Soft-start, Control mode, Pid automatic mode – NOVUS Controller N120 User Manual

NOVUS AUTOMATION

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• lo – Alarm of Absolute Minimum Value
It is activated when the measured value is below the value defined in

the alarm Setpoint.
• ki – Alarm of Absolute Maximum Value
It is activated when the measured value is above the value defined in

the alarm Setpoint.
• dif – Alarm of Differential Value
In this function, the parameters “SPA1”, “SPA2”,”SPA3” and “SPA4”

represent the PV deviation as compared to the main SP.
Using the Alarm 1 as example: for Positive SPA1 values, the

differential alarm will be triggered when the PV value is out of the

range defined in:

(SP –SPA1) to (SP + SPA1)

For a negative SPA1 value, the differential alarm will be triggered

when the PV value is within the range defined above
• difl – Alarm of Minimum Differential Value
It is activated when the PV value is below the value defined in:

(SP –SPA1)

Using the Alarm 1 as example.
• difk – Alarm of Maximum Differential Value
It is activated when the PV value is above the value defined in:

(SP + SPA1)

Using the Alarm 1 as example.

The alarm functions are described in Table 5.

SCREEN

TYPE

ACTUATION

Off

Inoperative

Output is not used as alarm.

Ierr

Open sensor

(input Error)

Activated when the input signal of PV is

interrupted, out of the range limits or

Pt100 in short-circuit.

Rs

Event (ramp and

Soak)

Activated in a specific segment of

program.

Lo

Minimum value

(Low)

SPAn

PV

Ki

Maximum value

(High)

SPAn

PV

Dif

Differential

(diFerential)

SV

PV

SV + SPAn

SV - SPAn

SV

PV

SV - SPAn

SV + SPAn

Positive SPAn

Negative SPAn

Difl

Minimum

Differential

(diFerential Low)

Positive SPAn Negative SPAn

SV

PV

SV - SPAn

SV

PV

SV - SPAn

Difk

Maximum

differential

(diFerential High)

SV

PV

SV + SPAn

SV

PV

SV + SPAn

Positive SPAn

Negative SPAn

Table 5 – Alarm Functions

Where SPAn refers to Setpoints of Alarm “SPA1”, “SPA2”, “SPA3”

and “SPA4”.

ALARM TIMER MODES
The controller alarms can be configured to perform 3 timer modes:
• One pulse with defined duration;
• Delayed activation;
• Repetitive pulses;
The illustrations in Table 6 show the behavior of the alarm output for

various combinations of times t1 and t2. The timer functions can be

configured in parameters A1t1, A1t2, A2t1, A2t2, A3t1, A3t2,
A4t1

and A4t2.

OPERATION

T 1

T 2

ACTION

Normal

Operation

0

0

Alarm Event

Alarm

Output

Activation for a

defined time

1

to

6500 s

0

Alarm Event

Alarm

Output

T1

Activation with

delay

0

1

to

6500 s

Alarm Event

Alarm

Output

T2

Intermittent

Activation

1

to

6500 s

1

to

6500 s

Alarm Event

Alarm

Output

T1

T2

T1

Table 6 – Temporization Functions for the Alarms

The signs associated to the alarms will light when the alarm condition

is recognized, not following the actual state of the output, which may

be temporarily OFF because of the temporization.

INITIAL BLOCKING OF ALARM
The initial blocking option inhibits the alarm from being recognized if

an alarm condition is present when the controller is first energized (or

after a transition from run YES NO). The alarm will be enabled only

after the occurrence of a non alarm condition followed by a new

occurrence for the alarm.
The initial blocking is useful, for instance, when one of the alarms is

configured as a minimum value alarm, causing the activation of the

alarm soon upon the process start-up, an occurrence that may be

undesirable.
The initial blocking is disabled for the sensor break alarm function.

SOFT-START
The soft-start feature avoids abrupt variations in the power delivered

to the load regardless of the system power demand. .
This is accomplished by defining a limiting ramp for the control

output. The output is allowed to reach maximum value (100 %) only

after the time programmed in the soft-start parameter has elapsed.

The Soft-start function is generally used in processes that require

slow start-up, where the instantaneous application of 100% of the

available power to the load may cause damages to parts of the

system.
In order to disable this function, the soft-start parameter must be

configured with 0 (zero). Soft Start is available only for Control Output 1.

CONTROL MODE
The controller can operate in two different manners: Automatic mode

or Manual mode. In automatic mode the controller defines the amount

of power to be applied on the process, based on defined parameters

(SP, PID, etc.).
In the manual mode the user himself defines this amount of power.

The parameter “

(trl

” defines the control mode to be adopted.

PID AUTOMATIC MODE
For the Automatic mode, there are two different strategies of control:

PID control and ON/OFF control 1.
PID control has its action based on a control algorithm that takes into

account the deviation of PV with respect to SP, the rate of change of

PV and the steady state error.
On the other hand, the ON/OFF control (obtained when Pb=0)

operates with 0% or 100% of power, when PV deviates from SP.
The determination of the PID parameters (Pb, Ir and Dt) is described

in the item DETERMINATION OF PID PARAMETERS of this manual.

CONTROL 2
The N120 offers a second independent control output (Control Output

2). This output, with only proportional action is generally used in

cooling processes when using the heating action the control output 1.