Lbd - loop break detection alarm, Hbd - heater break detection, Safe output value with sensor failure – NOVUS Controller N1200 User Manual

Controller N1200

NOVUS AUTOMATION

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LBD - LOOP BREAK DETECTION ALARM
The parameter defines a time interval, in minutes, within which the

PV is expect to react to a control output signal. If the PV does not

react properly within the time interval configured in lbd.t, the

controller interprets this as a control loop break and signals this

occurrence in the display.
A LBD event may be sent to any I/O channel. Simply configure the
LDB function to the desired I/O channel: the selected output will be

activated when a LDB condition is detected. When the lbd.t

parameter is programmed with 0 (zero), the LDB function is disabled.
The LDB is useful in system supervision and troubleshooting, allowing

early detection of problems in the actuator, power source or load.
HBD - HEATER BREAK DETECTION
Available in the products identified with the suffix HBD. Visit our web

site for further information

www.novusautomation.com

.

SAFE OUTPUT VALUE WITH SENSOR FAILURE
This function defines an output value (user defined) to be assigned to

the control output in the event of a sensor failure.
When the input sensor is identified as broken, the controller forcing

MV to assume the user configured value in the 1E.ov parameter.
When the parameter 1E.ov is configured with 0.0 (zero) value, this

function is disabled and the control output is simply turned off upon

input sensor error.
USB INTERFACE
The USB interface is used for CONFIGURING or MONITORING the

controller. The NConfig software must be used for the configuration.

It makes it possible to create, view, save and open configurations

from the equipment or files in your computer. The tool for saving and

opening configurations in files makes it possible to transfer

configurations between pieces of equipment and to make backup

copies. For specific models, the NConfig software also makes it

possible to update the firmware (internal software) of the controller

through the USB.
For MONITORING purposes you can use any supervisory software

(SCADA) or laboratory software that supports the MODBUS RTU

communication on a serial communications port. When connected to

the USB of a computer, the controller is recognized as a conventional

serial port (COM x). Use the NConfig software or consult the

DEVICE MANAGER in the Windows CONTROL PANEL to identify

the COM port that was assigned to the controller. Consult the

mapping of the MODBUS memory in the controller’s communications

manual and the documentation of your supervisory software to

conduct the MONITORING process.
Follow the procedure below to use the USB communication of the

equipment:
• Download the NConfig software from our website and install it on

your computer. The USB drivers necessary for operating the

communication will be installed together with the software.

• Connect the USB cable between the equipment and the

computer. The controller does not have to be connected to a

power supply. The USB will provide enough power to operate the

communication (other equipment functions cannot operate).

• Open the NConfig software, configure the communication and

start recognition of the device.

• Consult the NConfig help desk for detailed instructions about

how to use it and solve problems.

The USB interface IS NOT SEPARATE from the

signal input (PV) or the controller’s/indicator’s digital

inputs and outputs. It is intended for temporary use

during CONFIGURATION and MONITORING

periods. For the safety of people and equipment, it

must only be used when the piece of equipment is

completely disconnected from the input/output

signals. Using the USB in any other type of

connection is possible but requires a careful analysis

by the person responsible for installing it. When

MONITORING for long periods of time and with

connected inputs and outputs, we recommend using

the RS485 interface, which is available or optional in

most of our products.

INSTALLATION / CONNECTIONS

The controller must be fastened on a panel, following the sequence

of steps described below:
• Prepare a panel cut-out of 45.5 x 45.5 mm;
• Remove the mounting clamps from the controller;
• Insert the controller into the panel cut-out;
• Slide the mounting clamp from the rear to a firm grip at the

panel.

RECOMMENDATIONS FOR THE INSTALLATION
• All electrical connections are made to the screw terminals at the

rear of the controller. They accept wire sizes from 0.5 to 1.5 mm

2

(16 to 22 AWG). The terminals should be tightened to a torque

of 0.4 Nm (3.5 lb in)

• To minimize the pick-up of electrical noise, the low voltage DC

connections and the sensor input wiring should be routed away

from high-current power conductors. If this is impractical, use

shielded cables. In general, keep cable lengths to a minimum.

• All electronic instruments must be powered by a clean mains

supply, proper for instrumentation.

• It is strongly recommended to apply RC'S FILTERS (noise

suppressor) to contactor coils, solenoids, etc.

• In any application it is essential to consider what can happen when

any part of the system fails. The controller features by themselves

can not assure total protection.

ELECTRICAL CONNECTIONS
The controller's internal circuits can be removed without undoing the

connections on the back panel.
The controller complete set of features is drawn in Figure 1. The

features loaded in a particular unit are shown on its label

Figure 1 - Connections of the back panel