

units.
The instantaneous K factor will be available only in case the selected

flow input type is different from 4-20 mA. When the input type is 4-20

mA, the configured range limits already provide the parameters for

the indication.
Instantaneous flow is directly related to the time base set in

parameter Un1t1.
In case user erroneously configures parameters k.1nSt and k.tot

with value “0” (zero), this will be assigned value “0.00001”.
Example 1:
Chosen meter gives us an information of (pulses per volume) 50

pulses per liter. User wants to view the instantaneous flow in liters (l)

and the totalized flow in cubic meters (m³).
In order to do that, parameter k.1nst should be set a value of “50”,

so indicating the instantaneous flow in liters. Parameter k.tot should

be set a value of “50000”, so indicating the totalized flow in m³.
Instantaneous flow will be viewed based on the selected time base in
Un1t1. In case the example meter output is 50 pulses per second,

which means 1 liter/second, and the selected time base is m

(minute), the instantaneous flow indication will be 60 (liters/minute).
Example 2:
Chosen sensor gives us an information in 4-20 mA that corresponds

to a flow between 0 and 100 liters per minute. User wants to view the

totalized flow in cubic meters (m³).
On this case, parameter 1N.TYPE

sholud be selected as 4-20 mA

and parameters InLL and InKL should be configured as “0” and

“100”. This way, we pass to the equipment the information that 4 mA

relates to 0 liters per minute and 20 mA relates to 100 liters per

minute. In case sensor output is 12 mA, flow will be displayed as 50

liters/minute.
Parameter k.tot

should have a value of 0.001 (1 liter = 0.001 m³).

This way, the totalized flow will be converted and displayed in m³

(cubic meters).
When the instantaneous flow type is selected as 4-20 mA, the time

base selected in Un1t1 have no influence over the indicated values,

having just unit display purposes. The indication conversion from

“liters per minute” to “liters per hour” should be adjusted directly on

input limits InLL and InKL.
In case user wanted instantaneous flow indicated in cubic meters per

hour (m³/h) with the same meter, the values “0” and “6” should have

been selected in input limits InLL and InKL, where the second

value means 100 l/min converted to m³/h. k.tot

parameter should

be changed to “1” because input is already in m³.