Auto tune, Calibration, Input calibration – NOVUS Controller N2000 User Manual

Controller N2000

NOVUS AUTOMATION

10/11

AUTO TUNE

During auto tune the process is controlled in ON/OFF mode at the

programmed SetPoint (SV). Depending on the process

characteristics large oscillations above and below SV may occur and

auto tuning may take several minutes to be concluded.
The recommended procedure is as follows:
• Disable the control output at the rvn prompt by selecting NO.
• Select auto mode operation at the Avto prompt by selecting YES.
• Disable the ramp and soak function (select NO) and program a new

SV value other than the present PV (close to the desired set point).

• Enable auto tuning at the Atvn prompt by selecting YES.
• Enable the control output at the rvn prompt by selecting YES.
• The “TUNE” indicator on the display stays lit until the completion

of the automatic tuning process.

• For control output types relay or pulse, the automatic tuning

calculates the longest suitable period (cycle time (t) for the

PWM output. The cycle time period may be reduced if the

process experiences some oscillation. When driving a SSR, it’s

recommended to set (t = 1 s.

• If the automatic tuning does not result in a satisfactory control,

refer to Table 6 for guidelines on how to correct the behavior of

the process.

PARAMETER

RESPONSE

SOLUTION

Proportional Band

Slow Response

Decrease

Large Oscillation

Increase

Integral Rate

Slow Response

Incre ase

Large Oscillation

Decrease

Derivative Time

Slow Response or Instability

Decrease

Large Oscillation

Increase

Table 6 - Suggestions for manual tuning of PID parameters

CALIBRATION

INPUT CALIBRATION
All inputs are factory calibrated and recalibration should only be done

by qualified personnel. If you are not familiar with these procedures

do not attempt to calibrate this instrument. The calibration steps are:
a) Select the input type to be calibrated.
b) Set the desired upper and lower display limits.
c) At the input terminals inject an electrical signal corresponding to

a known indication value a little higher than the lower display

limit.

d) Select the inL( prompt. Through the and

keys adjust

PV so that it matches the injected signal.

e) Inject a signal that corresponds to a value a little lower than the

upper limit of the display.

f) Select the ink( prompt. Through the and

keys adjust

PV so that it matches the injected signal.

g) Repeat steps c) to f) to improve calibration.
Note: When checking the controller calibration with a Pt100

simulator, pay attention to the simulator minimum excitation current

requirement, which may not be compatible with the 0.170 mA

excitation current provided by the controller.

ANALOG OUTPUT CALIBRATION
1) Select type 11 or 12 at the I/O5 prompt.
2) Connect a current meter at the analog output.
3) Disable the auto-tune and soft-start functions.
4) Set the output low limit ovLL to 0.0 % and the output high limit

ovkL

to 100.0 %.

5) Select the manual mode at the avto prompt.
6) Enable the output at the rvn prompt.
7) At the operation cycle, set the MV to 0.0 %.
8) At the output low calibration ovLC prompt, press the

and

key until the mA meter reads zero mA. Approach this value from

above.

9) Set 100.0 % for the manipulated variable (MV).
10) At the output high calibration ovkC prompt, press the

and

key until the mA meter reads 20 mA. Approach this value

from below.

11) Repeat steps 7) to 10) as necessary.

PROBLEMS WITH THE CONTROLLER
Connection errors and inadequate programming are the most

common errors found during the controller operation. A final review

may avoid loss of time and damages.
The controller displays some messages to help the user identify

problems.

MESSAGE

PROBLEM

----

Open input. Without sensor or signal.

Err1

Err6

Configuration or connection problem in the Pt100

cable

Other error messages displayed by the controller can account for errors

in the input connections or type of selected input non compliant with the

sensor or signal applied to the input. If errors persist, even after a

review, contact the manufacturer. Inform also the device serial number.

To find out the serial number, press

for more than 3 seconds.

The controller also has a visual alarm (the display flashes) when the

PV value is out of the range set by spxl and spll.

SERIAL COMMUNICATION

The controller can be supplied with an asynchronous RS-485 digital

communication interface for master-slave connection to a host

computer (master).
The controller works as a slave only and all commands are started by

the computer which sends a request to the slave address. The

addressed unit sends back the requested reply.
Broadcast commands (addressed to all controller units in a multidrop

network) are accepted but no reply is sent back in this case.

CHARACTERISTICS
• Signals compatible with RS-485 standard. MODBUS (RTU)

Protocol. Two wire connection between 1 master and up to 31

(addressing up to 247 possible) instruments in bus topology. The

communication signals are electrically insulated from the rest of

the device;

• Maximum connection distance: 1000 meters.
• Time of disconnection for the controller: Maximum 2 ms after last

byte.

• Te communication signals are electrically isolated from the rest of

the instrument, and can be 1200, 2400, 4800, 9600 and 19200

bps.

• Number of data bits: 8, without parity or pair parity. Number of

stop bits: 1

• Time to start response transmission: up to 100 ms after

acknowledging the command.