NOVUS N322RHT Temperature and Humidity Controller User Manual
- June 9, 2024
- Novus
Table of Contents
TEMPERATURE AND HUMIDITY CONTROLLER
N322RHT
OPERATING MANUAL V2.0x
N322RHT Temperature and Humidity Controller
The N322RHT is a digital controller for relative humidity and temperature. Its
2 relay outputs can be configured independently as control or alarm, either
for temperature or relative humidity.
The humidity and temperature sensor, sold separately, is protected by a
polyamide capsule and have 3 or 6 meters long cables.
The features of a particular model (mains supply, digital communication, etc)
are identified by the label placed on the controller body.
SPECIFICATIONS
Sensor Input: Humidity measurement
Range: 0 and 100 % RH;
Accuracy: Refer to Fig. 1;
Repeatability: ± 1 % RH;
Hysteresis: ± 1 % RH;
Linearity error: << 1 % RH;
Stability: < 1 % RH / year;
Response time: Around 8 s to reach 63 % of a fast input change. Valid at 25 °C
and 1 m/s airflow.
Sensor Input: Temperature measurement
Range: -20 and 100 °C;
Accuracy: Refer to Fig. 1;
Repeatability: ±0.1 °C;
Response time: up to 30 seconds in slow moving air.
Warm-up:………………………………………………………………… 15 minutes
Measurement resolution: RH: …………………………………………… 1 %
T: ………………………………………………………. 0.1º from -19.9 to 119.9º
Note: The equipment keeps its precision all over the range, despite the
lack of display resolution in a part of the range does not allow its
visualization.
OUTPUT1: ………………………. Relay SPDT; 1 HP 250 Vac / 1/3 HP 125 Vac (16 A Resistive)
……………………………………………………………………………………. Optional: Pulse, 5 Vdc, 25 mA max.
OUTPUT2: ………………………………………………………………………………. Relay: 3A / 250 Vac, SPST
POWER SUPPLY:
Voltage:…………………………………………………….. 100~240 Vac/dc (± 10 %)
Optional: ………………………………………………… 24 Vdc/ac (12~30 Vdc/ac)
Frequency: ………………………………………………………………………… 50~60 Hz
Consumption: ………………………………………………………………………….. 5 VA
Dimensions:
Width x Height x Depth: ………………………………………… 75 x 33 x 75 mm
Panel cut-out: …………………………………………………………………. 70 x 29 mm
Weight: ……………………………………………………………………………………… 100 g
Electronic module operating environment …………………………… 0 to 40 °C / 20 to 85 % RH
Sensor module operating environment: ……………………………. -20 to 100 °C / 0 to 100 %
RH
Case: Polycarbonate UL94 V-2.
Protection: box IP42, front panel IP65, sensors capsule IP40 (sold
separately).
Suitable wiring: Up to 4.0 mm².
RS-485 digital communication; RTU MODBUS protocol (optional).
Serial interface not isolated from input circuitry.
Input circuitry isolated from power supply, except in the 24 V powered
model.
Fig. 1 – RH and Temperature accuracies
IMPORTANT
The sensor used in this controller may be damaged or lose calibration if
exposed to aggressive atmospheres with high concentrations as Chloride Acid,
Nitride Acid, Sulphuric Acid or Ammonia.
Acetone, Ethanol and Propylene Glycol may cause reversible measurement drifts.
Fine trimming in the indication of RH and Temperature are available at the
parameters and , in the configuration level of parameters.
ELECTRICAL WIRING
The figure below indicates the connection to the sensor, power supply and controller output, as well as a connection example.
Recommendations for installation
- The humidity sensor Conductors shall go through the system plant separately from the control and feeding output conductors, if possible in grounded electrical ducts.
- The controller feeding shall be preferably provided from a proper instrumentation network with a phase different from the one used for the control output.
- It is recommendable to use RC FILTERS (47 R and 100 nF, series) in contactor coils, solenoids, etc.
WORKING WITH THE CONTROLLER
The controller operates on the outputs OUTPUT1 and OUTPUT2 to lead the
measured variable (temperature or humidity) to the intended value, defined by
the setpoint ( and ).
OUTPUT1 and OUTPUT2 can operate either as control outputs, when they operate
directly on the system load (resistance, compressor, humidifier, etc.) or as
alarm outputs that operate notifying the operator about the occurrence of any
specific situation, defined by the user. The operation modes are presented
below and they can be defined on parameters and .
0 – Reverse control action.
Activates the corresponding OUTPUT when the process variable (RH or
temperature) is below the setpoint of that output. Normally used for heating
control.
1 – Direct control action.
Activates the output whenever the process variable is above the setpoint for
that output. The direct action is used for refrigeration control.
2 – Low alarm
Minimum value alarm, indicates that the process value is below the alarm
setpoint defined for the output.
3 – High alarm
Maximum value alarm, indicates that the process is above the alarm setpoint
defined for that output.
4 – Low alarm with initial blocking.
Identical to the Low Alarm, with the addition of the initial blocking feature
explained in note below.
5 – High alarm with initial blocking.
Identical to the High Alarm, with the addition of the initial blocking feature
explained in note below.
6- Inside Range Alarm.
Activates the output when the process variable is within the interval defined
by:
7- Outside Range Alarm.
Activates the output when the process variable is outside the interval defined
by:
8- Inside the range alarm with initial blocking.
Identical to the Inside the Range Alarm with the addition of the initial
blocking feature, describe in note below.
9- Outside the Range Alarm With Initial Blocking.
Identical to the Outside the Range Alarm with the addition of the initial
blocking feature, describe in note below.
Note 1: The action modes 6, 7, 8 and 9 are available to OUTPUT2 only when
(NT is set to 0 or 3.
Note 2: The Initial Blocking causes the controller to disregard alarm
situations at the beginning of the process when the controller is turned on
and starts the control operation.
The Initial Blocking impedes (blocks) the alarm from being switched on in the
beginning of the control process. The alarm will only be unblocked after the
passage of the variable measured by a nonalarm condition. This feature is
useful when, for example, a minimum alarm is programmed in a heating process.
Without the blocking, the process would start with an enabled alarm until the
control setpoint is achieved. The output status leds P1 and P2 in the
instrument panel signal the current action being performed.
OPERATION
The controller requires the internal parameters to be configured according to the intended use for the instrument. The parameters are organized in 4 groups or levels:
| Level | Function |
|---|---|
| 0 | Measurement |
| 1 | Setpoint Adjustment |
| 2 | Configuration |
| 3 | Calibration |
Upon power-up, the controller display shows for 1 second its firmware version.
This information is useful when consulting the factory.
Then, the measured input variable is shown on the display. This is the
parameter level 0 (measurement level).
To access level 1, press for 1 second until the “ **” message shows up.
Pressing again, the “ ” parameter is presented. To go back to level 0, press
once more.
To access level 2 of parameters, press for 2 seconds until the “ ” message is
shown. Release the key to remain in this level. Each new pressing on the key
will advance to the next parameter in the level. At the end of the level, the
controller returns to the first level (0).
Use the and keys to alter a parameter value.
Notes:** 1 A parameter configuration is saved when the key is pressed to
advance to the next parameter in the cycle. The configuration is stored in a
non-volatile memory, retaining its value when the instrument is de-energized.
2 If no keyboard activity is detected for over 20 seconds, the controller
saves the current parameter value and returns to the measurement level.
Level 1 – Setpoint Adjustment
In this level only the Setpoint ( ****and ) parameters are available,
alternating the names with their respective values. Adjust the desired value
for each setpoint clicking on the and keys.
Set Point 1| Set Point adjustment for control OUTPUT 1. ****value is limited
to the values programmed in and in the programming level (Parameter
configuration, level 2).
---|---
Set Point 2| Set Point adjustment for control OUTPUT 2. value is limited to the values programmed in and
Level 2 – Configuration – Parameters configuration Level
Contains the configuration parameters to be defined by the user, according to
system requirements. Use and keys to set the desired value. The display
alternates the parameter name and respective value.
RH – Temp| Defines how the variables, relative humidity and temperature, will
be displayed:
0 Relative Humidity
1 Temperature
2 Toggles the indication every 2 seconds.
3 Toggles the indication every 3 seconds.
4 Toggles the indication every 4 seconds.
5 Toggles the indication every 5 seconds.
For options 0 and 1 , a fast click on the key forces the other
variable to be displayed for 10 seconds.
---|---
Unit| Temperature Unit – Selects display indication for degrees Celsius or
Fahrenheit.
0 – Temperature Celsius
1 – Temperature in degrees Fahrenheit
Offset Humidity| RH Offset – Offset value to be added to the displayed
relative humidity to compensate
for sensor mismatches (when replacing a sensor, for instance). Adjustment
range:
between -10.0 and 10.0 % of RH. Default value: 0.0
Offset temperature| Temperature Offset – Offset value to be added to the
measured temperature to
compensate for sensor mismatches. Adjustment range: between -10.0 and 10.0 %
of
RH. Default value: 0.0
SP Low Limit 1| Lower limit value for (minimum value with which can be
configured).
must be programmed with a lower value than .
SP High Limit 1| Upper limit for (maximum allowed value for ). must be
programmed with
a value higher than the one configured in .
SP Low Limit 2| Lower limit value for (minimum value with which can be
configured).
must be programmed with a lower value than .
SP High Limit 2| Upper limit for (maximum allowed value for **). must be
programmed
with a value higher than the one in .
Histeresis 1| OUTPUT 1 Hysteresis: defines the differential range between the
input variable value at which the OUTPUT 1 is turned on and the value at which
it is turned off. In degrees.
Histeresis 2| OUTPUT 2 Hysteresis: defines the differential range between the
input variable value at which the OUTPUT 2 is turned on and the value at which
it is turned off. In degrees.
Action 1| Control action for OUTPUT 1 :**
0 Reverse: For heating or humidification. Outputs turn on when variable is
lower than SP (See parameter below).
1 Direct: For cooling or dehumidification. Output turns on when variable is
above SP.
2 Low (minimum value) alarm.
3 High (maximum value) alarm.
4 Low alarm with initial blocking.
5 High alarm with initial blocking
Action 2| Action 2 – Control OUTPUT 2 action or Alarm functions:
0 Reverse control action (heating or humidification). (See parameter below).
1 Direct control action (cooling or dehumidification).
2 Low (minimum value) alarm.
3 High (maximum value) alarm. 4 Alarm inside the range
5 Alarm outside the range.
6 Low alarm with initial blocking.
7 High alarm with initial blocking.
8 Inside the range alarm with initial blocking.
9 Outside the range alarm with initial blocking.
The section Working with the RHT Controller describes how these functions
work.
Control| Assigns the relay for each variable:
0 OUTPUT 1 = RH; OUTPUT 2 = RH;
1 OUTPUT 1 = RH; OUTPUT 2 = Temperature;
2 OUTPUT 1 = Temperature; OUTPUT 2 = RH;
3 OUTPUT 1 = Temperature; OUTPUT 2 = Temperature;
Off time 1| Off time 1 – Defines the minimum off time for control OUTPUT 1.
Once OUTPUT 1 is turned off, it remains so for at least the time programmed in
. For thermocouple inputs this parameter is not available. This parameter is
intended for refrigeration systems where longer compressor life is desired.
For heating systems, program to zero. Value in seconds, 0 to 999 s.
on time 1| On time 1 – Defines the minimum on time for control OUTPUT 1. Once
turned on, OUTPUT 1 remains so for at least the time programmed in . For
thermocouple inputs this parameter is not available. This parameter is
intended for refrigeration systems where increased compressor life is desired.
For heating systems, program to zero. Value in seconds, 0 to 999 s.
Delay 1| Delay 1 – Delay time to start control. Upon power-on, control OUTPUT 1 is kept off until the time programmed in is elapsed. Its usage is intended to prevent multiple compressors to start simultaneously after the turn-on of a system with several instruments. Value in seconds, 0 to 250 s.
Off time 2| Off time 2 – Defines the minimum off time for control OUTPUT 2.
Once OUTPUT 2 is turned off, it remains so for at least the time programmed in
. For thermocouple inputs this parameter is not available. This parameter is
intended for refrigeration systems where increased compressor life is an
issue. For heating systems, program to zero. Value in seconds, 0 to 999 s.
on time 2| On time 2 – Defines the minimum on time for control OUTPUT 2. Once
turned on, OUTPUT 2 remains so for at least the time programmed in . For
thermocouple inputs this parameter is not available. This parameter is
intended for refrigeration systems where increased compressor life is desired.
Value in seconds, 0 to 999 s. For heating systems, program to zero.
Delay 2| Delay 2 – Delay time for OUTPUT 2 to turn on relative to OUTPUT 1. This parameter defines a particular working mode, typically used in multiple stage systems, where OUTPUT 2 is allowed to go on only if OUTPUT 1 is already on for at least seconds. Also, OUTPUT 2 is driven off whenever OUTPUT 1 goes off. = 0 disables this function. Value in seconds, 0 to 250 s.
Address| Address – The parameter is presented in instruments loaded with the
optional RS485 Modbus RTU communication interface.
Set a unique Modbus address for each equipment connected to the network.
Address range is from 1 to 247.
Level 3 – Calibration level
The controller is factory adjusted and calibrated using traceable standards.
The following parameters should be accessed only by experienced personnel. To
enter this cycle, the key must be kept pressed for 4 seconds.
Don’t press the and keys if you are not sure of the calibration procedures.
Just press the key a few times until the measurement level is reached again.
| Password – Enter the correct password to unlock write operations for the
parameters in the following levels.
---|---
| RH Calibration low. Offset calibration for RH.
| T Calibration low. Offset calibration for Temperature.
| Protection – Defines the levels of parameters that will be password
protected. See “Configuration Protection” for details.
| Password Change – Allows changing the current password to a new one. Values
from 1 to 999 are allowed.
| Serial number – First part of the electronic serial number of the
instrument.
This is a read only parameter.
| Serial number – Second part of the electronic serial number of the
instrument. This is a read only parameter.
| Serial number – Third part of the electronic serial number of the
instrument. This is a read only parameter.
ERROR MESSAGES
Sensor measurement errors force the controller outputs to be turned off. The cause for these errors may have origin in a bad connection, sensor defect (cable or element) or system temperature outside the sensor working range. The display signs related to measurement errors are shown below
| Indicates that: the measurement exceeded the upper level of the sensor
range.
Possible sensor problem.
---|---
| Indicates that: the measurement exceeded the lower level of the sensor
range.
Possible sensor problem.
| Sensor problem. Revise sensor wiring. If problem persists, contact the
factory.
CONFIGURATION PROTECTION
A protection system to avoid unwanted changes to the controller parameters is
implemented. The level of protection can be selected from partial to full. The
following parameters are part of the protection system:
: When this parameter is presented, the correct password should be entered to
allow changes of parameters in the following levels.
: Defines the level of parameters that will be password protected:
1- Only calibration level is protected (factory configuration);
2- Calibration and Configuration levels are protected;
3- All levels are protected – calibration, Configuration and setpoints.
Parameter for definition of a new password. Since it is located in the
calibration level, can only be changed by a user that knows the current
password. Valid passwords are in the range 1 to 999.
Configuration protection usage
The parameter is displayed before entering a protected level. If the correct
password is entered, parameters in all following levels can be changed. If
wrong or no password is entered, parameters in the following levels will be
read only.
Important notes:
1- After five consecutive attempts to enter a wrong password, new tentative
will be blocked for the next 10 minutes. If the current valid password is
unknown, the master password can be used only to define a new password for the
controller.
2- The factory default password is 111.
MASTER PASSWORD
The master password allows user to define a new password for the controller,
even if the current password is unknown. The master password is based in the
serial number of the controller, and calculated as following:
[ 1 ] + [ higher digit of SN2 ] + [ higher digit of SN1 ] + [ higher digit of
SN0 ] for example the master password for the device with serial number
97123465 is: 1 9 3 6
As follows: 1 + = 97; = 123; = 465 = 1 + 9 + 3 + 6
How to use the master password:
- Enter the master password value at PaS prompt.
- Go to PA( parameter and enter the new password, which must not be zero (0).
- Use this new password.
WARRANTY
Warranty conditions are available on our website www.novusautomation.com/warranty.
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